= Liste des variables sorties par une simulation de type historical : v2.historical1 = '''Janvier 1980''' [[PageOutline]] = Variables mensuelles = == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmthCOSP.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmthCOSP { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; height = 40 ; height_mlev = 39 ; sza = 5 ; pressure2 = 7 ; column = 20 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float height(height) ; height:axis = "Z" ; height:standard_name = "model_level_number" ; height:units = "m" ; height:valid_min = 240.f ; height:valid_max = 18960.f ; height:title = "height" ; height:long_name = "height" ; float height_mlev(height_mlev) ; height_mlev:axis = "Z" ; height_mlev:standard_name = "model_level_number" ; height_mlev:units = "m" ; height_mlev:valid_min = 30.54139f ; height_mlev:valid_max = 76491.88f ; height_mlev:title = "height_mlev" ; height_mlev:long_name = "height_mlev" ; float sza(sza) ; sza:axis = "Z" ; sza:standard_name = "model_level_number" ; sza:units = "degrees" ; sza:valid_min = 0.f ; sza:valid_max = 80.f ; sza:title = "sza" ; sza:long_name = "solar_zenith_angle" ; float pressure2(pressure2) ; pressure2:axis = "Z" ; pressure2:standard_name = "model_level_number" ; pressure2:units = "mb" ; pressure2:valid_min = 9000.f ; pressure2:valid_max = 90000.f ; pressure2:title = "pressure2" ; pressure2:long_name = "pressure" ; float column(column) ; column:axis = "Z" ; column:standard_name = "model_level_number" ; column:units = "count" ; column:valid_min = 1.f ; column:valid_max = 20.f ; column:title = "column" ; column:long_name = "column" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float cllcalipso(time_counter, lat, lon) ; cllcalipso:units = "1" ; cllcalipso:standard_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:_FillValue = 9.96921e+36f ; cllcalipso:long_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:online_operation = "ave(X)" ; cllcalipso:interval_operation = 10800.f ; cllcalipso:interval_write = 2678400.f ; cllcalipso:coordinates = "time_counter lat lon" ; float clhcalipso(time_counter, lat, lon) ; clhcalipso:units = "1" ; clhcalipso:standard_name = "Lidar High-level Cloud Fraction" ; clhcalipso:_FillValue = 9.96921e+36f ; clhcalipso:long_name = "Lidar High-level Cloud Fraction" ; clhcalipso:online_operation = "ave(X)" ; clhcalipso:interval_operation = 10800.f ; clhcalipso:interval_write = 2678400.f ; clhcalipso:coordinates = "time_counter lat lon" ; float clmcalipso(time_counter, lat, lon) ; clmcalipso:units = "1" ; clmcalipso:standard_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:_FillValue = 9.96921e+36f ; clmcalipso:long_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:online_operation = "ave(X)" ; clmcalipso:interval_operation = 10800.f ; clmcalipso:interval_write = 2678400.f ; clmcalipso:coordinates = "time_counter lat lon" ; float cltcalipso(time_counter, lat, lon) ; cltcalipso:units = "1" ; cltcalipso:standard_name = "Lidar Total Cloud Fraction" ; cltcalipso:_FillValue = 9.96921e+36f ; cltcalipso:long_name = "Lidar Total Cloud Fraction" ; cltcalipso:online_operation = "ave(X)" ; cltcalipso:interval_operation = 10800.f ; cltcalipso:interval_write = 2678400.f ; cltcalipso:coordinates = "time_counter lat lon" ; float clcalipso(time_counter, height, lat, lon) ; clcalipso:units = "1" ; clcalipso:standard_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:_FillValue = 9.96921e+36f ; clcalipso:long_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:online_operation = "ave(X)" ; clcalipso:interval_operation = 10800.f ; clcalipso:interval_write = 2678400.f ; clcalipso:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c01(time_counter, height, lat, lon) ; cfad_lidarsr532_c01:units = "1" ; cfad_lidarsr532_c01:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c01:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:online_operation = "ave(X)" ; cfad_lidarsr532_c01:interval_operation = 10800.f ; cfad_lidarsr532_c01:interval_write = 2678400.f ; cfad_lidarsr532_c01:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c02(time_counter, height, lat, lon) ; cfad_lidarsr532_c02:units = "1" ; cfad_lidarsr532_c02:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c02:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:online_operation = "ave(X)" ; cfad_lidarsr532_c02:interval_operation = 10800.f ; cfad_lidarsr532_c02:interval_write = 2678400.f ; cfad_lidarsr532_c02:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c03(time_counter, height, lat, lon) ; cfad_lidarsr532_c03:units = "1" ; cfad_lidarsr532_c03:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c03:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:online_operation = "ave(X)" ; cfad_lidarsr532_c03:interval_operation = 10800.f ; cfad_lidarsr532_c03:interval_write = 2678400.f ; cfad_lidarsr532_c03:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c04(time_counter, height, lat, lon) ; cfad_lidarsr532_c04:units = "1" ; cfad_lidarsr532_c04:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c04:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:online_operation = "ave(X)" ; cfad_lidarsr532_c04:interval_operation = 10800.f ; cfad_lidarsr532_c04:interval_write = 2678400.f ; cfad_lidarsr532_c04:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c05(time_counter, height, lat, lon) ; cfad_lidarsr532_c05:units = "1" ; cfad_lidarsr532_c05:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c05:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:online_operation = "ave(X)" ; cfad_lidarsr532_c05:interval_operation = 10800.f ; cfad_lidarsr532_c05:interval_write = 2678400.f ; cfad_lidarsr532_c05:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c06(time_counter, height, lat, lon) ; cfad_lidarsr532_c06:units = "1" ; cfad_lidarsr532_c06:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c06:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:online_operation = "ave(X)" ; cfad_lidarsr532_c06:interval_operation = 10800.f ; cfad_lidarsr532_c06:interval_write = 2678400.f ; cfad_lidarsr532_c06:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c07(time_counter, height, lat, lon) ; cfad_lidarsr532_c07:units = "1" ; cfad_lidarsr532_c07:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c07:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:online_operation = "ave(X)" ; cfad_lidarsr532_c07:interval_operation = 10800.f ; cfad_lidarsr532_c07:interval_write = 2678400.f ; cfad_lidarsr532_c07:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c08(time_counter, height, lat, lon) ; cfad_lidarsr532_c08:units = "1" ; cfad_lidarsr532_c08:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c08:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:online_operation = "ave(X)" ; cfad_lidarsr532_c08:interval_operation = 10800.f ; cfad_lidarsr532_c08:interval_write = 2678400.f ; cfad_lidarsr532_c08:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c09(time_counter, height, lat, lon) ; cfad_lidarsr532_c09:units = "1" ; cfad_lidarsr532_c09:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c09:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:online_operation = "ave(X)" ; cfad_lidarsr532_c09:interval_operation = 10800.f ; cfad_lidarsr532_c09:interval_write = 2678400.f ; cfad_lidarsr532_c09:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c10(time_counter, height, lat, lon) ; cfad_lidarsr532_c10:units = "1" ; cfad_lidarsr532_c10:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c10:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:online_operation = "ave(X)" ; cfad_lidarsr532_c10:interval_operation = 10800.f ; cfad_lidarsr532_c10:interval_write = 2678400.f ; cfad_lidarsr532_c10:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c11(time_counter, height, lat, lon) ; cfad_lidarsr532_c11:units = "1" ; cfad_lidarsr532_c11:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c11:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:online_operation = "ave(X)" ; cfad_lidarsr532_c11:interval_operation = 10800.f ; cfad_lidarsr532_c11:interval_write = 2678400.f ; cfad_lidarsr532_c11:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c12(time_counter, height, lat, lon) ; cfad_lidarsr532_c12:units = "1" ; cfad_lidarsr532_c12:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c12:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:online_operation = "ave(X)" ; cfad_lidarsr532_c12:interval_operation = 10800.f ; cfad_lidarsr532_c12:interval_write = 2678400.f ; cfad_lidarsr532_c12:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c13(time_counter, height, lat, lon) ; cfad_lidarsr532_c13:units = "1" ; cfad_lidarsr532_c13:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c13:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:online_operation = "ave(X)" ; cfad_lidarsr532_c13:interval_operation = 10800.f ; cfad_lidarsr532_c13:interval_write = 2678400.f ; cfad_lidarsr532_c13:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c14(time_counter, height, lat, lon) ; cfad_lidarsr532_c14:units = "1" ; cfad_lidarsr532_c14:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c14:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:online_operation = "ave(X)" ; cfad_lidarsr532_c14:interval_operation = 10800.f ; cfad_lidarsr532_c14:interval_write = 2678400.f ; cfad_lidarsr532_c14:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c15(time_counter, height, lat, lon) ; cfad_lidarsr532_c15:units = "1" ; cfad_lidarsr532_c15:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c15:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:online_operation = "ave(X)" ; cfad_lidarsr532_c15:interval_operation = 10800.f ; cfad_lidarsr532_c15:interval_write = 2678400.f ; cfad_lidarsr532_c15:coordinates = "time_counter height lat lon" ; float parasol_refl(time_counter, sza, lat, lon) ; parasol_refl:units = "1" ; parasol_refl:standard_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:_FillValue = 9.96921e+36f ; parasol_refl:long_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:online_operation = "ave(X)" ; parasol_refl:interval_operation = 10800.f ; parasol_refl:interval_write = 2678400.f ; parasol_refl:coordinates = "time_counter sza lat lon" ; float atb532_c01(time_counter, height_mlev, lat, lon) ; atb532_c01:units = "1" ; atb532_c01:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:_FillValue = 9.96921e+36f ; atb532_c01:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:online_operation = "ave(X)" ; atb532_c01:interval_operation = 10800.f ; atb532_c01:interval_write = 2678400.f ; atb532_c01:coordinates = "time_counter height_mlev lat lon" ; float atb532_c02(time_counter, height_mlev, lat, lon) ; atb532_c02:units = "1" ; atb532_c02:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:_FillValue = 9.96921e+36f ; atb532_c02:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:online_operation = "ave(X)" ; atb532_c02:interval_operation = 10800.f ; atb532_c02:interval_write = 2678400.f ; atb532_c02:coordinates = "time_counter height_mlev lat lon" ; float atb532_c03(time_counter, height_mlev, lat, lon) ; atb532_c03:units = "1" ; atb532_c03:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:_FillValue = 9.96921e+36f ; atb532_c03:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:online_operation = "ave(X)" ; atb532_c03:interval_operation = 10800.f ; atb532_c03:interval_write = 2678400.f ; atb532_c03:coordinates = "time_counter height_mlev lat lon" ; float atb532_c04(time_counter, height_mlev, lat, lon) ; atb532_c04:units = "1" ; atb532_c04:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:_FillValue = 9.96921e+36f ; atb532_c04:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:online_operation = "ave(X)" ; atb532_c04:interval_operation = 10800.f ; atb532_c04:interval_write = 2678400.f ; atb532_c04:coordinates = "time_counter height_mlev lat lon" ; float atb532_c05(time_counter, height_mlev, lat, lon) ; atb532_c05:units = "1" ; atb532_c05:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:_FillValue = 9.96921e+36f ; atb532_c05:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:online_operation = "ave(X)" ; atb532_c05:interval_operation = 10800.f ; atb532_c05:interval_write = 2678400.f ; atb532_c05:coordinates = "time_counter height_mlev lat lon" ; float atb532_c06(time_counter, height_mlev, lat, lon) ; atb532_c06:units = "1" ; atb532_c06:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:_FillValue = 9.96921e+36f ; atb532_c06:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:online_operation = "ave(X)" ; atb532_c06:interval_operation = 10800.f ; atb532_c06:interval_write = 2678400.f ; atb532_c06:coordinates = "time_counter height_mlev lat lon" ; float atb532_c07(time_counter, height_mlev, lat, lon) ; atb532_c07:units = "1" ; atb532_c07:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:_FillValue = 9.96921e+36f ; atb532_c07:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:online_operation = "ave(X)" ; atb532_c07:interval_operation = 10800.f ; atb532_c07:interval_write = 2678400.f ; atb532_c07:coordinates = "time_counter height_mlev lat lon" ; float atb532_c08(time_counter, height_mlev, lat, lon) ; atb532_c08:units = "1" ; atb532_c08:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:_FillValue = 9.96921e+36f ; atb532_c08:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:online_operation = "ave(X)" ; atb532_c08:interval_operation = 10800.f ; atb532_c08:interval_write = 2678400.f ; atb532_c08:coordinates = "time_counter height_mlev lat lon" ; float atb532_c09(time_counter, height_mlev, lat, lon) ; atb532_c09:units = "1" ; atb532_c09:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:_FillValue = 9.96921e+36f ; atb532_c09:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:online_operation = "ave(X)" ; atb532_c09:interval_operation = 10800.f ; atb532_c09:interval_write = 2678400.f ; atb532_c09:coordinates = "time_counter height_mlev lat lon" ; float atb532_c10(time_counter, height_mlev, lat, lon) ; atb532_c10:units = "1" ; atb532_c10:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:_FillValue = 9.96921e+36f ; atb532_c10:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:online_operation = "ave(X)" ; atb532_c10:interval_operation = 10800.f ; atb532_c10:interval_write = 2678400.f ; atb532_c10:coordinates = "time_counter height_mlev lat lon" ; float atb532_c11(time_counter, height_mlev, lat, lon) ; atb532_c11:units = "1" ; atb532_c11:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:_FillValue = 9.96921e+36f ; atb532_c11:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:online_operation = "ave(X)" ; atb532_c11:interval_operation = 10800.f ; atb532_c11:interval_write = 2678400.f ; atb532_c11:coordinates = "time_counter height_mlev lat lon" ; float atb532_c12(time_counter, height_mlev, lat, lon) ; atb532_c12:units = "1" ; atb532_c12:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:_FillValue = 9.96921e+36f ; atb532_c12:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:online_operation = "ave(X)" ; atb532_c12:interval_operation = 10800.f ; atb532_c12:interval_write = 2678400.f ; atb532_c12:coordinates = "time_counter height_mlev lat lon" ; float atb532_c13(time_counter, height_mlev, lat, lon) ; atb532_c13:units = "1" ; atb532_c13:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:_FillValue = 9.96921e+36f ; atb532_c13:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:online_operation = "ave(X)" ; atb532_c13:interval_operation = 10800.f ; atb532_c13:interval_write = 2678400.f ; atb532_c13:coordinates = "time_counter height_mlev lat lon" ; float atb532_c14(time_counter, height_mlev, lat, lon) ; atb532_c14:units = "1" ; atb532_c14:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:_FillValue = 9.96921e+36f ; atb532_c14:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:online_operation = "ave(X)" ; atb532_c14:interval_operation = 10800.f ; atb532_c14:interval_write = 2678400.f ; atb532_c14:coordinates = "time_counter height_mlev lat lon" ; float atb532_c15(time_counter, height_mlev, lat, lon) ; atb532_c15:units = "1" ; atb532_c15:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:_FillValue = 9.96921e+36f ; atb532_c15:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:online_operation = "ave(X)" ; atb532_c15:interval_operation = 10800.f ; atb532_c15:interval_write = 2678400.f ; atb532_c15:coordinates = "time_counter height_mlev lat lon" ; float atb532_c16(time_counter, height_mlev, lat, lon) ; atb532_c16:units = "1" ; atb532_c16:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:_FillValue = 9.96921e+36f ; atb532_c16:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:online_operation = "ave(X)" ; atb532_c16:interval_operation = 10800.f ; atb532_c16:interval_write = 2678400.f ; atb532_c16:coordinates = "time_counter height_mlev lat lon" ; float atb532_c17(time_counter, height_mlev, lat, lon) ; atb532_c17:units = "1" ; atb532_c17:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:_FillValue = 9.96921e+36f ; atb532_c17:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:online_operation = "ave(X)" ; atb532_c17:interval_operation = 10800.f ; atb532_c17:interval_write = 2678400.f ; atb532_c17:coordinates = "time_counter height_mlev lat lon" ; float atb532_c18(time_counter, height_mlev, lat, lon) ; atb532_c18:units = "1" ; atb532_c18:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:_FillValue = 9.96921e+36f ; atb532_c18:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:online_operation = "ave(X)" ; atb532_c18:interval_operation = 10800.f ; atb532_c18:interval_write = 2678400.f ; atb532_c18:coordinates = "time_counter height_mlev lat lon" ; float atb532_c19(time_counter, height_mlev, lat, lon) ; atb532_c19:units = "1" ; atb532_c19:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:_FillValue = 9.96921e+36f ; atb532_c19:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:online_operation = "ave(X)" ; atb532_c19:interval_operation = 10800.f ; atb532_c19:interval_write = 2678400.f ; atb532_c19:coordinates = "time_counter height_mlev lat lon" ; float atb532_c20(time_counter, height_mlev, lat, lon) ; atb532_c20:units = "1" ; atb532_c20:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:_FillValue = 9.96921e+36f ; atb532_c20:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:online_operation = "ave(X)" ; atb532_c20:interval_operation = 10800.f ; atb532_c20:interval_write = 2678400.f ; atb532_c20:coordinates = "time_counter height_mlev lat lon" ; float beta_mol532(time_counter, height_mlev, lat, lon) ; beta_mol532:units = "m-1 sr-1" ; beta_mol532:standard_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:_FillValue = 9.96921e+36f ; beta_mol532:long_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:online_operation = "ave(X)" ; beta_mol532:interval_operation = 10800.f ; beta_mol532:interval_write = 2678400.f ; beta_mol532:coordinates = "time_counter height_mlev lat lon" ; float clisccp2_c01(time_counter, pressure2, lat, lon) ; clisccp2_c01:units = "1" ; clisccp2_c01:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:_FillValue = 9.96921e+36f ; clisccp2_c01:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:online_operation = "ave(X)" ; clisccp2_c01:interval_operation = 10800.f ; clisccp2_c01:interval_write = 2678400.f ; clisccp2_c01:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c02(time_counter, pressure2, lat, lon) ; clisccp2_c02:units = "1" ; clisccp2_c02:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:_FillValue = 9.96921e+36f ; clisccp2_c02:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:online_operation = "ave(X)" ; clisccp2_c02:interval_operation = 10800.f ; clisccp2_c02:interval_write = 2678400.f ; clisccp2_c02:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c03(time_counter, pressure2, lat, lon) ; clisccp2_c03:units = "1" ; clisccp2_c03:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:_FillValue = 9.96921e+36f ; clisccp2_c03:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:online_operation = "ave(X)" ; clisccp2_c03:interval_operation = 10800.f ; clisccp2_c03:interval_write = 2678400.f ; clisccp2_c03:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c04(time_counter, pressure2, lat, lon) ; clisccp2_c04:units = "1" ; clisccp2_c04:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:_FillValue = 9.96921e+36f ; clisccp2_c04:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:online_operation = "ave(X)" ; clisccp2_c04:interval_operation = 10800.f ; clisccp2_c04:interval_write = 2678400.f ; clisccp2_c04:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c05(time_counter, pressure2, lat, lon) ; clisccp2_c05:units = "1" ; clisccp2_c05:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:_FillValue = 9.96921e+36f ; clisccp2_c05:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:online_operation = "ave(X)" ; clisccp2_c05:interval_operation = 10800.f ; clisccp2_c05:interval_write = 2678400.f ; clisccp2_c05:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c06(time_counter, pressure2, lat, lon) ; clisccp2_c06:units = "1" ; clisccp2_c06:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:_FillValue = 9.96921e+36f ; clisccp2_c06:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:online_operation = "ave(X)" ; clisccp2_c06:interval_operation = 10800.f ; clisccp2_c06:interval_write = 2678400.f ; clisccp2_c06:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c07(time_counter, pressure2, lat, lon) ; clisccp2_c07:units = "1" ; clisccp2_c07:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:_FillValue = 9.96921e+36f ; clisccp2_c07:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:online_operation = "ave(X)" ; clisccp2_c07:interval_operation = 10800.f ; clisccp2_c07:interval_write = 2678400.f ; clisccp2_c07:coordinates = "time_counter pressure2 lat lon" ; float boxtauisccp(time_counter, column, lat, lon) ; boxtauisccp:units = "1" ; boxtauisccp:standard_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:_FillValue = 9.96921e+36f ; boxtauisccp:long_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:online_operation = "ave(X)" ; boxtauisccp:interval_operation = 10800.f ; boxtauisccp:interval_write = 2678400.f ; boxtauisccp:coordinates = "time_counter column lat lon" ; float boxptopisccp(time_counter, column, lat, lon) ; boxptopisccp:units = "Pa" ; boxptopisccp:standard_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:_FillValue = 9.96921e+36f ; boxptopisccp:long_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:online_operation = "ave(X)" ; boxptopisccp:interval_operation = 10800.f ; boxptopisccp:interval_write = 2678400.f ; boxptopisccp:coordinates = "time_counter column lat lon" ; float tclisccp(time_counter, lat, lon) ; tclisccp:units = "1" ; tclisccp:standard_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:_FillValue = 9.96921e+36f ; tclisccp:long_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:online_operation = "ave(X)" ; tclisccp:interval_operation = 10800.f ; tclisccp:interval_write = 2678400.f ; tclisccp:coordinates = "time_counter lat lon" ; float ctpisccp(time_counter, lat, lon) ; ctpisccp:units = "Pa" ; ctpisccp:standard_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:_FillValue = 9.96921e+36f ; ctpisccp:long_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:online_operation = "ave(X)" ; ctpisccp:interval_operation = 10800.f ; ctpisccp:interval_write = 2678400.f ; ctpisccp:coordinates = "time_counter lat lon" ; float tauisccp(time_counter, lat, lon) ; tauisccp:units = "1" ; tauisccp:standard_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:_FillValue = 9.96921e+36f ; tauisccp:long_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:online_operation = "ave(X)" ; tauisccp:interval_operation = 10800.f ; tauisccp:interval_write = 2678400.f ; tauisccp:coordinates = "time_counter lat lon" ; float albisccp(time_counter, lat, lon) ; albisccp:units = "1" ; albisccp:standard_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:_FillValue = 9.96921e+36f ; albisccp:long_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:online_operation = "ave(X)" ; albisccp:interval_operation = 10800.f ; albisccp:interval_write = 2678400.f ; albisccp:coordinates = "time_counter lat lon" ; float meantbisccp(time_counter, lat, lon) ; meantbisccp:units = "K" ; meantbisccp:standard_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:_FillValue = 9.96921e+36f ; meantbisccp:long_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:online_operation = "ave(X)" ; meantbisccp:interval_operation = 10800.f ; meantbisccp:interval_write = 2678400.f ; meantbisccp:coordinates = "time_counter lat lon" ; float meantbclrisccp(time_counter, lat, lon) ; meantbclrisccp:units = "K" ; meantbclrisccp:standard_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:_FillValue = 9.96921e+36f ; meantbclrisccp:long_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:online_operation = "ave(X)" ; meantbclrisccp:interval_operation = 10800.f ; meantbclrisccp:interval_write = 2678400.f ; meantbclrisccp:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmthCOSP.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmth.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmth { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; double t_inst_02678400(time_counter) ; t_inst_02678400:standard_name = "time" ; t_inst_02678400:units = "seconds since 1850-01-01 00:00:00" ; t_inst_02678400:calendar = "noleap" ; t_inst_02678400:title = "Time" ; t_inst_02678400:long_name = "Time axis" ; t_inst_02678400:time_origin = " 1850-JAN-01 00:00:00" ; float phis(time_counter, lat, lon) ; phis:units = "m2/s2" ; phis:standard_name = "Surface geop.height" ; phis:_FillValue = 9.96921e+36f ; phis:long_name = "Surface geop.height" ; phis:online_operation = "ave(X)" ; phis:interval_operation = 1800.f ; phis:interval_write = 2678400.f ; phis:coordinates = "time_counter lat lon" ; float aire(lat, lon) ; aire:units = "-" ; aire:standard_name = "Grid area" ; aire:_FillValue = 9.96921e+36f ; aire:long_name = "Grid area" ; aire:online_operation = "once" ; aire:coordinates = "lat lon" ; float flat(time_counter, lat, lon) ; flat:units = "W/m2" ; flat:standard_name = "Latent heat flux" ; flat:_FillValue = 9.96921e+36f ; flat:long_name = "Latent heat flux" ; flat:online_operation = "ave(X)" ; flat:interval_operation = 1800.f ; flat:interval_write = 2678400.f ; flat:coordinates = "time_counter lat lon" ; float slp(time_counter, lat, lon) ; slp:units = "Pa" ; slp:standard_name = "Sea Level Pressure" ; slp:_FillValue = 9.96921e+36f ; slp:long_name = "Sea Level Pressure" ; slp:online_operation = "ave(X)" ; slp:interval_operation = 1800.f ; slp:interval_write = 2678400.f ; slp:coordinates = "time_counter lat lon" ; float tsol(time_counter, lat, lon) ; tsol:units = "K" ; tsol:standard_name = "Surface Temperature" ; tsol:_FillValue = 9.96921e+36f ; tsol:long_name = "Surface Temperature" ; tsol:online_operation = "ave(X)" ; tsol:interval_operation = 1800.f ; tsol:interval_write = 2678400.f ; tsol:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "Temperature 2m" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "Temperature 2m" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = 2678400.f ; t2m:coordinates = "time_counter lat lon" ; float t2m_min(time_counter, lat, lon) ; t2m_min:units = "K" ; t2m_min:standard_name = "Temp 2m min" ; t2m_min:_FillValue = 9.96921e+36f ; t2m_min:long_name = "Temp 2m min" ; t2m_min:online_operation = "t_min(X)" ; t2m_min:interval_operation = 1800.f ; t2m_min:interval_write = 2678400.f ; t2m_min:coordinates = "time_counter lat lon" ; float t2m_max(time_counter, lat, lon) ; t2m_max:units = "K" ; t2m_max:standard_name = "Temp 2m max" ; t2m_max:_FillValue = 9.96921e+36f ; t2m_max:long_name = "Temp 2m max" ; t2m_max:online_operation = "t_max(X)" ; t2m_max:interval_operation = 1800.f ; t2m_max:interval_write = 2678400.f ; t2m_max:coordinates = "time_counter lat lon" ; float wind10m(time_counter, lat, lon) ; wind10m:units = "m/s" ; wind10m:standard_name = "10-m wind speed" ; wind10m:_FillValue = 9.96921e+36f ; wind10m:long_name = "10-m wind speed" ; wind10m:online_operation = "ave(X)" ; wind10m:interval_operation = 1800.f ; wind10m:interval_write = 2678400.f ; wind10m:coordinates = "time_counter lat lon" ; float sicf(time_counter, lat, lon) ; sicf:units = "-" ; sicf:standard_name = "Sea-ice fraction" ; sicf:_FillValue = 9.96921e+36f ; sicf:long_name = "Sea-ice fraction" ; sicf:online_operation = "ave(X)" ; sicf:interval_operation = 1800.f ; sicf:interval_write = 2678400.f ; sicf:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "kg/kg" ; q2m:standard_name = "Specific humidity 2m" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "Specific humidity 2m" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = 2678400.f ; q2m:coordinates = "time_counter lat lon" ; float u10m(time_counter, lat, lon) ; u10m:units = "m/s" ; u10m:standard_name = "Vent zonal 10m" ; u10m:_FillValue = 9.96921e+36f ; u10m:long_name = "Vent zonal 10m" ; u10m:online_operation = "ave(X)" ; u10m:interval_operation = 1800.f ; u10m:interval_write = 2678400.f ; u10m:coordinates = "time_counter lat lon" ; float v10m(time_counter, lat, lon) ; v10m:units = "m/s" ; v10m:standard_name = "Vent meridien 10m" ; v10m:_FillValue = 9.96921e+36f ; v10m:long_name = "Vent meridien 10m" ; v10m:online_operation = "ave(X)" ; v10m:interval_operation = 1800.f ; v10m:interval_write = 2678400.f ; v10m:coordinates = "time_counter lat lon" ; float psol(time_counter, lat, lon) ; psol:units = "Pa" ; psol:standard_name = "Surface Pressure" ; psol:_FillValue = 9.96921e+36f ; psol:long_name = "Surface Pressure" ; psol:online_operation = "ave(X)" ; psol:interval_operation = 1800.f ; psol:interval_write = 2678400.f ; psol:coordinates = "time_counter lat lon" ; float qsurf(time_counter, lat, lon) ; qsurf:units = "kg/kg" ; qsurf:standard_name = "Surface Air humidity" ; qsurf:_FillValue = 9.96921e+36f ; qsurf:long_name = "Surface Air humidity" ; qsurf:online_operation = "ave(X)" ; qsurf:interval_operation = 1800.f ; qsurf:interval_write = 2678400.f ; qsurf:coordinates = "time_counter lat lon" ; float ndayrain(time_counter, lat, lon) ; ndayrain:units = "-" ; ndayrain:standard_name = "Number of dayrain(liq+sol)" ; ndayrain:_FillValue = 9.96921e+36f ; ndayrain:long_name = "Number of dayrain(liq+sol)" ; ndayrain:online_operation = "ave(X)" ; ndayrain:interval_operation = 1800.f ; ndayrain:interval_write = 2678400.f ; ndayrain:coordinates = "time_counter lat lon" ; float precip(time_counter, lat, lon) ; precip:units = "kg/(s*m2)" ; precip:standard_name = "Precip Totale liq+sol" ; precip:_FillValue = 9.96921e+36f ; precip:long_name = "Precip Totale liq+sol" ; precip:online_operation = "ave(X)" ; precip:interval_operation = 1800.f ; precip:interval_write = 2678400.f ; precip:coordinates = "time_counter lat lon" ; float plul(time_counter, lat, lon) ; plul:units = "kg/(s*m2)" ; plul:standard_name = "Large-scale Precip." ; plul:_FillValue = 9.96921e+36f ; plul:long_name = "Large-scale Precip." ; plul:online_operation = "ave(X)" ; plul:interval_operation = 1800.f ; plul:interval_write = 2678400.f ; plul:coordinates = "time_counter lat lon" ; float pluc(time_counter, lat, lon) ; pluc:units = "kg/(s*m2)" ; pluc:standard_name = "Convective Precip." ; pluc:_FillValue = 9.96921e+36f ; pluc:long_name = "Convective Precip." ; pluc:online_operation = "ave(X)" ; pluc:interval_operation = 1800.f ; pluc:interval_write = 2678400.f ; pluc:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/(s*m2)" ; snow:standard_name = "Snow fall" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow fall" ; snow:online_operation = "ave(X)" ; snow:interval_operation = 1800.f ; snow:interval_write = 2678400.f ; snow:coordinates = "time_counter lat lon" ; float msnow(time_counter, lat, lon) ; msnow:units = "kg/m2" ; msnow:standard_name = "Surface snow amount" ; msnow:_FillValue = 9.96921e+36f ; msnow:long_name = "Surface snow amount" ; msnow:online_operation = "ave(X)" ; msnow:interval_operation = 1800.f ; msnow:interval_write = 2678400.f ; msnow:coordinates = "time_counter lat lon" ; float fsnow(time_counter, lat, lon) ; fsnow:units = "-" ; fsnow:standard_name = "Surface snow area fraction" ; fsnow:_FillValue = 9.96921e+36f ; fsnow:long_name = "Surface snow area fraction" ; fsnow:online_operation = "ave(X)" ; fsnow:interval_operation = 1800.f ; fsnow:interval_write = 2678400.f ; fsnow:coordinates = "time_counter lat lon" ; float evap(time_counter, lat, lon) ; evap:units = "kg/(s*m2)" ; evap:standard_name = "Evaporat" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "Evaporat" ; evap:online_operation = "ave(X)" ; evap:interval_operation = 1800.f ; evap:interval_write = 2678400.f ; evap:coordinates = "time_counter lat lon" ; float tops(time_counter, lat, lon) ; tops:units = "W/m2" ; tops:standard_name = "Solar rad. at TOA" ; tops:_FillValue = 9.96921e+36f ; tops:long_name = "Solar rad. at TOA" ; tops:online_operation = "ave(X)" ; tops:interval_operation = 1800.f ; tops:interval_write = 2678400.f ; tops:coordinates = "time_counter lat lon" ; float tops0(time_counter, lat, lon) ; tops0:units = "W/m2" ; tops0:standard_name = "CS Solar rad. at TOA" ; tops0:_FillValue = 9.96921e+36f ; tops0:long_name = "CS Solar rad. at TOA" ; tops0:online_operation = "ave(X)" ; tops0:interval_operation = 1800.f ; tops0:interval_write = 2678400.f ; tops0:coordinates = "time_counter lat lon" ; float topl(time_counter, lat, lon) ; topl:units = "W/m2" ; topl:standard_name = "IR rad. at TOA" ; topl:_FillValue = 9.96921e+36f ; topl:long_name = "IR rad. at TOA" ; topl:online_operation = "ave(X)" ; topl:interval_operation = 1800.f ; topl:interval_write = 2678400.f ; topl:coordinates = "time_counter lat lon" ; float topl0(time_counter, lat, lon) ; topl0:units = "W/m2" ; topl0:standard_name = "IR rad. at TOA" ; topl0:_FillValue = 9.96921e+36f ; topl0:long_name = "IR rad. at TOA" ; topl0:online_operation = "ave(X)" ; topl0:interval_operation = 1800.f ; topl0:interval_write = 2678400.f ; topl0:coordinates = "time_counter lat lon" ; float SWupTOA(time_counter, lat, lon) ; SWupTOA:units = "W/m2" ; SWupTOA:standard_name = "SWup at TOA" ; SWupTOA:_FillValue = 9.96921e+36f ; SWupTOA:long_name = "SWup at TOA" ; SWupTOA:online_operation = "ave(X)" ; SWupTOA:interval_operation = 1800.f ; SWupTOA:interval_write = 2678400.f ; SWupTOA:coordinates = "time_counter lat lon" ; float SWupTOAclr(time_counter, lat, lon) ; SWupTOAclr:units = "W/m2" ; SWupTOAclr:standard_name = "SWup clear sky at TOA" ; SWupTOAclr:_FillValue = 9.96921e+36f ; SWupTOAclr:long_name = "SWup clear sky at TOA" ; SWupTOAclr:online_operation = "ave(X)" ; SWupTOAclr:interval_operation = 1800.f ; SWupTOAclr:interval_write = 2678400.f ; SWupTOAclr:coordinates = "time_counter lat lon" ; float SWdnTOA(time_counter, lat, lon) ; SWdnTOA:units = "W/m2" ; SWdnTOA:standard_name = "SWdn at TOA" ; SWdnTOA:_FillValue = 9.96921e+36f ; SWdnTOA:long_name = "SWdn at TOA" ; SWdnTOA:online_operation = "ave(X)" ; SWdnTOA:interval_operation = 1800.f ; SWdnTOA:interval_write = 2678400.f ; SWdnTOA:coordinates = "time_counter lat lon" ; float SWdnTOAclr(time_counter, lat, lon) ; SWdnTOAclr:units = "W/m2" ; SWdnTOAclr:standard_name = "SWdn clear sky at TOA" ; SWdnTOAclr:_FillValue = 9.96921e+36f ; SWdnTOAclr:long_name = "SWdn clear sky at TOA" ; SWdnTOAclr:online_operation = "ave(X)" ; SWdnTOAclr:interval_operation = 1800.f ; SWdnTOAclr:interval_write = 2678400.f ; SWdnTOAclr:coordinates = "time_counter lat lon" ; float nettop(time_counter, lat, lon) ; nettop:units = "W/m2" ; nettop:standard_name = "Net dn radiatif flux at TOA" ; nettop:_FillValue = 9.96921e+36f ; nettop:long_name = "Net dn radiatif flux at TOA" ; nettop:online_operation = "ave(X)" ; nettop:interval_operation = 1800.f ; nettop:interval_write = 2678400.f ; nettop:coordinates = "time_counter lat lon" ; float SWup200(time_counter, lat, lon) ; SWup200:units = "W/m2" ; SWup200:standard_name = "SWup at 200mb" ; SWup200:_FillValue = 9.96921e+36f ; SWup200:long_name = "SWup at 200mb" ; SWup200:online_operation = "ave(X)" ; SWup200:interval_operation = 1800.f ; SWup200:interval_write = 2678400.f ; SWup200:coordinates = "time_counter lat lon" ; float SWdn200(time_counter, lat, lon) ; SWdn200:units = "W/m2" ; SWdn200:standard_name = "SWdn at 200mb" ; SWdn200:_FillValue = 9.96921e+36f ; SWdn200:long_name = "SWdn at 200mb" ; SWdn200:online_operation = "ave(X)" ; SWdn200:interval_operation = 1800.f ; SWdn200:interval_write = 2678400.f ; SWdn200:coordinates = "time_counter lat lon" ; float LWup200(time_counter, lat, lon) ; LWup200:units = "W/m2" ; LWup200:standard_name = "LWup at 200mb" ; LWup200:_FillValue = 9.96921e+36f ; LWup200:long_name = "LWup at 200mb" ; LWup200:online_operation = "ave(X)" ; LWup200:interval_operation = 1800.f ; LWup200:interval_write = 2678400.f ; LWup200:coordinates = "time_counter lat lon" ; float LWup200clr(time_counter, lat, lon) ; LWup200clr:units = "W/m2" ; LWup200clr:standard_name = "LWup clear sky at 200mb" ; LWup200clr:_FillValue = 9.96921e+36f ; LWup200clr:long_name = "LWup clear sky at 200mb" ; LWup200clr:online_operation = "ave(X)" ; LWup200clr:interval_operation = 1800.f ; LWup200clr:interval_write = 2678400.f ; LWup200clr:coordinates = "time_counter lat lon" ; float LWdn200(time_counter, lat, lon) ; LWdn200:units = "W/m2" ; LWdn200:standard_name = "LWdn at 200mb" ; LWdn200:_FillValue = 9.96921e+36f ; LWdn200:long_name = "LWdn at 200mb" ; LWdn200:online_operation = "ave(X)" ; LWdn200:interval_operation = 1800.f ; LWdn200:interval_write = 2678400.f ; LWdn200:coordinates = "time_counter lat lon" ; float LWdn200clr(time_counter, lat, lon) ; LWdn200clr:units = "W/m2" ; LWdn200clr:standard_name = "LWdn clear sky at 200mb" ; LWdn200clr:_FillValue = 9.96921e+36f ; LWdn200clr:long_name = "LWdn clear sky at 200mb" ; LWdn200clr:online_operation = "ave(X)" ; LWdn200clr:interval_operation = 1800.f ; LWdn200clr:interval_write = 2678400.f ; LWdn200clr:coordinates = "time_counter lat lon" ; float sols(time_counter, lat, lon) ; sols:units = "W/m2" ; sols:standard_name = "Solar rad. at surf." ; sols:_FillValue = 9.96921e+36f ; sols:long_name = "Solar rad. at surf." ; sols:online_operation = "ave(X)" ; sols:interval_operation = 1800.f ; sols:interval_write = 2678400.f ; sols:coordinates = "time_counter lat lon" ; float sols0(time_counter, lat, lon) ; sols0:units = "W/m2" ; sols0:standard_name = "Solar rad. at surf." ; sols0:_FillValue = 9.96921e+36f ; sols0:long_name = "Solar rad. at surf." ; sols0:online_operation = "ave(X)" ; sols0:interval_operation = 1800.f ; sols0:interval_write = 2678400.f ; sols0:coordinates = "time_counter lat lon" ; float soll(time_counter, lat, lon) ; soll:units = "W/m2" ; soll:standard_name = "IR rad. at surface" ; soll:_FillValue = 9.96921e+36f ; soll:long_name = "IR rad. at surface" ; soll:online_operation = "ave(X)" ; soll:interval_operation = 1800.f ; soll:interval_write = 2678400.f ; soll:coordinates = "time_counter lat lon" ; float radsol(time_counter, lat, lon) ; radsol:units = "W/m2" ; radsol:standard_name = "Rayonnement au sol" ; radsol:_FillValue = 9.96921e+36f ; radsol:long_name = "Rayonnement au sol" ; radsol:online_operation = "ave(X)" ; radsol:interval_operation = 1800.f ; radsol:interval_write = 2678400.f ; radsol:coordinates = "time_counter lat lon" ; float soll0(time_counter, lat, lon) ; soll0:units = "W/m2" ; soll0:standard_name = "IR rad. at surface" ; soll0:_FillValue = 9.96921e+36f ; soll0:long_name = "IR rad. at surface" ; soll0:online_operation = "ave(X)" ; soll0:interval_operation = 1800.f ; soll0:interval_write = 2678400.f ; soll0:coordinates = "time_counter lat lon" ; float SWupSFC(time_counter, lat, lon) ; SWupSFC:units = "W/m2" ; SWupSFC:standard_name = "SWup at surface" ; SWupSFC:_FillValue = 9.96921e+36f ; SWupSFC:long_name = "SWup at surface" ; SWupSFC:online_operation = "ave(X)" ; SWupSFC:interval_operation = 1800.f ; SWupSFC:interval_write = 2678400.f ; SWupSFC:coordinates = "time_counter lat lon" ; float SWupSFCclr(time_counter, lat, lon) ; SWupSFCclr:units = "W/m2" ; SWupSFCclr:standard_name = "SWup clear sky at surface" ; SWupSFCclr:_FillValue = 9.96921e+36f ; SWupSFCclr:long_name = "SWup clear sky at surface" ; SWupSFCclr:online_operation = "ave(X)" ; SWupSFCclr:interval_operation = 1800.f ; SWupSFCclr:interval_write = 2678400.f ; SWupSFCclr:coordinates = "time_counter lat lon" ; float SWdnSFC(time_counter, lat, lon) ; SWdnSFC:units = "W/m2" ; SWdnSFC:standard_name = "SWdn at surface" ; SWdnSFC:_FillValue = 9.96921e+36f ; SWdnSFC:long_name = "SWdn at surface" ; SWdnSFC:online_operation = "ave(X)" ; SWdnSFC:interval_operation = 1800.f ; SWdnSFC:interval_write = 2678400.f ; SWdnSFC:coordinates = "time_counter lat lon" ; float SWdnSFCclr(time_counter, lat, lon) ; SWdnSFCclr:units = "W/m2" ; SWdnSFCclr:standard_name = "SWdn clear sky at surface" ; SWdnSFCclr:_FillValue = 9.96921e+36f ; SWdnSFCclr:long_name = "SWdn clear sky at surface" ; SWdnSFCclr:online_operation = "ave(X)" ; SWdnSFCclr:interval_operation = 1800.f ; SWdnSFCclr:interval_write = 2678400.f ; SWdnSFCclr:coordinates = "time_counter lat lon" ; float LWupSFC(time_counter, lat, lon) ; LWupSFC:units = "W/m2" ; LWupSFC:standard_name = "Upwd. IR rad. at surface" ; LWupSFC:_FillValue = 9.96921e+36f ; LWupSFC:long_name = "Upwd. IR rad. at surface" ; LWupSFC:online_operation = "ave(X)" ; LWupSFC:interval_operation = 1800.f ; LWupSFC:interval_write = 2678400.f ; LWupSFC:coordinates = "time_counter lat lon" ; float LWdnSFC(time_counter, lat, lon) ; LWdnSFC:units = "W/m2" ; LWdnSFC:standard_name = "Down. IR rad. at surface" ; LWdnSFC:_FillValue = 9.96921e+36f ; LWdnSFC:long_name = "Down. IR rad. at surface" ; LWdnSFC:online_operation = "ave(X)" ; LWdnSFC:interval_operation = 1800.f ; LWdnSFC:interval_write = 2678400.f ; LWdnSFC:coordinates = "time_counter lat lon" ; float LWupSFCclr(time_counter, lat, lon) ; LWupSFCclr:units = "W/m2" ; LWupSFCclr:standard_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:_FillValue = 9.96921e+36f ; LWupSFCclr:long_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:online_operation = "ave(X)" ; LWupSFCclr:interval_operation = 1800.f ; LWupSFCclr:interval_write = 2678400.f ; LWupSFCclr:coordinates = "time_counter lat lon" ; float LWdnSFCclr(time_counter, lat, lon) ; LWdnSFCclr:units = "W/m2" ; LWdnSFCclr:standard_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:_FillValue = 9.96921e+36f ; LWdnSFCclr:long_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:online_operation = "ave(X)" ; LWdnSFCclr:interval_operation = 1800.f ; LWdnSFCclr:interval_write = 2678400.f ; LWdnSFCclr:coordinates = "time_counter lat lon" ; float bils(time_counter, lat, lon) ; bils:units = "W/m2" ; bils:standard_name = "Surf. total heat flux" ; bils:_FillValue = 9.96921e+36f ; bils:long_name = "Surf. total heat flux" ; bils:online_operation = "ave(X)" ; bils:interval_operation = 1800.f ; bils:interval_write = 2678400.f ; bils:coordinates = "time_counter lat lon" ; float sens(time_counter, lat, lon) ; sens:units = "W/m2" ; sens:standard_name = "Sensible heat flux" ; sens:_FillValue = 9.96921e+36f ; sens:long_name = "Sensible heat flux" ; sens:online_operation = "ave(X)" ; sens:interval_operation = 1800.f ; sens:interval_write = 2678400.f ; sens:coordinates = "time_counter lat lon" ; float fder(time_counter, lat, lon) ; fder:units = "W/m2" ; fder:standard_name = "Heat flux derivation" ; fder:_FillValue = 9.96921e+36f ; fder:long_name = "Heat flux derivation" ; fder:online_operation = "ave(X)" ; fder:interval_operation = 1800.f ; fder:interval_write = 2678400.f ; fder:coordinates = "time_counter lat lon" ; float ffonte(time_counter, lat, lon) ; ffonte:units = "W/m2" ; ffonte:standard_name = "Thermal flux for snow melting" ; ffonte:_FillValue = 9.96921e+36f ; ffonte:long_name = "Thermal flux for snow melting" ; ffonte:online_operation = "ave(X)" ; ffonte:interval_operation = 1800.f ; ffonte:interval_write = 2678400.f ; ffonte:coordinates = "time_counter lat lon" ; float fqcalving(time_counter, lat, lon) ; fqcalving:units = "kg/m2/s" ; fqcalving:standard_name = "Ice Calving" ; fqcalving:_FillValue = 9.96921e+36f ; fqcalving:long_name = "Ice Calving" ; fqcalving:online_operation = "ave(X)" ; fqcalving:interval_operation = 1800.f ; fqcalving:interval_write = 2678400.f ; fqcalving:coordinates = "time_counter lat lon" ; float fqfonte(time_counter, lat, lon) ; fqfonte:units = "kg/m2/s" ; fqfonte:standard_name = "Land ice melt" ; fqfonte:_FillValue = 9.96921e+36f ; fqfonte:long_name = "Land ice melt" ; fqfonte:online_operation = "ave(X)" ; fqfonte:interval_operation = 1800.f ; fqfonte:interval_write = 2678400.f ; fqfonte:coordinates = "time_counter lat lon" ; float taux(time_counter, lat, lon) ; taux:units = "Pa" ; taux:standard_name = "Zonal wind stress" ; taux:_FillValue = 9.96921e+36f ; taux:long_name = "Zonal wind stress" ; taux:online_operation = "ave(X)" ; taux:interval_operation = 1800.f ; taux:interval_write = 2678400.f ; taux:coordinates = "time_counter lat lon" ; float tauy(time_counter, lat, lon) ; tauy:units = "Pa" ; tauy:standard_name = "Meridional wind stress" ; tauy:_FillValue = 9.96921e+36f ; tauy:long_name = "Meridional wind stress" ; tauy:online_operation = "ave(X)" ; tauy:interval_operation = 1800.f ; tauy:interval_write = 2678400.f ; tauy:coordinates = "time_counter lat lon" ; float pourc_ter(time_counter, lat, lon) ; pourc_ter:units = "%" ; pourc_ter:standard_name = "% ter" ; pourc_ter:_FillValue = 9.96921e+36f ; pourc_ter:long_name = "% ter" ; pourc_ter:online_operation = "ave(X)" ; pourc_ter:interval_operation = 1800.f ; pourc_ter:interval_write = 2678400.f ; pourc_ter:coordinates = "time_counter lat lon" ; float fract_ter(time_counter, lat, lon) ; fract_ter:units = "1" ; fract_ter:standard_name = "Fraction ter" ; fract_ter:_FillValue = 9.96921e+36f ; fract_ter:long_name = "Fraction ter" ; fract_ter:online_operation = "ave(X)" ; fract_ter:interval_operation = 1800.f ; fract_ter:interval_write = 2678400.f ; fract_ter:coordinates = "time_counter lat lon" ; float taux_ter(time_counter, lat, lon) ; taux_ter:units = "Pa" ; taux_ter:standard_name = "Zonal wind stresster" ; taux_ter:_FillValue = 9.96921e+36f ; taux_ter:long_name = "Zonal wind stresster" ; taux_ter:online_operation = "ave(X)" ; taux_ter:interval_operation = 1800.f ; taux_ter:interval_write = 2678400.f ; taux_ter:coordinates = "time_counter lat lon" ; float tauy_ter(time_counter, lat, lon) ; tauy_ter:units = "Pa" ; tauy_ter:standard_name = "Meridional wind stress ter" ; tauy_ter:_FillValue = 9.96921e+36f ; tauy_ter:long_name = "Meridional wind stress ter" ; tauy_ter:online_operation = "ave(X)" ; tauy_ter:interval_operation = 1800.f ; tauy_ter:interval_write = 2678400.f ; tauy_ter:coordinates = "time_counter lat lon" ; float tsol_ter(time_counter, lat, lon) ; tsol_ter:units = "K" ; tsol_ter:standard_name = "Temperature ter" ; tsol_ter:_FillValue = 9.96921e+36f ; tsol_ter:long_name = "Temperature ter" ; tsol_ter:online_operation = "ave(X)" ; tsol_ter:interval_operation = 1800.f ; tsol_ter:interval_write = 2678400.f ; tsol_ter:coordinates = "time_counter lat lon" ; float evap_ter(time_counter, lat, lon) ; evap_ter:units = "kg/(s*m2)" ; evap_ter:standard_name = "evaporation at surface ter" ; evap_ter:_FillValue = 9.96921e+36f ; evap_ter:long_name = "evaporation at surface ter" ; evap_ter:online_operation = "ave(X)" ; evap_ter:interval_operation = 1800.f ; evap_ter:interval_write = 2678400.f ; evap_ter:coordinates = "time_counter lat lon" ; float sens_ter(time_counter, lat, lon) ; sens_ter:units = "W/m2" ; sens_ter:standard_name = "Sensible heat flux ter" ; sens_ter:_FillValue = 9.96921e+36f ; sens_ter:long_name = "Sensible heat flux ter" ; sens_ter:online_operation = "ave(X)" ; sens_ter:interval_operation = 1800.f ; sens_ter:interval_write = 2678400.f ; sens_ter:coordinates = "time_counter lat lon" ; float lat_ter(time_counter, lat, lon) ; lat_ter:units = "W/m2" ; lat_ter:standard_name = "Latent heat flux ter" ; lat_ter:_FillValue = 9.96921e+36f ; lat_ter:long_name = "Latent heat flux ter" ; lat_ter:online_operation = "ave(X)" ; lat_ter:interval_operation = 1800.f ; lat_ter:interval_write = 2678400.f ; lat_ter:coordinates = "time_counter lat lon" ; float flw_ter(time_counter, lat, lon) ; flw_ter:units = "W/m2" ; flw_ter:standard_name = "LW ter" ; flw_ter:_FillValue = 9.96921e+36f ; flw_ter:long_name = "LW ter" ; flw_ter:online_operation = "ave(X)" ; flw_ter:interval_operation = 1800.f ; flw_ter:interval_write = 2678400.f ; flw_ter:coordinates = "time_counter lat lon" ; float fsw_ter(time_counter, lat, lon) ; fsw_ter:units = "W/m2" ; fsw_ter:standard_name = "SW ter" ; fsw_ter:_FillValue = 9.96921e+36f ; fsw_ter:long_name = "SW ter" ; fsw_ter:online_operation = "ave(X)" ; fsw_ter:interval_operation = 1800.f ; fsw_ter:interval_write = 2678400.f ; fsw_ter:coordinates = "time_counter lat lon" ; float wbils_ter(time_counter, lat, lon) ; wbils_ter:units = "W/m2" ; wbils_ter:standard_name = "Bilan sol ter" ; wbils_ter:_FillValue = 9.96921e+36f ; wbils_ter:long_name = "Bilan sol ter" ; wbils_ter:online_operation = "ave(X)" ; wbils_ter:interval_operation = 1800.f ; wbils_ter:interval_write = 2678400.f ; wbils_ter:coordinates = "time_counter lat lon" ; float wbilo_ter(time_counter, lat, lon) ; wbilo_ter:units = "kg/(m2*s)" ; wbilo_ter:standard_name = "Bilan eau ter" ; wbilo_ter:_FillValue = 9.96921e+36f ; wbilo_ter:long_name = "Bilan eau ter" ; wbilo_ter:online_operation = "ave(X)" ; wbilo_ter:interval_operation = 1800.f ; wbilo_ter:interval_write = 2678400.f ; wbilo_ter:coordinates = "time_counter lat lon" ; float albe_ter(time_counter, lat, lon) ; albe_ter:units = "-" ; albe_ter:standard_name = "Albedo VIS surf. ter" ; albe_ter:_FillValue = 9.96921e+36f ; albe_ter:long_name = "Albedo VIS surf. ter" ; albe_ter:online_operation = "ave(X)" ; albe_ter:interval_operation = 1800.f ; albe_ter:interval_write = 2678400.f ; albe_ter:coordinates = "time_counter lat lon" ; float rugs_ter(time_counter, lat, lon) ; rugs_ter:units = "m" ; rugs_ter:standard_name = "Surface roughness ter" ; rugs_ter:_FillValue = 9.96921e+36f ; rugs_ter:long_name = "Surface roughness ter" ; rugs_ter:online_operation = "ave(X)" ; rugs_ter:interval_operation = 1800.f ; rugs_ter:interval_write = 2678400.f ; rugs_ter:coordinates = "time_counter lat lon" ; float pourc_lic(time_counter, lat, lon) ; pourc_lic:units = "%" ; pourc_lic:standard_name = "% lic" ; pourc_lic:_FillValue = 9.96921e+36f ; pourc_lic:long_name = "% lic" ; pourc_lic:online_operation = "ave(X)" ; pourc_lic:interval_operation = 1800.f ; pourc_lic:interval_write = 2678400.f ; pourc_lic:coordinates = "time_counter lat lon" ; float fract_lic(time_counter, lat, lon) ; fract_lic:units = "1" ; fract_lic:standard_name = "Fraction lic" ; fract_lic:_FillValue = 9.96921e+36f ; fract_lic:long_name = "Fraction lic" ; fract_lic:online_operation = "ave(X)" ; fract_lic:interval_operation = 1800.f ; fract_lic:interval_write = 2678400.f ; fract_lic:coordinates = "time_counter lat lon" ; float taux_lic(time_counter, lat, lon) ; taux_lic:units = "Pa" ; taux_lic:standard_name = "Zonal wind stresslic" ; taux_lic:_FillValue = 9.96921e+36f ; taux_lic:long_name = "Zonal wind stresslic" ; taux_lic:online_operation = "ave(X)" ; taux_lic:interval_operation = 1800.f ; taux_lic:interval_write = 2678400.f ; taux_lic:coordinates = "time_counter lat lon" ; float tauy_lic(time_counter, lat, lon) ; tauy_lic:units = "Pa" ; tauy_lic:standard_name = "Meridional wind stress lic" ; tauy_lic:_FillValue = 9.96921e+36f ; tauy_lic:long_name = "Meridional wind stress lic" ; tauy_lic:online_operation = "ave(X)" ; tauy_lic:interval_operation = 1800.f ; tauy_lic:interval_write = 2678400.f ; tauy_lic:coordinates = "time_counter lat lon" ; float tsol_lic(time_counter, lat, lon) ; tsol_lic:units = "K" ; tsol_lic:standard_name = "Temperature lic" ; tsol_lic:_FillValue = 9.96921e+36f ; tsol_lic:long_name = "Temperature lic" ; tsol_lic:online_operation = "ave(X)" ; tsol_lic:interval_operation = 1800.f ; tsol_lic:interval_write = 2678400.f ; tsol_lic:coordinates = "time_counter lat lon" ; float evap_lic(time_counter, lat, lon) ; evap_lic:units = "kg/(s*m2)" ; evap_lic:standard_name = "evaporation at surface lic" ; evap_lic:_FillValue = 9.96921e+36f ; evap_lic:long_name = "evaporation at surface lic" ; evap_lic:online_operation = "ave(X)" ; evap_lic:interval_operation = 1800.f ; evap_lic:interval_write = 2678400.f ; evap_lic:coordinates = "time_counter lat lon" ; float sens_lic(time_counter, lat, lon) ; sens_lic:units = "W/m2" ; sens_lic:standard_name = "Sensible heat flux lic" ; sens_lic:_FillValue = 9.96921e+36f ; sens_lic:long_name = "Sensible heat flux lic" ; sens_lic:online_operation = "ave(X)" ; sens_lic:interval_operation = 1800.f ; sens_lic:interval_write = 2678400.f ; sens_lic:coordinates = "time_counter lat lon" ; float lat_lic(time_counter, lat, lon) ; lat_lic:units = "W/m2" ; lat_lic:standard_name = "Latent heat flux lic" ; lat_lic:_FillValue = 9.96921e+36f ; lat_lic:long_name = "Latent heat flux lic" ; lat_lic:online_operation = "ave(X)" ; lat_lic:interval_operation = 1800.f ; lat_lic:interval_write = 2678400.f ; lat_lic:coordinates = "time_counter lat lon" ; float flw_lic(time_counter, lat, lon) ; flw_lic:units = "W/m2" ; flw_lic:standard_name = "LW lic" ; flw_lic:_FillValue = 9.96921e+36f ; flw_lic:long_name = "LW lic" ; flw_lic:online_operation = "ave(X)" ; flw_lic:interval_operation = 1800.f ; flw_lic:interval_write = 2678400.f ; flw_lic:coordinates = "time_counter lat lon" ; float fsw_lic(time_counter, lat, lon) ; fsw_lic:units = "W/m2" ; fsw_lic:standard_name = "SW lic" ; fsw_lic:_FillValue = 9.96921e+36f ; fsw_lic:long_name = "SW lic" ; fsw_lic:online_operation = "ave(X)" ; fsw_lic:interval_operation = 1800.f ; fsw_lic:interval_write = 2678400.f ; fsw_lic:coordinates = "time_counter lat lon" ; float wbils_lic(time_counter, lat, lon) ; wbils_lic:units = "W/m2" ; wbils_lic:standard_name = "Bilan sol lic" ; wbils_lic:_FillValue = 9.96921e+36f ; wbils_lic:long_name = "Bilan sol lic" ; wbils_lic:online_operation = "ave(X)" ; wbils_lic:interval_operation = 1800.f ; wbils_lic:interval_write = 2678400.f ; wbils_lic:coordinates = "time_counter lat lon" ; float wbilo_lic(time_counter, lat, lon) ; wbilo_lic:units = "kg/(m2*s)" ; wbilo_lic:standard_name = "Bilan eau lic" ; wbilo_lic:_FillValue = 9.96921e+36f ; wbilo_lic:long_name = "Bilan eau lic" ; wbilo_lic:online_operation = "ave(X)" ; wbilo_lic:interval_operation = 1800.f ; wbilo_lic:interval_write = 2678400.f ; wbilo_lic:coordinates = "time_counter lat lon" ; float albe_lic(time_counter, lat, lon) ; albe_lic:units = "-" ; albe_lic:standard_name = "Albedo VIS surf. lic" ; albe_lic:_FillValue = 9.96921e+36f ; albe_lic:long_name = "Albedo VIS surf. lic" ; albe_lic:online_operation = "ave(X)" ; albe_lic:interval_operation = 1800.f ; albe_lic:interval_write = 2678400.f ; albe_lic:coordinates = "time_counter lat lon" ; float rugs_lic(time_counter, lat, lon) ; rugs_lic:units = "m" ; rugs_lic:standard_name = "Surface roughness lic" ; rugs_lic:_FillValue = 9.96921e+36f ; rugs_lic:long_name = "Surface roughness lic" ; rugs_lic:online_operation = "ave(X)" ; rugs_lic:interval_operation = 1800.f ; rugs_lic:interval_write = 2678400.f ; rugs_lic:coordinates = "time_counter lat lon" ; float ages_lic(time_counter, lat, lon) ; ages_lic:units = "day" ; ages_lic:standard_name = "Snow age" ; ages_lic:_FillValue = 9.96921e+36f ; ages_lic:long_name = "Snow age" ; ages_lic:online_operation = "ave(X)" ; ages_lic:interval_operation = 1800.f ; ages_lic:interval_write = 2678400.f ; ages_lic:coordinates = "time_counter lat lon" ; float pourc_oce(time_counter, lat, lon) ; pourc_oce:units = "%" ; pourc_oce:standard_name = "% oce" ; pourc_oce:_FillValue = 9.96921e+36f ; pourc_oce:long_name = "% oce" ; pourc_oce:online_operation = "ave(X)" ; pourc_oce:interval_operation = 1800.f ; pourc_oce:interval_write = 2678400.f ; pourc_oce:coordinates = "time_counter lat lon" ; float fract_oce(time_counter, lat, lon) ; fract_oce:units = "1" ; fract_oce:standard_name = "Fraction oce" ; fract_oce:_FillValue = 9.96921e+36f ; fract_oce:long_name = "Fraction oce" ; fract_oce:online_operation = "ave(X)" ; fract_oce:interval_operation = 1800.f ; fract_oce:interval_write = 2678400.f ; fract_oce:coordinates = "time_counter lat lon" ; float taux_oce(time_counter, lat, lon) ; taux_oce:units = "Pa" ; taux_oce:standard_name = "Zonal wind stressoce" ; taux_oce:_FillValue = 9.96921e+36f ; taux_oce:long_name = "Zonal wind stressoce" ; taux_oce:online_operation = "ave(X)" ; taux_oce:interval_operation = 1800.f ; taux_oce:interval_write = 2678400.f ; taux_oce:coordinates = "time_counter lat lon" ; float tauy_oce(time_counter, lat, lon) ; tauy_oce:units = "Pa" ; tauy_oce:standard_name = "Meridional wind stress oce" ; tauy_oce:_FillValue = 9.96921e+36f ; tauy_oce:long_name = "Meridional wind stress oce" ; tauy_oce:online_operation = "ave(X)" ; tauy_oce:interval_operation = 1800.f ; tauy_oce:interval_write = 2678400.f ; tauy_oce:coordinates = "time_counter lat lon" ; float tsol_oce(time_counter, lat, lon) ; tsol_oce:units = "K" ; tsol_oce:standard_name = "Temperature oce" ; tsol_oce:_FillValue = 9.96921e+36f ; tsol_oce:long_name = "Temperature oce" ; tsol_oce:online_operation = "ave(X)" ; tsol_oce:interval_operation = 1800.f ; tsol_oce:interval_write = 2678400.f ; tsol_oce:coordinates = "time_counter lat lon" ; float evap_oce(time_counter, lat, lon) ; evap_oce:units = "kg/(s*m2)" ; evap_oce:standard_name = "evaporation at surface oce" ; evap_oce:_FillValue = 9.96921e+36f ; evap_oce:long_name = "evaporation at surface oce" ; evap_oce:online_operation = "ave(X)" ; evap_oce:interval_operation = 1800.f ; evap_oce:interval_write = 2678400.f ; evap_oce:coordinates = "time_counter lat lon" ; float sens_oce(time_counter, lat, lon) ; sens_oce:units = "W/m2" ; sens_oce:standard_name = "Sensible heat flux oce" ; sens_oce:_FillValue = 9.96921e+36f ; sens_oce:long_name = "Sensible heat flux oce" ; sens_oce:online_operation = "ave(X)" ; sens_oce:interval_operation = 1800.f ; sens_oce:interval_write = 2678400.f ; sens_oce:coordinates = "time_counter lat lon" ; float lat_oce(time_counter, lat, lon) ; lat_oce:units = "W/m2" ; lat_oce:standard_name = "Latent heat flux oce" ; lat_oce:_FillValue = 9.96921e+36f ; lat_oce:long_name = "Latent heat flux oce" ; lat_oce:online_operation = "ave(X)" ; lat_oce:interval_operation = 1800.f ; lat_oce:interval_write = 2678400.f ; lat_oce:coordinates = "time_counter lat lon" ; float flw_oce(time_counter, lat, lon) ; flw_oce:units = "W/m2" ; flw_oce:standard_name = "LW oce" ; flw_oce:_FillValue = 9.96921e+36f ; flw_oce:long_name = "LW oce" ; flw_oce:online_operation = "ave(X)" ; flw_oce:interval_operation = 1800.f ; flw_oce:interval_write = 2678400.f ; flw_oce:coordinates = "time_counter lat lon" ; float fsw_oce(time_counter, lat, lon) ; fsw_oce:units = "W/m2" ; fsw_oce:standard_name = "SW oce" ; fsw_oce:_FillValue = 9.96921e+36f ; fsw_oce:long_name = "SW oce" ; fsw_oce:online_operation = "ave(X)" ; fsw_oce:interval_operation = 1800.f ; fsw_oce:interval_write = 2678400.f ; fsw_oce:coordinates = "time_counter lat lon" ; float wbils_oce(time_counter, lat, lon) ; wbils_oce:units = "W/m2" ; wbils_oce:standard_name = "Bilan sol oce" ; wbils_oce:_FillValue = 9.96921e+36f ; wbils_oce:long_name = "Bilan sol oce" ; wbils_oce:online_operation = "ave(X)" ; wbils_oce:interval_operation = 1800.f ; wbils_oce:interval_write = 2678400.f ; wbils_oce:coordinates = "time_counter lat lon" ; float wbilo_oce(time_counter, lat, lon) ; wbilo_oce:units = "kg/(m2*s)" ; wbilo_oce:standard_name = "Bilan eau oce" ; wbilo_oce:_FillValue = 9.96921e+36f ; wbilo_oce:long_name = "Bilan eau oce" ; wbilo_oce:online_operation = "ave(X)" ; wbilo_oce:interval_operation = 1800.f ; wbilo_oce:interval_write = 2678400.f ; wbilo_oce:coordinates = "time_counter lat lon" ; float albe_oce(time_counter, lat, lon) ; albe_oce:units = "-" ; albe_oce:standard_name = "Albedo VIS surf. oce" ; albe_oce:_FillValue = 9.96921e+36f ; albe_oce:long_name = "Albedo VIS surf. oce" ; albe_oce:online_operation = "ave(X)" ; albe_oce:interval_operation = 1800.f ; albe_oce:interval_write = 2678400.f ; albe_oce:coordinates = "time_counter lat lon" ; float rugs_oce(time_counter, lat, lon) ; rugs_oce:units = "m" ; rugs_oce:standard_name = "Surface roughness oce" ; rugs_oce:_FillValue = 9.96921e+36f ; rugs_oce:long_name = "Surface roughness oce" ; rugs_oce:online_operation = "ave(X)" ; rugs_oce:interval_operation = 1800.f ; rugs_oce:interval_write = 2678400.f ; rugs_oce:coordinates = "time_counter lat lon" ; float pourc_sic(time_counter, lat, lon) ; pourc_sic:units = "%" ; pourc_sic:standard_name = "% sic" ; pourc_sic:_FillValue = 9.96921e+36f ; pourc_sic:long_name = "% sic" ; pourc_sic:online_operation = "ave(X)" ; pourc_sic:interval_operation = 1800.f ; pourc_sic:interval_write = 2678400.f ; pourc_sic:coordinates = "time_counter lat lon" ; float fract_sic(time_counter, lat, lon) ; fract_sic:units = "1" ; fract_sic:standard_name = "Fraction sic" ; fract_sic:_FillValue = 9.96921e+36f ; fract_sic:long_name = "Fraction sic" ; fract_sic:online_operation = "ave(X)" ; fract_sic:interval_operation = 1800.f ; fract_sic:interval_write = 2678400.f ; fract_sic:coordinates = "time_counter lat lon" ; float taux_sic(time_counter, lat, lon) ; taux_sic:units = "Pa" ; taux_sic:standard_name = "Zonal wind stresssic" ; taux_sic:_FillValue = 9.96921e+36f ; taux_sic:long_name = "Zonal wind stresssic" ; taux_sic:online_operation = "ave(X)" ; taux_sic:interval_operation = 1800.f ; taux_sic:interval_write = 2678400.f ; taux_sic:coordinates = "time_counter lat lon" ; float tauy_sic(time_counter, lat, lon) ; tauy_sic:units = "Pa" ; tauy_sic:standard_name = "Meridional wind stress sic" ; tauy_sic:_FillValue = 9.96921e+36f ; tauy_sic:long_name = "Meridional wind stress sic" ; tauy_sic:online_operation = "ave(X)" ; tauy_sic:interval_operation = 1800.f ; tauy_sic:interval_write = 2678400.f ; tauy_sic:coordinates = "time_counter lat lon" ; float tsol_sic(time_counter, lat, lon) ; tsol_sic:units = "K" ; tsol_sic:standard_name = "Temperature sic" ; tsol_sic:_FillValue = 9.96921e+36f ; tsol_sic:long_name = "Temperature sic" ; tsol_sic:online_operation = "ave(X)" ; tsol_sic:interval_operation = 1800.f ; tsol_sic:interval_write = 2678400.f ; tsol_sic:coordinates = "time_counter lat lon" ; float evap_sic(time_counter, lat, lon) ; evap_sic:units = "kg/(s*m2)" ; evap_sic:standard_name = "evaporation at surface sic" ; evap_sic:_FillValue = 9.96921e+36f ; evap_sic:long_name = "evaporation at surface sic" ; evap_sic:online_operation = "ave(X)" ; evap_sic:interval_operation = 1800.f ; evap_sic:interval_write = 2678400.f ; evap_sic:coordinates = "time_counter lat lon" ; float sens_sic(time_counter, lat, lon) ; sens_sic:units = "W/m2" ; sens_sic:standard_name = "Sensible heat flux sic" ; sens_sic:_FillValue = 9.96921e+36f ; sens_sic:long_name = "Sensible heat flux sic" ; sens_sic:online_operation = "ave(X)" ; sens_sic:interval_operation = 1800.f ; sens_sic:interval_write = 2678400.f ; sens_sic:coordinates = "time_counter lat lon" ; float lat_sic(time_counter, lat, lon) ; lat_sic:units = "W/m2" ; lat_sic:standard_name = "Latent heat flux sic" ; lat_sic:_FillValue = 9.96921e+36f ; lat_sic:long_name = "Latent heat flux sic" ; lat_sic:online_operation = "ave(X)" ; lat_sic:interval_operation = 1800.f ; lat_sic:interval_write = 2678400.f ; lat_sic:coordinates = "time_counter lat lon" ; float flw_sic(time_counter, lat, lon) ; flw_sic:units = "W/m2" ; flw_sic:standard_name = "LW sic" ; flw_sic:_FillValue = 9.96921e+36f ; flw_sic:long_name = "LW sic" ; flw_sic:online_operation = "ave(X)" ; flw_sic:interval_operation = 1800.f ; flw_sic:interval_write = 2678400.f ; flw_sic:coordinates = "time_counter lat lon" ; float fsw_sic(time_counter, lat, lon) ; fsw_sic:units = "W/m2" ; fsw_sic:standard_name = "SW sic" ; fsw_sic:_FillValue = 9.96921e+36f ; fsw_sic:long_name = "SW sic" ; fsw_sic:online_operation = "ave(X)" ; fsw_sic:interval_operation = 1800.f ; fsw_sic:interval_write = 2678400.f ; fsw_sic:coordinates = "time_counter lat lon" ; float wbils_sic(time_counter, lat, lon) ; wbils_sic:units = "W/m2" ; wbils_sic:standard_name = "Bilan sol sic" ; wbils_sic:_FillValue = 9.96921e+36f ; wbils_sic:long_name = "Bilan sol sic" ; wbils_sic:online_operation = "ave(X)" ; wbils_sic:interval_operation = 1800.f ; wbils_sic:interval_write = 2678400.f ; wbils_sic:coordinates = "time_counter lat lon" ; float wbilo_sic(time_counter, lat, lon) ; wbilo_sic:units = "kg/(m2*s)" ; wbilo_sic:standard_name = "Bilan eau sic" ; wbilo_sic:_FillValue = 9.96921e+36f ; wbilo_sic:long_name = "Bilan eau sic" ; wbilo_sic:online_operation = "ave(X)" ; wbilo_sic:interval_operation = 1800.f ; wbilo_sic:interval_write = 2678400.f ; wbilo_sic:coordinates = "time_counter lat lon" ; float albe_sic(time_counter, lat, lon) ; albe_sic:units = "-" ; albe_sic:standard_name = "Albedo VIS surf. sic" ; albe_sic:_FillValue = 9.96921e+36f ; albe_sic:long_name = "Albedo VIS surf. sic" ; albe_sic:online_operation = "ave(X)" ; albe_sic:interval_operation = 1800.f ; albe_sic:interval_write = 2678400.f ; albe_sic:coordinates = "time_counter lat lon" ; float rugs_sic(time_counter, lat, lon) ; rugs_sic:units = "m" ; rugs_sic:standard_name = "Surface roughness sic" ; rugs_sic:_FillValue = 9.96921e+36f ; rugs_sic:long_name = "Surface roughness sic" ; rugs_sic:online_operation = "ave(X)" ; rugs_sic:interval_operation = 1800.f ; rugs_sic:interval_write = 2678400.f ; rugs_sic:coordinates = "time_counter lat lon" ; float ages_sic(time_counter, lat, lon) ; ages_sic:units = "day" ; ages_sic:standard_name = "Snow age" ; ages_sic:_FillValue = 9.96921e+36f ; ages_sic:long_name = "Snow age" ; ages_sic:online_operation = "ave(X)" ; ages_sic:interval_operation = 1800.f ; ages_sic:interval_write = 2678400.f ; ages_sic:coordinates = "time_counter lat lon" ; float od550aer(time_counter, lat, lon) ; od550aer:units = "-" ; od550aer:standard_name = "Total aerosol optical depth at 550nm" ; od550aer:_FillValue = 9.96921e+36f ; od550aer:long_name = "Total aerosol optical depth at 550nm" ; od550aer:online_operation = "ave(X)" ; od550aer:interval_operation = 1800.f ; od550aer:interval_write = 2678400.f ; od550aer:coordinates = "time_counter lat lon" ; float od865aer(time_counter, lat, lon) ; od865aer:units = "-" ; od865aer:standard_name = "Total aerosol optical depth at 870nm" ; od865aer:_FillValue = 9.96921e+36f ; od865aer:long_name = "Total aerosol optical depth at 870nm" ; od865aer:online_operation = "ave(X)" ; od865aer:interval_operation = 1800.f ; od865aer:interval_write = 2678400.f ; od865aer:coordinates = "time_counter lat lon" ; float absvisaer(time_counter, lat, lon) ; absvisaer:units = "-" ; absvisaer:standard_name = "Absorption aerosol visible optical depth" ; absvisaer:_FillValue = 9.96921e+36f ; absvisaer:long_name = "Absorption aerosol visible optical depth" ; absvisaer:online_operation = "ave(X)" ; absvisaer:interval_operation = 1800.f ; absvisaer:interval_write = 2678400.f ; absvisaer:coordinates = "time_counter lat lon" ; float od550lt1aer(time_counter, lat, lon) ; od550lt1aer:units = "-" ; od550lt1aer:standard_name = "Fine mode optical depth" ; od550lt1aer:_FillValue = 9.96921e+36f ; od550lt1aer:long_name = "Fine mode optical depth" ; od550lt1aer:online_operation = "ave(X)" ; od550lt1aer:interval_operation = 1800.f ; od550lt1aer:interval_write = 2678400.f ; od550lt1aer:coordinates = "time_counter lat lon" ; float sconcso4(time_counter, lat, lon) ; sconcso4:units = "kg/m3" ; sconcso4:standard_name = "Surface Concentration of Sulfate" ; sconcso4:_FillValue = 9.96921e+36f ; sconcso4:long_name = "Surface Concentration of Sulfate" ; sconcso4:online_operation = "ave(X)" ; sconcso4:interval_operation = 1800.f ; sconcso4:interval_write = 2678400.f ; sconcso4:coordinates = "time_counter lat lon" ; float sconcoa(time_counter, lat, lon) ; sconcoa:units = "kg/m3" ; sconcoa:standard_name = "Surface Concentration of Organic Aerosol" ; sconcoa:_FillValue = 9.96921e+36f ; sconcoa:long_name = "Surface Concentration of Organic Aerosol" ; sconcoa:online_operation = "ave(X)" ; sconcoa:interval_operation = 1800.f ; sconcoa:interval_write = 2678400.f ; sconcoa:coordinates = "time_counter lat lon" ; float sconcbc(time_counter, lat, lon) ; sconcbc:units = "kg/m3" ; sconcbc:standard_name = "Surface Concentration of Black Carbon" ; sconcbc:_FillValue = 9.96921e+36f ; sconcbc:long_name = "Surface Concentration of Black Carbon" ; sconcbc:online_operation = "ave(X)" ; sconcbc:interval_operation = 1800.f ; sconcbc:interval_write = 2678400.f ; sconcbc:coordinates = "time_counter lat lon" ; float sconcss(time_counter, lat, lon) ; sconcss:units = "kg/m3" ; sconcss:standard_name = "Surface Concentration of Sea Salt" ; sconcss:_FillValue = 9.96921e+36f ; sconcss:long_name = "Surface Concentration of Sea Salt" ; sconcss:online_operation = "ave(X)" ; sconcss:interval_operation = 1800.f ; sconcss:interval_write = 2678400.f ; sconcss:coordinates = "time_counter lat lon" ; float sconcdust(time_counter, lat, lon) ; sconcdust:units = "kg/m3" ; sconcdust:standard_name = "Surface Concentration of Dust" ; sconcdust:_FillValue = 9.96921e+36f ; sconcdust:long_name = "Surface Concentration of Dust" ; sconcdust:online_operation = "ave(X)" ; sconcdust:interval_operation = 1800.f ; sconcdust:interval_write = 2678400.f ; sconcdust:coordinates = "time_counter lat lon" ; float concso4(time_counter, presnivs, lat, lon) ; concso4:units = "kg/m3" ; concso4:standard_name = "Concentration of Sulfate" ; concso4:_FillValue = 9.96921e+36f ; concso4:long_name = "Concentration of Sulfate" ; concso4:online_operation = "ave(X)" ; concso4:interval_operation = 1800.f ; concso4:interval_write = 2678400.f ; concso4:coordinates = "time_counter presnivs lat lon" ; float concoa(time_counter, presnivs, lat, lon) ; concoa:units = "kg/m3" ; concoa:standard_name = "Concentration of Organic Aerosol" ; concoa:_FillValue = 9.96921e+36f ; concoa:long_name = "Concentration of Organic Aerosol" ; concoa:online_operation = "ave(X)" ; concoa:interval_operation = 1800.f ; concoa:interval_write = 2678400.f ; concoa:coordinates = "time_counter presnivs lat lon" ; float concbc(time_counter, presnivs, lat, lon) ; concbc:units = "kg/m3" ; concbc:standard_name = "Concentration of Black Carbon" ; concbc:_FillValue = 9.96921e+36f ; concbc:long_name = "Concentration of Black Carbon" ; concbc:online_operation = "ave(X)" ; concbc:interval_operation = 1800.f ; concbc:interval_write = 2678400.f ; concbc:coordinates = "time_counter presnivs lat lon" ; float concss(time_counter, presnivs, lat, lon) ; concss:units = "kg/m3" ; concss:standard_name = "Concentration of Sea Salt" ; concss:_FillValue = 9.96921e+36f ; concss:long_name = "Concentration of Sea Salt" ; concss:online_operation = "ave(X)" ; concss:interval_operation = 1800.f ; concss:interval_write = 2678400.f ; concss:coordinates = "time_counter presnivs lat lon" ; float concdust(time_counter, presnivs, lat, lon) ; concdust:units = "kg/m3" ; concdust:standard_name = "Concentration of Dust" ; concdust:_FillValue = 9.96921e+36f ; concdust:long_name = "Concentration of Dust" ; concdust:online_operation = "ave(X)" ; concdust:interval_operation = 1800.f ; concdust:interval_write = 2678400.f ; concdust:coordinates = "time_counter presnivs lat lon" ; float loadso4(time_counter, lat, lon) ; loadso4:units = "kg/m2" ; loadso4:standard_name = "Column Load of Sulfate" ; loadso4:_FillValue = 9.96921e+36f ; loadso4:long_name = "Column Load of Sulfate" ; loadso4:online_operation = "ave(X)" ; loadso4:interval_operation = 1800.f ; loadso4:interval_write = 2678400.f ; loadso4:coordinates = "time_counter lat lon" ; float loadoa(time_counter, lat, lon) ; loadoa:units = "kg/m2" ; loadoa:standard_name = "Column Load of Organic Aerosol" ; loadoa:_FillValue = 9.96921e+36f ; loadoa:long_name = "Column Load of Organic Aerosol" ; loadoa:online_operation = "ave(X)" ; loadoa:interval_operation = 1800.f ; loadoa:interval_write = 2678400.f ; loadoa:coordinates = "time_counter lat lon" ; float loadbc(time_counter, lat, lon) ; loadbc:units = "kg/m2" ; loadbc:standard_name = "Column Load of Black Carbon" ; loadbc:_FillValue = 9.96921e+36f ; loadbc:long_name = "Column Load of Black Carbon" ; loadbc:online_operation = "ave(X)" ; loadbc:interval_operation = 1800.f ; loadbc:interval_write = 2678400.f ; loadbc:coordinates = "time_counter lat lon" ; float loadss(time_counter, lat, lon) ; loadss:units = "kg/m2" ; loadss:standard_name = "Column Load of Sea Salt" ; loadss:_FillValue = 9.96921e+36f ; loadss:long_name = "Column Load of Sea Salt" ; loadss:online_operation = "ave(X)" ; loadss:interval_operation = 1800.f ; loadss:interval_write = 2678400.f ; loadss:coordinates = "time_counter lat lon" ; float loaddust(time_counter, lat, lon) ; loaddust:units = "kg/m2" ; loaddust:standard_name = "Column Load of Dust" ; loaddust:_FillValue = 9.96921e+36f ; loaddust:long_name = "Column Load of Dust" ; loaddust:online_operation = "ave(X)" ; loaddust:interval_operation = 1800.f ; loaddust:interval_write = 2678400.f ; loaddust:coordinates = "time_counter lat lon" ; float OD550_ASBCM(time_counter, lat, lon) ; OD550_ASBCM:units = "1" ; OD550_ASBCM:standard_name = "Aerosol Optical depth at 550 nm ASBCM" ; OD550_ASBCM:_FillValue = 9.96921e+36f ; OD550_ASBCM:long_name = "Aerosol Optical depth at 550 nm ASBCM" ; OD550_ASBCM:online_operation = "ave(X)" ; OD550_ASBCM:interval_operation = 1800.f ; OD550_ASBCM:interval_write = 2678400.f ; OD550_ASBCM:coordinates = "time_counter lat lon" ; float OD550_ASPOMM(time_counter, lat, lon) ; OD550_ASPOMM:units = "1" ; OD550_ASPOMM:standard_name = "Aerosol Optical depth at 550 nm ASPOMM" ; OD550_ASPOMM:_FillValue = 9.96921e+36f ; OD550_ASPOMM:long_name = "Aerosol Optical depth at 550 nm ASPOMM" ; OD550_ASPOMM:online_operation = "ave(X)" ; OD550_ASPOMM:interval_operation = 1800.f ; OD550_ASPOMM:interval_write = 2678400.f ; OD550_ASPOMM:coordinates = "time_counter lat lon" ; float OD550_ASSO4M(time_counter, lat, lon) ; OD550_ASSO4M:units = "1" ; OD550_ASSO4M:standard_name = "Aerosol Optical depth at 550 nm SO4" ; OD550_ASSO4M:_FillValue = 9.96921e+36f ; OD550_ASSO4M:long_name = "Aerosol Optical depth at 550 nm SO4" ; OD550_ASSO4M:online_operation = "ave(X)" ; OD550_ASSO4M:interval_operation = 1800.f ; OD550_ASSO4M:interval_write = 2678400.f ; OD550_ASSO4M:coordinates = "time_counter lat lon" ; float OD550_CSSO4M(time_counter, lat, lon) ; OD550_CSSO4M:units = "1" ; OD550_CSSO4M:standard_name = "Aerosol Optical depth at 550 nm CSSO4M" ; OD550_CSSO4M:_FillValue = 9.96921e+36f ; OD550_CSSO4M:long_name = "Aerosol Optical depth at 550 nm CSSO4M" ; OD550_CSSO4M:online_operation = "ave(X)" ; OD550_CSSO4M:interval_operation = 1800.f ; OD550_CSSO4M:interval_write = 2678400.f ; OD550_CSSO4M:coordinates = "time_counter lat lon" ; float OD550_SSSSM(time_counter, lat, lon) ; OD550_SSSSM:units = "1" ; OD550_SSSSM:standard_name = "Aerosol Optical depth at 550 nm SSSSM" ; OD550_SSSSM:_FillValue = 9.96921e+36f ; OD550_SSSSM:long_name = "Aerosol Optical depth at 550 nm SSSSM" ; OD550_SSSSM:online_operation = "ave(X)" ; OD550_SSSSM:interval_operation = 1800.f ; OD550_SSSSM:interval_write = 2678400.f ; OD550_SSSSM:coordinates = "time_counter lat lon" ; float OD550_ASSSM(time_counter, lat, lon) ; OD550_ASSSM:units = "1" ; OD550_ASSSM:standard_name = "Aerosol Optical depth at 550 nm CSSSM" ; OD550_ASSSM:_FillValue = 9.96921e+36f ; OD550_ASSSM:long_name = "Aerosol Optical depth at 550 nm CSSSM" ; OD550_ASSSM:online_operation = "ave(X)" ; OD550_ASSSM:interval_operation = 1800.f ; OD550_ASSSM:interval_write = 2678400.f ; OD550_ASSSM:coordinates = "time_counter lat lon" ; float OD550_CSSSM(time_counter, lat, lon) ; OD550_CSSSM:units = "1" ; OD550_CSSSM:standard_name = "Aerosol Optical depth at 550 nm ASSSM" ; OD550_CSSSM:_FillValue = 9.96921e+36f ; OD550_CSSSM:long_name = "Aerosol Optical depth at 550 nm ASSSM" ; OD550_CSSSM:online_operation = "ave(X)" ; OD550_CSSSM:interval_operation = 1800.f ; OD550_CSSSM:interval_write = 2678400.f ; OD550_CSSSM:coordinates = "time_counter lat lon" ; float OD550_CIDUSTM(time_counter, lat, lon) ; OD550_CIDUSTM:units = "1" ; OD550_CIDUSTM:standard_name = "Aerosol Optical depth at 550 nm CIDUSTM" ; OD550_CIDUSTM:_FillValue = 9.96921e+36f ; OD550_CIDUSTM:long_name = "Aerosol Optical depth at 550 nm CIDUSTM" ; OD550_CIDUSTM:online_operation = "ave(X)" ; OD550_CIDUSTM:interval_operation = 1800.f ; OD550_CIDUSTM:interval_write = 2678400.f ; OD550_CIDUSTM:coordinates = "time_counter lat lon" ; float OD550_AIBCM(time_counter, lat, lon) ; OD550_AIBCM:units = "1" ; OD550_AIBCM:standard_name = "Aerosol Optical depth at 550 nm AIBCM" ; OD550_AIBCM:_FillValue = 9.96921e+36f ; OD550_AIBCM:long_name = "Aerosol Optical depth at 550 nm AIBCM" ; OD550_AIBCM:online_operation = "ave(X)" ; OD550_AIBCM:interval_operation = 1800.f ; OD550_AIBCM:interval_write = 2678400.f ; OD550_AIBCM:coordinates = "time_counter lat lon" ; float OD550_AIPOMM(time_counter, lat, lon) ; OD550_AIPOMM:units = "1" ; OD550_AIPOMM:standard_name = "Aerosol Optical depth at 550 nm AIPOMM" ; OD550_AIPOMM:_FillValue = 9.96921e+36f ; OD550_AIPOMM:long_name = "Aerosol Optical depth at 550 nm AIPOMM" ; OD550_AIPOMM:online_operation = "ave(X)" ; OD550_AIPOMM:interval_operation = 1800.f ; OD550_AIPOMM:interval_write = 2678400.f ; OD550_AIPOMM:coordinates = "time_counter lat lon" ; float topswad(time_counter, lat, lon) ; topswad:units = "W/m2" ; topswad:standard_name = "ADE at TOA" ; topswad:_FillValue = 9.96921e+36f ; topswad:long_name = "ADE at TOA" ; topswad:online_operation = "ave(X)" ; topswad:interval_operation = 1800.f ; topswad:interval_write = 2678400.f ; topswad:coordinates = "time_counter lat lon" ; float solswad(time_counter, lat, lon) ; solswad:units = "W/m2" ; solswad:standard_name = "ADE at SRF" ; solswad:_FillValue = 9.96921e+36f ; solswad:long_name = "ADE at SRF" ; solswad:online_operation = "ave(X)" ; solswad:interval_operation = 1800.f ; solswad:interval_write = 2678400.f ; solswad:coordinates = "time_counter lat lon" ; float swtoaas_nat(time_counter, lat, lon) ; swtoaas_nat:units = "W/m2" ; swtoaas_nat:standard_name = "Natural aerosol radiative forcing all-sky at TOA" ; swtoaas_nat:_FillValue = 9.96921e+36f ; swtoaas_nat:long_name = "Natural aerosol radiative forcing all-sky at TOA" ; swtoaas_nat:online_operation = "ave(X)" ; swtoaas_nat:interval_operation = 1800.f ; swtoaas_nat:interval_write = 2678400.f ; swtoaas_nat:coordinates = "time_counter lat lon" ; float swsrfas_nat(time_counter, lat, lon) ; swsrfas_nat:units = "W/m2" ; swsrfas_nat:standard_name = "Natural aerosol radiative forcing all-sky at SRF" ; swsrfas_nat:_FillValue = 9.96921e+36f ; swsrfas_nat:long_name = "Natural aerosol radiative forcing all-sky at SRF" ; swsrfas_nat:online_operation = "ave(X)" ; swsrfas_nat:interval_operation = 1800.f ; swsrfas_nat:interval_write = 2678400.f ; swsrfas_nat:coordinates = "time_counter lat lon" ; float swtoacs_nat(time_counter, lat, lon) ; swtoacs_nat:units = "W/m2" ; swtoacs_nat:standard_name = "Natural aerosol radiative forcing clear-sky at TOA" ; swtoacs_nat:_FillValue = 9.96921e+36f ; swtoacs_nat:long_name = "Natural aerosol radiative forcing clear-sky at TOA" ; swtoacs_nat:online_operation = "ave(X)" ; swtoacs_nat:interval_operation = 1800.f ; swtoacs_nat:interval_write = 2678400.f ; swtoacs_nat:coordinates = "time_counter lat lon" ; float swsrfcs_nat(time_counter, lat, lon) ; swsrfcs_nat:units = "W/m2" ; swsrfcs_nat:standard_name = "Natural aerosol radiative forcing clear-sky at SRF" ; swsrfcs_nat:_FillValue = 9.96921e+36f ; swsrfcs_nat:long_name = "Natural aerosol radiative forcing clear-sky at SRF" ; swsrfcs_nat:online_operation = "ave(X)" ; swsrfcs_nat:interval_operation = 1800.f ; swsrfcs_nat:interval_write = 2678400.f ; swsrfcs_nat:coordinates = "time_counter lat lon" ; float swtoaas_ant(time_counter, lat, lon) ; swtoaas_ant:units = "W/m2" ; swtoaas_ant:standard_name = "Anthropogenic aerosol radiative forcing all-sky at TOA" ; swtoaas_ant:_FillValue = 9.96921e+36f ; swtoaas_ant:long_name = "Anthropogenic aerosol radiative forcing all-sky at TOA" ; swtoaas_ant:online_operation = "ave(X)" ; swtoaas_ant:interval_operation = 1800.f ; swtoaas_ant:interval_write = 2678400.f ; swtoaas_ant:coordinates = "time_counter lat lon" ; float swsrfas_ant(time_counter, lat, lon) ; swsrfas_ant:units = "W/m2" ; swsrfas_ant:standard_name = "Anthropogenic aerosol radiative forcing all-sky at SRF" ; swsrfas_ant:_FillValue = 9.96921e+36f ; swsrfas_ant:long_name = "Anthropogenic aerosol radiative forcing all-sky at SRF" ; swsrfas_ant:online_operation = "ave(X)" ; swsrfas_ant:interval_operation = 1800.f ; swsrfas_ant:interval_write = 2678400.f ; swsrfas_ant:coordinates = "time_counter lat lon" ; float swtoacs_ant(time_counter, lat, lon) ; swtoacs_ant:units = "W/m2" ; swtoacs_ant:standard_name = "Anthropogenic aerosol radiative forcing clear-sky at TOA" ; swtoacs_ant:_FillValue = 9.96921e+36f ; swtoacs_ant:long_name = "Anthropogenic aerosol radiative forcing clear-sky at TOA" ; swtoacs_ant:online_operation = "ave(X)" ; swtoacs_ant:interval_operation = 1800.f ; swtoacs_ant:interval_write = 2678400.f ; swtoacs_ant:coordinates = "time_counter lat lon" ; float swsrfcs_ant(time_counter, lat, lon) ; swsrfcs_ant:units = "W/m2" ; swsrfcs_ant:standard_name = "Anthropogenic aerosol radiative forcing clear-sky at SRF" ; swsrfcs_ant:_FillValue = 9.96921e+36f ; swsrfcs_ant:long_name = "Anthropogenic aerosol radiative forcing clear-sky at SRF" ; swsrfcs_ant:online_operation = "ave(X)" ; swsrfcs_ant:interval_operation = 1800.f ; swsrfcs_ant:interval_write = 2678400.f ; swsrfcs_ant:coordinates = "time_counter lat lon" ; float swtoacf_nat(time_counter, lat, lon) ; swtoacf_nat:units = "W/m2" ; swtoacf_nat:standard_name = "Natural aerosol impact on cloud radiative forcing at TOA" ; swtoacf_nat:_FillValue = 9.96921e+36f ; swtoacf_nat:long_name = "Natural aerosol impact on cloud radiative forcing at TOA" ; swtoacf_nat:online_operation = "ave(X)" ; swtoacf_nat:interval_operation = 1800.f ; swtoacf_nat:interval_write = 2678400.f ; swtoacf_nat:coordinates = "time_counter lat lon" ; float swsrfcf_nat(time_counter, lat, lon) ; swsrfcf_nat:units = "W/m2" ; swsrfcf_nat:standard_name = "Natural aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_nat:_FillValue = 9.96921e+36f ; swsrfcf_nat:long_name = "Natural aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_nat:online_operation = "ave(X)" ; swsrfcf_nat:interval_operation = 1800.f ; swsrfcf_nat:interval_write = 2678400.f ; swsrfcf_nat:coordinates = "time_counter lat lon" ; float swtoacf_ant(time_counter, lat, lon) ; swtoacf_ant:units = "W/m2" ; swtoacf_ant:standard_name = "Anthropogenic aerosol impact on cloud radiative forcing at TOA" ; swtoacf_ant:_FillValue = 9.96921e+36f ; swtoacf_ant:long_name = "Anthropogenic aerosol impact on cloud radiative forcing at TOA" ; swtoacf_ant:online_operation = "ave(X)" ; swtoacf_ant:interval_operation = 1800.f ; swtoacf_ant:interval_write = 2678400.f ; swtoacf_ant:coordinates = "time_counter lat lon" ; float swsrfcf_ant(time_counter, lat, lon) ; swsrfcf_ant:units = "W/m2" ; swsrfcf_ant:standard_name = "Anthropogenic aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_ant:_FillValue = 9.96921e+36f ; swsrfcf_ant:long_name = "Anthropogenic aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_ant:online_operation = "ave(X)" ; swsrfcf_ant:interval_operation = 1800.f ; swsrfcf_ant:interval_write = 2678400.f ; swsrfcf_ant:coordinates = "time_counter lat lon" ; float swtoacf_zero(time_counter, lat, lon) ; swtoacf_zero:units = "W/m2" ; swtoacf_zero:standard_name = "Cloud radiative forcing (allsky-clearsky fluxes) at TOA" ; swtoacf_zero:_FillValue = 9.96921e+36f ; swtoacf_zero:long_name = "Cloud radiative forcing (allsky-clearsky fluxes) at TOA" ; swtoacf_zero:online_operation = "ave(X)" ; swtoacf_zero:interval_operation = 1800.f ; swtoacf_zero:interval_write = 2678400.f ; swtoacf_zero:coordinates = "time_counter lat lon" ; float swsrfcf_zero(time_counter, lat, lon) ; swsrfcf_zero:units = "W/m2" ; swsrfcf_zero:standard_name = "Cloud radiative forcing (allsky-clearsky fluxes) at SRF" ; swsrfcf_zero:_FillValue = 9.96921e+36f ; swsrfcf_zero:long_name = "Cloud radiative forcing (allsky-clearsky fluxes) at SRF" ; swsrfcf_zero:online_operation = "ave(X)" ; swsrfcf_zero:interval_operation = 1800.f ; swsrfcf_zero:interval_write = 2678400.f ; swsrfcf_zero:coordinates = "time_counter lat lon" ; float topswai(time_counter, lat, lon) ; topswai:units = "W/m2" ; topswai:standard_name = "AIE at TOA" ; topswai:_FillValue = 9.96921e+36f ; topswai:long_name = "AIE at TOA" ; topswai:online_operation = "ave(X)" ; topswai:interval_operation = 1800.f ; topswai:interval_write = 2678400.f ; topswai:coordinates = "time_counter lat lon" ; float solswai(time_counter, lat, lon) ; solswai:units = "W/m2" ; solswai:standard_name = "AIE at SFR" ; solswai:_FillValue = 9.96921e+36f ; solswai:long_name = "AIE at SFR" ; solswai:online_operation = "ave(X)" ; solswai:interval_operation = 1800.f ; solswai:interval_write = 2678400.f ; solswai:coordinates = "time_counter lat lon" ; float scdnc(time_counter, presnivs, lat, lon) ; scdnc:units = "m-3" ; scdnc:standard_name = "Cloud droplet number concentration" ; scdnc:_FillValue = 9.96921e+36f ; scdnc:long_name = "Cloud droplet number concentration" ; scdnc:online_operation = "ave(X)" ; scdnc:interval_operation = 1800.f ; scdnc:interval_write = 2678400.f ; scdnc:coordinates = "time_counter presnivs lat lon" ; float cldncl(time_counter, lat, lon) ; cldncl:units = "m-3" ; cldncl:standard_name = "CDNC at top of liquid water cloud" ; cldncl:_FillValue = 9.96921e+36f ; cldncl:long_name = "CDNC at top of liquid water cloud" ; cldncl:online_operation = "ave(X)" ; cldncl:interval_operation = 1800.f ; cldncl:interval_write = 2678400.f ; cldncl:coordinates = "time_counter lat lon" ; float reffclws(time_counter, presnivs, lat, lon) ; reffclws:units = "m" ; reffclws:standard_name = "Stratiform Cloud Droplet Effective Radius" ; reffclws:_FillValue = 9.96921e+36f ; reffclws:long_name = "Stratiform Cloud Droplet Effective Radius" ; reffclws:online_operation = "ave(X)" ; reffclws:interval_operation = 1800.f ; reffclws:interval_write = 2678400.f ; reffclws:coordinates = "time_counter presnivs lat lon" ; float reffclwc(time_counter, presnivs, lat, lon) ; reffclwc:units = "m" ; reffclwc:standard_name = "Convective Cloud Droplet Effective Radius" ; reffclwc:_FillValue = 9.96921e+36f ; reffclwc:long_name = "Convective Cloud Droplet Effective Radius" ; reffclwc:online_operation = "ave(X)" ; reffclwc:interval_operation = 1800.f ; reffclwc:interval_write = 2678400.f ; reffclwc:coordinates = "time_counter presnivs lat lon" ; float cldnvi(time_counter, lat, lon) ; cldnvi:units = "m-2" ; cldnvi:standard_name = "Column Integrated Cloud Droplet Number" ; cldnvi:_FillValue = 9.96921e+36f ; cldnvi:long_name = "Column Integrated Cloud Droplet Number" ; cldnvi:online_operation = "ave(X)" ; cldnvi:interval_operation = 1800.f ; cldnvi:interval_write = 2678400.f ; cldnvi:coordinates = "time_counter lat lon" ; float lcc3d(time_counter, presnivs, lat, lon) ; lcc3d:units = "1" ; lcc3d:standard_name = "Cloud liquid fraction" ; lcc3d:_FillValue = 9.96921e+36f ; lcc3d:long_name = "Cloud liquid fraction" ; lcc3d:online_operation = "ave(X)" ; lcc3d:interval_operation = 1800.f ; lcc3d:interval_write = 2678400.f ; lcc3d:coordinates = "time_counter presnivs lat lon" ; float lcc3dcon(time_counter, presnivs, lat, lon) ; lcc3dcon:units = "1" ; lcc3dcon:standard_name = "Convective cloud liquid fraction" ; lcc3dcon:_FillValue = 9.96921e+36f ; lcc3dcon:long_name = "Convective cloud liquid fraction" ; lcc3dcon:online_operation = "ave(X)" ; lcc3dcon:interval_operation = 1800.f ; lcc3dcon:interval_write = 2678400.f ; lcc3dcon:coordinates = "time_counter presnivs lat lon" ; float lcc3dstra(time_counter, presnivs, lat, lon) ; lcc3dstra:units = "1" ; lcc3dstra:standard_name = "Stratiform cloud liquid fraction" ; lcc3dstra:_FillValue = 9.96921e+36f ; lcc3dstra:long_name = "Stratiform cloud liquid fraction" ; lcc3dstra:online_operation = "ave(X)" ; lcc3dstra:interval_operation = 1800.f ; lcc3dstra:interval_write = 2678400.f ; lcc3dstra:coordinates = "time_counter presnivs lat lon" ; float lcc(time_counter, lat, lon) ; lcc:units = "1" ; lcc:standard_name = "Cloud liquid fraction at top of cloud" ; lcc:_FillValue = 9.96921e+36f ; lcc:long_name = "Cloud liquid fraction at top of cloud" ; lcc:online_operation = "ave(X)" ; lcc:interval_operation = 1800.f ; lcc:interval_write = 2678400.f ; lcc:coordinates = "time_counter lat lon" ; float reffclwtop(time_counter, lat, lon) ; reffclwtop:units = "m" ; reffclwtop:standard_name = "Droplet effective radius at top of liquid water cloud" ; reffclwtop:_FillValue = 9.96921e+36f ; reffclwtop:long_name = "Droplet effective radius at top of liquid water cloud" ; reffclwtop:online_operation = "ave(X)" ; reffclwtop:interval_operation = 1800.f ; reffclwtop:interval_write = 2678400.f ; reffclwtop:coordinates = "time_counter lat lon" ; float alb1(time_counter, lat, lon) ; alb1:units = "-" ; alb1:standard_name = "Surface VIS albedo" ; alb1:_FillValue = 9.96921e+36f ; alb1:long_name = "Surface VIS albedo" ; alb1:online_operation = "ave(X)" ; alb1:interval_operation = 1800.f ; alb1:interval_write = 2678400.f ; alb1:coordinates = "time_counter lat lon" ; float alb2(time_counter, lat, lon) ; alb2:units = "-" ; alb2:standard_name = "Surface Near IR albedo" ; alb2:_FillValue = 9.96921e+36f ; alb2:long_name = "Surface Near IR albedo" ; alb2:online_operation = "ave(X)" ; alb2:interval_operation = 1800.f ; alb2:interval_write = 2678400.f ; alb2:coordinates = "time_counter lat lon" ; float cdrm(time_counter, lat, lon) ; cdrm:units = "-" ; cdrm:standard_name = "Momentum drag coef." ; cdrm:_FillValue = 9.96921e+36f ; cdrm:long_name = "Momentum drag coef." ; cdrm:online_operation = "ave(X)" ; cdrm:interval_operation = 1800.f ; cdrm:interval_write = 2678400.f ; cdrm:coordinates = "time_counter lat lon" ; float cdrh(time_counter, lat, lon) ; cdrh:units = "-" ; cdrh:standard_name = "Heat drag coef." ; cdrh:_FillValue = 9.96921e+36f ; cdrh:long_name = "Heat drag coef." ; cdrh:online_operation = "ave(X)" ; cdrh:interval_operation = 1800.f ; cdrh:interval_write = 2678400.f ; cdrh:coordinates = "time_counter lat lon" ; float cldl(time_counter, lat, lon) ; cldl:units = "-" ; cldl:standard_name = "Low-level cloudiness" ; cldl:_FillValue = 9.96921e+36f ; cldl:long_name = "Low-level cloudiness" ; cldl:online_operation = "ave(X)" ; cldl:interval_operation = 1800.f ; cldl:interval_write = 2678400.f ; cldl:coordinates = "time_counter lat lon" ; float cldm(time_counter, lat, lon) ; cldm:units = "-" ; cldm:standard_name = "Mid-level cloudiness" ; cldm:_FillValue = 9.96921e+36f ; cldm:long_name = "Mid-level cloudiness" ; cldm:online_operation = "ave(X)" ; cldm:interval_operation = 1800.f ; cldm:interval_write = 2678400.f ; cldm:coordinates = "time_counter lat lon" ; float cldh(time_counter, lat, lon) ; cldh:units = "-" ; cldh:standard_name = "High-level cloudiness" ; cldh:_FillValue = 9.96921e+36f ; cldh:long_name = "High-level cloudiness" ; cldh:online_operation = "ave(X)" ; cldh:interval_operation = 1800.f ; cldh:interval_write = 2678400.f ; cldh:coordinates = "time_counter lat lon" ; float cldt(time_counter, lat, lon) ; cldt:units = "-" ; cldt:standard_name = "Total cloudiness" ; cldt:_FillValue = 9.96921e+36f ; cldt:long_name = "Total cloudiness" ; cldt:online_operation = "ave(X)" ; cldt:interval_operation = 1800.f ; cldt:interval_write = 2678400.f ; cldt:coordinates = "time_counter lat lon" ; float cldq(time_counter, lat, lon) ; cldq:units = "kg/m2" ; cldq:standard_name = "Cloud liquid water path" ; cldq:_FillValue = 9.96921e+36f ; cldq:long_name = "Cloud liquid water path" ; cldq:online_operation = "ave(X)" ; cldq:interval_operation = 1800.f ; cldq:interval_write = 2678400.f ; cldq:coordinates = "time_counter lat lon" ; float lwp(time_counter, lat, lon) ; lwp:units = "kg/m2" ; lwp:standard_name = "Cloud water path" ; lwp:_FillValue = 9.96921e+36f ; lwp:long_name = "Cloud water path" ; lwp:online_operation = "ave(X)" ; lwp:interval_operation = 1800.f ; lwp:interval_write = 2678400.f ; lwp:coordinates = "time_counter lat lon" ; float iwp(time_counter, lat, lon) ; iwp:units = "kg/m2" ; iwp:standard_name = "Cloud ice water path" ; iwp:_FillValue = 9.96921e+36f ; iwp:long_name = "Cloud ice water path" ; iwp:online_operation = "ave(X)" ; iwp:interval_operation = 1800.f ; iwp:interval_write = 2678400.f ; iwp:coordinates = "time_counter lat lon" ; float ue(time_counter, lat, lon) ; ue:units = "-" ; ue:standard_name = "Zonal energy transport" ; ue:_FillValue = 9.96921e+36f ; ue:long_name = "Zonal energy transport" ; ue:online_operation = "ave(X)" ; ue:interval_operation = 1800.f ; ue:interval_write = 2678400.f ; ue:coordinates = "time_counter lat lon" ; float ve(time_counter, lat, lon) ; ve:units = "-" ; ve:standard_name = "Merid energy transport" ; ve:_FillValue = 9.96921e+36f ; ve:long_name = "Merid energy transport" ; ve:online_operation = "ave(X)" ; ve:interval_operation = 1800.f ; ve:interval_write = 2678400.f ; ve:coordinates = "time_counter lat lon" ; float uq(time_counter, lat, lon) ; uq:units = "-" ; uq:standard_name = "Zonal humidity transport" ; uq:_FillValue = 9.96921e+36f ; uq:long_name = "Zonal humidity transport" ; uq:online_operation = "ave(X)" ; uq:interval_operation = 1800.f ; uq:interval_write = 2678400.f ; uq:coordinates = "time_counter lat lon" ; float vq(time_counter, lat, lon) ; vq:units = "-" ; vq:standard_name = "Merid humidity transport" ; vq:_FillValue = 9.96921e+36f ; vq:long_name = "Merid humidity transport" ; vq:online_operation = "ave(X)" ; vq:interval_operation = 1800.f ; vq:interval_write = 2678400.f ; vq:coordinates = "time_counter lat lon" ; float cape(time_counter, lat, lon) ; cape:units = "J/kg" ; cape:standard_name = "Conv avlbl pot ener" ; cape:_FillValue = 9.96921e+36f ; cape:long_name = "Conv avlbl pot ener" ; cape:online_operation = "ave(X)" ; cape:interval_operation = 1800.f ; cape:interval_write = 2678400.f ; cape:coordinates = "time_counter lat lon" ; float pbase(time_counter, lat, lon) ; pbase:units = "Pa" ; pbase:standard_name = "Cld base pressure" ; pbase:_FillValue = 9.96921e+36f ; pbase:long_name = "Cld base pressure" ; pbase:online_operation = "ave(X)" ; pbase:interval_operation = 1800.f ; pbase:interval_write = 2678400.f ; pbase:coordinates = "time_counter lat lon" ; float ptop(time_counter, lat, lon) ; ptop:units = "Pa" ; ptop:standard_name = "Cld top pressure" ; ptop:_FillValue = 9.96921e+36f ; ptop:long_name = "Cld top pressure" ; ptop:online_operation = "ave(X)" ; ptop:interval_operation = 1800.f ; ptop:interval_write = 2678400.f ; ptop:coordinates = "time_counter lat lon" ; float fbase(time_counter, lat, lon) ; fbase:units = "kg/m2/s" ; fbase:standard_name = "Cld base mass flux" ; fbase:_FillValue = 9.96921e+36f ; fbase:long_name = "Cld base mass flux" ; fbase:online_operation = "ave(X)" ; fbase:interval_operation = 1800.f ; fbase:interval_write = 2678400.f ; fbase:coordinates = "time_counter lat lon" ; float prw(time_counter, lat, lon) ; prw:units = "kg/m2" ; prw:standard_name = "Precipitable water" ; prw:_FillValue = 9.96921e+36f ; prw:long_name = "Precipitable water" ; prw:online_operation = "ave(X)" ; prw:interval_operation = 1800.f ; prw:interval_write = 2678400.f ; prw:coordinates = "time_counter lat lon" ; float upwd(time_counter, presnivs, lat, lon) ; upwd:units = "kg/m2/s" ; upwd:standard_name = "saturated updraft" ; upwd:_FillValue = 9.96921e+36f ; upwd:long_name = "saturated updraft" ; upwd:online_operation = "ave(X)" ; upwd:interval_operation = 1800.f ; upwd:interval_write = 2678400.f ; upwd:coordinates = "time_counter presnivs lat lon" ; float Ma(time_counter, presnivs, lat, lon) ; Ma:units = "kg/m2/s" ; Ma:standard_name = "undilute adiab updraft" ; Ma:_FillValue = 9.96921e+36f ; Ma:long_name = "undilute adiab updraft" ; Ma:online_operation = "ave(X)" ; Ma:interval_operation = 1800.f ; Ma:interval_write = 2678400.f ; Ma:coordinates = "time_counter presnivs lat lon" ; float dnwd(time_counter, presnivs, lat, lon) ; dnwd:units = "kg/m2/s" ; dnwd:standard_name = "saturated downdraft" ; dnwd:_FillValue = 9.96921e+36f ; dnwd:long_name = "saturated downdraft" ; dnwd:online_operation = "ave(X)" ; dnwd:interval_operation = 1800.f ; dnwd:interval_write = 2678400.f ; dnwd:coordinates = "time_counter presnivs lat lon" ; float dnwd0(time_counter, presnivs, lat, lon) ; dnwd0:units = "kg/m2/s" ; dnwd0:standard_name = "unsat. downdraft" ; dnwd0:_FillValue = 9.96921e+36f ; dnwd0:long_name = "unsat. downdraft" ; dnwd0:online_operation = "ave(X)" ; dnwd0:interval_operation = 1800.f ; dnwd0:interval_write = 2678400.f ; dnwd0:coordinates = "time_counter presnivs lat lon" ; float mc(time_counter, presnivs, lat, lon) ; mc:units = "kg/m2/s" ; mc:standard_name = "Convective mass flux" ; mc:_FillValue = 9.96921e+36f ; mc:long_name = "Convective mass flux" ; mc:online_operation = "ave(X)" ; mc:interval_operation = 1800.f ; mc:interval_write = 2678400.f ; mc:coordinates = "time_counter presnivs lat lon" ; float ftime_con(time_counter, lat, lon) ; ftime_con:standard_name = "Fraction of time convection Occurs" ; ftime_con:_FillValue = 9.96921e+36f ; ftime_con:long_name = "Fraction of time convection Occurs" ; ftime_con:online_operation = "inst(X)" ; ftime_con:interval_operation = 2678400.f ; ftime_con:interval_write = 2678400.f ; ftime_con:coordinates = "t_inst_02678400 lat lon" ; float s_pblh(time_counter, lat, lon) ; s_pblh:units = "m" ; s_pblh:standard_name = "Boundary Layer Height" ; s_pblh:_FillValue = 9.96921e+36f ; s_pblh:long_name = "Boundary Layer Height" ; s_pblh:online_operation = "ave(X)" ; s_pblh:interval_operation = 1800.f ; s_pblh:interval_write = 2678400.f ; s_pblh:coordinates = "time_counter lat lon" ; float s_pblt(time_counter, lat, lon) ; s_pblt:units = "K" ; s_pblt:standard_name = "t at Boundary Layer Height" ; s_pblt:_FillValue = 9.96921e+36f ; s_pblt:long_name = "t at Boundary Layer Height" ; s_pblt:online_operation = "ave(X)" ; s_pblt:interval_operation = 1800.f ; s_pblt:interval_write = 2678400.f ; s_pblt:coordinates = "time_counter lat lon" ; float s_lcl(time_counter, lat, lon) ; s_lcl:units = "m" ; s_lcl:standard_name = "Condensation level" ; s_lcl:_FillValue = 9.96921e+36f ; s_lcl:long_name = "Condensation level" ; s_lcl:online_operation = "ave(X)" ; s_lcl:interval_operation = 1800.f ; s_lcl:interval_write = 2678400.f ; s_lcl:coordinates = "time_counter lat lon" ; float s_therm(time_counter, lat, lon) ; s_therm:units = "K" ; s_therm:standard_name = "Exces du thermique" ; s_therm:_FillValue = 9.96921e+36f ; s_therm:long_name = "Exces du thermique" ; s_therm:online_operation = "ave(X)" ; s_therm:interval_operation = 1800.f ; s_therm:interval_write = 2678400.f ; s_therm:coordinates = "time_counter lat lon" ; float u850(time_counter, lat, lon) ; u850:units = "m/s" ; u850:standard_name = "Zonal wind 850 hPa" ; u850:_FillValue = 9.96921e+36f ; u850:long_name = "Zonal wind 850 hPa" ; u850:online_operation = "inst(X)" ; u850:interval_operation = 2678400.f ; u850:interval_write = 2678400.f ; u850:coordinates = "t_inst_02678400 lat lon" ; float v850(time_counter, lat, lon) ; v850:units = "m/s" ; v850:standard_name = "Meridional wind 850 hPa" ; v850:_FillValue = 9.96921e+36f ; v850:long_name = "Meridional wind 850 hPa" ; v850:online_operation = "inst(X)" ; v850:interval_operation = 2678400.f ; v850:interval_write = 2678400.f ; v850:coordinates = "t_inst_02678400 lat lon" ; float w850(time_counter, lat, lon) ; w850:units = "Pa/s" ; w850:standard_name = "Vertical wind 850 hPa" ; w850:_FillValue = 9.96921e+36f ; w850:long_name = "Vertical wind 850 hPa" ; w850:online_operation = "inst(X)" ; w850:interval_operation = 2678400.f ; w850:interval_write = 2678400.f ; w850:coordinates = "t_inst_02678400 lat lon" ; float z850(time_counter, lat, lon) ; z850:units = "m" ; z850:standard_name = "Geopotential height 850 hPa" ; z850:_FillValue = 9.96921e+36f ; z850:long_name = "Geopotential height 850 hPa" ; z850:online_operation = "inst(X)" ; z850:interval_operation = 2678400.f ; z850:interval_write = 2678400.f ; z850:coordinates = "t_inst_02678400 lat lon" ; float q850(time_counter, lat, lon) ; q850:units = "kg/kg" ; q850:standard_name = "Specific humidity 850 hPa" ; q850:_FillValue = 9.96921e+36f ; q850:long_name = "Specific humidity 850 hPa" ; q850:online_operation = "inst(X)" ; q850:interval_operation = 2678400.f ; q850:interval_write = 2678400.f ; q850:coordinates = "t_inst_02678400 lat lon" ; float t850(time_counter, lat, lon) ; t850:units = "K" ; t850:standard_name = "Temperature 850 hPa" ; t850:_FillValue = 9.96921e+36f ; t850:long_name = "Temperature 850 hPa" ; t850:online_operation = "inst(X)" ; t850:interval_operation = 2678400.f ; t850:interval_write = 2678400.f ; t850:coordinates = "t_inst_02678400 lat lon" ; float u700(time_counter, lat, lon) ; u700:units = "m/s" ; u700:standard_name = "Zonal wind 700 hPa" ; u700:_FillValue = 9.96921e+36f ; u700:long_name = "Zonal wind 700 hPa" ; u700:online_operation = "inst(X)" ; u700:interval_operation = 2678400.f ; u700:interval_write = 2678400.f ; u700:coordinates = "t_inst_02678400 lat lon" ; float v700(time_counter, lat, lon) ; v700:units = "m/s" ; v700:standard_name = "Meridional wind 700 hPa" ; v700:_FillValue = 9.96921e+36f ; v700:long_name = "Meridional wind 700 hPa" ; v700:online_operation = "inst(X)" ; v700:interval_operation = 2678400.f ; v700:interval_write = 2678400.f ; v700:coordinates = "t_inst_02678400 lat lon" ; float w700(time_counter, lat, lon) ; w700:units = "Pa/s" ; w700:standard_name = "Vertical wind 700 hPa" ; w700:_FillValue = 9.96921e+36f ; w700:long_name = "Vertical wind 700 hPa" ; w700:online_operation = "inst(X)" ; w700:interval_operation = 2678400.f ; w700:interval_write = 2678400.f ; w700:coordinates = "t_inst_02678400 lat lon" ; float z700(time_counter, lat, lon) ; z700:units = "m" ; z700:standard_name = "Geopotential height 700 hPa" ; z700:_FillValue = 9.96921e+36f ; z700:long_name = "Geopotential height 700 hPa" ; z700:online_operation = "inst(X)" ; z700:interval_operation = 2678400.f ; z700:interval_write = 2678400.f ; z700:coordinates = "t_inst_02678400 lat lon" ; float q700(time_counter, lat, lon) ; q700:units = "kg/kg" ; q700:standard_name = "Specific humidity 700 hPa" ; q700:_FillValue = 9.96921e+36f ; q700:long_name = "Specific humidity 700 hPa" ; q700:online_operation = "inst(X)" ; q700:interval_operation = 2678400.f ; q700:interval_write = 2678400.f ; q700:coordinates = "t_inst_02678400 lat lon" ; float t700(time_counter, lat, lon) ; t700:units = "K" ; t700:standard_name = "Temperature 700 hPa" ; t700:_FillValue = 9.96921e+36f ; t700:long_name = "Temperature 700 hPa" ; t700:online_operation = "inst(X)" ; t700:interval_operation = 2678400.f ; t700:interval_write = 2678400.f ; t700:coordinates = "t_inst_02678400 lat lon" ; float u500(time_counter, lat, lon) ; u500:units = "m/s" ; u500:standard_name = "Zonal wind 500 hPa" ; u500:_FillValue = 9.96921e+36f ; u500:long_name = "Zonal wind 500 hPa" ; u500:online_operation = "inst(X)" ; u500:interval_operation = 2678400.f ; u500:interval_write = 2678400.f ; u500:coordinates = "t_inst_02678400 lat lon" ; float v500(time_counter, lat, lon) ; v500:units = "m/s" ; v500:standard_name = "Meridional wind 500 hPa" ; v500:_FillValue = 9.96921e+36f ; v500:long_name = "Meridional wind 500 hPa" ; v500:online_operation = "inst(X)" ; v500:interval_operation = 2678400.f ; v500:interval_write = 2678400.f ; v500:coordinates = "t_inst_02678400 lat lon" ; float w500(time_counter, lat, lon) ; w500:units = "Pa/s" ; w500:standard_name = "Vertical wind 500 hPa" ; w500:_FillValue = 9.96921e+36f ; w500:long_name = "Vertical wind 500 hPa" ; w500:online_operation = "inst(X)" ; w500:interval_operation = 2678400.f ; w500:interval_write = 2678400.f ; w500:coordinates = "t_inst_02678400 lat lon" ; float z500(time_counter, lat, lon) ; z500:units = "m" ; z500:standard_name = "Geopotential height 500 hPa" ; z500:_FillValue = 9.96921e+36f ; z500:long_name = "Geopotential height 500 hPa" ; z500:online_operation = "inst(X)" ; z500:interval_operation = 2678400.f ; z500:interval_write = 2678400.f ; z500:coordinates = "t_inst_02678400 lat lon" ; float q500(time_counter, lat, lon) ; q500:units = "kg/kg" ; q500:standard_name = "Specific humidity 500 hPa" ; q500:_FillValue = 9.96921e+36f ; q500:long_name = "Specific humidity 500 hPa" ; q500:online_operation = "inst(X)" ; q500:interval_operation = 2678400.f ; q500:interval_write = 2678400.f ; q500:coordinates = "t_inst_02678400 lat lon" ; float t500(time_counter, lat, lon) ; t500:units = "K" ; t500:standard_name = "Temperature 500 hPa" ; t500:_FillValue = 9.96921e+36f ; t500:long_name = "Temperature 500 hPa" ; t500:online_operation = "inst(X)" ; t500:interval_operation = 2678400.f ; t500:interval_write = 2678400.f ; t500:coordinates = "t_inst_02678400 lat lon" ; float u200(time_counter, lat, lon) ; u200:units = "m/s" ; u200:standard_name = "Zonal wind 200 hPa" ; u200:_FillValue = 9.96921e+36f ; u200:long_name = "Zonal wind 200 hPa" ; u200:online_operation = "inst(X)" ; u200:interval_operation = 2678400.f ; u200:interval_write = 2678400.f ; u200:coordinates = "t_inst_02678400 lat lon" ; float v200(time_counter, lat, lon) ; v200:units = "m/s" ; v200:standard_name = "Meridional wind 200 hPa" ; v200:_FillValue = 9.96921e+36f ; v200:long_name = "Meridional wind 200 hPa" ; v200:online_operation = "inst(X)" ; v200:interval_operation = 2678400.f ; v200:interval_write = 2678400.f ; v200:coordinates = "t_inst_02678400 lat lon" ; float w200(time_counter, lat, lon) ; w200:units = "Pa/s" ; w200:standard_name = "Vertical wind 200 hPa" ; w200:_FillValue = 9.96921e+36f ; w200:long_name = "Vertical wind 200 hPa" ; w200:online_operation = "inst(X)" ; w200:interval_operation = 2678400.f ; w200:interval_write = 2678400.f ; w200:coordinates = "t_inst_02678400 lat lon" ; float z200(time_counter, lat, lon) ; z200:units = "m" ; z200:standard_name = "Geopotential height 200 hPa" ; z200:_FillValue = 9.96921e+36f ; z200:long_name = "Geopotential height 200 hPa" ; z200:online_operation = "inst(X)" ; z200:interval_operation = 2678400.f ; z200:interval_write = 2678400.f ; z200:coordinates = "t_inst_02678400 lat lon" ; float q200(time_counter, lat, lon) ; q200:units = "kg/kg" ; q200:standard_name = "Specific humidity 200 hPa" ; q200:_FillValue = 9.96921e+36f ; q200:long_name = "Specific humidity 200 hPa" ; q200:online_operation = "inst(X)" ; q200:interval_operation = 2678400.f ; q200:interval_write = 2678400.f ; q200:coordinates = "t_inst_02678400 lat lon" ; float t200(time_counter, lat, lon) ; t200:units = "K" ; t200:standard_name = "Temperature 200 hPa" ; t200:_FillValue = 9.96921e+36f ; t200:long_name = "Temperature 200 hPa" ; t200:online_operation = "inst(X)" ; t200:interval_operation = 2678400.f ; t200:interval_write = 2678400.f ; t200:coordinates = "t_inst_02678400 lat lon" ; float u50(time_counter, lat, lon) ; u50:units = "m/s" ; u50:standard_name = "Zonal wind 50 hPa" ; u50:_FillValue = 9.96921e+36f ; u50:long_name = "Zonal wind 50 hPa" ; u50:online_operation = "inst(X)" ; u50:interval_operation = 2678400.f ; u50:interval_write = 2678400.f ; u50:coordinates = "t_inst_02678400 lat lon" ; float v50(time_counter, lat, lon) ; v50:units = "m/s" ; v50:standard_name = "Meridional wind 50 hPa" ; v50:_FillValue = 9.96921e+36f ; v50:long_name = "Meridional wind 50 hPa" ; v50:online_operation = "inst(X)" ; v50:interval_operation = 2678400.f ; v50:interval_write = 2678400.f ; v50:coordinates = "t_inst_02678400 lat lon" ; float w50(time_counter, lat, lon) ; w50:units = "Pa/s" ; w50:standard_name = "Vertical wind 50 hPa" ; w50:_FillValue = 9.96921e+36f ; w50:long_name = "Vertical wind 50 hPa" ; w50:online_operation = "inst(X)" ; w50:interval_operation = 2678400.f ; w50:interval_write = 2678400.f ; w50:coordinates = "t_inst_02678400 lat lon" ; float z50(time_counter, lat, lon) ; z50:units = "m" ; z50:standard_name = "Geopotential height 50 hPa" ; z50:_FillValue = 9.96921e+36f ; z50:long_name = "Geopotential height 50 hPa" ; z50:online_operation = "inst(X)" ; z50:interval_operation = 2678400.f ; z50:interval_write = 2678400.f ; z50:coordinates = "t_inst_02678400 lat lon" ; float q50(time_counter, lat, lon) ; q50:units = "kg/kg" ; q50:standard_name = "Specific humidity 50 hPa" ; q50:_FillValue = 9.96921e+36f ; q50:long_name = "Specific humidity 50 hPa" ; q50:online_operation = "inst(X)" ; q50:interval_operation = 2678400.f ; q50:interval_write = 2678400.f ; q50:coordinates = "t_inst_02678400 lat lon" ; float t50(time_counter, lat, lon) ; t50:units = "K" ; t50:standard_name = "Temperature 50 hPa" ; t50:_FillValue = 9.96921e+36f ; t50:long_name = "Temperature 50 hPa" ; t50:online_operation = "inst(X)" ; t50:interval_operation = 2678400.f ; t50:interval_write = 2678400.f ; t50:coordinates = "t_inst_02678400 lat lon" ; float u10(time_counter, lat, lon) ; u10:units = "m/s" ; u10:standard_name = "Zonal wind 10 hPa" ; u10:_FillValue = 9.96921e+36f ; u10:long_name = "Zonal wind 10 hPa" ; u10:online_operation = "inst(X)" ; u10:interval_operation = 2678400.f ; u10:interval_write = 2678400.f ; u10:coordinates = "t_inst_02678400 lat lon" ; float v10(time_counter, lat, lon) ; v10:units = "m/s" ; v10:standard_name = "Meridional wind 10 hPa" ; v10:_FillValue = 9.96921e+36f ; v10:long_name = "Meridional wind 10 hPa" ; v10:online_operation = "inst(X)" ; v10:interval_operation = 2678400.f ; v10:interval_write = 2678400.f ; v10:coordinates = "t_inst_02678400 lat lon" ; float w10(time_counter, lat, lon) ; w10:units = "Pa/s" ; w10:standard_name = "Vertical wind 10 hPa" ; w10:_FillValue = 9.96921e+36f ; w10:long_name = "Vertical wind 10 hPa" ; w10:online_operation = "inst(X)" ; w10:interval_operation = 2678400.f ; w10:interval_write = 2678400.f ; w10:coordinates = "t_inst_02678400 lat lon" ; float z10(time_counter, lat, lon) ; z10:units = "m" ; z10:standard_name = "Geopotential height 10 hPa" ; z10:_FillValue = 9.96921e+36f ; z10:long_name = "Geopotential height 10 hPa" ; z10:online_operation = "inst(X)" ; z10:interval_operation = 2678400.f ; z10:interval_write = 2678400.f ; z10:coordinates = "t_inst_02678400 lat lon" ; float q10(time_counter, lat, lon) ; q10:units = "kg/kg" ; q10:standard_name = "Specific humidity 10 hPa" ; q10:_FillValue = 9.96921e+36f ; q10:long_name = "Specific humidity 10 hPa" ; q10:online_operation = "inst(X)" ; q10:interval_operation = 2678400.f ; q10:interval_write = 2678400.f ; q10:coordinates = "t_inst_02678400 lat lon" ; float t10(time_counter, lat, lon) ; t10:units = "K" ; t10:standard_name = "Temperature 10 hPa" ; t10:_FillValue = 9.96921e+36f ; t10:long_name = "Temperature 10 hPa" ; t10:online_operation = "inst(X)" ; t10:interval_operation = 2678400.f ; t10:interval_write = 2678400.f ; t10:coordinates = "t_inst_02678400 lat lon" ; float t_oce_sic(time_counter, lat, lon) ; t_oce_sic:units = "K" ; t_oce_sic:standard_name = "Temp mixte oce-sic" ; t_oce_sic:_FillValue = 9.96921e+36f ; t_oce_sic:long_name = "Temp mixte oce-sic" ; t_oce_sic:online_operation = "ave(X)" ; t_oce_sic:interval_operation = 1800.f ; t_oce_sic:interval_write = 2678400.f ; t_oce_sic:coordinates = "time_counter lat lon" ; float rh2m(time_counter, lat, lon) ; rh2m:units = "%" ; rh2m:standard_name = "Relative humidity at 2m" ; rh2m:_FillValue = 9.96921e+36f ; rh2m:long_name = "Relative humidity at 2m" ; rh2m:online_operation = "ave(X)" ; rh2m:interval_operation = 1800.f ; rh2m:interval_write = 2678400.f ; rh2m:coordinates = "time_counter lat lon" ; float ec550aer(time_counter, presnivs, lat, lon) ; ec550aer:units = "m^-1" ; ec550aer:standard_name = "Extinction at 550nm" ; ec550aer:_FillValue = 9.96921e+36f ; ec550aer:long_name = "Extinction at 550nm" ; ec550aer:online_operation = "ave(X)" ; ec550aer:interval_operation = 1800.f ; ec550aer:interval_write = 2678400.f ; ec550aer:coordinates = "time_counter presnivs lat lon" ; float lwcon(time_counter, presnivs, lat, lon) ; lwcon:units = "kg/kg" ; lwcon:standard_name = "Cloud liquid water content" ; lwcon:_FillValue = 9.96921e+36f ; lwcon:long_name = "Cloud liquid water content" ; lwcon:online_operation = "ave(X)" ; lwcon:interval_operation = 1800.f ; lwcon:interval_write = 2678400.f ; lwcon:coordinates = "time_counter presnivs lat lon" ; float iwcon(time_counter, presnivs, lat, lon) ; iwcon:units = "kg/kg" ; iwcon:standard_name = "Cloud ice water content" ; iwcon:_FillValue = 9.96921e+36f ; iwcon:long_name = "Cloud ice water content" ; iwcon:online_operation = "ave(X)" ; iwcon:interval_operation = 1800.f ; iwcon:interval_write = 2678400.f ; iwcon:coordinates = "time_counter presnivs lat lon" ; float temp(time_counter, presnivs, lat, lon) ; temp:units = "K" ; temp:standard_name = "Air temperature" ; temp:_FillValue = 9.96921e+36f ; temp:long_name = "Air temperature" ; temp:online_operation = "ave(X)" ; temp:interval_operation = 1800.f ; temp:interval_write = 2678400.f ; temp:coordinates = "time_counter presnivs lat lon" ; float theta(time_counter, presnivs, lat, lon) ; theta:units = "K" ; theta:standard_name = "Potential air temperature" ; theta:_FillValue = 9.96921e+36f ; theta:long_name = "Potential air temperature" ; theta:online_operation = "ave(X)" ; theta:interval_operation = 1800.f ; theta:interval_write = 2678400.f ; theta:coordinates = "time_counter presnivs lat lon" ; float ovap(time_counter, presnivs, lat, lon) ; ovap:units = "kg/kg" ; ovap:standard_name = "Specific humidity" ; ovap:_FillValue = 9.96921e+36f ; ovap:long_name = "Specific humidity" ; ovap:online_operation = "ave(X)" ; ovap:interval_operation = 1800.f ; ovap:interval_write = 2678400.f ; ovap:coordinates = "time_counter presnivs lat lon" ; float ovapinit(time_counter, presnivs, lat, lon) ; ovapinit:units = "kg/kg" ; ovapinit:standard_name = "Specific humidity (begin of timestep)" ; ovapinit:_FillValue = 9.96921e+36f ; ovapinit:long_name = "Specific humidity (begin of timestep)" ; ovapinit:online_operation = "ave(X)" ; ovapinit:interval_operation = 1800.f ; ovapinit:interval_write = 2678400.f ; ovapinit:coordinates = "time_counter presnivs lat lon" ; float geop(time_counter, presnivs, lat, lon) ; geop:units = "m2/s2" ; geop:standard_name = "Geopotential height" ; geop:_FillValue = 9.96921e+36f ; geop:long_name = "Geopotential height" ; geop:online_operation = "ave(X)" ; geop:interval_operation = 1800.f ; geop:interval_write = 2678400.f ; geop:coordinates = "time_counter presnivs lat lon" ; float vitu(time_counter, presnivs, lat, lon) ; vitu:units = "m/s" ; vitu:standard_name = "Zonal wind" ; vitu:_FillValue = 9.96921e+36f ; vitu:long_name = "Zonal wind" ; vitu:online_operation = "ave(X)" ; vitu:interval_operation = 1800.f ; vitu:interval_write = 2678400.f ; vitu:coordinates = "time_counter presnivs lat lon" ; float vitv(time_counter, presnivs, lat, lon) ; vitv:units = "m/s" ; vitv:standard_name = "Meridional wind" ; vitv:_FillValue = 9.96921e+36f ; vitv:long_name = "Meridional wind" ; vitv:online_operation = "ave(X)" ; vitv:interval_operation = 1800.f ; vitv:interval_write = 2678400.f ; vitv:coordinates = "time_counter presnivs lat lon" ; float vitw(time_counter, presnivs, lat, lon) ; vitw:units = "Pa/s" ; vitw:standard_name = "Vertical wind" ; vitw:_FillValue = 9.96921e+36f ; vitw:long_name = "Vertical wind" ; vitw:online_operation = "ave(X)" ; vitw:interval_operation = 1800.f ; vitw:interval_write = 2678400.f ; vitw:coordinates = "time_counter presnivs lat lon" ; float pres(time_counter, presnivs, lat, lon) ; pres:units = "Pa" ; pres:standard_name = "Air pressure" ; pres:_FillValue = 9.96921e+36f ; pres:long_name = "Air pressure" ; pres:online_operation = "ave(X)" ; pres:interval_operation = 1800.f ; pres:interval_write = 2678400.f ; pres:coordinates = "time_counter presnivs lat lon" ; float paprs(time_counter, presnivs, lat, lon) ; paprs:units = "Pa" ; paprs:standard_name = "Air pressure Inter-Couches" ; paprs:_FillValue = 9.96921e+36f ; paprs:long_name = "Air pressure Inter-Couches" ; paprs:online_operation = "ave(X)" ; paprs:interval_operation = 1800.f ; paprs:interval_write = 2678400.f ; paprs:coordinates = "time_counter presnivs lat lon" ; float rneb(time_counter, presnivs, lat, lon) ; rneb:units = "-" ; rneb:standard_name = "Cloud fraction" ; rneb:_FillValue = 9.96921e+36f ; rneb:long_name = "Cloud fraction" ; rneb:online_operation = "ave(X)" ; rneb:interval_operation = 1800.f ; rneb:interval_write = 2678400.f ; rneb:coordinates = "time_counter presnivs lat lon" ; float rnebcon(time_counter, presnivs, lat, lon) ; rnebcon:units = "-" ; rnebcon:standard_name = "Convective Cloud Fraction" ; rnebcon:_FillValue = 9.96921e+36f ; rnebcon:long_name = "Convective Cloud Fraction" ; rnebcon:online_operation = "ave(X)" ; rnebcon:interval_operation = 1800.f ; rnebcon:interval_write = 2678400.f ; rnebcon:coordinates = "time_counter presnivs lat lon" ; float rhum(time_counter, presnivs, lat, lon) ; rhum:units = "-" ; rhum:standard_name = "Relative humidity" ; rhum:_FillValue = 9.96921e+36f ; rhum:long_name = "Relative humidity" ; rhum:online_operation = "ave(X)" ; rhum:interval_operation = 1800.f ; rhum:interval_write = 2678400.f ; rhum:coordinates = "time_counter presnivs lat lon" ; float ozone(time_counter, presnivs, lat, lon) ; ozone:units = "-" ; ozone:standard_name = "Ozone mole fraction" ; ozone:_FillValue = 9.96921e+36f ; ozone:long_name = "Ozone mole fraction" ; ozone:online_operation = "ave(X)" ; ozone:interval_operation = 1800.f ; ozone:interval_write = 2678400.f ; ozone:coordinates = "time_counter presnivs lat lon" ; float ozone_daylight(time_counter, presnivs, lat, lon) ; ozone_daylight:units = "-" ; ozone_daylight:standard_name = "Daylight ozone mole fraction" ; ozone_daylight:_FillValue = 9.96921e+36f ; ozone_daylight:long_name = "Daylight ozone mole fraction" ; ozone_daylight:online_operation = "ave(X)" ; ozone_daylight:interval_operation = 1800.f ; ozone_daylight:interval_write = 2678400.f ; ozone_daylight:coordinates = "time_counter presnivs lat lon" ; float dtphy(time_counter, presnivs, lat, lon) ; dtphy:units = "K/s" ; dtphy:standard_name = "Physics dT" ; dtphy:_FillValue = 9.96921e+36f ; dtphy:long_name = "Physics dT" ; dtphy:online_operation = "ave(X)" ; dtphy:interval_operation = 1800.f ; dtphy:interval_write = 2678400.f ; dtphy:coordinates = "time_counter presnivs lat lon" ; float dqphy(time_counter, presnivs, lat, lon) ; dqphy:units = "(kg/kg)/s" ; dqphy:standard_name = "Physics dQ" ; dqphy:_FillValue = 9.96921e+36f ; dqphy:long_name = "Physics dQ" ; dqphy:online_operation = "ave(X)" ; dqphy:interval_operation = 1800.f ; dqphy:interval_write = 2678400.f ; dqphy:coordinates = "time_counter presnivs lat lon" ; float pr_con_l(time_counter, presnivs, lat, lon) ; pr_con_l:standard_name = "Convective precipitation lic" ; pr_con_l:_FillValue = 9.96921e+36f ; pr_con_l:long_name = "Convective precipitation lic" ; pr_con_l:online_operation = "ave(X)" ; pr_con_l:interval_operation = 1800.f ; pr_con_l:interval_write = 2678400.f ; pr_con_l:coordinates = "time_counter presnivs lat lon" ; float pr_con_i(time_counter, presnivs, lat, lon) ; pr_con_i:standard_name = "Convective precipitation ice" ; pr_con_i:_FillValue = 9.96921e+36f ; pr_con_i:long_name = "Convective precipitation ice" ; pr_con_i:online_operation = "ave(X)" ; pr_con_i:interval_operation = 1800.f ; pr_con_i:interval_write = 2678400.f ; pr_con_i:coordinates = "time_counter presnivs lat lon" ; float pr_lsc_l(time_counter, presnivs, lat, lon) ; pr_lsc_l:standard_name = "Large scale precipitation lic" ; pr_lsc_l:_FillValue = 9.96921e+36f ; pr_lsc_l:long_name = "Large scale precipitation lic" ; pr_lsc_l:online_operation = "ave(X)" ; pr_lsc_l:interval_operation = 1800.f ; pr_lsc_l:interval_write = 2678400.f ; pr_lsc_l:coordinates = "time_counter presnivs lat lon" ; float pr_lsc_i(time_counter, presnivs, lat, lon) ; pr_lsc_i:standard_name = "Large scale precipitation ice" ; pr_lsc_i:_FillValue = 9.96921e+36f ; pr_lsc_i:long_name = "Large scale precipitation ice" ; pr_lsc_i:online_operation = "ave(X)" ; pr_lsc_i:interval_operation = 1800.f ; pr_lsc_i:interval_write = 2678400.f ; pr_lsc_i:coordinates = "time_counter presnivs lat lon" ; float re(time_counter, presnivs, lat, lon) ; re:units = "um" ; re:standard_name = "Cloud droplet effective radius" ; re:_FillValue = 9.96921e+36f ; re:long_name = "Cloud droplet effective radius" ; re:online_operation = "ave(X)" ; re:interval_operation = 1800.f ; re:interval_write = 2678400.f ; re:coordinates = "time_counter presnivs lat lon" ; float fl(time_counter, presnivs, lat, lon) ; fl:standard_name = "Denominator of Cloud droplet effective radius" ; fl:_FillValue = 9.96921e+36f ; fl:long_name = "Denominator of Cloud droplet effective radius" ; fl:online_operation = "ave(X)" ; fl:interval_operation = 1800.f ; fl:interval_write = 2678400.f ; fl:coordinates = "time_counter presnivs lat lon" ; float kz(time_counter, presnivs, lat, lon) ; kz:units = "m2/s" ; kz:standard_name = "Kz melange" ; kz:_FillValue = 9.96921e+36f ; kz:long_name = "Kz melange" ; kz:online_operation = "ave(X)" ; kz:interval_operation = 1800.f ; kz:interval_write = 2678400.f ; kz:coordinates = "time_counter presnivs lat lon" ; float kz_max(time_counter, presnivs, lat, lon) ; kz_max:units = "m2/s" ; kz_max:standard_name = "Kz melange max" ; kz_max:_FillValue = 9.96921e+36f ; kz_max:long_name = "Kz melange max" ; kz_max:online_operation = "t_max(X)" ; kz_max:interval_operation = 1800.f ; kz_max:interval_write = 2678400.f ; kz_max:coordinates = "time_counter presnivs lat lon" ; float clwcon(time_counter, presnivs, lat, lon) ; clwcon:units = "kg/kg" ; clwcon:standard_name = "Convective Cloud Liquid water content" ; clwcon:_FillValue = 9.96921e+36f ; clwcon:long_name = "Convective Cloud Liquid water content" ; clwcon:online_operation = "ave(X)" ; clwcon:interval_operation = 1800.f ; clwcon:interval_write = 2678400.f ; clwcon:coordinates = "time_counter presnivs lat lon" ; float dtdyn(time_counter, presnivs, lat, lon) ; dtdyn:units = "K/s" ; dtdyn:standard_name = "Dynamics dT" ; dtdyn:_FillValue = 9.96921e+36f ; dtdyn:long_name = "Dynamics dT" ; dtdyn:online_operation = "ave(X)" ; dtdyn:interval_operation = 1800.f ; dtdyn:interval_write = 2678400.f ; dtdyn:coordinates = "time_counter presnivs lat lon" ; float dqdyn(time_counter, presnivs, lat, lon) ; dqdyn:units = "(kg/kg)/s" ; dqdyn:standard_name = "Dynamics dQ" ; dqdyn:_FillValue = 9.96921e+36f ; dqdyn:long_name = "Dynamics dQ" ; dqdyn:online_operation = "ave(X)" ; dqdyn:interval_operation = 1800.f ; dqdyn:interval_write = 2678400.f ; dqdyn:coordinates = "time_counter presnivs lat lon" ; float dudyn(time_counter, presnivs, lat, lon) ; dudyn:units = "m/s2" ; dudyn:standard_name = "Dynamics dU" ; dudyn:_FillValue = 9.96921e+36f ; dudyn:long_name = "Dynamics dU" ; dudyn:online_operation = "ave(X)" ; dudyn:interval_operation = 1800.f ; dudyn:interval_write = 2678400.f ; dudyn:coordinates = "time_counter presnivs lat lon" ; float dvdyn(time_counter, presnivs, lat, lon) ; dvdyn:units = "m/s2" ; dvdyn:standard_name = "Dynamics dV" ; dvdyn:_FillValue = 9.96921e+36f ; dvdyn:long_name = "Dynamics dV" ; dvdyn:online_operation = "ave(X)" ; dvdyn:interval_operation = 1800.f ; dvdyn:interval_write = 2678400.f ; dvdyn:coordinates = "time_counter presnivs lat lon" ; float dtcon(time_counter, presnivs, lat, lon) ; dtcon:units = "K/s" ; dtcon:standard_name = "Convection dT" ; dtcon:_FillValue = 9.96921e+36f ; dtcon:long_name = "Convection dT" ; dtcon:online_operation = "ave(X)" ; dtcon:interval_operation = 1800.f ; dtcon:interval_write = 2678400.f ; dtcon:coordinates = "time_counter presnivs lat lon" ; float ducon(time_counter, presnivs, lat, lon) ; ducon:units = "m/s2" ; ducon:standard_name = "Convection du" ; ducon:_FillValue = 9.96921e+36f ; ducon:long_name = "Convection du" ; ducon:online_operation = "ave(X)" ; ducon:interval_operation = 1800.f ; ducon:interval_write = 2678400.f ; ducon:coordinates = "time_counter presnivs lat lon" ; float dqcon(time_counter, presnivs, lat, lon) ; dqcon:units = "(kg/kg)/s" ; dqcon:standard_name = "Convection dQ" ; dqcon:_FillValue = 9.96921e+36f ; dqcon:long_name = "Convection dQ" ; dqcon:online_operation = "ave(X)" ; dqcon:interval_operation = 1800.f ; dqcon:interval_write = 2678400.f ; dqcon:coordinates = "time_counter presnivs lat lon" ; float dtlsc(time_counter, presnivs, lat, lon) ; dtlsc:units = "K/s" ; dtlsc:standard_name = "Condensation dT" ; dtlsc:_FillValue = 9.96921e+36f ; dtlsc:long_name = "Condensation dT" ; dtlsc:online_operation = "ave(X)" ; dtlsc:interval_operation = 1800.f ; dtlsc:interval_write = 2678400.f ; dtlsc:coordinates = "time_counter presnivs lat lon" ; float dtlschr(time_counter, presnivs, lat, lon) ; dtlschr:units = "K/s" ; dtlschr:standard_name = "Large-scale condensational heating rate" ; dtlschr:_FillValue = 9.96921e+36f ; dtlschr:long_name = "Large-scale condensational heating rate" ; dtlschr:online_operation = "ave(X)" ; dtlschr:interval_operation = 1800.f ; dtlschr:interval_write = 2678400.f ; dtlschr:coordinates = "time_counter presnivs lat lon" ; float dqlsc(time_counter, presnivs, lat, lon) ; dqlsc:units = "(kg/kg)/s" ; dqlsc:standard_name = "Condensation dQ" ; dqlsc:_FillValue = 9.96921e+36f ; dqlsc:long_name = "Condensation dQ" ; dqlsc:online_operation = "ave(X)" ; dqlsc:interval_operation = 1800.f ; dqlsc:interval_write = 2678400.f ; dqlsc:coordinates = "time_counter presnivs lat lon" ; float dtvdf(time_counter, presnivs, lat, lon) ; dtvdf:units = "K/s" ; dtvdf:standard_name = "Boundary-layer dT" ; dtvdf:_FillValue = 9.96921e+36f ; dtvdf:long_name = "Boundary-layer dT" ; dtvdf:online_operation = "ave(X)" ; dtvdf:interval_operation = 1800.f ; dtvdf:interval_write = 2678400.f ; dtvdf:coordinates = "time_counter presnivs lat lon" ; float dqvdf(time_counter, presnivs, lat, lon) ; dqvdf:units = "(kg/kg)/s" ; dqvdf:standard_name = "Boundary-layer dQ" ; dqvdf:_FillValue = 9.96921e+36f ; dqvdf:long_name = "Boundary-layer dQ" ; dqvdf:online_operation = "ave(X)" ; dqvdf:interval_operation = 1800.f ; dqvdf:interval_write = 2678400.f ; dqvdf:coordinates = "time_counter presnivs lat lon" ; float dteva(time_counter, presnivs, lat, lon) ; dteva:units = "K/s" ; dteva:standard_name = "Reevaporation dT" ; dteva:_FillValue = 9.96921e+36f ; dteva:long_name = "Reevaporation dT" ; dteva:online_operation = "ave(X)" ; dteva:interval_operation = 1800.f ; dteva:interval_write = 2678400.f ; dteva:coordinates = "time_counter presnivs lat lon" ; float dqeva(time_counter, presnivs, lat, lon) ; dqeva:units = "(kg/kg)/s" ; dqeva:standard_name = "Reevaporation dQ" ; dqeva:_FillValue = 9.96921e+36f ; dqeva:long_name = "Reevaporation dQ" ; dqeva:online_operation = "ave(X)" ; dqeva:interval_operation = 1800.f ; dqeva:interval_write = 2678400.f ; dqeva:coordinates = "time_counter presnivs lat lon" ; float ptconv(time_counter, presnivs, lat, lon) ; ptconv:standard_name = "POINTS CONVECTIFS" ; ptconv:_FillValue = 9.96921e+36f ; ptconv:long_name = "POINTS CONVECTIFS" ; ptconv:online_operation = "ave(X)" ; ptconv:interval_operation = 1800.f ; ptconv:interval_write = 2678400.f ; ptconv:coordinates = "time_counter presnivs lat lon" ; float ratqs(time_counter, presnivs, lat, lon) ; ratqs:standard_name = "RATQS" ; ratqs:_FillValue = 9.96921e+36f ; ratqs:long_name = "RATQS" ; ratqs:online_operation = "ave(X)" ; ratqs:interval_operation = 1800.f ; ratqs:interval_write = 2678400.f ; ratqs:coordinates = "time_counter presnivs lat lon" ; float dtthe(time_counter, presnivs, lat, lon) ; dtthe:units = "K/s" ; dtthe:standard_name = "Dry adjust. dT" ; dtthe:_FillValue = 9.96921e+36f ; dtthe:long_name = "Dry adjust. dT" ; dtthe:online_operation = "ave(X)" ; dtthe:interval_operation = 1800.f ; dtthe:interval_write = 2678400.f ; dtthe:coordinates = "time_counter presnivs lat lon" ; float dtajs(time_counter, presnivs, lat, lon) ; dtajs:units = "K/s" ; dtajs:standard_name = "Dry adjust. dT" ; dtajs:_FillValue = 9.96921e+36f ; dtajs:long_name = "Dry adjust. dT" ; dtajs:online_operation = "ave(X)" ; dtajs:interval_operation = 1800.f ; dtajs:interval_write = 2678400.f ; dtajs:coordinates = "time_counter presnivs lat lon" ; float dqajs(time_counter, presnivs, lat, lon) ; dqajs:units = "(kg/kg)/s" ; dqajs:standard_name = "Dry adjust. dQ" ; dqajs:_FillValue = 9.96921e+36f ; dqajs:long_name = "Dry adjust. dQ" ; dqajs:online_operation = "ave(X)" ; dqajs:interval_operation = 1800.f ; dqajs:interval_write = 2678400.f ; dqajs:coordinates = "time_counter presnivs lat lon" ; float dtswr(time_counter, presnivs, lat, lon) ; dtswr:units = "K/s" ; dtswr:standard_name = "SW radiation dT" ; dtswr:_FillValue = 9.96921e+36f ; dtswr:long_name = "SW radiation dT" ; dtswr:online_operation = "ave(X)" ; dtswr:interval_operation = 1800.f ; dtswr:interval_write = 2678400.f ; dtswr:coordinates = "time_counter presnivs lat lon" ; float dtsw0(time_counter, presnivs, lat, lon) ; dtsw0:units = "K/s" ; dtsw0:standard_name = "CS SW radiation dT" ; dtsw0:_FillValue = 9.96921e+36f ; dtsw0:long_name = "CS SW radiation dT" ; dtsw0:online_operation = "ave(X)" ; dtsw0:interval_operation = 1800.f ; dtsw0:interval_write = 2678400.f ; dtsw0:coordinates = "time_counter presnivs lat lon" ; float dtlwr(time_counter, presnivs, lat, lon) ; dtlwr:units = "K/s" ; dtlwr:standard_name = "LW radiation dT" ; dtlwr:_FillValue = 9.96921e+36f ; dtlwr:long_name = "LW radiation dT" ; dtlwr:online_operation = "ave(X)" ; dtlwr:interval_operation = 1800.f ; dtlwr:interval_write = 2678400.f ; dtlwr:coordinates = "time_counter presnivs lat lon" ; float dtlw0(time_counter, presnivs, lat, lon) ; dtlw0:units = "K/s" ; dtlw0:standard_name = "CS LW radiation dT" ; dtlw0:_FillValue = 9.96921e+36f ; dtlw0:long_name = "CS LW radiation dT" ; dtlw0:online_operation = "ave(X)" ; dtlw0:interval_operation = 1800.f ; dtlw0:interval_write = 2678400.f ; dtlw0:coordinates = "time_counter presnivs lat lon" ; float dtec(time_counter, presnivs, lat, lon) ; dtec:units = "K/s" ; dtec:standard_name = "Cinetic dissip dT" ; dtec:_FillValue = 9.96921e+36f ; dtec:long_name = "Cinetic dissip dT" ; dtec:online_operation = "ave(X)" ; dtec:interval_operation = 1800.f ; dtec:interval_write = 2678400.f ; dtec:coordinates = "time_counter presnivs lat lon" ; float duvdf(time_counter, presnivs, lat, lon) ; duvdf:units = "m/s2" ; duvdf:standard_name = "Boundary-layer dU" ; duvdf:_FillValue = 9.96921e+36f ; duvdf:long_name = "Boundary-layer dU" ; duvdf:online_operation = "ave(X)" ; duvdf:interval_operation = 1800.f ; duvdf:interval_write = 2678400.f ; duvdf:coordinates = "time_counter presnivs lat lon" ; float dvvdf(time_counter, presnivs, lat, lon) ; dvvdf:units = "m/s2" ; dvvdf:standard_name = "Boundary-layer dV" ; dvvdf:_FillValue = 9.96921e+36f ; dvvdf:long_name = "Boundary-layer dV" ; dvvdf:online_operation = "ave(X)" ; dvvdf:interval_operation = 1800.f ; dvvdf:interval_write = 2678400.f ; dvvdf:coordinates = "time_counter presnivs lat lon" ; float duoro(time_counter, presnivs, lat, lon) ; duoro:units = "m/s2" ; duoro:standard_name = "Orography dU" ; duoro:_FillValue = 9.96921e+36f ; duoro:long_name = "Orography dU" ; duoro:online_operation = "ave(X)" ; duoro:interval_operation = 1800.f ; duoro:interval_write = 2678400.f ; duoro:coordinates = "time_counter presnivs lat lon" ; float dvoro(time_counter, presnivs, lat, lon) ; dvoro:units = "m/s2" ; dvoro:standard_name = "Orography dV" ; dvoro:_FillValue = 9.96921e+36f ; dvoro:long_name = "Orography dV" ; dvoro:online_operation = "ave(X)" ; dvoro:interval_operation = 1800.f ; dvoro:interval_write = 2678400.f ; dvoro:coordinates = "time_counter presnivs lat lon" ; float dulif(time_counter, presnivs, lat, lon) ; dulif:units = "m/s2" ; dulif:standard_name = "Orography dU" ; dulif:_FillValue = 9.96921e+36f ; dulif:long_name = "Orography dU" ; dulif:online_operation = "ave(X)" ; dulif:interval_operation = 1800.f ; dulif:interval_write = 2678400.f ; dulif:coordinates = "time_counter presnivs lat lon" ; float dvlif(time_counter, presnivs, lat, lon) ; dvlif:units = "m/s2" ; dvlif:standard_name = "Orography dV" ; dvlif:_FillValue = 9.96921e+36f ; dvlif:long_name = "Orography dV" ; dvlif:online_operation = "ave(X)" ; dvlif:interval_operation = 1800.f ; dvlif:interval_write = 2678400.f ; dvlif:coordinates = "time_counter presnivs lat lon" ; float duhin(time_counter, presnivs, lat, lon) ; duhin:units = "m/s2" ; duhin:standard_name = "Hines GWD dU" ; duhin:_FillValue = 9.96921e+36f ; duhin:long_name = "Hines GWD dU" ; duhin:online_operation = "ave(X)" ; duhin:interval_operation = 1800.f ; duhin:interval_write = 2678400.f ; duhin:coordinates = "time_counter presnivs lat lon" ; float dvhin(time_counter, presnivs, lat, lon) ; dvhin:units = "m/s2" ; dvhin:standard_name = "Hines GWD dV" ; dvhin:_FillValue = 9.96921e+36f ; dvhin:long_name = "Hines GWD dV" ; dvhin:online_operation = "ave(X)" ; dvhin:interval_operation = 1800.f ; dvhin:interval_write = 2678400.f ; dvhin:coordinates = "time_counter presnivs lat lon" ; float Aga(time_counter, presnivs, lat, lon) ; Aga:units = "-" ; Aga:standard_name = "Age stratospheric air" ; Aga:_FillValue = 9.96921e+36f ; Aga:long_name = "Age stratospheric air" ; Aga:online_operation = "ave(X)" ; Aga:interval_operation = 1800.f ; Aga:interval_write = 2678400.f ; Aga:coordinates = "time_counter presnivs lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmth.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmthNMC.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmthNMC { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; plev = 17 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float plev(plev) ; plev:axis = "Z" ; plev:standard_name = "model_level_number" ; plev:units = "Pa" ; plev:positive = "down" ; plev:valid_min = 1000.f ; plev:valid_max = 100000.f ; plev:title = "plev" ; plev:long_name = "pressure" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float tnondef(time_counter, plev, lat, lon) ; tnondef:units = "-" ; tnondef:standard_name = "Valeurs non-definies" ; tnondef:_FillValue = 9.96921e+36f ; tnondef:long_name = "Valeurs non-definies" ; tnondef:online_operation = "ave(X)" ; tnondef:interval_operation = 2678400.f ; tnondef:interval_write = 2678400.f ; tnondef:coordinates = "time_counter plev lat lon" ; float ta(time_counter, plev, lat, lon) ; ta:units = "K" ; ta:standard_name = "Air temperature" ; ta:_FillValue = 9.96921e+36f ; ta:long_name = "Air temperature" ; ta:online_operation = "ave(X)" ; ta:interval_operation = 2678400.f ; ta:interval_write = 2678400.f ; ta:coordinates = "time_counter plev lat lon" ; float zg(time_counter, plev, lat, lon) ; zg:units = "m" ; zg:standard_name = "Geopotential height" ; zg:_FillValue = 9.96921e+36f ; zg:long_name = "Geopotential height" ; zg:online_operation = "ave(X)" ; zg:interval_operation = 2678400.f ; zg:interval_write = 2678400.f ; zg:coordinates = "time_counter plev lat lon" ; float hus(time_counter, plev, lat, lon) ; hus:units = "1" ; hus:standard_name = "Specific humidity" ; hus:_FillValue = 9.96921e+36f ; hus:long_name = "Specific humidity" ; hus:online_operation = "ave(X)" ; hus:interval_operation = 2678400.f ; hus:interval_write = 2678400.f ; hus:coordinates = "time_counter plev lat lon" ; float hur(time_counter, plev, lat, lon) ; hur:units = "%" ; hur:standard_name = "Relative humidity" ; hur:_FillValue = 9.96921e+36f ; hur:long_name = "Relative humidity" ; hur:online_operation = "ave(X)" ; hur:interval_operation = 2678400.f ; hur:interval_write = 2678400.f ; hur:coordinates = "time_counter plev lat lon" ; float ua(time_counter, plev, lat, lon) ; ua:units = "m s-1" ; ua:standard_name = "Eastward wind" ; ua:_FillValue = 9.96921e+36f ; ua:long_name = "Eastward wind" ; ua:online_operation = "ave(X)" ; ua:interval_operation = 2678400.f ; ua:interval_write = 2678400.f ; ua:coordinates = "time_counter plev lat lon" ; float va(time_counter, plev, lat, lon) ; va:units = "m s-1" ; va:standard_name = "Northward wind" ; va:_FillValue = 9.96921e+36f ; va:long_name = "Northward wind" ; va:online_operation = "ave(X)" ; va:interval_operation = 2678400.f ; va:interval_write = 2678400.f ; va:coordinates = "time_counter plev lat lon" ; float wap(time_counter, plev, lat, lon) ; wap:units = "Pa s-1" ; wap:standard_name = "Lagrangian tendency of air pressure" ; wap:_FillValue = 9.96921e+36f ; wap:long_name = "Lagrangian tendency of air pressure" ; wap:online_operation = "ave(X)" ; wap:interval_operation = 2678400.f ; wap:interval_write = 2678400.f ; wap:coordinates = "time_counter plev lat lon" ; float psbg(time_counter, plev, lat, lon) ; psbg:units = "%" ; psbg:standard_name = "Pressure sfce below ground" ; psbg:_FillValue = 9.96921e+36f ; psbg:long_name = "Pressure sfce below ground" ; psbg:online_operation = "ave(X)" ; psbg:interval_operation = 2678400.f ; psbg:interval_write = 2678400.f ; psbg:coordinates = "time_counter plev lat lon" ; float uv(time_counter, plev, lat, lon) ; uv:units = "m2/s2" ; uv:standard_name = "uv" ; uv:_FillValue = 9.96921e+36f ; uv:long_name = "uv" ; uv:online_operation = "ave(X)" ; uv:interval_operation = 2678400.f ; uv:interval_write = 2678400.f ; uv:coordinates = "time_counter plev lat lon" ; float vq(time_counter, plev, lat, lon) ; vq:units = "m/s * (kg/kg)" ; vq:standard_name = "vq" ; vq:_FillValue = 9.96921e+36f ; vq:long_name = "vq" ; vq:online_operation = "ave(X)" ; vq:interval_operation = 2678400.f ; vq:interval_write = 2678400.f ; vq:coordinates = "time_counter plev lat lon" ; float vT(time_counter, plev, lat, lon) ; vT:units = "mK/s" ; vT:standard_name = "vT" ; vT:_FillValue = 9.96921e+36f ; vT:long_name = "vT" ; vT:online_operation = "ave(X)" ; vT:interval_operation = 2678400.f ; vT:interval_write = 2678400.f ; vT:coordinates = "time_counter plev lat lon" ; float wq(time_counter, plev, lat, lon) ; wq:units = "(Pa/s)*(kg/kg)" ; wq:standard_name = "wq" ; wq:_FillValue = 9.96921e+36f ; wq:long_name = "wq" ; wq:online_operation = "ave(X)" ; wq:interval_operation = 2678400.f ; wq:interval_write = 2678400.f ; wq:coordinates = "time_counter plev lat lon" ; float vphi(time_counter, plev, lat, lon) ; vphi:units = "m2/s" ; vphi:standard_name = "vphi" ; vphi:_FillValue = 9.96921e+36f ; vphi:long_name = "vphi" ; vphi:online_operation = "ave(X)" ; vphi:interval_operation = 2678400.f ; vphi:interval_write = 2678400.f ; vphi:coordinates = "time_counter plev lat lon" ; float wT(time_counter, plev, lat, lon) ; wT:units = "K*Pa/s" ; wT:standard_name = "wT" ; wT:_FillValue = 9.96921e+36f ; wT:long_name = "wT" ; wT:online_operation = "ave(X)" ; wT:interval_operation = 2678400.f ; wT:interval_write = 2678400.f ; wT:coordinates = "time_counter plev lat lon" ; float uxu(time_counter, plev, lat, lon) ; uxu:units = "m2/s2" ; uxu:standard_name = "u2" ; uxu:_FillValue = 9.96921e+36f ; uxu:long_name = "u2" ; uxu:online_operation = "ave(X)" ; uxu:interval_operation = 2678400.f ; uxu:interval_write = 2678400.f ; uxu:coordinates = "time_counter plev lat lon" ; float vxv(time_counter, plev, lat, lon) ; vxv:units = "m2/s2" ; vxv:standard_name = "v2" ; vxv:_FillValue = 9.96921e+36f ; vxv:long_name = "v2" ; vxv:online_operation = "ave(X)" ; vxv:interval_operation = 2678400.f ; vxv:interval_write = 2678400.f ; vxv:coordinates = "time_counter plev lat lon" ; float TxT(time_counter, plev, lat, lon) ; TxT:units = "K2" ; TxT:standard_name = "T2" ; TxT:_FillValue = 9.96921e+36f ; TxT:long_name = "T2" ; TxT:online_operation = "ave(X)" ; TxT:interval_operation = 2678400.f ; TxT:interval_write = 2678400.f ; TxT:coordinates = "time_counter plev lat lon" ; float tro3(time_counter, plev, lat, lon) ; tro3:units = "1e-9" ; tro3:standard_name = "Ozone mole fraction" ; tro3:_FillValue = 9.96921e+36f ; tro3:long_name = "Ozone mole fraction" ; tro3:online_operation = "ave(X)" ; tro3:interval_operation = 2678400.f ; tro3:interval_write = 2678400.f ; tro3:coordinates = "time_counter plev lat lon" ; float tro3_daylight(time_counter, plev, lat, lon) ; tro3_daylight:units = "1e-9" ; tro3_daylight:standard_name = "Daylight ozone mole fraction" ; tro3_daylight:_FillValue = 9.96921e+36f ; tro3_daylight:long_name = "Daylight ozone mole fraction" ; tro3_daylight:online_operation = "ave(X)" ; tro3_daylight:interval_operation = 2678400.f ; tro3_daylight:interval_write = 2678400.f ; tro3_daylight:coordinates = "time_counter plev lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmthNMC.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == CPL/Output/MO/v2.historical1_19800101_19800131_1M_cpl_atm.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_cpl_atm { dimensions: X = 9216 ; Y = 1 ; C = 4 ; time = UNLIMITED ; // (1 currently) variables: float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; double SIICEALW(time, Y, X) ; SIICEALW:long_name = "surface_albedo" ; SIICEALW:units = "1" ; SIICEALW:coordinates = "lon lat" ; double SIICECOV(time, Y, X) ; SIICECOV:long_name = "sea_ice_area_fraction" ; SIICECOV:units = "1" ; SIICECOV:coordinates = "lon lat" ; double SIICTEMW(time, Y, X) ; SIICTEMW:long_name = "surface_temperature" ; SIICTEMW:units = "K" ; SIICTEMW:coordinates = "lon lat" ; double SISUTESW(time, Y, X) ; SISUTESW:long_name = "sea_surface_temperature" ; SISUTESW:units = "K" ; SISUTESW:coordinates = "lon lat" ; double COCALVIN(time, Y, X) ; COCALVIN:long_name = "water_flux_into_ocean_from_ice_sheet" ; COCALVIN:units = "kg m-2 s-1" ; COCALVIN:coordinates = "lon lat" ; double CODFLXDT(time, Y, X) ; CODFLXDT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; CODFLXDT:units = "W m-2" ; CODFLXDT:coordinates = "lon lat" ; double COICEVAP(time, Y, X) ; COICEVAP:long_name = "water_evaporation_flux_where_sea_ice" ; COICEVAP:units = "kg m-2 s-1" ; COICEVAP:coordinates = "lon lat" ; double COLIQRUN(time, Y, X) ; COLIQRUN:long_name = "water_flux_into_ocean_from_rivers" ; COLIQRUN:units = "kg m-2 s-1" ; COLIQRUN:coordinates = "lon lat" ; double CONSFICE(time, Y, X) ; CONSFICE:long_name = "surface_downward_non_shortwave_heat_flux" ; CONSFICE:units = "W m-2" ; CONSFICE:coordinates = "lon lat" ; double COQNSMIX(time, Y, X) ; COQNSMIX:long_name = "surface_downward_non_shortwave_heat_flux" ; COQNSMIX:units = "W m-2" ; COQNSMIX:coordinates = "lon lat" ; double COQSRMIX(time, Y, X) ; COQSRMIX:long_name = "surface_net_downward_shortwave_flux" ; COQSRMIX:units = "W m-2" ; COQSRMIX:coordinates = "lon lat" ; double COSHFICE(time, Y, X) ; COSHFICE:long_name = "surface_net_downward_shortwave_flux" ; COSHFICE:units = "W m-2" ; COSHFICE:coordinates = "lon lat" ; double COTAUXXU(time, Y, X) ; COTAUXXU:long_name = "surface_downward_grid_eastward_stress" ; COTAUXXU:units = "Pa" ; COTAUXXU:coordinates = "lon lat" ; double COTAUXXV(time, Y, X) ; COTAUXXV:long_name = "surface_downward_grid_northward_stress" ; COTAUXXV:units = "Pa" ; COTAUXXV:coordinates = "lon lat" ; double COTAUYYU(time, Y, X) ; COTAUYYU:long_name = "surface_downward_grid_eastward_stress" ; COTAUYYU:units = "Pa" ; COTAUYYU:coordinates = "lon lat" ; double COTAUYYV(time, Y, X) ; COTAUYYV:long_name = "surface_downward_grid_northward_stress" ; COTAUYYV:units = "Pa" ; COTAUYYV:coordinates = "lon lat" ; double COTAUZZU(time, Y, X) ; COTAUZZU:long_name = "surface_downward_grid_eastward_stress" ; COTAUZZU:units = "Pa" ; COTAUZZU:coordinates = "lon lat" ; double COTAUZZV(time, Y, X) ; COTAUZZV:long_name = "surface_downward_grid_northward_stress" ; COTAUZZV:units = "Pa" ; COTAUZZV:coordinates = "lon lat" ; double COTOTEVA(time, Y, X) ; COTOTEVA:long_name = "water_evaporation_flux" ; COTOTEVA:units = "1" ; COTOTEVA:coordinates = "lon lat" ; double COTOTRAI(time, Y, X) ; COTOTRAI:long_name = "surface_precipitation_flux" ; COTOTRAI:units = "kg m-2 s-1" ; COTOTRAI:coordinates = "lon lat" ; double COTOTSNO(time, Y, X) ; COTOTSNO:long_name = "snow_fall_flux" ; COTOTSNO:units = "kg m-2 s-1" ; COTOTSNO:coordinates = "lon lat" ; double COWINDSP(time, Y, X) ; COWINDSP:long_name = "wind_speed_at_10m" ; COWINDSP:units = "m s-1" ; COWINDSP:coordinates = "lon lat" ; double CURRENTX(time, Y, X) ; CURRENTX:long_name = "sea_water_speed" ; CURRENTX:units = "m s-1" ; CURRENTX:coordinates = "lon lat" ; double CURRENTY(time, Y, X) ; CURRENTY:long_name = "sea_water_speed" ; CURRENTY:units = "m s-1" ; CURRENTY:coordinates = "lon lat" ; double CURRENTZ(time, Y, X) ; CURRENTZ:long_name = "sea_water_speed" ; CURRENTZ:units = "m s-1" ; CURRENTZ:coordinates = "lon lat" ; // global attributes: :filename = "CURRENTZ_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:20:34 2010: ncra -A CURRENTZ_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:33 2010: ncra -A CURRENTY_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:31 2010: ncra -A CURRENTX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:30 2010: ncra -A COWINDSP_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:29 2010: ncra -A COTOTSNO_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:28 2010: ncra -A COTOTRAI_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:27 2010: ncra -A COTOTEVA_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:26 2010: ncra -A COTAUZZV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:25 2010: ncra -A COTAUZZU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:25 2010: ncra -A COTAUYYV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:24 2010: ncra -A COTAUYYU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:23 2010: ncra -A COTAUXXV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:22 2010: ncra -A COTAUXXU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:21 2010: ncra -A COSHFICE_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:20 2010: ncra -A COQSRMIX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:19 2010: ncra -A COQNSMIX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:19 2010: ncra -A CONSFICE_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncra -A COLIQRUN_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncra -A COICEVAP_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:17 2010: ncra -A CODFLXDT_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:16 2010: ncra -A COCALVIN_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:15 2010: ncra -A SISUTESW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:15 2010: ncra -A SIICTEMW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncra -A SIICECOV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncra -A SIICEALW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc" ; :nco_openmp_thread_number = 4 ; } }}} == CPL/Output/MO/v2.historical1_19800101_19800131_1M_cpl_oce.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_cpl_oce { dimensions: X = 182 ; Y = 149 ; C = 4 ; time = UNLIMITED ; // (1 currently) variables: float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; double OCalving(time, Y, X) ; OCalving:long_name = "water_flux_into_ocean_from_ice_sheet" ; OCalving:units = "kg m-2 s-1" ; OCalving:coordinates = "lon lat" ; double OIceEvap(time, Y, X) ; OIceEvap:long_name = "water_evaporation_flux_where_sea_ice" ; OIceEvap:units = "kg m-2 s-1" ; OIceEvap:coordinates = "lon lat" ; double OIceFrac(time, Y, X) ; OIceFrac:long_name = "sea_ice_area_fraction" ; OIceFrac:units = "1" ; OIceFrac:coordinates = "lon lat" ; double OTotEvap(time, Y, X) ; OTotEvap:long_name = "water_evaporation_flux" ; OTotEvap:units = "1" ; OTotEvap:coordinates = "lon lat" ; double OTotRain(time, Y, X) ; OTotRain:long_name = "surface_precipitation_flux" ; OTotRain:units = "kg m-2 s-1" ; OTotRain:coordinates = "lon lat" ; double OTotSnow(time, Y, X) ; OTotSnow:long_name = "snow_fall_flux" ; OTotSnow:units = "kg m-2 s-1" ; OTotSnow:coordinates = "lon lat" ; double O_AlbIce(time, Y, X) ; O_AlbIce:long_name = "surface_albedo" ; O_AlbIce:units = "1" ; O_AlbIce:coordinates = "lon lat" ; double O_OCurx1(time, Y, X) ; O_OCurx1:long_name = "sea_water_speed" ; O_OCurx1:units = "m s-1" ; O_OCurx1:coordinates = "lon lat" ; double O_OCury1(time, Y, X) ; O_OCury1:long_name = "sea_water_speed" ; O_OCury1:units = "m s-1" ; O_OCury1:coordinates = "lon lat" ; double O_OCurz1(time, Y, X) ; O_OCurz1:long_name = "sea_water_speed" ; O_OCurz1:units = "m s-1" ; O_OCurz1:coordinates = "lon lat" ; double O_OTaux1(time, Y, X) ; O_OTaux1:long_name = "surface_downward_grid_eastward_stress" ; O_OTaux1:units = "Pa" ; O_OTaux1:coordinates = "lon lat" ; double O_OTaux2(time, Y, X) ; O_OTaux2:long_name = "surface_downward_grid_northward_stress" ; O_OTaux2:units = "Pa" ; O_OTaux2:coordinates = "lon lat" ; double O_OTauy1(time, Y, X) ; O_OTauy1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauy1:units = "Pa" ; O_OTauy1:coordinates = "lon lat" ; double O_OTauy2(time, Y, X) ; O_OTauy2:long_name = "surface_downward_grid_northward_stress" ; O_OTauy2:units = "Pa" ; O_OTauy2:coordinates = "lon lat" ; double O_OTauz1(time, Y, X) ; O_OTauz1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauz1:units = "Pa" ; O_OTauz1:coordinates = "lon lat" ; double O_OTauz2(time, Y, X) ; O_OTauz2:long_name = "surface_downward_grid_northward_stress" ; O_OTauz2:units = "Pa" ; O_OTauz2:coordinates = "lon lat" ; double O_QnsIce(time, Y, X) ; O_QnsIce:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsIce:units = "W m-2" ; O_QnsIce:coordinates = "lon lat" ; double O_QnsMix(time, Y, X) ; O_QnsMix:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsMix:units = "W m-2" ; O_QnsMix:coordinates = "lon lat" ; double O_QsrIce(time, Y, X) ; O_QsrIce:long_name = "surface_net_downward_shortwave_flux" ; O_QsrIce:units = "W m-2" ; O_QsrIce:coordinates = "lon lat" ; double O_QsrMix(time, Y, X) ; O_QsrMix:long_name = "surface_net_downward_shortwave_flux" ; O_QsrMix:units = "W m-2" ; O_QsrMix:coordinates = "lon lat" ; double O_Runoff(time, Y, X) ; O_Runoff:long_name = "water_flux_into_ocean_from_rivers" ; O_Runoff:units = "kg m-2 s-1" ; O_Runoff:coordinates = "lon lat" ; double O_SSTSST(time, Y, X) ; O_SSTSST:long_name = "sea_surface_temperature" ; O_SSTSST:units = "K" ; O_SSTSST:coordinates = "lon lat" ; double O_TepIce(time, Y, X) ; O_TepIce:long_name = "surface_temperature" ; O_TepIce:units = "K" ; O_TepIce:coordinates = "lon lat" ; double O_Wind10(time, Y, X) ; O_Wind10:long_name = "wind_speed_at_10m" ; O_Wind10:units = "m s-1" ; O_Wind10:coordinates = "lon lat" ; double O_dQnsdT(time, Y, X) ; O_dQnsdT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; O_dQnsdT:units = "W m-2" ; O_dQnsdT:coordinates = "lon lat" ; // global attributes: :filename = "O_dQnsdT_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:21:15 2010: ncra -A O_dQnsdT_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:12 2010: ncra -A O_Wind10_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:09 2010: ncra -A O_TepIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:07 2010: ncra -A O_SSTSST_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:03 2010: ncra -A O_Runoff_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:01 2010: ncra -A O_QsrMix_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:59 2010: ncra -A O_QsrIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:56 2010: ncra -A O_QnsMix_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:55 2010: ncra -A O_QnsIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:53 2010: ncra -A O_OTauz2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:51 2010: ncra -A O_OTauz1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:50 2010: ncra -A O_OTauy2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:48 2010: ncra -A O_OTauy1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:47 2010: ncra -A O_OTaux2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:45 2010: ncra -A O_OTaux1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:44 2010: ncra -A O_OCurz1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:43 2010: ncra -A O_OCury1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:42 2010: ncra -A O_OCurx1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:40 2010: ncra -A O_AlbIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:39 2010: ncra -A OTotSnow_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:38 2010: ncra -A OTotRain_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:37 2010: ncra -A OTotEvap_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:36 2010: ncra -A OIceFrac_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:35 2010: ncra -A OIceEvap_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:34 2010: ncra -A OCalving_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc" ; :nco_openmp_thread_number = 4 ; } }}} == ICE/Output/MO/v2.historical1_19800101_19800131_1M_icemod.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_icemod { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float bmelt(time_counter, y, x) ; bmelt:units = "kg/m2/s" ; bmelt:standard_name = "Rate of Melt at Sea Ice Base" ; bmelt:_FillValue = 9.96921e+36f ; bmelt:long_name = "Rate of Melt at Sea Ice Base" ; bmelt:online_operation = "ave(X)" ; bmelt:interval_operation = 28800.f ; bmelt:interval_write = -1.f ; bmelt:coordinates = "time_counter nav_lat nav_lon" ; float evap(time_counter, y, x) ; evap:units = "kg/m2/s" ; evap:standard_name = "water_evaporation_flux" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "water_evaporation_flux" ; evap:online_operation = "ave(X)" ; evap:interval_operation = 28800.f ; evap:interval_write = -1.f ; evap:coordinates = "time_counter nav_lat nav_lon" ; float grLateral(time_counter, y, x) ; grLateral:units = "kg/m2/s" ; grLateral:standard_name = "Lateral Sea Ice Growth Rate" ; grLateral:_FillValue = 9.96921e+36f ; grLateral:long_name = "Lateral Sea Ice Growth Rate" ; grLateral:online_operation = "ave(X)" ; grLateral:interval_operation = 28800.f ; grLateral:interval_write = -1.f ; grLateral:coordinates = "time_counter nav_lat nav_lon" ; float ialb(time_counter, y, x) ; ialb:units = "1" ; ialb:standard_name = "Bare Sea Ice Albedo" ; ialb:_FillValue = 9.96921e+36f ; ialb:long_name = "Bare Sea Ice Albedo" ; ialb:online_operation = "ave(X)" ; ialb:interval_operation = 28800.f ; ialb:interval_write = -1.f ; ialb:coordinates = "time_counter nav_lat nav_lon" ; float ice_pres(time_counter, y, x) ; ice_pres:units = "-" ; ice_pres:standard_name = "Ice presence" ; ice_pres:_FillValue = 9.96921e+36f ; ice_pres:long_name = "Ice presence" ; ice_pres:online_operation = "ave(X)" ; ice_pres:interval_operation = 28800.f ; ice_pres:interval_write = -1.f ; ice_pres:coordinates = "time_counter nav_lat nav_lon" ; float iicetemp(time_counter, y, x) ; iicetemp:units = "degC" ; iicetemp:standard_name = "Ice surface temperature (ice presence average)" ; iicetemp:_FillValue = 9.96921e+36f ; iicetemp:long_name = "Ice surface temperature (ice presence average)" ; iicetemp:online_operation = "ave(X)" ; iicetemp:interval_operation = 28800.f ; iicetemp:interval_write = -1.f ; iicetemp:coordinates = "time_counter nav_lat nav_lon" ; float iicethic(time_counter, y, x) ; iicethic:units = "m" ; iicethic:standard_name = "sea_ice_thickness" ; iicethic:_FillValue = 9.96921e+36f ; iicethic:long_name = "sea_ice_thickness" ; iicethic:online_operation = "ave(X)" ; iicethic:interval_operation = 28800.f ; iicethic:interval_write = -1.f ; iicethic:coordinates = "time_counter nav_lat nav_lon" ; float iicevelu(time_counter, y, x) ; iicevelu:units = "m/s" ; iicevelu:standard_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:_FillValue = 9.96921e+36f ; iicevelu:long_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:online_operation = "ave(X)" ; iicevelu:interval_operation = 28800.f ; iicevelu:interval_write = -1.f ; iicevelu:coordinates = "time_counter nav_lat nav_lon" ; float iicevelv(time_counter, y, x) ; iicevelv:units = "m/s" ; iicevelv:standard_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:_FillValue = 9.96921e+36f ; iicevelv:long_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:online_operation = "ave(X)" ; iicevelv:interval_operation = 28800.f ; iicevelv:interval_write = -1.f ; iicevelv:coordinates = "time_counter nav_lat nav_lon" ; float ileadfra(time_counter, y, x) ; ileadfra:units = "1" ; ileadfra:standard_name = "sea_ice_area_fraction" ; ileadfra:_FillValue = 9.96921e+36f ; ileadfra:long_name = "sea_ice_area_fraction" ; ileadfra:online_operation = "ave(X)" ; ileadfra:interval_operation = 28800.f ; ileadfra:interval_write = -1.f ; ileadfra:coordinates = "time_counter nav_lat nav_lon" ; float isnowthi(time_counter, y, x) ; isnowthi:units = "m" ; isnowthi:standard_name = "surface_snow_thickness" ; isnowthi:_FillValue = 9.96921e+36f ; isnowthi:long_name = "surface_snow_thickness" ; isnowthi:online_operation = "ave(X)" ; isnowthi:interval_operation = 28800.f ; isnowthi:interval_write = -1.f ; isnowthi:coordinates = "time_counter nav_lat nav_lon" ; float prsn(time_counter, y, x) ; prsn:units = "kg/m2/s" ; prsn:standard_name = "Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" ; prsn:_FillValue = 9.96921e+36f ; prsn:long_name = "Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" ; prsn:online_operation = "ave(X)" ; prsn:interval_operation = 28800.f ; prsn:interval_write = -1.f ; prsn:coordinates = "time_counter nav_lat nav_lon" ; float rsdssi(time_counter, y, x) ; rsdssi:units = "W/m2" ; rsdssi:standard_name = "surface_downwelling_shortwave_flux_in_air" ; rsdssi:_FillValue = 9.96921e+36f ; rsdssi:long_name = "surface_downwelling_shortwave_flux_in_air" ; rsdssi:online_operation = "ave(X)" ; rsdssi:interval_operation = 28800.f ; rsdssi:interval_write = -1.f ; rsdssi:coordinates = "time_counter nav_lat nav_lon" ; float sblsi(time_counter, y, x) ; sblsi:units = "kg/m2/s" ; sblsi:standard_name = "surface_snow_and_ice_sublimation_flux" ; sblsi:_FillValue = 9.96921e+36f ; sblsi:long_name = "surface_snow_and_ice_sublimation_flux" ; sblsi:online_operation = "ave(X)" ; sblsi:interval_operation = 28800.f ; sblsi:interval_write = -1.f ; sblsi:coordinates = "time_counter nav_lat nav_lon" ; float snoToIce(time_counter, y, x) ; snoToIce:units = "kg/m2/s" ; snoToIce:standard_name = "Snow-Ice Formation Rate" ; snoToIce:_FillValue = 9.96921e+36f ; snoToIce:long_name = "Snow-Ice Formation Rate" ; snoToIce:online_operation = "ave(X)" ; snoToIce:interval_operation = 28800.f ; snoToIce:interval_write = -1.f ; snoToIce:coordinates = "time_counter nav_lat nav_lon" ; float snomelt(time_counter, y, x) ; snomelt:units = "kg/m2/s" ; snomelt:standard_name = "Snow Melt Rate" ; snomelt:_FillValue = 9.96921e+36f ; snomelt:long_name = "Snow Melt Rate" ; snomelt:online_operation = "ave(X)" ; snomelt:interval_operation = 28800.f ; snomelt:interval_write = -1.f ; snomelt:coordinates = "time_counter nav_lat nav_lon" ; float soicecov(time_counter, y, x) ; soicecov:units = "1" ; soicecov:standard_name = "sea_ice_area_fraction" ; soicecov:_FillValue = 9.96921e+36f ; soicecov:long_name = "sea_ice_area_fraction" ; soicecov:online_operation = "ave(X)" ; soicecov:interval_operation = 28800.f ; soicecov:interval_write = -1.f ; soicecov:coordinates = "time_counter nav_lat nav_lon" ; float strairx(time_counter, y, x) ; strairx:units = "N/m2" ; strairx:standard_name = "Eastward Atmospheric Stress On Sea Ice" ; strairx:_FillValue = 9.96921e+36f ; strairx:long_name = "Eastward Atmospheric Stress On Sea Ice" ; strairx:online_operation = "ave(X)" ; strairx:interval_operation = 28800.f ; strairx:interval_write = -1.f ; strairx:coordinates = "time_counter nav_lat nav_lon" ; float strairy(time_counter, y, x) ; strairy:units = "N/m2" ; strairy:standard_name = "Northward Atmospheric Stress On Sea Ice" ; strairy:_FillValue = 9.96921e+36f ; strairy:long_name = "Northward Atmospheric Stress On Sea Ice" ; strairy:online_operation = "ave(X)" ; strairy:interval_operation = 28800.f ; strairy:interval_write = -1.f ; strairy:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float tmelt(time_counter, y, x) ; tmelt:units = "kg/m2/s" ; tmelt:standard_name = "Rate of Melt at Upper Surface of Sea Ice" ; tmelt:_FillValue = 9.96921e+36f ; tmelt:long_name = "Rate of Melt at Upper Surface of Sea Ice" ; tmelt:online_operation = "ave(X)" ; tmelt:interval_operation = 28800.f ; tmelt:interval_write = -1.f ; tmelt:coordinates = "time_counter nav_lat nav_lon" ; float transifs(time_counter, y, x) ; transifs:units = "kg/s" ; transifs:standard_name = "Sea Ice Mass Transport Through Fram Strait" ; transifs:_FillValue = 9.96921e+36f ; transifs:long_name = "Sea Ice Mass Transport Through Fram Strait" ; transifs:online_operation = "ave(X)" ; transifs:interval_operation = 5760.f ; transifs:interval_write = -1.f ; transifs:coordinates = "time_counter nav_lat nav_lon" ; float transix(time_counter, y, x) ; transix:units = "kg/s" ; transix:standard_name = "Eastward Sea Ice Transport" ; transix:_FillValue = 9.96921e+36f ; transix:long_name = "Eastward Sea Ice Transport" ; transix:online_operation = "ave(X)" ; transix:interval_operation = 28800.f ; transix:interval_write = -1.f ; transix:coordinates = "time_counter nav_lat nav_lon" ; float transiy(time_counter, y, x) ; transiy:units = "kg/s" ; transiy:standard_name = "Northward Sea Ice Transport" ; transiy:_FillValue = 9.96921e+36f ; transiy:long_name = "Northward Sea Ice Transport" ; transiy:online_operation = "ave(X)" ; transiy:interval_operation = 28800.f ; transiy:interval_write = -1.f ; transiy:coordinates = "time_counter nav_lat nav_lon" ; float tsice(time_counter, y, x) ; tsice:units = "degC" ; tsice:standard_name = "Surface Temperature of Sea Ice" ; tsice:_FillValue = 9.96921e+36f ; tsice:long_name = "Surface Temperature of Sea Ice" ; tsice:online_operation = "ave(X)" ; tsice:interval_operation = 28800.f ; tsice:interval_write = -1.f ; tsice:coordinates = "time_counter nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_icemod.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_dbio_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_dbio_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float CHLT(time_counter, deptht, y, x) ; CHLT:units = "gChl/L" ; CHLT:standard_name = "Total chlorophyll Concentration" ; CHLT:_FillValue = 9.96921e+36f ; CHLT:long_name = "Total chlorophyll Concentration" ; CHLT:online_operation = "ave(X)" ; CHLT:interval_operation = 5760.f ; CHLT:interval_write = -1.f ; CHLT:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPC(time_counter, deptht, y, x) ; EXPC:units = "molC/m2/s" ; EXPC:standard_name = "Export of carbon" ; EXPC:_FillValue = 9.96921e+36f ; EXPC:long_name = "Export of carbon" ; EXPC:online_operation = "ave(X)" ; EXPC:interval_operation = 5760.f ; EXPC:interval_write = -1.f ; EXPC:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPCAL(time_counter, deptht, y, x) ; EXPCAL:units = "molC/m2/s" ; EXPCAL:standard_name = "Export of Calcite" ; EXPCAL:_FillValue = 9.96921e+36f ; EXPCAL:long_name = "Export of Calcite" ; EXPCAL:online_operation = "ave(X)" ; EXPCAL:interval_operation = 5760.f ; EXPCAL:interval_write = -1.f ; EXPCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPFE(time_counter, deptht, y, x) ; EXPFE:units = "molFe/m2/s" ; EXPFE:standard_name = "Export of biogenic iron" ; EXPFE:_FillValue = 9.96921e+36f ; EXPFE:long_name = "Export of biogenic iron" ; EXPFE:online_operation = "ave(X)" ; EXPFE:interval_operation = 5760.f ; EXPFE:interval_write = -1.f ; EXPFE:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPSI(time_counter, deptht, y, x) ; EXPSI:units = "molSi/m2/s" ; EXPSI:standard_name = "Export of Silicate" ; EXPSI:_FillValue = 9.96921e+36f ; EXPSI:long_name = "Export of Silicate" ; EXPSI:online_operation = "ave(X)" ; EXPSI:interval_operation = 5760.f ; EXPSI:interval_write = -1.f ; EXPSI:coordinates = "time_counter deptht nav_lat nav_lon" ; float INTDIC(time_counter, y, x) ; INTDIC:units = "kg/m2" ; INTDIC:standard_name = "DIC content" ; INTDIC:_FillValue = 9.96921e+36f ; INTDIC:long_name = "DIC content" ; INTDIC:online_operation = "ave(X)" ; INTDIC:interval_operation = 5760.f ; INTDIC:interval_write = -1.f ; INTDIC:coordinates = "time_counter nav_lat nav_lon" ; float INTNFIX(time_counter, y, x) ; INTNFIX:units = "molN/m2/s" ; INTNFIX:standard_name = "Nitrogen fixation rate : vert. integrated" ; INTNFIX:_FillValue = 9.96921e+36f ; INTNFIX:long_name = "Nitrogen fixation rate : vert. integrated" ; INTNFIX:online_operation = "ave(X)" ; INTNFIX:interval_operation = 5760.f ; INTNFIX:interval_write = -1.f ; INTNFIX:coordinates = "time_counter nav_lat nav_lon" ; float INTPBFE(time_counter, y, x) ; INTPBFE:units = "molFe/m2/s" ; INTPBFE:standard_name = "Vertically integrated of biogenic iron production" ; INTPBFE:_FillValue = 9.96921e+36f ; INTPBFE:long_name = "Vertically integrated of biogenic iron production" ; INTPBFE:online_operation = "ave(X)" ; INTPBFE:interval_operation = 5760.f ; INTPBFE:interval_write = -1.f ; INTPBFE:coordinates = "time_counter nav_lat nav_lon" ; float INTPBSI(time_counter, y, x) ; INTPBSI:units = "molSi/m2/s" ; INTPBSI:standard_name = "Vertically integrated of biogenic Si production" ; INTPBSI:_FillValue = 9.96921e+36f ; INTPBSI:long_name = "Vertically integrated of biogenic Si production" ; INTPBSI:online_operation = "ave(X)" ; INTPBSI:interval_operation = 5760.f ; INTPBSI:interval_write = -1.f ; INTPBSI:coordinates = "time_counter nav_lat nav_lon" ; float INTPCAL(time_counter, y, x) ; INTPCAL:units = "molSi/m2/s" ; INTPCAL:standard_name = "Vertically integrated of calcite production" ; INTPCAL:_FillValue = 9.96921e+36f ; INTPCAL:long_name = "Vertically integrated of calcite production" ; INTPCAL:online_operation = "ave(X)" ; INTPCAL:interval_operation = 5760.f ; INTPCAL:interval_write = -1.f ; INTPCAL:coordinates = "time_counter nav_lat nav_lon" ; float INTPNEW(time_counter, y, x) ; INTPNEW:units = "molC/m2/s" ; INTPNEW:standard_name = "Vertically integrated new primary production" ; INTPNEW:_FillValue = 9.96921e+36f ; INTPNEW:long_name = "Vertically integrated new primary production" ; INTPNEW:online_operation = "ave(X)" ; INTPNEW:interval_operation = 5760.f ; INTPNEW:interval_write = -1.f ; INTPNEW:coordinates = "time_counter nav_lat nav_lon" ; float INTPP(time_counter, y, x) ; INTPP:units = "molC/m2/s" ; INTPP:standard_name = "Vertically integrated primary production by phyto" ; INTPP:_FillValue = 9.96921e+36f ; INTPP:long_name = "Vertically integrated primary production by phyto" ; INTPP:online_operation = "ave(X)" ; INTPP:interval_operation = 5760.f ; INTPP:interval_write = -1.f ; INTPP:coordinates = "time_counter nav_lat nav_lon" ; float INTPPPHY(time_counter, y, x) ; INTPPPHY:units = "molC/m2/s" ; INTPPPHY:standard_name = "Vertically integrated primary production by nanophy" ; INTPPPHY:_FillValue = 9.96921e+36f ; INTPPPHY:long_name = "Vertically integrated primary production by nanophy" ; INTPPPHY:online_operation = "ave(X)" ; INTPPPHY:interval_operation = 5760.f ; INTPPPHY:interval_write = -1.f ; INTPPPHY:coordinates = "time_counter nav_lat nav_lon" ; float INTPPPHY2(time_counter, y, x) ; INTPPPHY2:units = "molC/m2/s" ; INTPPPHY2:standard_name = "Vertically integrated primary production by diatom" ; INTPPPHY2:_FillValue = 9.96921e+36f ; INTPPPHY2:long_name = "Vertically integrated primary production by diatom" ; INTPPPHY2:online_operation = "ave(X)" ; INTPPPHY2:interval_operation = 5760.f ; INTPPPHY2:interval_write = -1.f ; INTPPPHY2:coordinates = "time_counter nav_lat nav_lon" ; float O2MIN(time_counter, y, x) ; O2MIN:units = "molC/L" ; O2MIN:standard_name = "Oxygen minimum concentration" ; O2MIN:_FillValue = 9.96921e+36f ; O2MIN:long_name = "Oxygen minimum concentration" ; O2MIN:online_operation = "ave(X)" ; O2MIN:interval_operation = 5760.f ; O2MIN:interval_write = -1.f ; O2MIN:coordinates = "time_counter nav_lat nav_lon" ; float PFET(time_counter, deptht, y, x) ; PFET:units = "molFe/L" ; PFET:standard_name = "Total biogenic Iron Concentration" ; PFET:_FillValue = 9.96921e+36f ; PFET:long_name = "Total biogenic Iron Concentration" ; PFET:online_operation = "ave(X)" ; PFET:interval_operation = 5760.f ; PFET:interval_write = -1.f ; PFET:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHYT(time_counter, deptht, y, x) ; PHYT:units = "molC/L" ; PHYT:standard_name = "Total phytoplankton Concentration" ; PHYT:_FillValue = 9.96921e+36f ; PHYT:long_name = "Total phytoplankton Concentration" ; PHYT:online_operation = "ave(X)" ; PHYT:interval_operation = 5760.f ; PHYT:interval_write = -1.f ; PHYT:coordinates = "time_counter deptht nav_lat nav_lon" ; float POCT(time_counter, deptht, y, x) ; POCT:units = "molC/L" ; POCT:standard_name = "Total carbon particles Concentration" ; POCT:_FillValue = 9.96921e+36f ; POCT:long_name = "Total carbon particles Concentration" ; POCT:online_operation = "ave(X)" ; POCT:interval_operation = 5760.f ; POCT:interval_write = -1.f ; POCT:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPBFE(time_counter, deptht, y, x) ; TPBFE:units = "molFe/m3/s" ; TPBFE:standard_name = "Total biogenic iron production" ; TPBFE:_FillValue = 9.96921e+36f ; TPBFE:long_name = "Total biogenic iron production" ; TPBFE:online_operation = "ave(X)" ; TPBFE:interval_operation = 5760.f ; TPBFE:interval_write = -1.f ; TPBFE:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPNEW(time_counter, deptht, y, x) ; TPNEW:units = "molC/m3/s" ; TPNEW:standard_name = "New Primary production of phyto" ; TPNEW:_FillValue = 9.96921e+36f ; TPNEW:long_name = "New Primary production of phyto" ; TPNEW:online_operation = "ave(X)" ; TPNEW:interval_operation = 5760.f ; TPNEW:interval_write = -1.f ; TPNEW:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPP(time_counter, deptht, y, x) ; TPP:units = "molC/m3/s" ; TPP:standard_name = "Total Primary production of phyto" ; TPP:_FillValue = 9.96921e+36f ; TPP:long_name = "Total Primary production of phyto" ; TPP:online_operation = "ave(X)" ; TPP:interval_operation = 5760.f ; TPP:interval_write = -1.f ; TPP:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZO2MIN(time_counter, y, x) ; ZO2MIN:units = "m" ; ZO2MIN:standard_name = "Depth of oxygen minimum concentration" ; ZO2MIN:_FillValue = 9.96921e+36f ; ZO2MIN:long_name = "Depth of oxygen minimum concentration" ; ZO2MIN:online_operation = "ave(X)" ; ZO2MIN:interval_operation = 5760.f ; ZO2MIN:interval_write = -1.f ; ZO2MIN:coordinates = "time_counter nav_lat nav_lon" ; float ZOOT(time_counter, deptht, y, x) ; ZOOT:units = "molC/L" ; ZOOT:standard_name = "Total zooplankton Concentration" ; ZOOT:_FillValue = 9.96921e+36f ; ZOOT:long_name = "Total zooplankton Concentration" ; ZOOT:online_operation = "ave(X)" ; ZOOT:interval_operation = 5760.f ; ZOOT:interval_write = -1.f ; ZOOT:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_dbio_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_diad_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_diad_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float CO3(time_counter, deptht, y, x) ; CO3:units = "mol/L" ; CO3:standard_name = "Bicarbonates" ; CO3:_FillValue = 9.96921e+36f ; CO3:long_name = "Bicarbonates" ; CO3:online_operation = "ave(X)" ; CO3:interval_operation = 5760.f ; CO3:interval_write = -1.f ; CO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float CO3sat(time_counter, deptht, y, x) ; CO3sat:units = "mol/L" ; CO3sat:standard_name = "CO3 saturation" ; CO3sat:_FillValue = 9.96921e+36f ; CO3sat:long_name = "CO3 saturation" ; CO3sat:online_operation = "ave(X)" ; CO3sat:interval_operation = 5760.f ; CO3sat:interval_write = -1.f ; CO3sat:coordinates = "time_counter deptht nav_lat nav_lon" ; float Cflx(time_counter, y, x) ; Cflx:units = "molC/m2/s" ; Cflx:standard_name = "DIC flux" ; Cflx:_FillValue = 9.96921e+36f ; Cflx:long_name = "DIC flux" ; Cflx:online_operation = "ave(X)" ; Cflx:interval_operation = 5760.f ; Cflx:interval_write = -1.f ; Cflx:coordinates = "time_counter nav_lat nav_lon" ; float DCAL(time_counter, deptht, y, x) ; DCAL:units = "molC/m3/s" ; DCAL:standard_name = "Calcite dissolution" ; DCAL:_FillValue = 9.96921e+36f ; DCAL:long_name = "Calcite dissolution" ; DCAL:online_operation = "ave(X)" ; DCAL:interval_operation = 5760.f ; DCAL:interval_write = -1.f ; DCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float Dpco2(time_counter, y, x) ; Dpco2:units = "uatm" ; Dpco2:standard_name = "Delta CO2" ; Dpco2:_FillValue = 9.96921e+36f ; Dpco2:long_name = "Delta CO2" ; Dpco2:online_operation = "ave(X)" ; Dpco2:interval_operation = 5760.f ; Dpco2:interval_write = -1.f ; Dpco2:coordinates = "time_counter nav_lat nav_lon" ; float Dpo2(time_counter, y, x) ; Dpo2:units = "uatm" ; Dpo2:standard_name = "Delta O2" ; Dpo2:_FillValue = 9.96921e+36f ; Dpo2:long_name = "Delta O2" ; Dpo2:online_operation = "ave(X)" ; Dpo2:interval_operation = 5760.f ; Dpo2:interval_write = -1.f ; Dpo2:coordinates = "time_counter nav_lat nav_lon" ; float EPC100(time_counter, y, x) ; EPC100:units = "molC/m2/s" ; EPC100:standard_name = "Export of carbon particles at 100 m" ; EPC100:_FillValue = 9.96921e+36f ; EPC100:long_name = "Export of carbon particles at 100 m" ; EPC100:online_operation = "ave(X)" ; EPC100:interval_operation = 5760.f ; EPC100:interval_write = -1.f ; EPC100:coordinates = "time_counter nav_lat nav_lon" ; float EPCAL100(time_counter, y, x) ; EPCAL100:units = "molC/m2/s" ; EPCAL100:standard_name = "Export of Calcite at 100 m" ; EPCAL100:_FillValue = 9.96921e+36f ; EPCAL100:long_name = "Export of Calcite at 100 m" ; EPCAL100:online_operation = "ave(X)" ; EPCAL100:interval_operation = 5760.f ; EPCAL100:interval_write = -1.f ; EPCAL100:coordinates = "time_counter nav_lat nav_lon" ; float EPFE100(time_counter, y, x) ; EPFE100:units = "molFe/m2/s" ; EPFE100:standard_name = "Export of biogenic iron at 100 m" ; EPFE100:_FillValue = 9.96921e+36f ; EPFE100:long_name = "Export of biogenic iron at 100 m" ; EPFE100:online_operation = "ave(X)" ; EPFE100:interval_operation = 5760.f ; EPFE100:interval_write = -1.f ; EPFE100:coordinates = "time_counter nav_lat nav_lon" ; float EPSI100(time_counter, y, x) ; EPSI100:units = "molSi/m2/s" ; EPSI100:standard_name = "Export of Silicate at 100 m" ; EPSI100:_FillValue = 9.96921e+36f ; EPSI100:long_name = "Export of Silicate at 100 m" ; EPSI100:online_operation = "ave(X)" ; EPSI100:interval_operation = 5760.f ; EPSI100:interval_write = -1.f ; EPSI100:coordinates = "time_counter nav_lat nav_lon" ; float GRAZ(time_counter, deptht, y, x) ; GRAZ:units = "molC/m3/s" ; GRAZ:standard_name = "Grazing by zooplankton" ; GRAZ:_FillValue = 9.96921e+36f ; GRAZ:long_name = "Grazing by zooplankton" ; GRAZ:online_operation = "ave(X)" ; GRAZ:interval_operation = 5760.f ; GRAZ:interval_write = -1.f ; GRAZ:coordinates = "time_counter deptht nav_lat nav_lon" ; float Heup(time_counter, y, x) ; Heup:units = "m" ; Heup:standard_name = "Euphotic layer depth" ; Heup:_FillValue = 9.96921e+36f ; Heup:long_name = "Euphotic layer depth" ; Heup:online_operation = "ave(X)" ; Heup:interval_operation = 5760.f ; Heup:interval_write = -1.f ; Heup:coordinates = "time_counter nav_lat nav_lon" ; float Irondep(time_counter, y, x) ; Irondep:units = "molFe/m2/s" ; Irondep:standard_name = "Iron deposition" ; Irondep:_FillValue = 9.96921e+36f ; Irondep:long_name = "Iron deposition" ; Irondep:online_operation = "ave(X)" ; Irondep:interval_operation = 5760.f ; Irondep:interval_write = -1.f ; Irondep:coordinates = "time_counter nav_lat nav_lon" ; float Kg(time_counter, y, x) ; Kg:units = "molC/m2/s/uatm" ; Kg:standard_name = "Gas transfer" ; Kg:_FillValue = 9.96921e+36f ; Kg:long_name = "Gas transfer" ; Kg:online_operation = "ave(X)" ; Kg:interval_operation = 5760.f ; Kg:interval_write = -1.f ; Kg:coordinates = "time_counter nav_lat nav_lon" ; float Nfix(time_counter, y, x) ; Nfix:units = "molN/m2/s" ; Nfix:standard_name = "Nitrogen fixation at surface" ; Nfix:_FillValue = 9.96921e+36f ; Nfix:long_name = "Nitrogen fixation at surface" ; Nfix:online_operation = "ave(X)" ; Nfix:interval_operation = 5760.f ; Nfix:interval_write = -1.f ; Nfix:coordinates = "time_counter nav_lat nav_lon" ; float Oflx(time_counter, y, x) ; Oflx:units = "molC/m2/s" ; Oflx:standard_name = "Oxygen flux" ; Oflx:_FillValue = 9.96921e+36f ; Oflx:long_name = "Oxygen flux" ; Oflx:online_operation = "ave(X)" ; Oflx:interval_operation = 5760.f ; Oflx:interval_write = -1.f ; Oflx:coordinates = "time_counter nav_lat nav_lon" ; float PAR(time_counter, deptht, y, x) ; PAR:units = "W/m2" ; PAR:standard_name = "Photosynthetically Available Radiation" ; PAR:_FillValue = 9.96921e+36f ; PAR:long_name = "Photosynthetically Available Radiation" ; PAR:online_operation = "ave(X)" ; PAR:interval_operation = 5760.f ; PAR:interval_write = -1.f ; PAR:coordinates = "time_counter deptht nav_lat nav_lon" ; float PBSi(time_counter, deptht, y, x) ; PBSi:units = "molSi/m3/s" ; PBSi:standard_name = "Primary production of Si diatoms" ; PBSi:_FillValue = 9.96921e+36f ; PBSi:long_name = "Primary production of Si diatoms" ; PBSi:online_operation = "ave(X)" ; PBSi:interval_operation = 5760.f ; PBSi:interval_write = -1.f ; PBSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float PCAL(time_counter, deptht, y, x) ; PCAL:units = "molC/m3/s" ; PCAL:standard_name = "Calcite production" ; PCAL:_FillValue = 9.96921e+36f ; PCAL:long_name = "Calcite production" ; PCAL:online_operation = "ave(X)" ; PCAL:interval_operation = 5760.f ; PCAL:interval_write = -1.f ; PCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float PFeD(time_counter, deptht, y, x) ; PFeD:units = "molFe/m3/s" ; PFeD:standard_name = "Primary production of diatoms iron" ; PFeD:_FillValue = 9.96921e+36f ; PFeD:long_name = "Primary production of diatoms iron" ; PFeD:online_operation = "ave(X)" ; PFeD:interval_operation = 5760.f ; PFeD:interval_write = -1.f ; PFeD:coordinates = "time_counter deptht nav_lat nav_lon" ; float PFeN(time_counter, deptht, y, x) ; PFeN:units = "molFe/m3/s" ; PFeN:standard_name = "Primary production of nano iron" ; PFeN:_FillValue = 9.96921e+36f ; PFeN:long_name = "Primary production of nano iron" ; PFeN:online_operation = "ave(X)" ; PFeN:interval_operation = 5760.f ; PFeN:interval_write = -1.f ; PFeN:coordinates = "time_counter deptht nav_lat nav_lon" ; float PH(time_counter, deptht, y, x) ; PH:units = "-" ; PH:standard_name = "PH" ; PH:_FillValue = 9.96921e+36f ; PH:long_name = "PH" ; PH:online_operation = "ave(X)" ; PH:interval_operation = 5760.f ; PH:interval_write = -1.f ; PH:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPNEWD(time_counter, deptht, y, x) ; PPNEWD:units = "molC/m3/s" ; PPNEWD:standard_name = "New Primary production of diatoms" ; PPNEWD:_FillValue = 9.96921e+36f ; PPNEWD:long_name = "New Primary production of diatoms" ; PPNEWD:online_operation = "ave(X)" ; PPNEWD:interval_operation = 5760.f ; PPNEWD:interval_write = -1.f ; PPNEWD:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPNEWN(time_counter, deptht, y, x) ; PPNEWN:units = "molC/m3/s" ; PPNEWN:standard_name = "New Primary production of nanophyto" ; PPNEWN:_FillValue = 9.96921e+36f ; PPNEWN:long_name = "New Primary production of nanophyto" ; PPNEWN:online_operation = "ave(X)" ; PPNEWN:interval_operation = 5760.f ; PPNEWN:interval_write = -1.f ; PPNEWN:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPPHY(time_counter, deptht, y, x) ; PPPHY:units = "molC/m3/s" ; PPPHY:standard_name = "Primary production of nanophyto" ; PPPHY:_FillValue = 9.96921e+36f ; PPPHY:long_name = "Primary production of nanophyto" ; PPPHY:online_operation = "ave(X)" ; PPPHY:interval_operation = 5760.f ; PPPHY:interval_write = -1.f ; PPPHY:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPPHY2(time_counter, deptht, y, x) ; PPPHY2:units = "molC/m3/s" ; PPPHY2:standard_name = "Primary production of diatoms" ; PPPHY2:_FillValue = 9.96921e+36f ; PPPHY2:long_name = "Primary production of diatoms" ; PPPHY2:online_operation = "ave(X)" ; PPPHY2:interval_operation = 5760.f ; PPPHY2:interval_write = -1.f ; PPPHY2:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_diad_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_ptrc_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_ptrc_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float Alkalini(time_counter, deptht, y, x) ; Alkalini:units = "eq/L" ; Alkalini:standard_name = "Total Alkalinity Concentration" ; Alkalini:_FillValue = 9.96921e+36f ; Alkalini:long_name = "Total Alkalinity Concentration" ; Alkalini:online_operation = "ave(X)" ; Alkalini:interval_operation = 5760.f ; Alkalini:interval_write = -1.f ; Alkalini:coordinates = "time_counter deptht nav_lat nav_lon" ; float BFe(time_counter, deptht, y, x) ; BFe:units = "molFe/L" ; BFe:standard_name = "Big iron particles Concentration" ; BFe:_FillValue = 9.96921e+36f ; BFe:long_name = "Big iron particles Concentration" ; BFe:online_operation = "ave(X)" ; BFe:interval_operation = 5760.f ; BFe:interval_write = -1.f ; BFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float BSi(time_counter, deptht, y, x) ; BSi:units = "molC/L" ; BSi:standard_name = "Diatoms Silicate Concentration" ; BSi:_FillValue = 9.96921e+36f ; BSi:long_name = "Diatoms Silicate Concentration" ; BSi:online_operation = "ave(X)" ; BSi:interval_operation = 5760.f ; BSi:interval_write = -1.f ; BSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float CaCO3(time_counter, deptht, y, x) ; CaCO3:units = "molC/L" ; CaCO3:standard_name = "Calcite Concentration" ; CaCO3:_FillValue = 9.96921e+36f ; CaCO3:long_name = "Calcite Concentration" ; CaCO3:online_operation = "ave(X)" ; CaCO3:interval_operation = 5760.f ; CaCO3:interval_write = -1.f ; CaCO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float DCHL(time_counter, deptht, y, x) ; DCHL:units = "gChl/L" ; DCHL:standard_name = "Diatoms chlorophyl Concentration" ; DCHL:_FillValue = 9.96921e+36f ; DCHL:long_name = "Diatoms chlorophyl Concentration" ; DCHL:online_operation = "ave(X)" ; DCHL:interval_operation = 5760.f ; DCHL:interval_write = -1.f ; DCHL:coordinates = "time_counter deptht nav_lat nav_lon" ; float DFe(time_counter, deptht, y, x) ; DFe:units = "molFe/L" ; DFe:standard_name = "Diatoms iron Concentration" ; DFe:_FillValue = 9.96921e+36f ; DFe:long_name = "Diatoms iron Concentration" ; DFe:online_operation = "ave(X)" ; DFe:interval_operation = 5760.f ; DFe:interval_write = -1.f ; DFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float DIC(time_counter, deptht, y, x) ; DIC:units = "molC/L" ; DIC:standard_name = "Dissolved inorganic Concentration" ; DIC:_FillValue = 9.96921e+36f ; DIC:long_name = "Dissolved inorganic Concentration" ; DIC:online_operation = "ave(X)" ; DIC:interval_operation = 5760.f ; DIC:interval_write = -1.f ; DIC:coordinates = "time_counter deptht nav_lat nav_lon" ; float DOC(time_counter, deptht, y, x) ; DOC:units = "molC/L" ; DOC:standard_name = "Dissolved organic Concentration" ; DOC:_FillValue = 9.96921e+36f ; DOC:long_name = "Dissolved organic Concentration" ; DOC:online_operation = "ave(X)" ; DOC:interval_operation = 5760.f ; DOC:interval_write = -1.f ; DOC:coordinates = "time_counter deptht nav_lat nav_lon" ; float DSi(time_counter, deptht, y, x) ; DSi:units = "molC/L" ; DSi:standard_name = "Sinking biogenic Silicate Concentration" ; DSi:_FillValue = 9.96921e+36f ; DSi:long_name = "Sinking biogenic Silicate Concentration" ; DSi:online_operation = "ave(X)" ; DSi:interval_operation = 5760.f ; DSi:interval_write = -1.f ; DSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float Fer(time_counter, deptht, y, x) ; Fer:units = "molFe/L" ; Fer:standard_name = "Dissolved Iron Concentration" ; Fer:_FillValue = 9.96921e+36f ; Fer:long_name = "Dissolved Iron Concentration" ; Fer:online_operation = "ave(X)" ; Fer:interval_operation = 5760.f ; Fer:interval_write = -1.f ; Fer:coordinates = "time_counter deptht nav_lat nav_lon" ; float GOC(time_counter, deptht, y, x) ; GOC:units = "molC/L" ; GOC:standard_name = "Big organic carbon Concentration" ; GOC:_FillValue = 9.96921e+36f ; GOC:long_name = "Big organic carbon Concentration" ; GOC:online_operation = "ave(X)" ; GOC:interval_operation = 5760.f ; GOC:interval_write = -1.f ; GOC:coordinates = "time_counter deptht nav_lat nav_lon" ; float NCHL(time_counter, deptht, y, x) ; NCHL:units = "gChl/L" ; NCHL:standard_name = "Nano chlorophyl Concentration" ; NCHL:_FillValue = 9.96921e+36f ; NCHL:long_name = "Nano chlorophyl Concentration" ; NCHL:online_operation = "ave(X)" ; NCHL:interval_operation = 5760.f ; NCHL:interval_write = -1.f ; NCHL:coordinates = "time_counter deptht nav_lat nav_lon" ; float NFe(time_counter, deptht, y, x) ; NFe:units = "molC/L" ; NFe:standard_name = "Nano iron Concentration" ; NFe:_FillValue = 9.96921e+36f ; NFe:long_name = "Nano iron Concentration" ; NFe:online_operation = "ave(X)" ; NFe:interval_operation = 5760.f ; NFe:interval_write = -1.f ; NFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float NH4(time_counter, deptht, y, x) ; NH4:units = "molC/L" ; NH4:standard_name = "Ammonium Concentration" ; NH4:_FillValue = 9.96921e+36f ; NH4:long_name = "Ammonium Concentration" ; NH4:online_operation = "ave(X)" ; NH4:interval_operation = 5760.f ; NH4:interval_write = -1.f ; NH4:coordinates = "time_counter deptht nav_lat nav_lon" ; float NO3(time_counter, deptht, y, x) ; NO3:units = "molC/L" ; NO3:standard_name = "Nitrates Concentration" ; NO3:_FillValue = 9.96921e+36f ; NO3:long_name = "Nitrates Concentration" ; NO3:online_operation = "ave(X)" ; NO3:interval_operation = 5760.f ; NO3:interval_write = -1.f ; NO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float O2(time_counter, deptht, y, x) ; O2:units = "molO2/L" ; O2:standard_name = "Oxygen Concentration" ; O2:_FillValue = 9.96921e+36f ; O2:long_name = "Oxygen Concentration" ; O2:online_operation = "ave(X)" ; O2:interval_operation = 5760.f ; O2:interval_write = -1.f ; O2:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHY(time_counter, deptht, y, x) ; PHY:units = "molC/L" ; PHY:standard_name = "Nanophytoplankton Concentration" ; PHY:_FillValue = 9.96921e+36f ; PHY:long_name = "Nanophytoplankton Concentration" ; PHY:online_operation = "ave(X)" ; PHY:interval_operation = 5760.f ; PHY:interval_write = -1.f ; PHY:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHY2(time_counter, deptht, y, x) ; PHY2:units = "molC/L" ; PHY2:standard_name = "Diatoms Concentration" ; PHY2:_FillValue = 9.96921e+36f ; PHY2:long_name = "Diatoms Concentration" ; PHY2:online_operation = "ave(X)" ; PHY2:interval_operation = 5760.f ; PHY2:interval_write = -1.f ; PHY2:coordinates = "time_counter deptht nav_lat nav_lon" ; float PO4(time_counter, deptht, y, x) ; PO4:units = "molC/L" ; PO4:standard_name = "Phosphate Concentration" ; PO4:_FillValue = 9.96921e+36f ; PO4:long_name = "Phosphate Concentration" ; PO4:online_operation = "ave(X)" ; PO4:interval_operation = 5760.f ; PO4:interval_write = -1.f ; PO4:coordinates = "time_counter deptht nav_lat nav_lon" ; float POC(time_counter, deptht, y, x) ; POC:units = "molC/L" ; POC:standard_name = "Small organic carbon Concentration" ; POC:_FillValue = 9.96921e+36f ; POC:long_name = "Small organic carbon Concentration" ; POC:online_operation = "ave(X)" ; POC:interval_operation = 5760.f ; POC:interval_write = -1.f ; POC:coordinates = "time_counter deptht nav_lat nav_lon" ; float SFe(time_counter, deptht, y, x) ; SFe:units = "molFe/L" ; SFe:standard_name = "Small iron particles Concentration" ; SFe:_FillValue = 9.96921e+36f ; SFe:long_name = "Small iron particles Concentration" ; SFe:online_operation = "ave(X)" ; SFe:interval_operation = 5760.f ; SFe:interval_write = -1.f ; SFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float Si(time_counter, deptht, y, x) ; Si:units = "molSi/L" ; Si:standard_name = "Silicate Concentration" ; Si:_FillValue = 9.96921e+36f ; Si:long_name = "Silicate Concentration" ; Si:online_operation = "ave(X)" ; Si:interval_operation = 5760.f ; Si:interval_write = -1.f ; Si:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZOO(time_counter, deptht, y, x) ; ZOO:units = "molC/L" ; ZOO:standard_name = "Microzooplankton Concentration" ; ZOO:_FillValue = 9.96921e+36f ; ZOO:long_name = "Microzooplankton Concentration" ; ZOO:online_operation = "ave(X)" ; ZOO:interval_operation = 5760.f ; ZOO:interval_write = -1.f ; ZOO:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZOO2(time_counter, deptht, y, x) ; ZOO2:units = "molC/L" ; ZOO2:standard_name = "Mesozooplankton Concentration" ; ZOO2:_FillValue = 9.96921e+36f ; ZOO2:long_name = "Mesozooplankton Concentration" ; ZOO2:online_operation = "ave(X)" ; ZOO2:interval_operation = 5760.f ; ZOO2:interval_write = -1.f ; ZOO2:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_ptrc_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_diaptr.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_diaptr { // format variant: 64bit dimensions: lon = 1 ; lat = 149 ; deptht = 31 ; depthw = 31 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = 0.f ; lon:valid_max = 0.f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -77.98417f ; lat:valid_max = 89.5f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; float depthw(depthw) ; depthw:axis = "Z" ; depthw:standard_name = "model_level_number" ; depthw:units = "m" ; depthw:positive = "down" ; depthw:valid_min = 0.f ; depthw:valid_max = 5000.f ; depthw:title = "depthw" ; depthw:long_name = "Vertical W levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float zotemglo(time_counter, deptht, lat, lon) ; zotemglo:units = "C" ; zotemglo:standard_name = "Zonal Mean Temperature" ; zotemglo:_FillValue = 9.96921e+36f ; zotemglo:long_name = "Zonal Mean Temperature" ; zotemglo:online_operation = "ave(only(x))" ; zotemglo:interval_operation = 5760.f ; zotemglo:interval_write = 2678400.f ; zotemglo:coordinates = "time_counter deptht lat lon" ; float zosalglo(time_counter, deptht, lat, lon) ; zosalglo:units = "PSU" ; zosalglo:standard_name = "Zonal Mean Salinity" ; zosalglo:_FillValue = 9.96921e+36f ; zosalglo:long_name = "Zonal Mean Salinity" ; zosalglo:online_operation = "ave(only(x))" ; zosalglo:interval_operation = 5760.f ; zosalglo:interval_write = 2678400.f ; zosalglo:coordinates = "time_counter deptht lat lon" ; float zosrfglo(deptht, lat, lon) ; zosrfglo:units = "m^2" ; zosrfglo:standard_name = "Zonal Mean Surface" ; zosrfglo:_FillValue = 9.96921e+36f ; zosrfglo:long_name = "Zonal Mean Surface" ; zosrfglo:online_operation = "once(only(x))" ; zosrfglo:coordinates = "deptht lat lon" ; float zotematl(time_counter, deptht, lat, lon) ; zotematl:units = "C" ; zotematl:standard_name = "Zonal Mean Temperature: Atlantic" ; zotematl:_FillValue = 9.96921e+36f ; zotematl:long_name = "Zonal Mean Temperature: Atlantic" ; zotematl:online_operation = "ave(only(x))" ; zotematl:interval_operation = 5760.f ; zotematl:interval_write = 2678400.f ; zotematl:coordinates = "time_counter deptht lat lon" ; float zosalatl(time_counter, deptht, lat, lon) ; zosalatl:units = "PSU" ; zosalatl:standard_name = "Zonal Mean Salinity: Atlantic" ; zosalatl:_FillValue = 9.96921e+36f ; zosalatl:long_name = "Zonal Mean Salinity: Atlantic" ; zosalatl:online_operation = "ave(only(x))" ; zosalatl:interval_operation = 5760.f ; zosalatl:interval_write = 2678400.f ; zosalatl:coordinates = "time_counter deptht lat lon" ; float zosrfatl(deptht, lat, lon) ; zosrfatl:units = "m^2" ; zosrfatl:standard_name = "Zonal Mean Surface: Atlantic" ; zosrfatl:_FillValue = 9.96921e+36f ; zosrfatl:long_name = "Zonal Mean Surface: Atlantic" ; zosrfatl:online_operation = "once(only(x))" ; zosrfatl:coordinates = "deptht lat lon" ; float zotempac(time_counter, deptht, lat, lon) ; zotempac:units = "C" ; zotempac:standard_name = "Zonal Mean Temperature: Pacific" ; zotempac:_FillValue = 9.96921e+36f ; zotempac:long_name = "Zonal Mean Temperature: Pacific" ; zotempac:online_operation = "ave(only(x))" ; zotempac:interval_operation = 5760.f ; zotempac:interval_write = 2678400.f ; zotempac:coordinates = "time_counter deptht lat lon" ; float zosalpac(time_counter, deptht, lat, lon) ; zosalpac:units = "PSU" ; zosalpac:standard_name = "Zonal Mean Salinity: Pacific" ; zosalpac:_FillValue = 9.96921e+36f ; zosalpac:long_name = "Zonal Mean Salinity: Pacific" ; zosalpac:online_operation = "ave(only(x))" ; zosalpac:interval_operation = 5760.f ; zosalpac:interval_write = 2678400.f ; zosalpac:coordinates = "time_counter deptht lat lon" ; float zosrfpac(deptht, lat, lon) ; zosrfpac:units = "m^2" ; zosrfpac:standard_name = "Zonal Mean Surface: Pacific" ; zosrfpac:_FillValue = 9.96921e+36f ; zosrfpac:long_name = "Zonal Mean Surface: Pacific" ; zosrfpac:online_operation = "once(only(x))" ; zosrfpac:coordinates = "deptht lat lon" ; float zotemind(time_counter, deptht, lat, lon) ; zotemind:units = "C" ; zotemind:standard_name = "Zonal Mean Temperature: Indian" ; zotemind:_FillValue = 9.96921e+36f ; zotemind:long_name = "Zonal Mean Temperature: Indian" ; zotemind:online_operation = "ave(only(x))" ; zotemind:interval_operation = 5760.f ; zotemind:interval_write = 2678400.f ; zotemind:coordinates = "time_counter deptht lat lon" ; float zosalind(time_counter, deptht, lat, lon) ; zosalind:units = "PSU" ; zosalind:standard_name = "Zonal Mean Salinity: Indian" ; zosalind:_FillValue = 9.96921e+36f ; zosalind:long_name = "Zonal Mean Salinity: Indian" ; zosalind:online_operation = "ave(only(x))" ; zosalind:interval_operation = 5760.f ; zosalind:interval_write = 2678400.f ; zosalind:coordinates = "time_counter deptht lat lon" ; float zosrfind(deptht, lat, lon) ; zosrfind:units = "m^2" ; zosrfind:standard_name = "Zonal Mean Surface: Indian" ; zosrfind:_FillValue = 9.96921e+36f ; zosrfind:long_name = "Zonal Mean Surface: Indian" ; zosrfind:online_operation = "once(only(x))" ; zosrfind:coordinates = "deptht lat lon" ; float zotemipc(time_counter, deptht, lat, lon) ; zotemipc:units = "C" ; zotemipc:standard_name = "Zonal Mean Temperature: Pacific+Indian" ; zotemipc:_FillValue = 9.96921e+36f ; zotemipc:long_name = "Zonal Mean Temperature: Pacific+Indian" ; zotemipc:online_operation = "ave(only(x))" ; zotemipc:interval_operation = 5760.f ; zotemipc:interval_write = 2678400.f ; zotemipc:coordinates = "time_counter deptht lat lon" ; float zosalipc(time_counter, deptht, lat, lon) ; zosalipc:units = "PSU" ; zosalipc:standard_name = "Zonal Mean Salinity: Pacific+Indian" ; zosalipc:_FillValue = 9.96921e+36f ; zosalipc:long_name = "Zonal Mean Salinity: Pacific+Indian" ; zosalipc:online_operation = "ave(only(x))" ; zosalipc:interval_operation = 5760.f ; zosalipc:interval_write = 2678400.f ; zosalipc:coordinates = "time_counter deptht lat lon" ; float zosrfipc(deptht, lat, lon) ; zosrfipc:units = "m^2" ; zosrfipc:standard_name = "Zonal Mean Surface: Pacific+Indian" ; zosrfipc:_FillValue = 9.96921e+36f ; zosrfipc:long_name = "Zonal Mean Surface: Pacific+Indian" ; zosrfipc:online_operation = "once(only(x))" ; zosrfipc:coordinates = "deptht lat lon" ; float zomsfglo(time_counter, depthw, lat, lon) ; zomsfglo:units = "Sv" ; zomsfglo:standard_name = "Meridional Stream-Function: Global (Bolus part included)" ; zomsfglo:_FillValue = 9.96921e+36f ; zomsfglo:long_name = "Meridional Stream-Function: Global (Bolus part included)" ; zomsfglo:online_operation = "ave(only(x))" ; zomsfglo:interval_operation = 5760.f ; zomsfglo:interval_write = 2678400.f ; zomsfglo:coordinates = "time_counter depthw lat lon" ; float zomsfatl(time_counter, depthw, lat, lon) ; zomsfatl:units = "Sv" ; zomsfatl:standard_name = "Meridional Stream-Function: Atlantic (Bolus part included)" ; zomsfatl:_FillValue = 9.96921e+36f ; zomsfatl:long_name = "Meridional Stream-Function: Atlantic (Bolus part included)" ; zomsfatl:online_operation = "ave(only(x))" ; zomsfatl:interval_operation = 5760.f ; zomsfatl:interval_write = 2678400.f ; zomsfatl:coordinates = "time_counter depthw lat lon" ; float zomsfpac(time_counter, depthw, lat, lon) ; zomsfpac:units = "Sv" ; zomsfpac:standard_name = "Meridional Stream-Function: Pacific (Bolus part included)" ; zomsfpac:_FillValue = 9.96921e+36f ; zomsfpac:long_name = "Meridional Stream-Function: Pacific (Bolus part included)" ; zomsfpac:online_operation = "ave(only(x))" ; zomsfpac:interval_operation = 5760.f ; zomsfpac:interval_write = 2678400.f ; zomsfpac:coordinates = "time_counter depthw lat lon" ; float zomsfind(time_counter, depthw, lat, lon) ; zomsfind:units = "Sv" ; zomsfind:standard_name = "Meridional Stream-Function: Indian (Bolus part included)" ; zomsfind:_FillValue = 9.96921e+36f ; zomsfind:long_name = "Meridional Stream-Function: Indian (Bolus part included)" ; zomsfind:online_operation = "ave(only(x))" ; zomsfind:interval_operation = 5760.f ; zomsfind:interval_write = 2678400.f ; zomsfind:coordinates = "time_counter depthw lat lon" ; float zomsfipc(time_counter, depthw, lat, lon) ; zomsfipc:units = "Sv" ; zomsfipc:standard_name = "Meridional Stream-Function: Indo-Pacific (Bolus part included)" ; zomsfipc:_FillValue = 9.96921e+36f ; zomsfipc:long_name = "Meridional Stream-Function: Indo-Pacific (Bolus part included)" ; zomsfipc:online_operation = "ave(only(x))" ; zomsfipc:interval_operation = 5760.f ; zomsfipc:interval_write = 2678400.f ; zomsfipc:coordinates = "time_counter depthw lat lon" ; float sophtadv(time_counter, lat, lon) ; sophtadv:units = "PW" ; sophtadv:standard_name = "Advective Heat Transport" ; sophtadv:_FillValue = 9.96921e+36f ; sophtadv:long_name = "Advective Heat Transport" ; sophtadv:online_operation = "ave(only(x))" ; sophtadv:interval_operation = 5760.f ; sophtadv:interval_write = 2678400.f ; sophtadv:coordinates = "time_counter lat lon" ; float sophtldf(time_counter, lat, lon) ; sophtldf:units = "PW" ; sophtldf:standard_name = "Diffusive Heat Transport" ; sophtldf:_FillValue = 9.96921e+36f ; sophtldf:long_name = "Diffusive Heat Transport" ; sophtldf:online_operation = "ave(only(x))" ; sophtldf:interval_operation = 5760.f ; sophtldf:interval_write = 2678400.f ; sophtldf:coordinates = "time_counter lat lon" ; float sophtove(time_counter, lat, lon) ; sophtove:units = "PW" ; sophtove:standard_name = "Overturning Heat Transport" ; sophtove:_FillValue = 9.96921e+36f ; sophtove:long_name = "Overturning Heat Transport" ; sophtove:online_operation = "ave(only(x))" ; sophtove:interval_operation = 5760.f ; sophtove:interval_write = 2678400.f ; sophtove:coordinates = "time_counter lat lon" ; float sohtatl(time_counter, lat, lon) ; sohtatl:units = "PW" ; sohtatl:standard_name = "Heat Transport Atlantic (Bolus part included)" ; sohtatl:_FillValue = 9.96921e+36f ; sohtatl:long_name = "Heat Transport Atlantic (Bolus part included)" ; sohtatl:online_operation = "ave(only(x))" ; sohtatl:interval_operation = 5760.f ; sohtatl:interval_write = 2678400.f ; sohtatl:coordinates = "time_counter lat lon" ; float sohtpac(time_counter, lat, lon) ; sohtpac:units = "PW" ; sohtpac:standard_name = "Heat Transport Pacific (Bolus part included)" ; sohtpac:_FillValue = 9.96921e+36f ; sohtpac:long_name = "Heat Transport Pacific (Bolus part included)" ; sohtpac:online_operation = "ave(only(x))" ; sohtpac:interval_operation = 5760.f ; sohtpac:interval_write = 2678400.f ; sohtpac:coordinates = "time_counter lat lon" ; float sohtind(time_counter, lat, lon) ; sohtind:units = "PW" ; sohtind:standard_name = "Heat Transport Indian (Bolus part included)" ; sohtind:_FillValue = 9.96921e+36f ; sohtind:long_name = "Heat Transport Indian (Bolus part included)" ; sohtind:online_operation = "ave(only(x))" ; sohtind:interval_operation = 5760.f ; sohtind:interval_write = 2678400.f ; sohtind:coordinates = "time_counter lat lon" ; float sohtipc(time_counter, lat, lon) ; sohtipc:units = "PW" ; sohtipc:standard_name = "Heat Transport Pacific+Indian (Bolus part included)" ; sohtipc:_FillValue = 9.96921e+36f ; sohtipc:long_name = "Heat Transport Pacific+Indian (Bolus part included)" ; sohtipc:online_operation = "ave(only(x))" ; sohtipc:interval_operation = 5760.f ; sohtipc:interval_write = 2678400.f ; sohtipc:coordinates = "time_counter lat lon" ; float sopstadv(time_counter, lat, lon) ; sopstadv:units = "Giga g/s" ; sopstadv:standard_name = "Advective Salt Transport" ; sopstadv:_FillValue = 9.96921e+36f ; sopstadv:long_name = "Advective Salt Transport" ; sopstadv:online_operation = "ave(only(x))" ; sopstadv:interval_operation = 5760.f ; sopstadv:interval_write = 2678400.f ; sopstadv:coordinates = "time_counter lat lon" ; float sopstldf(time_counter, lat, lon) ; sopstldf:units = "Giga g/s" ; sopstldf:standard_name = "Diffusive Salt Transport" ; sopstldf:_FillValue = 9.96921e+36f ; sopstldf:long_name = "Diffusive Salt Transport" ; sopstldf:online_operation = "ave(only(x))" ; sopstldf:interval_operation = 5760.f ; sopstldf:interval_write = 2678400.f ; sopstldf:coordinates = "time_counter lat lon" ; float sopstove(time_counter, lat, lon) ; sopstove:units = "Giga g/s" ; sopstove:standard_name = "Overturning Salt Transport" ; sopstove:_FillValue = 9.96921e+36f ; sopstove:long_name = "Overturning Salt Transport" ; sopstove:online_operation = "ave(only(x))" ; sopstove:interval_operation = 5760.f ; sopstove:interval_write = 2678400.f ; sopstove:coordinates = "time_counter lat lon" ; float zomsfeiv(time_counter, depthw, lat, lon) ; zomsfeiv:units = "Sv" ; zomsfeiv:standard_name = "Bolus Meridional Stream-Function: global" ; zomsfeiv:_FillValue = 9.96921e+36f ; zomsfeiv:long_name = "Bolus Meridional Stream-Function: global" ; zomsfeiv:online_operation = "ave(only(x))" ; zomsfeiv:interval_operation = 5760.f ; zomsfeiv:interval_write = 2678400.f ; zomsfeiv:coordinates = "time_counter depthw lat lon" ; float sophteiv(time_counter, lat, lon) ; sophteiv:units = "PW" ; sophteiv:standard_name = "Bolus Advective Heat Transport" ; sophteiv:_FillValue = 9.96921e+36f ; sophteiv:long_name = "Bolus Advective Heat Transport" ; sophteiv:online_operation = "ave(only(x))" ; sophteiv:interval_operation = 5760.f ; sophteiv:interval_write = 2678400.f ; sophteiv:coordinates = "time_counter lat lon" ; float sopsteiv(time_counter, lat, lon) ; sopsteiv:units = "Giga g/s" ; sopsteiv:standard_name = "Bolus Advective Salt Transport" ; sopsteiv:_FillValue = 9.96921e+36f ; sopsteiv:long_name = "Bolus Advective Salt Transport" ; sopsteiv:online_operation = "ave(only(x))" ; sopsteiv:interval_operation = 5760.f ; sopsteiv:interval_write = 2678400.f ; sopsteiv:coordinates = "time_counter lat lon" ; float sostatl(time_counter, lat, lon) ; sostatl:units = "Giga g/s" ; sostatl:standard_name = "Salt Transport Atlantic (Bolus part included)" ; sostatl:_FillValue = 9.96921e+36f ; sostatl:long_name = "Salt Transport Atlantic (Bolus part included)" ; sostatl:online_operation = "ave(only(x))" ; sostatl:interval_operation = 5760.f ; sostatl:interval_write = 2678400.f ; sostatl:coordinates = "time_counter lat lon" ; float sostpac(time_counter, lat, lon) ; sostpac:units = "Giga g/s" ; sostpac:standard_name = "Salt Transport Pacific (Bolus part included)" ; sostpac:_FillValue = 9.96921e+36f ; sostpac:long_name = "Salt Transport Pacific (Bolus part included)" ; sostpac:online_operation = "ave(only(x))" ; sostpac:interval_operation = 5760.f ; sostpac:interval_write = 2678400.f ; sostpac:coordinates = "time_counter lat lon" ; float sostind(time_counter, lat, lon) ; sostind:units = "Giga g/s" ; sostind:standard_name = "Salt Transport Indian (Bolus part included)" ; sostind:_FillValue = 9.96921e+36f ; sostind:long_name = "Salt Transport Indian (Bolus part included)" ; sostind:online_operation = "ave(only(x))" ; sostind:interval_operation = 5760.f ; sostind:interval_write = 2678400.f ; sostind:coordinates = "time_counter lat lon" ; float sostipc(time_counter, lat, lon) ; sostipc:units = "Giga g/s" ; sostipc:standard_name = "Salt Transport Pacific+Indian (Bolus part included)" ; sostipc:_FillValue = 9.96921e+36f ; sostipc:long_name = "Salt Transport Pacific+Indian (Bolus part included)" ; sostipc:online_operation = "ave(only(x))" ; sostipc:interval_operation = 5760.f ; sostipc:interval_write = 2678400.f ; sostipc:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "v2.historical1_1m_19800101_19800131_diaptr_0000.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :DOMAIN_number_total = 1 ; :DOMAIN_number = 0 ; :DOMAIN_dimensions_ids = 2 ; :DOMAIN_size_global = 149 ; :DOMAIN_size_local = 149 ; :DOMAIN_position_first = 1 ; :DOMAIN_position_last = 149 ; :DOMAIN_halo_size_start = 0 ; :DOMAIN_halo_size_end = 0 ; :DOMAIN_type = "box" ; :DOMAIN_DIM_N001 = "lon" ; :DOMAIN_DIM_N002 = "lat" ; :DOMAIN_DIM_N003 = "deptht" ; :DOMAIN_DIM_N004 = "depthw" ; :DOMAIN_DIM_N005 = "time_counter" ; :DOMAIN_DIM_N006 = "tbnds" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; deptht = 31 ; tbnds = 2 ; variables: float blt(time_counter, y, x) ; blt:units = "m" ; blt:standard_name = "Mixed Layer Depth |dt|=0.2 (ref.10m)" ; blt:_FillValue = 9.96921e+36f ; blt:long_name = "Mixed Layer Depth |dt|=0.2 (ref.10m)" ; blt:online_operation = "ave(X)" ; blt:interval_operation = 5760.f ; blt:interval_write = -1.f ; blt:coordinates = "time_counter nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; float evs(time_counter, y, x) ; evs:units = "kg/m2/s" ; evs:standard_name = "water_evaporation_flux" ; evs:_FillValue = 9.96921e+36f ; evs:long_name = "water_evaporation_flux" ; evs:online_operation = "ave(X)" ; evs:interval_operation = 28800.f ; evs:interval_write = -1.f ; evs:coordinates = "time_counter nav_lat nav_lon" ; float ficeberg(time_counter, y, x) ; ficeberg:units = "kg/m2/s" ; ficeberg:standard_name = "water_flux_into_sea_water_from_icebergs" ; ficeberg:_FillValue = 9.96921e+36f ; ficeberg:long_name = "water_flux_into_sea_water_from_icebergs" ; ficeberg:online_operation = "ave(X)" ; ficeberg:interval_operation = 28800.f ; ficeberg:interval_write = -1.f ; ficeberg:coordinates = "time_counter nav_lat nav_lon" ; float friver(time_counter, y, x) ; friver:units = "kg/m2/s" ; friver:standard_name = "water_flux_into_sea_water_from_rivers" ; friver:_FillValue = 9.96921e+36f ; friver:long_name = "water_flux_into_sea_water_from_rivers" ; friver:online_operation = "ave(X)" ; friver:interval_operation = 28800.f ; friver:interval_write = -1.f ; friver:coordinates = "time_counter nav_lat nav_lon" ; float fsitherm(time_counter, y, x) ; fsitherm:units = "kg/m2/s" ; fsitherm:standard_name = "water_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; fsitherm:_FillValue = 9.96921e+36f ; fsitherm:long_name = "water_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; fsitherm:online_operation = "ave(X)" ; fsitherm:interval_operation = 28800.f ; fsitherm:interval_write = -1.f ; fsitherm:coordinates = "time_counter nav_lat nav_lon" ; float hfcorr(time_counter, y, x) ; hfcorr:units = "W/m2" ; hfcorr:standard_name = "heat_flux_correction" ; hfcorr:_FillValue = 9.96921e+36f ; hfcorr:long_name = "heat_flux_correction" ; hfcorr:online_operation = "ave(X)" ; hfcorr:interval_operation = 28800.f ; hfcorr:interval_write = -1.f ; hfcorr:coordinates = "time_counter nav_lat nav_lon" ; float hfevapds(time_counter, y, x) ; hfevapds:units = "W/m2" ; hfevapds:standard_name = "temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water" ; hfevapds:_FillValue = 9.96921e+36f ; hfevapds:long_name = "temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water" ; hfevapds:online_operation = "ave(X)" ; hfevapds:interval_operation = 28800.f ; hfevapds:interval_write = -1.f ; hfevapds:coordinates = "time_counter nav_lat nav_lon" ; float hfibthermds(time_counter, y, x) ; hfibthermds:units = "W/m2" ; hfibthermds:standard_name = "heat_flux_into_sea_water_due_to_iceberg_thermodynamics" ; hfibthermds:_FillValue = 9.96921e+36f ; hfibthermds:long_name = "heat_flux_into_sea_water_due_to_iceberg_thermodynamics" ; hfibthermds:online_operation = "ave(X)" ; hfibthermds:interval_operation = 28800.f ; hfibthermds:interval_write = -1.f ; hfibthermds:coordinates = "time_counter nav_lat nav_lon" ; float hfrainds(time_counter, y, x) ; hfrainds:units = "W/m2" ; hfrainds:standard_name = "temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water" ; hfrainds:_FillValue = 9.96921e+36f ; hfrainds:long_name = "temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water" ; hfrainds:online_operation = "ave(X)" ; hfrainds:interval_operation = 28800.f ; hfrainds:interval_write = -1.f ; hfrainds:coordinates = "time_counter nav_lat nav_lon" ; float hfrunoffds(time_counter, y, x) ; hfrunoffds:units = "W/m2" ; hfrunoffds:standard_name = "temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water" ; hfrunoffds:_FillValue = 9.96921e+36f ; hfrunoffds:long_name = "temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water" ; hfrunoffds:online_operation = "ave(X)" ; hfrunoffds:interval_operation = 28800.f ; hfrunoffds:interval_write = -1.f ; hfrunoffds:coordinates = "time_counter nav_lat nav_lon" ; float hfsithermds(time_counter, y, x) ; hfsithermds:units = "W/m2" ; hfsithermds:standard_name = "heat_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; hfsithermds:_FillValue = 9.96921e+36f ; hfsithermds:long_name = "heat_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; hfsithermds:online_operation = "ave(X)" ; hfsithermds:interval_operation = 28800.f ; hfsithermds:interval_write = -1.f ; hfsithermds:coordinates = "time_counter nav_lat nav_lon" ; float hfsnthermds(time_counter, y, x) ; hfsnthermds:units = "W/m2" ; hfsnthermds:standard_name = "heat_flux_into_sea_water_due_to_snow_thermodynamics" ; hfsnthermds:_FillValue = 9.96921e+36f ; hfsnthermds:long_name = "heat_flux_into_sea_water_due_to_snow_thermodynamics" ; hfsnthermds:online_operation = "ave(X)" ; hfsnthermds:interval_operation = 28800.f ; hfsnthermds:interval_write = -1.f ; hfsnthermds:coordinates = "time_counter nav_lat nav_lon" ; float nshfls(time_counter, y, x) ; nshfls:units = "W/m2" ; nshfls:standard_name = "surface_net_downward_non_solar_flux" ; nshfls:_FillValue = 9.96921e+36f ; nshfls:long_name = "surface_net_downward_non_solar_flux" ; nshfls:online_operation = "ave(X)" ; nshfls:interval_operation = 28800.f ; nshfls:interval_write = -1.f ; nshfls:coordinates = "time_counter nav_lat nav_lon" ; float omlmax(time_counter, y, x) ; omlmax:units = "m" ; omlmax:standard_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omlmax:_FillValue = 9.96921e+36f ; omlmax:long_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omlmax:online_operation = "t_max(X)" ; omlmax:interval_operation = 5760.f ; omlmax:interval_write = -1.f ; omlmax:coordinates = "time_counter nav_lat nav_lon" ; float pbo(time_counter, y, x) ; pbo:units = "dbar" ; pbo:standard_name = "sea_water_pressure_at_sea_floor" ; pbo:_FillValue = 9.96921e+36f ; pbo:long_name = "sea_water_pressure_at_sea_floor" ; pbo:online_operation = "ave(X)" ; pbo:interval_operation = 5760.f ; pbo:interval_write = -1.f ; pbo:coordinates = "time_counter nav_lat nav_lon" ; float pr(time_counter, y, x) ; pr:units = "kg/m2/s" ; pr:standard_name = "rainfall_flux" ; pr:_FillValue = 9.96921e+36f ; pr:long_name = "rainfall_flux" ; pr:online_operation = "ave(X)" ; pr:interval_operation = 28800.f ; pr:interval_write = -1.f ; pr:coordinates = "time_counter nav_lat nav_lon" ; float prsn(time_counter, y, x) ; prsn:units = "kg/m2/s" ; prsn:standard_name = "snowfall_flux" ; prsn:_FillValue = 9.96921e+36f ; prsn:long_name = "snowfall_flux" ; prsn:online_operation = "ave(X)" ; prsn:interval_operation = 28800.f ; prsn:interval_write = -1.f ; prsn:coordinates = "time_counter nav_lat nav_lon" ; float rhopoto(time_counter, deptht, y, x) ; rhopoto:units = "kg/m3" ; rhopoto:standard_name = "sea_water_potential_density" ; rhopoto:_FillValue = 9.96921e+36f ; rhopoto:long_name = "sea_water_potential_density" ; rhopoto:online_operation = "ave(X)" ; rhopoto:interval_operation = 5760.f ; rhopoto:interval_write = -1.f ; rhopoto:coordinates = "time_counter deptht nav_lat nav_lon" ; float rsds(time_counter, deptht, y, x) ; rsds:units = "W/m2" ; rsds:standard_name = "downwelling_shortwave_flux_in_sea_water" ; rsds:_FillValue = 9.96921e+36f ; rsds:long_name = "downwelling_shortwave_flux_in_sea_water" ; rsds:online_operation = "ave(X)" ; rsds:interval_operation = 28800.f ; rsds:interval_write = -1.f ; rsds:coordinates = "time_counter deptht nav_lat nav_lon" ; float sfdsi(time_counter, y, x) ; sfdsi:units = "kg/m2/s" ; sfdsi:standard_name = "downward_sea_ice_basal_salt_flux" ; sfdsi:_FillValue = 9.96921e+36f ; sfdsi:long_name = "downward_sea_ice_basal_salt_flux" ; sfdsi:online_operation = "ave(X)" ; sfdsi:interval_operation = 28800.f ; sfdsi:interval_write = -1.f ; sfdsi:coordinates = "time_counter nav_lat nav_lon" ; float so20chgt(time_counter, y, x) ; so20chgt:units = "m" ; so20chgt:standard_name = "Depth of 20C isotherm" ; so20chgt:_FillValue = 9.96921e+36f ; so20chgt:long_name = "Depth of 20C isotherm" ; so20chgt:online_operation = "ave(X)" ; so20chgt:interval_operation = 5760.f ; so20chgt:interval_write = -1.f ; so20chgt:coordinates = "time_counter nav_lat nav_lon" ; float so28chgt(time_counter, y, x) ; so28chgt:units = "m" ; so28chgt:standard_name = "Depth of 28C isotherm" ; so28chgt:_FillValue = 9.96921e+36f ; so28chgt:long_name = "Depth of 28C isotherm" ; so28chgt:online_operation = "ave(X)" ; so28chgt:interval_operation = 5760.f ; so28chgt:interval_write = -1.f ; so28chgt:coordinates = "time_counter nav_lat nav_lon" ; float sohefldo(time_counter, y, x) ; sohefldo:units = "W/m2" ; sohefldo:standard_name = "Net Downward Heat Flux" ; sohefldo:_FillValue = 9.96921e+36f ; sohefldo:long_name = "Net Downward Heat Flux" ; sohefldo:online_operation = "ave(X)" ; sohefldo:interval_operation = 28800.f ; sohefldo:interval_write = -1.f ; sohefldo:coordinates = "time_counter nav_lat nav_lon" ; float sohtc300(time_counter, y, x) ; sohtc300:units = "W" ; sohtc300:standard_name = "Heat content 300 m" ; sohtc300:_FillValue = 9.96921e+36f ; sohtc300:long_name = "Heat content 300 m" ; sohtc300:online_operation = "ave(X)" ; sohtc300:interval_operation = 5760.f ; sohtc300:interval_write = -1.f ; sohtc300:coordinates = "time_counter nav_lat nav_lon" ; float soicecov(time_counter, y, x) ; soicecov:units = "1" ; soicecov:standard_name = "sea_ice_area_fraction" ; soicecov:_FillValue = 9.96921e+36f ; soicecov:long_name = "sea_ice_area_fraction" ; soicecov:online_operation = "ave(X)" ; soicecov:interval_operation = 28800.f ; soicecov:interval_write = -1.f ; soicecov:coordinates = "time_counter nav_lat nav_lon" ; float somixhgt(time_counter, y, x) ; somixhgt:units = "m" ; somixhgt:standard_name = "mixing layer depth (Turbocline)" ; somixhgt:_FillValue = 9.96921e+36f ; somixhgt:long_name = "mixing layer depth (Turbocline)" ; somixhgt:online_operation = "ave(X)" ; somixhgt:interval_operation = 5760.f ; somixhgt:interval_write = -1.f ; somixhgt:coordinates = "time_counter nav_lat nav_lon" ; float somx3010(time_counter, y, x) ; somx3010:units = "m" ; somx3010:standard_name = "Mixed Layer Depth dr=0.03 (ref.10m)" ; somx3010:_FillValue = 9.96921e+36f ; somx3010:long_name = "Mixed Layer Depth dr=0.03 (ref.10m)" ; somx3010:online_operation = "ave(X)" ; somx3010:interval_operation = 5760.f ; somx3010:interval_write = -1.f ; somx3010:coordinates = "time_counter nav_lat nav_lon" ; float somxl010(time_counter, y, x) ; somxl010:units = "m" ; somxl010:standard_name = "Mixed Layer Depth 0.01 ref.10m" ; somxl010:_FillValue = 9.96921e+36f ; somxl010:long_name = "Mixed Layer Depth 0.01 ref.10m" ; somxl010:online_operation = "ave(X)" ; somxl010:interval_operation = 5760.f ; somxl010:interval_write = -1.f ; somxl010:coordinates = "time_counter nav_lat nav_lon" ; float sosaline(time_counter, y, x) ; sosaline:units = "psu" ; sosaline:standard_name = "sea_surface_salinity" ; sosaline:_FillValue = 9.96921e+36f ; sosaline:long_name = "sea_surface_salinity" ; sosaline:online_operation = "ave(X)" ; sosaline:interval_operation = 5760.f ; sosaline:interval_write = -1.f ; sosaline:coordinates = "time_counter nav_lat nav_lon" ; float soshfldo(time_counter, y, x) ; soshfldo:units = "W/m2" ; soshfldo:standard_name = "surface_net_downward_shortwave_flux" ; soshfldo:_FillValue = 9.96921e+36f ; soshfldo:long_name = "surface_net_downward_shortwave_flux" ; soshfldo:online_operation = "ave(X)" ; soshfldo:interval_operation = 28800.f ; soshfldo:interval_write = -1.f ; soshfldo:coordinates = "time_counter nav_lat nav_lon" ; float sossheig(time_counter, y, x) ; sossheig:units = "m" ; sossheig:standard_name = "sea_surface_height_above_geoid" ; sossheig:_FillValue = 9.96921e+36f ; sossheig:long_name = "sea_surface_height_above_geoid" ; sossheig:online_operation = "ave(X)" ; sossheig:interval_operation = 5760.f ; sossheig:interval_write = -1.f ; sossheig:coordinates = "time_counter nav_lat nav_lon" ; float sosstsst(time_counter, y, x) ; sosstsst:units = "degC" ; sosstsst:standard_name = "sea_surface_temperature" ; sosstsst:_FillValue = 9.96921e+36f ; sosstsst:long_name = "sea_surface_temperature" ; sosstsst:online_operation = "ave(X)" ; sosstsst:interval_operation = 5760.f ; sosstsst:interval_write = -1.f ; sosstsst:coordinates = "time_counter nav_lat nav_lon" ; float sotaumod(time_counter, y, x) ; sotaumod:units = "N/m2" ; sotaumod:standard_name = "Wind stress module" ; sotaumod:_FillValue = 9.96921e+36f ; sotaumod:long_name = "Wind stress module" ; sotaumod:online_operation = "ave(X)" ; sotaumod:interval_operation = 28800.f ; sotaumod:interval_write = -1.f ; sotaumod:coordinates = "time_counter nav_lat nav_lon" ; float sowaflcd(time_counter, y, x) ; sowaflcd:units = "kg/m2/s" ; sowaflcd:standard_name = "concentration/dilution water flux" ; sowaflcd:_FillValue = 9.96921e+36f ; sowaflcd:long_name = "concentration/dilution water flux" ; sowaflcd:online_operation = "ave(X)" ; sowaflcd:interval_operation = 28800.f ; sowaflcd:interval_write = -1.f ; sowaflcd:coordinates = "time_counter nav_lat nav_lon" ; float sowaflup(time_counter, y, x) ; sowaflup:units = "kg/m2/s" ; sowaflup:standard_name = "water_flux_into_sea_water" ; sowaflup:_FillValue = 9.96921e+36f ; sowaflup:long_name = "water_flux_into_sea_water" ; sowaflup:online_operation = "ave(X)" ; sowaflup:interval_operation = 28800.f ; sowaflup:interval_write = -1.f ; sowaflup:coordinates = "time_counter nav_lat nav_lon" ; float sowindsp(time_counter, y, x) ; sowindsp:units = "m/s" ; sowindsp:standard_name = "Wind speed module at 10 m" ; sowindsp:_FillValue = 9.96921e+36f ; sowindsp:long_name = "Wind speed module at 10 m" ; sowindsp:online_operation = "ave(X)" ; sowindsp:interval_operation = 28800.f ; sowindsp:interval_write = -1.f ; sowindsp:coordinates = "time_counter nav_lat nav_lon" ; float thkcello(time_counter, deptht, y, x) ; thkcello:units = "m" ; thkcello:standard_name = "cell_thickness" ; thkcello:_FillValue = 9.96921e+36f ; thkcello:long_name = "cell_thickness" ; thkcello:online_operation = "ave(X)" ; thkcello:interval_operation = 5760.f ; thkcello:interval_write = -1.f ; thkcello:coordinates = "time_counter deptht nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float tossq(time_counter, y, x) ; tossq:units = "degC2" ; tossq:standard_name = "square_of_sea_surface_temperature" ; tossq:_FillValue = 9.96921e+36f ; tossq:long_name = "square_of_sea_surface_temperature" ; tossq:online_operation = "ave(X)" ; tossq:interval_operation = 5760.f ; tossq:interval_write = -1.f ; tossq:coordinates = "time_counter nav_lat nav_lon" ; float vosaline(time_counter, deptht, y, x) ; vosaline:units = "psu" ; vosaline:standard_name = "sea_water_salinity" ; vosaline:_FillValue = 9.96921e+36f ; vosaline:long_name = "sea_water_salinity" ; vosaline:online_operation = "ave(X)" ; vosaline:interval_operation = 5760.f ; vosaline:interval_write = -1.f ; vosaline:coordinates = "time_counter deptht nav_lat nav_lon" ; float votemper(time_counter, deptht, y, x) ; votemper:units = "degC" ; votemper:standard_name = "sea_water_potential_temperature" ; votemper:_FillValue = 9.96921e+36f ; votemper:long_name = "sea_water_potential_temperature" ; votemper:online_operation = "ave(X)" ; votemper:interval_operation = 5760.f ; votemper:interval_write = -1.f ; votemper:coordinates = "time_counter deptht nav_lat nav_lon" ; float vsfsit(time_counter, y, x) ; vsfsit:units = "kg/m2/s" ; vsfsit:standard_name = "virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; vsfsit:_FillValue = 9.96921e+36f ; vsfsit:long_name = "virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; vsfsit:online_operation = "ave(X)" ; vsfsit:interval_operation = 28800.f ; vsfsit:interval_write = -1.f ; vsfsit:coordinates = "time_counter nav_lat nav_lon" ; float wfcorr(time_counter, y, x) ; wfcorr:units = "kg/m2/s" ; wfcorr:standard_name = "water_flux_correction" ; wfcorr:_FillValue = 9.96921e+36f ; wfcorr:long_name = "water_flux_correction" ; wfcorr:online_operation = "ave(X)" ; wfcorr:interval_operation = 28800.f ; wfcorr:interval_write = -1.f ; wfcorr:coordinates = "time_counter nav_lat nav_lon" ; float zossq(time_counter, y, x) ; zossq:units = "m2" ; zossq:standard_name = "square_of_sea_surface_height_above_geoid" ; zossq:_FillValue = 9.96921e+36f ; zossq:long_name = "square_of_sea_surface_height_above_geoid" ; zossq:online_operation = "ave(X)" ; zossq:interval_operation = 5760.f ; zossq:interval_write = -1.f ; zossq:coordinates = "time_counter nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_U.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_U { // format variant: 64bit dimensions: depthu = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthu(depthu) ; depthu:axis = "Z" ; depthu:standard_name = "model_level_number" ; depthu:units = "m" ; depthu:positive = "down" ; depthu:valid_min = 4.999938f ; depthu:valid_max = 5250.227f ; depthu:title = "depthu" ; depthu:long_name = "Vertical U levels" ; float hfx(time_counter, y, x) ; hfx:units = "W" ; hfx:standard_name = "ocean_heat_x_transport" ; hfx:_FillValue = 9.96921e+36f ; hfx:long_name = "ocean_heat_x_transport" ; hfx:online_operation = "ave(X)" ; hfx:interval_operation = 5760.f ; hfx:interval_write = -1.f ; hfx:coordinates = "time_counter nav_lat nav_lon" ; float hfxba(time_counter, y, x) ; hfxba:units = "W" ; hfxba:standard_name = "ocean_heat_x_transport_due_to_bolus_advection" ; hfxba:_FillValue = 9.96921e+36f ; hfxba:long_name = "ocean_heat_x_transport_due_to_bolus_advection" ; hfxba:online_operation = "ave(X)" ; hfxba:interval_operation = 5760.f ; hfxba:interval_write = -1.f ; hfxba:coordinates = "time_counter nav_lat nav_lon" ; float hfxdiff(time_counter, y, x) ; hfxdiff:units = "W" ; hfxdiff:standard_name = "ocean_heat_x_transport_due_to_diffusion" ; hfxdiff:_FillValue = 9.96921e+36f ; hfxdiff:long_name = "ocean_heat_x_transport_due_to_diffusion" ; hfxdiff:online_operation = "ave(X)" ; hfxdiff:interval_operation = 5760.f ; hfxdiff:interval_write = -1.f ; hfxdiff:coordinates = "time_counter nav_lat nav_lon" ; float sozotaux(time_counter, y, x) ; sozotaux:units = "N/m2" ; sozotaux:standard_name = "surface_downward_x_stress" ; sozotaux:_FillValue = 9.96921e+36f ; sozotaux:long_name = "surface_downward_x_stress" ; sozotaux:online_operation = "ave(X)" ; sozotaux:interval_operation = 5760.f ; sozotaux:interval_write = -1.f ; sozotaux:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float umo(time_counter, depthu, y, x) ; umo:units = "kg/s" ; umo:standard_name = "ocean_mass_x_transport" ; umo:_FillValue = 9.96921e+36f ; umo:long_name = "ocean_mass_x_transport" ; umo:online_operation = "ave(X)" ; umo:interval_operation = 5760.f ; umo:interval_write = -1.f ; umo:coordinates = "time_counter depthu nav_lat nav_lon" ; float vozocrtx(time_counter, depthu, y, x) ; vozocrtx:units = "m/s" ; vozocrtx:standard_name = "sea_water_x_velocity" ; vozocrtx:_FillValue = 9.96921e+36f ; vozocrtx:long_name = "sea_water_x_velocity" ; vozocrtx:online_operation = "ave(X)" ; vozocrtx:interval_operation = 5760.f ; vozocrtx:interval_write = -1.f ; vozocrtx:coordinates = "time_counter depthu nav_lat nav_lon" ; float vozoeivu(time_counter, depthu, y, x) ; vozoeivu:units = "m/s" ; vozoeivu:standard_name = "EIV ocean current along i-axis" ; vozoeivu:_FillValue = 9.96921e+36f ; vozoeivu:long_name = "EIV ocean current along i-axis" ; vozoeivu:online_operation = "ave(X)" ; vozoeivu:interval_operation = 5760.f ; vozoeivu:interval_write = -1.f ; vozoeivu:coordinates = "time_counter depthu nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.97588f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7534f ; nav_lon:valid_max = 179.4187f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_U.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_V.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_V { // format variant: 64bit dimensions: depthv = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthv(depthv) ; depthv:axis = "Z" ; depthv:standard_name = "model_level_number" ; depthv:units = "m" ; depthv:positive = "down" ; depthv:valid_min = 4.999938f ; depthv:valid_max = 5250.227f ; depthv:title = "depthv" ; depthv:long_name = "Vertical V levels" ; float hfy(time_counter, y, x) ; hfy:units = "W" ; hfy:standard_name = "ocean_heat_y_transport" ; hfy:_FillValue = 9.96921e+36f ; hfy:long_name = "ocean_heat_y_transport" ; hfy:online_operation = "ave(X)" ; hfy:interval_operation = 5760.f ; hfy:interval_write = -1.f ; hfy:coordinates = "time_counter nav_lat nav_lon" ; float hfyba(time_counter, y, x) ; hfyba:units = "W" ; hfyba:standard_name = "ocean_heat_y_transport_due_to_bolus_advection" ; hfyba:_FillValue = 9.96921e+36f ; hfyba:long_name = "ocean_heat_y_transport_due_to_bolus_advection" ; hfyba:online_operation = "ave(X)" ; hfyba:interval_operation = 5760.f ; hfyba:interval_write = -1.f ; hfyba:coordinates = "time_counter nav_lat nav_lon" ; float hfydiff(time_counter, y, x) ; hfydiff:units = "W" ; hfydiff:standard_name = "ocean_heat_y_transport_due_to_diffusion" ; hfydiff:_FillValue = 9.96921e+36f ; hfydiff:long_name = "ocean_heat_y_transport_due_to_diffusion" ; hfydiff:online_operation = "ave(X)" ; hfydiff:interval_operation = 5760.f ; hfydiff:interval_write = -1.f ; hfydiff:coordinates = "time_counter nav_lat nav_lon" ; float sometauy(time_counter, y, x) ; sometauy:units = "N/m2" ; sometauy:standard_name = "surface_downward_y_stress" ; sometauy:_FillValue = 9.96921e+36f ; sometauy:long_name = "surface_downward_y_stress" ; sometauy:online_operation = "ave(X)" ; sometauy:interval_operation = 5760.f ; sometauy:interval_write = -1.f ; sometauy:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float vmo(time_counter, depthv, y, x) ; vmo:units = "kg/s" ; vmo:standard_name = "ocean_mass_y_transport" ; vmo:_FillValue = 9.96921e+36f ; vmo:long_name = "ocean_mass_y_transport" ; vmo:online_operation = "ave(X)" ; vmo:interval_operation = 5760.f ; vmo:interval_write = -1.f ; vmo:coordinates = "time_counter depthv nav_lat nav_lon" ; float vomecrty(time_counter, depthv, y, x) ; vomecrty:units = "m/s" ; vomecrty:standard_name = "sea_water_y_velocity" ; vomecrty:_FillValue = 9.96921e+36f ; vomecrty:long_name = "sea_water_y_velocity" ; vomecrty:online_operation = "ave(X)" ; vomecrty:interval_operation = 5760.f ; vomecrty:interval_write = -1.f ; vomecrty:coordinates = "time_counter depthv nav_lat nav_lon" ; float vomeeivv(time_counter, depthv, y, x) ; vomeeivv:units = "m/s" ; vomeeivv:standard_name = "EIV ocean current along j-axis" ; vomeeivv:_FillValue = 9.96921e+36f ; vomeeivv:long_name = "EIV ocean current along j-axis" ; vomeeivv:online_operation = "ave(X)" ; vomeeivv:interval_operation = 5760.f ; vomeeivv:interval_write = -1.f ; vomeeivv:coordinates = "time_counter depthv nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -77.98417f ; nav_lat:valid_max = 89.4608f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -180.f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_V.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_W.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_W { // format variant: 64bit dimensions: depthw = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthw(depthw) ; depthw:axis = "Z" ; depthw:standard_name = "model_level_number" ; depthw:units = "m" ; depthw:positive = "down" ; depthw:valid_min = 0.f ; depthw:valid_max = 5000.f ; depthw:title = "depthw" ; depthw:long_name = "Vertical W levels" ; float difvmo(time_counter, depthw, y, x) ; difvmo:units = "m2/s" ; difvmo:standard_name = "ocean_vertical_momentum_diffusivity" ; difvmo:_FillValue = 9.96921e+36f ; difvmo:long_name = "ocean_vertical_momentum_diffusivity" ; difvmo:online_operation = "ave(X)" ; difvmo:interval_operation = 5760.f ; difvmo:interval_write = -1.f ; difvmo:coordinates = "time_counter depthw nav_lat nav_lon" ; float difvmto(time_counter, depthw, y, x) ; difvmto:units = "m2/s" ; difvmto:standard_name = "ocean_vertical_momentum_diffusivity_due_to_tides" ; difvmto:_FillValue = 9.96921e+36f ; difvmto:long_name = "ocean_vertical_momentum_diffusivity_due_to_tides" ; difvmto:online_operation = "ave(X)" ; difvmto:interval_operation = 5760.f ; difvmto:interval_write = -1.f ; difvmto:coordinates = "time_counter depthw nav_lat nav_lon" ; float difvtrto(time_counter, depthw, y, x) ; difvtrto:units = "m2/s" ; difvtrto:standard_name = "ocean_vertical_tracer_diffusivity_due_to_tides" ; difvtrto:_FillValue = 9.96921e+36f ; difvtrto:long_name = "ocean_vertical_tracer_diffusivity_due_to_tides" ; difvtrto:online_operation = "ave(X)" ; difvtrto:interval_operation = 5760.f ; difvtrto:interval_write = -1.f ; difvtrto:coordinates = "time_counter depthw nav_lat nav_lon" ; float soleaeiw(time_counter, y, x) ; soleaeiw:units = "m2/s" ; soleaeiw:standard_name = "ocean_tracer_bolus_laplacian_diffusivity" ; soleaeiw:_FillValue = 9.96921e+36f ; soleaeiw:long_name = "ocean_tracer_bolus_laplacian_diffusivity" ; soleaeiw:online_operation = "ave(X)" ; soleaeiw:interval_operation = 5760.f ; soleaeiw:interval_write = -1.f ; soleaeiw:coordinates = "time_counter nav_lat nav_lon" ; float soleahtw(time_counter, y, x) ; soleahtw:units = "m2/s" ; soleahtw:standard_name = "ocean_tracer_xy_laplacian_diffusivity" ; soleahtw:_FillValue = 9.96921e+36f ; soleahtw:long_name = "ocean_tracer_xy_laplacian_diffusivity" ; soleahtw:online_operation = "ave(X)" ; soleahtw:interval_operation = 5760.f ; soleahtw:interval_write = -1.f ; soleahtw:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float voddmavs(time_counter, depthw, y, x) ; voddmavs:units = "m2/s" ; voddmavs:standard_name = "ocean_vertical_salt_diffusivity" ; voddmavs:_FillValue = 9.96921e+36f ; voddmavs:long_name = "ocean_vertical_salt_diffusivity" ; voddmavs:online_operation = "ave(X)" ; voddmavs:interval_operation = 5760.f ; voddmavs:interval_write = -1.f ; voddmavs:coordinates = "time_counter depthw nav_lat nav_lon" ; float votkeavt(time_counter, depthw, y, x) ; votkeavt:units = "m2/s" ; votkeavt:standard_name = "ocean_vertical_heat_diffusivity" ; votkeavt:_FillValue = 9.96921e+36f ; votkeavt:long_name = "ocean_vertical_heat_diffusivity" ; votkeavt:online_operation = "ave(X)" ; votkeavt:interval_operation = 5760.f ; votkeavt:interval_write = -1.f ; votkeavt:coordinates = "time_counter depthw nav_lat nav_lon" ; float vovecrtz(time_counter, depthw, y, x) ; vovecrtz:units = "m/s" ; vovecrtz:standard_name = "ocean vertical velocity" ; vovecrtz:_FillValue = 9.96921e+36f ; vovecrtz:long_name = "ocean vertical velocity" ; vovecrtz:online_operation = "ave(X)" ; vovecrtz:interval_operation = 5760.f ; vovecrtz:interval_write = -1.f ; vovecrtz:coordinates = "time_counter depthw nav_lat nav_lon" ; float voveeivw(time_counter, depthw, y, x) ; voveeivw:units = "m/s" ; voveeivw:standard_name = "EIV ocean vertical velocity" ; voveeivw:_FillValue = 9.96921e+36f ; voveeivw:long_name = "EIV ocean vertical velocity" ; voveeivw:online_operation = "ave(X)" ; voveeivw:interval_operation = 5760.f ; voveeivw:interval_write = -1.f ; voveeivw:coordinates = "time_counter depthw nav_lat nav_lon" ; float wmo(time_counter, depthw, y, x) ; wmo:units = "kg/s" ; wmo:standard_name = "upward_ocean_mass_transport" ; wmo:_FillValue = 9.96921e+36f ; wmo:long_name = "upward_ocean_mass_transport" ; wmo:online_operation = "ave(X)" ; wmo:interval_operation = 5760.f ; wmo:interval_write = -1.f ; wmo:coordinates = "time_counter depthw nav_lat nav_lon" ; float wmosq(time_counter, depthw, y, x) ; wmosq:units = "kg2/s2" ; wmosq:standard_name = "square_pf_upward_ocean_mass_transport" ; wmosq:_FillValue = 9.96921e+36f ; wmosq:long_name = "square_pf_upward_ocean_mass_transport" ; wmosq:online_operation = "ave(X)" ; wmosq:interval_operation = 5760.f ; wmosq:interval_write = -1.f ; wmosq:coordinates = "time_counter depthw nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_W.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_scalar.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_scalar { // format variant: 64bit dimensions: x = 1 ; y = 1 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = 1.f ; nav_lon:valid_max = 1.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = 1.f ; nav_lat:valid_max = 1.f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float masso(time_counter, y, x) ; masso:units = "kg" ; masso:standard_name = "sea_water_mass" ; masso:_FillValue = 9.96921e+36f ; masso:long_name = "sea_water_mass" ; masso:online_operation = "ave(X)" ; masso:interval_operation = 5760.f ; masso:interval_write = -1.f ; masso:coordinates = "time_counter nav_lat nav_lon" ; float volo(time_counter, y, x) ; volo:units = "m3" ; volo:standard_name = "sea_water_volume" ; volo:_FillValue = 9.96921e+36f ; volo:long_name = "sea_water_volume" ; volo:online_operation = "ave(X)" ; volo:interval_operation = 5760.f ; volo:interval_write = -1.f ; volo:coordinates = "time_counter nav_lat nav_lon" ; float zosga(time_counter, y, x) ; zosga:units = "m" ; zosga:standard_name = "global_average_sea_level_change" ; zosga:_FillValue = 9.96921e+36f ; zosga:long_name = "global_average_sea_level_change" ; zosga:online_operation = "ave(X)" ; zosga:interval_operation = 5760.f ; zosga:interval_write = -1.f ; zosga:coordinates = "time_counter nav_lat nav_lon" ; float zossga(time_counter, y, x) ; zossga:units = "m" ; zossga:standard_name = "global_average_steric_sea_level_change" ; zossga:_FillValue = 9.96921e+36f ; zossga:long_name = "global_average_steric_sea_level_change" ; zossga:online_operation = "ave(X)" ; zossga:interval_operation = 5760.f ; zossga:interval_write = -1.f ; zossga:coordinates = "time_counter nav_lat nav_lon" ; float zostoga(time_counter, y, x) ; zostoga:units = "m" ; zostoga:standard_name = "global_average_thermosteric_sea_level_change" ; zostoga:_FillValue = 9.96921e+36f ; zostoga:long_name = "global_average_thermosteric_sea_level_change" ; zostoga:online_operation = "ave(X)" ; zostoga:interval_operation = 5760.f ; zostoga:interval_write = -1.f ; zostoga:coordinates = "time_counter nav_lat nav_lon" ; float thetaoga(time_counter, y, x) ; thetaoga:units = "degC" ; thetaoga:standard_name = "sea_water_potential_temperature" ; thetaoga:_FillValue = 9.96921e+36f ; thetaoga:long_name = "sea_water_potential_temperature" ; thetaoga:online_operation = "ave(X)" ; thetaoga:interval_operation = 5760.f ; thetaoga:interval_write = -1.f ; thetaoga:coordinates = "time_counter nav_lat nav_lon" ; float soga(time_counter, y, x) ; soga:units = "psu" ; soga:standard_name = "sea_water_salinity" ; soga:_FillValue = 9.96921e+36f ; soga:long_name = "sea_water_salinity" ; soga:online_operation = "ave(X)" ; soga:interval_operation = 5760.f ; soga:interval_write = -1.f ; soga:coordinates = "time_counter nav_lat nav_lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_scalar.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; } }}} == SBG/Output/MO/v2.historical1_19800101_19800131_1M_stomate_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_stomate_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; PFT = 13 ; P10 = 10 ; P100 = 100 ; P11 = 11 ; P101 = 101 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float PFT(PFT) ; PFT:axis = "Z" ; PFT:standard_name = "model_level_number" ; PFT:units = "1" ; PFT:valid_min = 1.f ; PFT:valid_max = 13.f ; PFT:title = "PFT" ; PFT:long_name = "Plant functional type" ; float P10(P10) ; P10:axis = "Z" ; P10:standard_name = "model_level_number" ; P10:units = "1" ; P10:valid_min = 1.f ; P10:valid_max = 10.f ; P10:title = "P10" ; P10:long_name = "Pool 10 years" ; float P100(P100) ; P100:axis = "Z" ; P100:standard_name = "model_level_number" ; P100:units = "1" ; P100:valid_min = 1.f ; P100:valid_max = 100.f ; P100:title = "P100" ; P100:long_name = "Pool 100 years" ; float P11(P11) ; P11:axis = "Z" ; P11:standard_name = "model_level_number" ; P11:units = "1" ; P11:valid_min = 1.f ; P11:valid_max = 11.f ; P11:title = "P11" ; P11:long_name = "Pool 10 years + 1" ; float P101(P101) ; P101:axis = "Z" ; P101:standard_name = "model_level_number" ; P101:units = "1" ; P101:valid_min = 1.f ; P101:valid_max = 101.f ; P101:title = "P101" ; P101:long_name = "Pool 100 years + 1" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float LITTER_STR_AB(time_counter, PFT, lat, lon) ; LITTER_STR_AB:units = "gC/m^2/pft" ; LITTER_STR_AB:standard_name = "structural litter above ground" ; LITTER_STR_AB:_FillValue = 9.96921e+36f ; LITTER_STR_AB:long_name = "structural litter above ground" ; LITTER_STR_AB:online_operation = "ave(scatter(X))" ; LITTER_STR_AB:interval_operation = 1800.f ; LITTER_STR_AB:interval_write = -1.f ; LITTER_STR_AB:coordinates = "time_counter PFT lat lon" ; float LITTER_MET_AB(time_counter, PFT, lat, lon) ; LITTER_MET_AB:units = "gC/m^2/pft" ; LITTER_MET_AB:standard_name = "metabolic litter above ground" ; LITTER_MET_AB:_FillValue = 9.96921e+36f ; LITTER_MET_AB:long_name = "metabolic litter above ground" ; LITTER_MET_AB:online_operation = "ave(scatter(X))" ; LITTER_MET_AB:interval_operation = 1800.f ; LITTER_MET_AB:interval_write = -1.f ; LITTER_MET_AB:coordinates = "time_counter PFT lat lon" ; float LITTER_STR_BE(time_counter, PFT, lat, lon) ; LITTER_STR_BE:units = "gC/m^2/pft" ; LITTER_STR_BE:standard_name = "structural litter below ground" ; LITTER_STR_BE:_FillValue = 9.96921e+36f ; LITTER_STR_BE:long_name = "structural litter below ground" ; LITTER_STR_BE:online_operation = "ave(scatter(X))" ; LITTER_STR_BE:interval_operation = 1800.f ; LITTER_STR_BE:interval_write = -1.f ; LITTER_STR_BE:coordinates = "time_counter PFT lat lon" ; float LITTER_MET_BE(time_counter, PFT, lat, lon) ; LITTER_MET_BE:units = "gC/m^2/pft" ; LITTER_MET_BE:standard_name = "metabolic litter below ground" ; LITTER_MET_BE:_FillValue = 9.96921e+36f ; LITTER_MET_BE:long_name = "metabolic litter below ground" ; LITTER_MET_BE:online_operation = "ave(scatter(X))" ; LITTER_MET_BE:interval_operation = 1800.f ; LITTER_MET_BE:interval_write = -1.f ; LITTER_MET_BE:coordinates = "time_counter PFT lat lon" ; float DEADLEAF_COVER(time_counter, lat, lon) ; DEADLEAF_COVER:units = "-" ; DEADLEAF_COVER:standard_name = "fraction of soil covered by dead leaves" ; DEADLEAF_COVER:_FillValue = 9.96921e+36f ; DEADLEAF_COVER:long_name = "fraction of soil covered by dead leaves" ; DEADLEAF_COVER:online_operation = "ave(scatter(X))" ; DEADLEAF_COVER:interval_operation = 1800.f ; DEADLEAF_COVER:interval_write = -1.f ; DEADLEAF_COVER:coordinates = "time_counter lat lon" ; float TOTAL_SOIL_CARB(time_counter, PFT, lat, lon) ; TOTAL_SOIL_CARB:units = "gC/m^2" ; TOTAL_SOIL_CARB:standard_name = "total soil and litter carbon" ; TOTAL_SOIL_CARB:_FillValue = 9.96921e+36f ; TOTAL_SOIL_CARB:long_name = "total soil and litter carbon" ; TOTAL_SOIL_CARB:online_operation = "ave(scatter(X))" ; TOTAL_SOIL_CARB:interval_operation = 1800.f ; TOTAL_SOIL_CARB:interval_write = -1.f ; TOTAL_SOIL_CARB:coordinates = "time_counter PFT lat lon" ; float CARBON_ACTIVE(time_counter, PFT, lat, lon) ; CARBON_ACTIVE:units = "gC/m^2/pft" ; CARBON_ACTIVE:standard_name = "active soil carbon in ground" ; CARBON_ACTIVE:_FillValue = 9.96921e+36f ; CARBON_ACTIVE:long_name = "active soil carbon in ground" ; CARBON_ACTIVE:online_operation = "ave(scatter(X))" ; CARBON_ACTIVE:interval_operation = 1800.f ; CARBON_ACTIVE:interval_write = -1.f ; CARBON_ACTIVE:coordinates = "time_counter PFT lat lon" ; float CARBON_SLOW(time_counter, PFT, lat, lon) ; CARBON_SLOW:units = "gC/m^2/pft" ; CARBON_SLOW:standard_name = "slow soil carbon in ground" ; CARBON_SLOW:_FillValue = 9.96921e+36f ; CARBON_SLOW:long_name = "slow soil carbon in ground" ; CARBON_SLOW:online_operation = "ave(scatter(X))" ; CARBON_SLOW:interval_operation = 1800.f ; CARBON_SLOW:interval_write = -1.f ; CARBON_SLOW:coordinates = "time_counter PFT lat lon" ; float CARBON_PASSIVE(time_counter, PFT, lat, lon) ; CARBON_PASSIVE:units = "gC/m^2/pft" ; CARBON_PASSIVE:standard_name = "passive soil carbon in ground" ; CARBON_PASSIVE:_FillValue = 9.96921e+36f ; CARBON_PASSIVE:long_name = "passive soil carbon in ground" ; CARBON_PASSIVE:online_operation = "ave(scatter(X))" ; CARBON_PASSIVE:interval_operation = 1800.f ; CARBON_PASSIVE:interval_write = -1.f ; CARBON_PASSIVE:coordinates = "time_counter PFT lat lon" ; float T2M_LONGTERM(time_counter, lat, lon) ; T2M_LONGTERM:units = "K" ; T2M_LONGTERM:standard_name = "Longterm 2 m temperature" ; T2M_LONGTERM:_FillValue = 9.96921e+36f ; T2M_LONGTERM:long_name = "Longterm 2 m temperature" ; T2M_LONGTERM:online_operation = "ave(scatter(X))" ; T2M_LONGTERM:interval_operation = 1800.f ; T2M_LONGTERM:interval_write = -1.f ; T2M_LONGTERM:coordinates = "time_counter lat lon" ; float T2M_MONTH(time_counter, lat, lon) ; T2M_MONTH:units = "K" ; T2M_MONTH:standard_name = "Monthly 2 m temperature" ; T2M_MONTH:_FillValue = 9.96921e+36f ; T2M_MONTH:long_name = "Monthly 2 m temperature" ; T2M_MONTH:online_operation = "ave(scatter(X))" ; T2M_MONTH:interval_operation = 1800.f ; T2M_MONTH:interval_write = -1.f ; T2M_MONTH:coordinates = "time_counter lat lon" ; float T2M_WEEK(time_counter, lat, lon) ; T2M_WEEK:units = "K" ; T2M_WEEK:standard_name = "Weekly 2 m temperature" ; T2M_WEEK:_FillValue = 9.96921e+36f ; T2M_WEEK:long_name = "Weekly 2 m temperature" ; T2M_WEEK:online_operation = "ave(scatter(X))" ; T2M_WEEK:interval_operation = 1800.f ; T2M_WEEK:interval_write = -1.f ; T2M_WEEK:coordinates = "time_counter lat lon" ; float HET_RESP(time_counter, PFT, lat, lon) ; HET_RESP:units = "gC/m^2 tot/pft/day" ; HET_RESP:standard_name = "heterotr. resp. from ground" ; HET_RESP:_FillValue = 9.96921e+36f ; HET_RESP:long_name = "heterotr. resp. from ground" ; HET_RESP:online_operation = "ave(scatter(X))" ; HET_RESP:interval_operation = 1800.f ; HET_RESP:interval_write = -1.f ; HET_RESP:coordinates = "time_counter PFT lat lon" ; float BLACK_CARBON(time_counter, lat, lon) ; BLACK_CARBON:units = "gC/m^2 tot" ; BLACK_CARBON:standard_name = "black carbon on average total ground" ; BLACK_CARBON:_FillValue = 9.96921e+36f ; BLACK_CARBON:long_name = "black carbon on average total ground" ; BLACK_CARBON:online_operation = "ave(scatter(X))" ; BLACK_CARBON:interval_operation = 1800.f ; BLACK_CARBON:interval_write = -1.f ; BLACK_CARBON:coordinates = "time_counter lat lon" ; float FIREFRAC(time_counter, PFT, lat, lon) ; FIREFRAC:units = "1/day" ; FIREFRAC:standard_name = "Fire fraction on ground" ; FIREFRAC:_FillValue = 9.96921e+36f ; FIREFRAC:long_name = "Fire fraction on ground" ; FIREFRAC:online_operation = "ave(scatter(X))" ; FIREFRAC:interval_operation = 1800.f ; FIREFRAC:interval_write = -1.f ; FIREFRAC:coordinates = "time_counter PFT lat lon" ; float FIREINDEX(time_counter, PFT, lat, lon) ; FIREINDEX:units = "-" ; FIREINDEX:standard_name = "Fire index on ground" ; FIREINDEX:_FillValue = 9.96921e+36f ; FIREINDEX:long_name = "Fire index on ground" ; FIREINDEX:online_operation = "ave(scatter(X))" ; FIREINDEX:interval_operation = 1800.f ; FIREINDEX:interval_write = -1.f ; FIREINDEX:coordinates = "time_counter PFT lat lon" ; float LITTERHUM(time_counter, lat, lon) ; LITTERHUM:units = "-" ; LITTERHUM:standard_name = "Litter humidity" ; LITTERHUM:_FillValue = 9.96921e+36f ; LITTERHUM:long_name = "Litter humidity" ; LITTERHUM:online_operation = "ave(scatter(X))" ; LITTERHUM:interval_operation = 1800.f ; LITTERHUM:interval_write = -1.f ; LITTERHUM:coordinates = "time_counter lat lon" ; float CO2FLUX_MONTHLY(time_counter, PFT, lat, lon) ; CO2FLUX_MONTHLY:units = "gC/m^2/pft/mth" ; CO2FLUX_MONTHLY:standard_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY:_FillValue = 9.96921e+36f ; CO2FLUX_MONTHLY:long_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY:online_operation = "ave(scatter(X))" ; CO2FLUX_MONTHLY:interval_operation = 1800.f ; CO2FLUX_MONTHLY:interval_write = -1.f ; CO2FLUX_MONTHLY:coordinates = "time_counter PFT lat lon" ; float CO2FLUX_MONTHLY_SUM(time_counter, lat, lon) ; CO2FLUX_MONTHLY_SUM:units = "PgC/m^2/mth" ; CO2FLUX_MONTHLY_SUM:standard_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY_SUM:_FillValue = 9.96921e+36f ; CO2FLUX_MONTHLY_SUM:long_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY_SUM:online_operation = "ave(scatter(X))" ; CO2FLUX_MONTHLY_SUM:interval_operation = 1800.f ; CO2FLUX_MONTHLY_SUM:interval_write = -1.f ; CO2FLUX_MONTHLY_SUM:coordinates = "time_counter lat lon" ; float CO2_FIRE(time_counter, PFT, lat, lon) ; CO2_FIRE:units = "gC/day/m^2/pft" ; CO2_FIRE:standard_name = "Output CO2 flux from fire" ; CO2_FIRE:_FillValue = 9.96921e+36f ; CO2_FIRE:long_name = "Output CO2 flux from fire" ; CO2_FIRE:online_operation = "ave(scatter(X))" ; CO2_FIRE:interval_operation = 1800.f ; CO2_FIRE:interval_write = -1.f ; CO2_FIRE:coordinates = "time_counter PFT lat lon" ; float CO2_TAKEN(time_counter, PFT, lat, lon) ; CO2_TAKEN:units = "gC/day/m^2/pft" ; CO2_TAKEN:standard_name = "CO2 taken from atmosphere for initiate growth" ; CO2_TAKEN:_FillValue = 9.96921e+36f ; CO2_TAKEN:long_name = "CO2 taken from atmosphere for initiate growth" ; CO2_TAKEN:online_operation = "ave(scatter(X))" ; CO2_TAKEN:interval_operation = 1800.f ; CO2_TAKEN:interval_write = -1.f ; CO2_TAKEN:coordinates = "time_counter PFT lat lon" ; float LAI(time_counter, PFT, lat, lon) ; LAI:units = "-" ; LAI:standard_name = "Leaf Area Index" ; LAI:_FillValue = 9.96921e+36f ; LAI:long_name = "Leaf Area Index" ; LAI:online_operation = "ave(scatter(X))" ; LAI:interval_operation = 1800.f ; LAI:interval_write = -1.f ; LAI:coordinates = "time_counter PFT lat lon" ; float VEGET(time_counter, PFT, lat, lon) ; VEGET:units = "-" ; VEGET:standard_name = "Vegetation fraction" ; VEGET:_FillValue = 9.96921e+36f ; VEGET:long_name = "Vegetation fraction" ; VEGET:online_operation = "ave(scatter(X))" ; VEGET:interval_operation = 1800.f ; VEGET:interval_write = -1.f ; VEGET:coordinates = "time_counter PFT lat lon" ; float VEGET_MAX(time_counter, PFT, lat, lon) ; VEGET_MAX:units = "-" ; VEGET_MAX:standard_name = "Maximum vegetation fraction (LAI -> infinity)" ; VEGET_MAX:_FillValue = 9.96921e+36f ; VEGET_MAX:long_name = "Maximum vegetation fraction (LAI -> infinity)" ; VEGET_MAX:online_operation = "ave(scatter(X))" ; VEGET_MAX:interval_operation = 1800.f ; VEGET_MAX:interval_write = -1.f ; VEGET_MAX:coordinates = "time_counter PFT lat lon" ; float NPP(time_counter, PFT, lat, lon) ; NPP:units = "gC/day/(m^2 tot)" ; NPP:standard_name = "Net primary productivity" ; NPP:_FillValue = 9.96921e+36f ; NPP:long_name = "Net primary productivity" ; NPP:online_operation = "ave(scatter(X))" ; NPP:interval_operation = 1800.f ; NPP:interval_write = -1.f ; NPP:coordinates = "time_counter PFT lat lon" ; float GPP(time_counter, PFT, lat, lon) ; GPP:units = "gC/day/m^2" ; GPP:standard_name = "Gross primary productivity" ; GPP:_FillValue = 9.96921e+36f ; GPP:long_name = "Gross primary productivity" ; GPP:online_operation = "ave(scatter(X))" ; GPP:interval_operation = 1800.f ; GPP:interval_write = -1.f ; GPP:coordinates = "time_counter PFT lat lon" ; float IND(time_counter, PFT, lat, lon) ; IND:units = "1/ m^2" ; IND:standard_name = "Density of individuals" ; IND:_FillValue = 9.96921e+36f ; IND:long_name = "Density of individuals" ; IND:online_operation = "ave(scatter(X))" ; IND:interval_operation = 1800.f ; IND:interval_write = -1.f ; IND:coordinates = "time_counter PFT lat lon" ; float TOTAL_M(time_counter, PFT, lat, lon) ; TOTAL_M:units = "gC/m^2/pft" ; TOTAL_M:standard_name = "Total living biomass" ; TOTAL_M:_FillValue = 9.96921e+36f ; TOTAL_M:long_name = "Total living biomass" ; TOTAL_M:online_operation = "ave(scatter(X))" ; TOTAL_M:interval_operation = 1800.f ; TOTAL_M:interval_write = -1.f ; TOTAL_M:coordinates = "time_counter PFT lat lon" ; float LEAF_M(time_counter, PFT, lat, lon) ; LEAF_M:units = "gC/m^2" ; LEAF_M:standard_name = "Leaf mass" ; LEAF_M:_FillValue = 9.96921e+36f ; LEAF_M:long_name = "Leaf mass" ; LEAF_M:online_operation = "ave(scatter(X))" ; LEAF_M:interval_operation = 1800.f ; LEAF_M:interval_write = -1.f ; LEAF_M:coordinates = "time_counter PFT lat lon" ; float SAP_M_AB(time_counter, PFT, lat, lon) ; SAP_M_AB:units = "gC/m^2" ; SAP_M_AB:standard_name = "Sap mass above ground" ; SAP_M_AB:_FillValue = 9.96921e+36f ; SAP_M_AB:long_name = "Sap mass above ground" ; SAP_M_AB:online_operation = "ave(scatter(X))" ; SAP_M_AB:interval_operation = 1800.f ; SAP_M_AB:interval_write = -1.f ; SAP_M_AB:coordinates = "time_counter PFT lat lon" ; float SAP_M_BE(time_counter, PFT, lat, lon) ; SAP_M_BE:units = "gC/m^2" ; SAP_M_BE:standard_name = "Sap mass below ground" ; SAP_M_BE:_FillValue = 9.96921e+36f ; SAP_M_BE:long_name = "Sap mass below ground" ; SAP_M_BE:online_operation = "ave(scatter(X))" ; SAP_M_BE:interval_operation = 1800.f ; SAP_M_BE:interval_write = -1.f ; SAP_M_BE:coordinates = "time_counter PFT lat lon" ; float HEART_M_AB(time_counter, PFT, lat, lon) ; HEART_M_AB:units = "gC/m^2" ; HEART_M_AB:standard_name = "Heartwood mass above ground" ; HEART_M_AB:_FillValue = 9.96921e+36f ; HEART_M_AB:long_name = "Heartwood mass above ground" ; HEART_M_AB:online_operation = "ave(scatter(X))" ; HEART_M_AB:interval_operation = 1800.f ; HEART_M_AB:interval_write = -1.f ; HEART_M_AB:coordinates = "time_counter PFT lat lon" ; float HEART_M_BE(time_counter, PFT, lat, lon) ; HEART_M_BE:units = "gC/m^2" ; HEART_M_BE:standard_name = "Heartwood mass below ground" ; HEART_M_BE:_FillValue = 9.96921e+36f ; HEART_M_BE:long_name = "Heartwood mass below ground" ; HEART_M_BE:online_operation = "ave(scatter(X))" ; HEART_M_BE:interval_operation = 1800.f ; HEART_M_BE:interval_write = -1.f ; HEART_M_BE:coordinates = "time_counter PFT lat lon" ; float ROOT_M(time_counter, PFT, lat, lon) ; ROOT_M:units = "gC/m^2" ; ROOT_M:standard_name = "Root mass" ; ROOT_M:_FillValue = 9.96921e+36f ; ROOT_M:long_name = "Root mass" ; ROOT_M:online_operation = "ave(scatter(X))" ; ROOT_M:interval_operation = 1800.f ; ROOT_M:interval_write = -1.f ; ROOT_M:coordinates = "time_counter PFT lat lon" ; float FRUIT_M(time_counter, PFT, lat, lon) ; FRUIT_M:units = "gC/m^2" ; FRUIT_M:standard_name = "Fruit mass" ; FRUIT_M:_FillValue = 9.96921e+36f ; FRUIT_M:long_name = "Fruit mass" ; FRUIT_M:online_operation = "ave(scatter(X))" ; FRUIT_M:interval_operation = 1800.f ; FRUIT_M:interval_write = -1.f ; FRUIT_M:coordinates = "time_counter PFT lat lon" ; float RESERVE_M(time_counter, PFT, lat, lon) ; RESERVE_M:units = "gC/m^2" ; RESERVE_M:standard_name = "Carbohydrate reserve mass" ; RESERVE_M:_FillValue = 9.96921e+36f ; RESERVE_M:long_name = "Carbohydrate reserve mass" ; RESERVE_M:online_operation = "ave(scatter(X))" ; RESERVE_M:interval_operation = 1800.f ; RESERVE_M:interval_write = -1.f ; RESERVE_M:coordinates = "time_counter PFT lat lon" ; float TOTAL_TURN(time_counter, PFT, lat, lon) ; TOTAL_TURN:units = "gC/m^2/day" ; TOTAL_TURN:standard_name = "total turnover rate" ; TOTAL_TURN:_FillValue = 9.96921e+36f ; TOTAL_TURN:long_name = "total turnover rate" ; TOTAL_TURN:online_operation = "ave(scatter(X))" ; TOTAL_TURN:interval_operation = 1800.f ; TOTAL_TURN:interval_write = -1.f ; TOTAL_TURN:coordinates = "time_counter PFT lat lon" ; float LEAF_TURN(time_counter, PFT, lat, lon) ; LEAF_TURN:units = "gC/m^2/day" ; LEAF_TURN:standard_name = "Leaf turnover" ; LEAF_TURN:_FillValue = 9.96921e+36f ; LEAF_TURN:long_name = "Leaf turnover" ; LEAF_TURN:online_operation = "ave(scatter(X))" ; LEAF_TURN:interval_operation = 1800.f ; LEAF_TURN:interval_write = -1.f ; LEAF_TURN:coordinates = "time_counter PFT lat lon" ; float SAP_AB_TURN(time_counter, PFT, lat, lon) ; SAP_AB_TURN:units = "gC/m^2/day" ; SAP_AB_TURN:standard_name = "Sap turnover above" ; SAP_AB_TURN:_FillValue = 9.96921e+36f ; SAP_AB_TURN:long_name = "Sap turnover above" ; SAP_AB_TURN:online_operation = "ave(scatter(X))" ; SAP_AB_TURN:interval_operation = 1800.f ; SAP_AB_TURN:interval_write = -1.f ; SAP_AB_TURN:coordinates = "time_counter PFT lat lon" ; float ROOT_TURN(time_counter, PFT, lat, lon) ; ROOT_TURN:units = "gC/m^2/day" ; ROOT_TURN:standard_name = "Root turnover" ; ROOT_TURN:_FillValue = 9.96921e+36f ; ROOT_TURN:long_name = "Root turnover" ; ROOT_TURN:online_operation = "ave(scatter(X))" ; ROOT_TURN:interval_operation = 1800.f ; ROOT_TURN:interval_write = -1.f ; ROOT_TURN:coordinates = "time_counter PFT lat lon" ; float FRUIT_TURN(time_counter, PFT, lat, lon) ; FRUIT_TURN:units = "gC/m^2/day" ; FRUIT_TURN:standard_name = "Fruit turnover" ; FRUIT_TURN:_FillValue = 9.96921e+36f ; FRUIT_TURN:long_name = "Fruit turnover" ; FRUIT_TURN:online_operation = "ave(scatter(X))" ; FRUIT_TURN:interval_operation = 1800.f ; FRUIT_TURN:interval_write = -1.f ; FRUIT_TURN:coordinates = "time_counter PFT lat lon" ; float TOTAL_BM_LITTER(time_counter, PFT, lat, lon) ; TOTAL_BM_LITTER:units = "gC/m^2/day" ; TOTAL_BM_LITTER:standard_name = "total conversion of biomass to litter" ; TOTAL_BM_LITTER:_FillValue = 9.96921e+36f ; TOTAL_BM_LITTER:long_name = "total conversion of biomass to litter" ; TOTAL_BM_LITTER:online_operation = "ave(scatter(X))" ; TOTAL_BM_LITTER:interval_operation = 1800.f ; TOTAL_BM_LITTER:interval_write = -1.f ; TOTAL_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float LEAF_BM_LITTER(time_counter, PFT, lat, lon) ; LEAF_BM_LITTER:units = "gC/m^2/day" ; LEAF_BM_LITTER:standard_name = "Leaf death" ; LEAF_BM_LITTER:_FillValue = 9.96921e+36f ; LEAF_BM_LITTER:long_name = "Leaf death" ; LEAF_BM_LITTER:online_operation = "ave(scatter(X))" ; LEAF_BM_LITTER:interval_operation = 1800.f ; LEAF_BM_LITTER:interval_write = -1.f ; LEAF_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float SAP_AB_BM_LITTER(time_counter, PFT, lat, lon) ; SAP_AB_BM_LITTER:units = "gC/m^2/day" ; SAP_AB_BM_LITTER:standard_name = "Sap death above ground" ; SAP_AB_BM_LITTER:_FillValue = 9.96921e+36f ; SAP_AB_BM_LITTER:long_name = "Sap death above ground" ; SAP_AB_BM_LITTER:online_operation = "ave(scatter(X))" ; SAP_AB_BM_LITTER:interval_operation = 1800.f ; SAP_AB_BM_LITTER:interval_write = -1.f ; SAP_AB_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float SAP_BE_BM_LITTER(time_counter, PFT, lat, lon) ; SAP_BE_BM_LITTER:units = "gC/m^2/day" ; SAP_BE_BM_LITTER:standard_name = "Sap death below ground" ; SAP_BE_BM_LITTER:_FillValue = 9.96921e+36f ; SAP_BE_BM_LITTER:long_name = "Sap death below ground" ; SAP_BE_BM_LITTER:online_operation = "ave(scatter(X))" ; SAP_BE_BM_LITTER:interval_operation = 1800.f ; SAP_BE_BM_LITTER:interval_write = -1.f ; SAP_BE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float HEART_AB_BM_LITTER(time_counter, PFT, lat, lon) ; HEART_AB_BM_LITTER:units = "gC/m^2/day" ; HEART_AB_BM_LITTER:standard_name = "Heartwood death above ground" ; HEART_AB_BM_LITTER:_FillValue = 9.96921e+36f ; HEART_AB_BM_LITTER:long_name = "Heartwood death above ground" ; HEART_AB_BM_LITTER:online_operation = "ave(scatter(X))" ; HEART_AB_BM_LITTER:interval_operation = 1800.f ; HEART_AB_BM_LITTER:interval_write = -1.f ; HEART_AB_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float HEART_BE_BM_LITTER(time_counter, PFT, lat, lon) ; HEART_BE_BM_LITTER:units = "gC/m^2/day" ; HEART_BE_BM_LITTER:standard_name = "Heartwood death below ground" ; HEART_BE_BM_LITTER:_FillValue = 9.96921e+36f ; HEART_BE_BM_LITTER:long_name = "Heartwood death below ground" ; HEART_BE_BM_LITTER:online_operation = "ave(scatter(X))" ; HEART_BE_BM_LITTER:interval_operation = 1800.f ; HEART_BE_BM_LITTER:interval_write = -1.f ; HEART_BE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float ROOT_BM_LITTER(time_counter, PFT, lat, lon) ; ROOT_BM_LITTER:units = "gC/m^2/day" ; ROOT_BM_LITTER:standard_name = "Root death" ; ROOT_BM_LITTER:_FillValue = 9.96921e+36f ; ROOT_BM_LITTER:long_name = "Root death" ; ROOT_BM_LITTER:online_operation = "ave(scatter(X))" ; ROOT_BM_LITTER:interval_operation = 1800.f ; ROOT_BM_LITTER:interval_write = -1.f ; ROOT_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float FRUIT_BM_LITTER(time_counter, PFT, lat, lon) ; FRUIT_BM_LITTER:units = "gC/m^2/day" ; FRUIT_BM_LITTER:standard_name = "Fruit death" ; FRUIT_BM_LITTER:_FillValue = 9.96921e+36f ; FRUIT_BM_LITTER:long_name = "Fruit death" ; FRUIT_BM_LITTER:online_operation = "ave(scatter(X))" ; FRUIT_BM_LITTER:interval_operation = 1800.f ; FRUIT_BM_LITTER:interval_write = -1.f ; FRUIT_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float RESERVE_BM_LITTER(time_counter, PFT, lat, lon) ; RESERVE_BM_LITTER:units = "gC/m^2/day" ; RESERVE_BM_LITTER:standard_name = "Carbohydrate reserve death" ; RESERVE_BM_LITTER:_FillValue = 9.96921e+36f ; RESERVE_BM_LITTER:long_name = "Carbohydrate reserve death" ; RESERVE_BM_LITTER:online_operation = "ave(scatter(X))" ; RESERVE_BM_LITTER:interval_operation = 1800.f ; RESERVE_BM_LITTER:interval_write = -1.f ; RESERVE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float MAINT_RESP(time_counter, PFT, lat, lon) ; MAINT_RESP:units = "gC/m^2/day" ; MAINT_RESP:standard_name = "Maintenance respiration" ; MAINT_RESP:_FillValue = 9.96921e+36f ; MAINT_RESP:long_name = "Maintenance respiration" ; MAINT_RESP:online_operation = "ave(scatter(X))" ; MAINT_RESP:interval_operation = 1800.f ; MAINT_RESP:interval_write = -1.f ; MAINT_RESP:coordinates = "time_counter PFT lat lon" ; float GROWTH_RESP(time_counter, PFT, lat, lon) ; GROWTH_RESP:units = "gC/m^2/day" ; GROWTH_RESP:standard_name = "Growth respiration" ; GROWTH_RESP:_FillValue = 9.96921e+36f ; GROWTH_RESP:long_name = "Growth respiration" ; GROWTH_RESP:online_operation = "ave(scatter(X))" ; GROWTH_RESP:interval_operation = 1800.f ; GROWTH_RESP:interval_write = -1.f ; GROWTH_RESP:coordinates = "time_counter PFT lat lon" ; float AGE(time_counter, PFT, lat, lon) ; AGE:units = "years" ; AGE:standard_name = "age" ; AGE:_FillValue = 9.96921e+36f ; AGE:long_name = "age" ; AGE:online_operation = "ave(scatter(X))" ; AGE:interval_operation = 1800.f ; AGE:interval_write = -1.f ; AGE:coordinates = "time_counter PFT lat lon" ; float HEIGHT(time_counter, PFT, lat, lon) ; HEIGHT:units = "m" ; HEIGHT:standard_name = "height" ; HEIGHT:_FillValue = 9.96921e+36f ; HEIGHT:long_name = "height" ; HEIGHT:online_operation = "ave(scatter(X))" ; HEIGHT:interval_operation = 1800.f ; HEIGHT:interval_write = -1.f ; HEIGHT:coordinates = "time_counter PFT lat lon" ; float MOISTRESS(time_counter, PFT, lat, lon) ; MOISTRESS:units = "-" ; MOISTRESS:standard_name = "weekly moisture stress" ; MOISTRESS:_FillValue = 9.96921e+36f ; MOISTRESS:long_name = "weekly moisture stress" ; MOISTRESS:online_operation = "ave(scatter(X))" ; MOISTRESS:interval_operation = 1800.f ; MOISTRESS:interval_write = -1.f ; MOISTRESS:coordinates = "time_counter PFT lat lon" ; float VCMAX(time_counter, PFT, lat, lon) ; VCMAX:units = "-" ; VCMAX:standard_name = "Maximum rate of carboxylation" ; VCMAX:_FillValue = 9.96921e+36f ; VCMAX:long_name = "Maximum rate of carboxylation" ; VCMAX:online_operation = "ave(scatter(X))" ; VCMAX:interval_operation = 1800.f ; VCMAX:interval_write = -1.f ; VCMAX:coordinates = "time_counter PFT lat lon" ; float LEAF_AGE(time_counter, PFT, lat, lon) ; LEAF_AGE:units = "days" ; LEAF_AGE:standard_name = "leaf age" ; LEAF_AGE:_FillValue = 9.96921e+36f ; LEAF_AGE:long_name = "leaf age" ; LEAF_AGE:online_operation = "ave(scatter(X))" ; LEAF_AGE:interval_operation = 1800.f ; LEAF_AGE:interval_write = -1.f ; LEAF_AGE:coordinates = "time_counter PFT lat lon" ; float MORTALITY(time_counter, PFT, lat, lon) ; MORTALITY:units = "1/day" ; MORTALITY:standard_name = "Fraction of trees that dies (gap)" ; MORTALITY:_FillValue = 9.96921e+36f ; MORTALITY:long_name = "Fraction of trees that dies (gap)" ; MORTALITY:online_operation = "ave(scatter(X))" ; MORTALITY:interval_operation = 1800.f ; MORTALITY:interval_write = -1.f ; MORTALITY:coordinates = "time_counter PFT lat lon" ; float FIREDEATH(time_counter, PFT, lat, lon) ; FIREDEATH:units = "1/day" ; FIREDEATH:standard_name = "Fraction of plants killed by fire" ; FIREDEATH:_FillValue = 9.96921e+36f ; FIREDEATH:long_name = "Fraction of plants killed by fire" ; FIREDEATH:online_operation = "ave(scatter(X))" ; FIREDEATH:interval_operation = 1800.f ; FIREDEATH:interval_write = -1.f ; FIREDEATH:coordinates = "time_counter PFT lat lon" ; float IND_ESTAB(time_counter, PFT, lat, lon) ; IND_ESTAB:units = "1/day" ; IND_ESTAB:standard_name = "Density of newly established saplings" ; IND_ESTAB:_FillValue = 9.96921e+36f ; IND_ESTAB:long_name = "Density of newly established saplings" ; IND_ESTAB:online_operation = "ave(scatter(X))" ; IND_ESTAB:interval_operation = 1800.f ; IND_ESTAB:interval_write = -1.f ; IND_ESTAB:coordinates = "time_counter PFT lat lon" ; float LIGHT_DEATH(time_counter, PFT, lat, lon) ; LIGHT_DEATH:units = "1/day" ; LIGHT_DEATH:standard_name = "Fraction of plants that dies (light competition)" ; LIGHT_DEATH:_FillValue = 9.96921e+36f ; LIGHT_DEATH:long_name = "Fraction of plants that dies (light competition)" ; LIGHT_DEATH:online_operation = "ave(scatter(X))" ; LIGHT_DEATH:interval_operation = 1800.f ; LIGHT_DEATH:interval_write = -1.f ; LIGHT_DEATH:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_LEAF(time_counter, PFT, lat, lon) ; BM_ALLOC_LEAF:units = "gC/m**2/pft/dt" ; BM_ALLOC_LEAF:standard_name = "biomass allocated to leaves" ; BM_ALLOC_LEAF:_FillValue = 9.96921e+36f ; BM_ALLOC_LEAF:long_name = "biomass allocated to leaves" ; BM_ALLOC_LEAF:online_operation = "ave(scatter(X))" ; BM_ALLOC_LEAF:interval_operation = 1800.f ; BM_ALLOC_LEAF:interval_write = -1.f ; BM_ALLOC_LEAF:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_SAP_AB(time_counter, PFT, lat, lon) ; BM_ALLOC_SAP_AB:units = "gC/m**2/pft/dt" ; BM_ALLOC_SAP_AB:standard_name = "biomass allocated to sapwood above ground" ; BM_ALLOC_SAP_AB:_FillValue = 9.96921e+36f ; BM_ALLOC_SAP_AB:long_name = "biomass allocated to sapwood above ground" ; BM_ALLOC_SAP_AB:online_operation = "ave(scatter(X))" ; BM_ALLOC_SAP_AB:interval_operation = 1800.f ; BM_ALLOC_SAP_AB:interval_write = -1.f ; BM_ALLOC_SAP_AB:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_SAP_BE(time_counter, PFT, lat, lon) ; BM_ALLOC_SAP_BE:units = "gC/m**2/pft/dt" ; BM_ALLOC_SAP_BE:standard_name = "biomass allocated to sapwood below ground" ; BM_ALLOC_SAP_BE:_FillValue = 9.96921e+36f ; BM_ALLOC_SAP_BE:long_name = "biomass allocated to sapwood below ground" ; BM_ALLOC_SAP_BE:online_operation = "ave(scatter(X))" ; BM_ALLOC_SAP_BE:interval_operation = 1800.f ; BM_ALLOC_SAP_BE:interval_write = -1.f ; BM_ALLOC_SAP_BE:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_ROOT(time_counter, PFT, lat, lon) ; BM_ALLOC_ROOT:units = "gC/m**2/pft/dt" ; BM_ALLOC_ROOT:standard_name = "biomass allocated to roots" ; BM_ALLOC_ROOT:_FillValue = 9.96921e+36f ; BM_ALLOC_ROOT:long_name = "biomass allocated to roots" ; BM_ALLOC_ROOT:online_operation = "ave(scatter(X))" ; BM_ALLOC_ROOT:interval_operation = 1800.f ; BM_ALLOC_ROOT:interval_write = -1.f ; BM_ALLOC_ROOT:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_FRUIT(time_counter, PFT, lat, lon) ; BM_ALLOC_FRUIT:units = "gC/m**2/pft/dt" ; BM_ALLOC_FRUIT:standard_name = "biomass allocated to fruits" ; BM_ALLOC_FRUIT:_FillValue = 9.96921e+36f ; BM_ALLOC_FRUIT:long_name = "biomass allocated to fruits" ; BM_ALLOC_FRUIT:online_operation = "ave(scatter(X))" ; BM_ALLOC_FRUIT:interval_operation = 1800.f ; BM_ALLOC_FRUIT:interval_write = -1.f ; BM_ALLOC_FRUIT:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_RES(time_counter, PFT, lat, lon) ; BM_ALLOC_RES:units = "gC/m**2/pft/dt" ; BM_ALLOC_RES:standard_name = "biomass allocated to carbohydrate reserve" ; BM_ALLOC_RES:_FillValue = 9.96921e+36f ; BM_ALLOC_RES:long_name = "biomass allocated to carbohydrate reserve" ; BM_ALLOC_RES:online_operation = "ave(scatter(X))" ; BM_ALLOC_RES:interval_operation = 1800.f ; BM_ALLOC_RES:interval_write = -1.f ; BM_ALLOC_RES:coordinates = "time_counter PFT lat lon" ; float HERBIVORES(time_counter, PFT, lat, lon) ; HERBIVORES:units = "days" ; HERBIVORES:standard_name = "time constant of herbivore activity" ; HERBIVORES:_FillValue = 9.96921e+36f ; HERBIVORES:long_name = "time constant of herbivore activity" ; HERBIVORES:online_operation = "ave(scatter(X))" ; HERBIVORES:interval_operation = 1800.f ; HERBIVORES:interval_write = -1.f ; HERBIVORES:coordinates = "time_counter PFT lat lon" ; float TURNOVER_TIME(time_counter, PFT, lat, lon) ; TURNOVER_TIME:units = "days" ; TURNOVER_TIME:standard_name = "turnover time for grass leaves" ; TURNOVER_TIME:_FillValue = 9.96921e+36f ; TURNOVER_TIME:long_name = "turnover time for grass leaves" ; TURNOVER_TIME:online_operation = "ave(scatter(X))" ; TURNOVER_TIME:interval_operation = 1800.f ; TURNOVER_TIME:interval_write = -1.f ; TURNOVER_TIME:coordinates = "time_counter PFT lat lon" ; float PROD10(time_counter, P11, lat, lon) ; PROD10:units = "gC/m**2" ; PROD10:standard_name = "10 year wood product pool" ; PROD10:_FillValue = 9.96921e+36f ; PROD10:long_name = "10 year wood product pool" ; PROD10:online_operation = "ave(scatter(X))" ; PROD10:interval_operation = 1800.f ; PROD10:interval_write = -1.f ; PROD10:coordinates = "time_counter P11 lat lon" ; float FLUX10(time_counter, P10, lat, lon) ; FLUX10:units = "gC/m**2/yr" ; FLUX10:standard_name = "annual flux for each 10 year wood product pool" ; FLUX10:_FillValue = 9.96921e+36f ; FLUX10:long_name = "annual flux for each 10 year wood product pool" ; FLUX10:online_operation = "ave(scatter(X))" ; FLUX10:interval_operation = 1800.f ; FLUX10:interval_write = -1.f ; FLUX10:coordinates = "time_counter P10 lat lon" ; float PROD100(time_counter, P101, lat, lon) ; PROD100:units = "gC/m**2" ; PROD100:standard_name = "100 year wood product pool" ; PROD100:_FillValue = 9.96921e+36f ; PROD100:long_name = "100 year wood product pool" ; PROD100:online_operation = "ave(scatter(X))" ; PROD100:interval_operation = 1800.f ; PROD100:interval_write = -1.f ; PROD100:coordinates = "time_counter P101 lat lon" ; float FLUX100(time_counter, P100, lat, lon) ; FLUX100:units = "gC/m**2/yr" ; FLUX100:standard_name = "annual flux for each 100 year wood product pool" ; FLUX100:_FillValue = 9.96921e+36f ; FLUX100:long_name = "annual flux for each 100 year wood product pool" ; FLUX100:online_operation = "ave(scatter(X))" ; FLUX100:interval_operation = 1800.f ; FLUX100:interval_write = -1.f ; FLUX100:coordinates = "time_counter P100 lat lon" ; float CONVFLUX(time_counter, lat, lon) ; CONVFLUX:units = "gC/m**2/day" ; CONVFLUX:standard_name = "annual release right after deforestation" ; CONVFLUX:_FillValue = 9.96921e+36f ; CONVFLUX:long_name = "annual release right after deforestation" ; CONVFLUX:online_operation = "ave(scatter(X))" ; CONVFLUX:interval_operation = 1800.f ; CONVFLUX:interval_write = -1.f ; CONVFLUX:coordinates = "time_counter lat lon" ; float CFLUX_PROD10(time_counter, lat, lon) ; CFLUX_PROD10:units = "gC/m**2/day" ; CFLUX_PROD10:standard_name = "annual release from all 10 year wood product pools" ; CFLUX_PROD10:_FillValue = 9.96921e+36f ; CFLUX_PROD10:long_name = "annual release from all 10 year wood product pools" ; CFLUX_PROD10:online_operation = "ave(scatter(X))" ; CFLUX_PROD10:interval_operation = 1800.f ; CFLUX_PROD10:interval_write = -1.f ; CFLUX_PROD10:coordinates = "time_counter lat lon" ; float CFLUX_PROD100(time_counter, lat, lon) ; CFLUX_PROD100:units = "gC/m**2/day" ; CFLUX_PROD100:standard_name = "annual release from all 100year wood product pools" ; CFLUX_PROD100:_FillValue = 9.96921e+36f ; CFLUX_PROD100:long_name = "annual release from all 100year wood product pools" ; CFLUX_PROD100:online_operation = "ave(scatter(X))" ; CFLUX_PROD100:interval_operation = 1800.f ; CFLUX_PROD100:interval_write = -1.f ; CFLUX_PROD100:coordinates = "time_counter lat lon" ; float HARVEST_ABOVE(time_counter, lat, lon) ; HARVEST_ABOVE:units = "gC/m**2/day" ; HARVEST_ABOVE:standard_name = "annual release product after harvest" ; HARVEST_ABOVE:_FillValue = 9.96921e+36f ; HARVEST_ABOVE:long_name = "annual release product after harvest" ; HARVEST_ABOVE:online_operation = "ave(scatter(X))" ; HARVEST_ABOVE:interval_operation = 1800.f ; HARVEST_ABOVE:interval_write = -1.f ; HARVEST_ABOVE:coordinates = "time_counter lat lon" ; float RESOLUTION_X(lat, lon) ; RESOLUTION_X:units = "m" ; RESOLUTION_X:standard_name = "E-W resolution" ; RESOLUTION_X:_FillValue = 9.96921e+36f ; RESOLUTION_X:long_name = "E-W resolution" ; RESOLUTION_X:online_operation = "once(scatter(X))" ; RESOLUTION_X:coordinates = "lat lon" ; float RESOLUTION_Y(lat, lon) ; RESOLUTION_Y:units = "m" ; RESOLUTION_Y:standard_name = "N-S resolution" ; RESOLUTION_Y:_FillValue = 9.96921e+36f ; RESOLUTION_Y:long_name = "N-S resolution" ; RESOLUTION_Y:online_operation = "once(scatter(X))" ; RESOLUTION_Y:coordinates = "lat lon" ; float CONTFRAC(lat, lon) ; CONTFRAC:units = "1" ; CONTFRAC:standard_name = "Continental fraction" ; CONTFRAC:_FillValue = 9.96921e+36f ; CONTFRAC:long_name = "Continental fraction" ; CONTFRAC:online_operation = "once(scatter(X))" ; CONTFRAC:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; float WHEN_GROWTHINIT(time_counter, PFT, lat, lon) ; WHEN_GROWTHINIT:units = "d" ; WHEN_GROWTHINIT:standard_name = "Time elapsed from season beginning" ; WHEN_GROWTHINIT:_FillValue = 9.96921e+36f ; WHEN_GROWTHINIT:long_name = "Time elapsed from season beginning" ; WHEN_GROWTHINIT:online_operation = "ave(scatter(X))" ; WHEN_GROWTHINIT:interval_operation = 1800.f ; WHEN_GROWTHINIT:interval_write = -1.f ; WHEN_GROWTHINIT:coordinates = "time_counter PFT lat lon" ; float TIME_LOWGPP(time_counter, PFT, lat, lon) ; TIME_LOWGPP:units = "d" ; TIME_LOWGPP:standard_name = "Time elapsed since the end of GPP" ; TIME_LOWGPP:_FillValue = 9.96921e+36f ; TIME_LOWGPP:long_name = "Time elapsed since the end of GPP" ; TIME_LOWGPP:online_operation = "ave(scatter(X))" ; TIME_LOWGPP:interval_operation = 1800.f ; TIME_LOWGPP:interval_write = -1.f ; TIME_LOWGPP:coordinates = "time_counter PFT lat lon" ; float PFTPRESENT(time_counter, PFT, lat, lon) ; PFTPRESENT:units = "d" ; PFTPRESENT:standard_name = "PFT exists" ; PFTPRESENT:_FillValue = 9.96921e+36f ; PFTPRESENT:long_name = "PFT exists" ; PFTPRESENT:online_operation = "ave(scatter(X))" ; PFTPRESENT:interval_operation = 1800.f ; PFTPRESENT:interval_write = -1.f ; PFTPRESENT:coordinates = "time_counter PFT lat lon" ; float GDD_MIDWINTER(time_counter, PFT, lat, lon) ; GDD_MIDWINTER:units = "degK" ; GDD_MIDWINTER:standard_name = "Growing degree days, since midwinter" ; GDD_MIDWINTER:_FillValue = 9.96921e+36f ; GDD_MIDWINTER:long_name = "Growing degree days, since midwinter" ; GDD_MIDWINTER:online_operation = "ave(scatter(X))" ; GDD_MIDWINTER:interval_operation = 1800.f ; GDD_MIDWINTER:interval_write = -1.f ; GDD_MIDWINTER:coordinates = "time_counter PFT lat lon" ; float NCD_DORMANCE(time_counter, PFT, lat, lon) ; NCD_DORMANCE:units = "d" ; NCD_DORMANCE:standard_name = "Number of chilling days, since leaves were lost" ; NCD_DORMANCE:_FillValue = 9.96921e+36f ; NCD_DORMANCE:long_name = "Number of chilling days, since leaves were lost" ; NCD_DORMANCE:online_operation = "ave(scatter(X))" ; NCD_DORMANCE:interval_operation = 1800.f ; NCD_DORMANCE:interval_write = -1.f ; NCD_DORMANCE:coordinates = "time_counter PFT lat lon" ; float ALLOW_INITPHENO(time_counter, PFT, lat, lon) ; ALLOW_INITPHENO:units = "-" ; ALLOW_INITPHENO:standard_name = "Allow to declare beginning of the growing season" ; ALLOW_INITPHENO:_FillValue = 9.96921e+36f ; ALLOW_INITPHENO:long_name = "Allow to declare beginning of the growing season" ; ALLOW_INITPHENO:online_operation = "ave(scatter(X))" ; ALLOW_INITPHENO:interval_operation = 1800.f ; ALLOW_INITPHENO:interval_write = -1.f ; ALLOW_INITPHENO:coordinates = "time_counter PFT lat lon" ; float BEGIN_LEAVES(time_counter, PFT, lat, lon) ; BEGIN_LEAVES:units = "-" ; BEGIN_LEAVES:standard_name = "Signal to start putting leaves on" ; BEGIN_LEAVES:_FillValue = 9.96921e+36f ; BEGIN_LEAVES:long_name = "Signal to start putting leaves on" ; BEGIN_LEAVES:online_operation = "ave(scatter(X))" ; BEGIN_LEAVES:interval_operation = 1800.f ; BEGIN_LEAVES:interval_write = -1.f ; BEGIN_LEAVES:coordinates = "time_counter PFT lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "stomate_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == SBG/Output/MO/v2.historical1_19800101_19800131_1M_stomate_ipcc_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_stomate_ipcc_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; PFT = 13 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float PFT(PFT) ; PFT:axis = "Z" ; PFT:standard_name = "model_level_number" ; PFT:units = "1" ; PFT:valid_min = 1.f ; PFT:valid_max = 13.f ; PFT:title = "PFT" ; PFT:long_name = "Plant functional type" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float cVeg(time_counter, lat, lon) ; cVeg:units = "kg C m-2" ; cVeg:standard_name = "Carbon in Vegetation" ; cVeg:_FillValue = 9.96921e+36f ; cVeg:long_name = "Carbon in Vegetation" ; cVeg:online_operation = "ave(scatter(X))" ; cVeg:interval_operation = 1800.f ; cVeg:interval_write = -1.f ; cVeg:coordinates = "time_counter lat lon" ; float cLitter(time_counter, lat, lon) ; cLitter:units = "kg C m-2" ; cLitter:standard_name = "Carbon in Litter Pool" ; cLitter:_FillValue = 9.96921e+36f ; cLitter:long_name = "Carbon in Litter Pool" ; cLitter:online_operation = "ave(scatter(X))" ; cLitter:interval_operation = 1800.f ; cLitter:interval_write = -1.f ; cLitter:coordinates = "time_counter lat lon" ; float cSoil(time_counter, lat, lon) ; cSoil:units = "kg C m-2" ; cSoil:standard_name = "Carbon in Soil Pool" ; cSoil:_FillValue = 9.96921e+36f ; cSoil:long_name = "Carbon in Soil Pool" ; cSoil:online_operation = "ave(scatter(X))" ; cSoil:interval_operation = 1800.f ; cSoil:interval_write = -1.f ; cSoil:coordinates = "time_counter lat lon" ; float cProduct(time_counter, lat, lon) ; cProduct:units = "kg C m-2" ; cProduct:standard_name = "Carbon in Products of Land Use Change" ; cProduct:_FillValue = 9.96921e+36f ; cProduct:long_name = "Carbon in Products of Land Use Change" ; cProduct:online_operation = "ave(scatter(X))" ; cProduct:interval_operation = 1800.f ; cProduct:interval_write = -1.f ; cProduct:coordinates = "time_counter lat lon" ; float lai(time_counter, lat, lon) ; lai:units = "1" ; lai:standard_name = "Leaf Area Fraction" ; lai:_FillValue = 9.96921e+36f ; lai:long_name = "Leaf Area Fraction" ; lai:online_operation = "ave(scatter(X))" ; lai:interval_operation = 1800.f ; lai:interval_write = -1.f ; lai:coordinates = "time_counter lat lon" ; float gpp(time_counter, lat, lon) ; gpp:units = "kg C m-2 s-1" ; gpp:standard_name = "Gross Primary Production" ; gpp:_FillValue = 9.96921e+36f ; gpp:long_name = "Gross Primary Production" ; gpp:online_operation = "ave(scatter(X))" ; gpp:interval_operation = 1800.f ; gpp:interval_write = -1.f ; gpp:coordinates = "time_counter lat lon" ; float ra(time_counter, lat, lon) ; ra:units = "kg C m-2 s-1" ; ra:standard_name = "Autotrophic Respiration" ; ra:_FillValue = 9.96921e+36f ; ra:long_name = "Autotrophic Respiration" ; ra:online_operation = "ave(scatter(X))" ; ra:interval_operation = 1800.f ; ra:interval_write = -1.f ; ra:coordinates = "time_counter lat lon" ; float npp(time_counter, lat, lon) ; npp:units = "kg C m-2 s-1" ; npp:standard_name = "Net Primary Production" ; npp:_FillValue = 9.96921e+36f ; npp:long_name = "Net Primary Production" ; npp:online_operation = "ave(scatter(X))" ; npp:interval_operation = 1800.f ; npp:interval_write = -1.f ; npp:coordinates = "time_counter lat lon" ; float rh(time_counter, lat, lon) ; rh:units = "kg C m-2 s-1" ; rh:standard_name = "Heterotrophic Respiration" ; rh:_FillValue = 9.96921e+36f ; rh:long_name = "Heterotrophic Respiration" ; rh:online_operation = "ave(scatter(X))" ; rh:interval_operation = 1800.f ; rh:interval_write = -1.f ; rh:coordinates = "time_counter lat lon" ; float fFire(time_counter, lat, lon) ; fFire:units = "kg C m-2 s-1" ; fFire:standard_name = "CO2 Emission from Fire" ; fFire:_FillValue = 9.96921e+36f ; fFire:long_name = "CO2 Emission from Fire" ; fFire:online_operation = "ave(scatter(X))" ; fFire:interval_operation = 1800.f ; fFire:interval_write = -1.f ; fFire:coordinates = "time_counter lat lon" ; float fHarvest(time_counter, lat, lon) ; fHarvest:units = "kg C m-2 s-1" ; fHarvest:standard_name = "CO2 Flux to Atmosphere from Crop Harvesting" ; fHarvest:_FillValue = 9.96921e+36f ; fHarvest:long_name = "CO2 Flux to Atmosphere from Crop Harvesting" ; fHarvest:online_operation = "ave(scatter(X))" ; fHarvest:interval_operation = 1800.f ; fHarvest:interval_write = -1.f ; fHarvest:coordinates = "time_counter lat lon" ; float fLuc(time_counter, lat, lon) ; fLuc:units = "kg C m-2 s-1" ; fLuc:standard_name = "CO2 Flux to Atmosphere from Land Use Change" ; fLuc:_FillValue = 9.96921e+36f ; fLuc:long_name = "CO2 Flux to Atmosphere from Land Use Change" ; fLuc:online_operation = "ave(scatter(X))" ; fLuc:interval_operation = 1800.f ; fLuc:interval_write = -1.f ; fLuc:coordinates = "time_counter lat lon" ; float nbp(time_counter, lat, lon) ; nbp:units = "kg C m-2 s-1" ; nbp:standard_name = "Net Biospheric Production" ; nbp:_FillValue = 9.96921e+36f ; nbp:long_name = "Net Biospheric Production" ; nbp:online_operation = "ave(scatter(X))" ; nbp:interval_operation = 1800.f ; nbp:interval_write = -1.f ; nbp:coordinates = "time_counter lat lon" ; float fVegLitter(time_counter, lat, lon) ; fVegLitter:units = "kg C m-2 s-1" ; fVegLitter:standard_name = "Total Carbon Flux from Vegetation to Litter" ; fVegLitter:_FillValue = 9.96921e+36f ; fVegLitter:long_name = "Total Carbon Flux from Vegetation to Litter" ; fVegLitter:online_operation = "ave(scatter(X))" ; fVegLitter:interval_operation = 1800.f ; fVegLitter:interval_write = -1.f ; fVegLitter:coordinates = "time_counter lat lon" ; float fLitterSoil(time_counter, lat, lon) ; fLitterSoil:units = "kg C m-2 s-1" ; fLitterSoil:standard_name = "Total Carbon Flux from Litter to Soil" ; fLitterSoil:_FillValue = 9.96921e+36f ; fLitterSoil:long_name = "Total Carbon Flux from Litter to Soil" ; fLitterSoil:online_operation = "ave(scatter(X))" ; fLitterSoil:interval_operation = 1800.f ; fLitterSoil:interval_write = -1.f ; fLitterSoil:coordinates = "time_counter lat lon" ; float cLeaf(time_counter, lat, lon) ; cLeaf:units = "kg C m-2" ; cLeaf:standard_name = "Carbon in Leaves" ; cLeaf:_FillValue = 9.96921e+36f ; cLeaf:long_name = "Carbon in Leaves" ; cLeaf:online_operation = "ave(scatter(X))" ; cLeaf:interval_operation = 1800.f ; cLeaf:interval_write = -1.f ; cLeaf:coordinates = "time_counter lat lon" ; float cWood(time_counter, lat, lon) ; cWood:units = "kg C m-2" ; cWood:standard_name = "Carbon in Wood" ; cWood:_FillValue = 9.96921e+36f ; cWood:long_name = "Carbon in Wood" ; cWood:online_operation = "ave(scatter(X))" ; cWood:interval_operation = 1800.f ; cWood:interval_write = -1.f ; cWood:coordinates = "time_counter lat lon" ; float cRoot(time_counter, lat, lon) ; cRoot:units = "kg C m-2" ; cRoot:standard_name = "Carbon in Roots" ; cRoot:_FillValue = 9.96921e+36f ; cRoot:long_name = "Carbon in Roots" ; cRoot:online_operation = "ave(scatter(X))" ; cRoot:interval_operation = 1800.f ; cRoot:interval_write = -1.f ; cRoot:coordinates = "time_counter lat lon" ; float cMisc(time_counter, lat, lon) ; cMisc:units = "kg C m-2" ; cMisc:standard_name = "Carbon in Other Living Compartments" ; cMisc:_FillValue = 9.96921e+36f ; cMisc:long_name = "Carbon in Other Living Compartments" ; cMisc:online_operation = "ave(scatter(X))" ; cMisc:interval_operation = 1800.f ; cMisc:interval_write = -1.f ; cMisc:coordinates = "time_counter lat lon" ; float cLitterAbove(time_counter, lat, lon) ; cLitterAbove:units = "kg C m-2" ; cLitterAbove:standard_name = "Carbon in Above-Ground Litter" ; cLitterAbove:_FillValue = 9.96921e+36f ; cLitterAbove:long_name = "Carbon in Above-Ground Litter" ; cLitterAbove:online_operation = "ave(scatter(X))" ; cLitterAbove:interval_operation = 1800.f ; cLitterAbove:interval_write = -1.f ; cLitterAbove:coordinates = "time_counter lat lon" ; float cLitterBelow(time_counter, lat, lon) ; cLitterBelow:units = "kg C m-2" ; cLitterBelow:standard_name = "Carbon in Below-Ground Litter" ; cLitterBelow:_FillValue = 9.96921e+36f ; cLitterBelow:long_name = "Carbon in Below-Ground Litter" ; cLitterBelow:online_operation = "ave(scatter(X))" ; cLitterBelow:interval_operation = 1800.f ; cLitterBelow:interval_write = -1.f ; cLitterBelow:coordinates = "time_counter lat lon" ; float cSoilFast(time_counter, lat, lon) ; cSoilFast:units = "kg C m-2" ; cSoilFast:standard_name = "Carbon in Fast Soil Pool" ; cSoilFast:_FillValue = 9.96921e+36f ; cSoilFast:long_name = "Carbon in Fast Soil Pool" ; cSoilFast:online_operation = "ave(scatter(X))" ; cSoilFast:interval_operation = 1800.f ; cSoilFast:interval_write = -1.f ; cSoilFast:coordinates = "time_counter lat lon" ; float cSoilMedium(time_counter, lat, lon) ; cSoilMedium:units = "kg C m-2" ; cSoilMedium:standard_name = "Carbon in Medium Soil Pool" ; cSoilMedium:_FillValue = 9.96921e+36f ; cSoilMedium:long_name = "Carbon in Medium Soil Pool" ; cSoilMedium:online_operation = "ave(scatter(X))" ; cSoilMedium:interval_operation = 1800.f ; cSoilMedium:interval_write = -1.f ; cSoilMedium:coordinates = "time_counter lat lon" ; float cSoilSlow(time_counter, lat, lon) ; cSoilSlow:units = "kg C m-2" ; cSoilSlow:standard_name = "Carbon in Slow Soil Pool" ; cSoilSlow:_FillValue = 9.96921e+36f ; cSoilSlow:long_name = "Carbon in Slow Soil Pool" ; cSoilSlow:online_operation = "ave(scatter(X))" ; cSoilSlow:interval_operation = 1800.f ; cSoilSlow:interval_write = -1.f ; cSoilSlow:coordinates = "time_counter lat lon" ; float landCoverFrac(time_counter, PFT, lat, lon) ; landCoverFrac:units = "%" ; landCoverFrac:standard_name = "Fractional Land Cover of PFT" ; landCoverFrac:_FillValue = 9.96921e+36f ; landCoverFrac:long_name = "Fractional Land Cover of PFT" ; landCoverFrac:online_operation = "ave(scatter(X))" ; landCoverFrac:interval_operation = 1800.f ; landCoverFrac:interval_write = -1.f ; landCoverFrac:coordinates = "time_counter PFT lat lon" ; float treeFracPrimDec(time_counter, lat, lon) ; treeFracPrimDec:units = "%" ; treeFracPrimDec:standard_name = "Total Primary Deciduous Tree Cover Fraction" ; treeFracPrimDec:_FillValue = 9.96921e+36f ; treeFracPrimDec:long_name = "Total Primary Deciduous Tree Cover Fraction" ; treeFracPrimDec:online_operation = "ave(scatter(X))" ; treeFracPrimDec:interval_operation = 1800.f ; treeFracPrimDec:interval_write = -1.f ; treeFracPrimDec:coordinates = "time_counter lat lon" ; float treeFracPrimEver(time_counter, lat, lon) ; treeFracPrimEver:units = "%" ; treeFracPrimEver:standard_name = "Total Primary Evergreen Tree Cover Fraction" ; treeFracPrimEver:_FillValue = 9.96921e+36f ; treeFracPrimEver:long_name = "Total Primary Evergreen Tree Cover Fraction" ; treeFracPrimEver:online_operation = "ave(scatter(X))" ; treeFracPrimEver:interval_operation = 1800.f ; treeFracPrimEver:interval_write = -1.f ; treeFracPrimEver:coordinates = "time_counter lat lon" ; float c3PftFrac(time_counter, lat, lon) ; c3PftFrac:units = "%" ; c3PftFrac:standard_name = "Total C3 PFT Cover Fraction" ; c3PftFrac:_FillValue = 9.96921e+36f ; c3PftFrac:long_name = "Total C3 PFT Cover Fraction" ; c3PftFrac:online_operation = "ave(scatter(X))" ; c3PftFrac:interval_operation = 1800.f ; c3PftFrac:interval_write = -1.f ; c3PftFrac:coordinates = "time_counter lat lon" ; float c4PftFrac(time_counter, lat, lon) ; c4PftFrac:units = "%" ; c4PftFrac:standard_name = "Total C4 PFT Cover Fraction" ; c4PftFrac:_FillValue = 9.96921e+36f ; c4PftFrac:long_name = "Total C4 PFT Cover Fraction" ; c4PftFrac:online_operation = "ave(scatter(X))" ; c4PftFrac:interval_operation = 1800.f ; c4PftFrac:interval_write = -1.f ; c4PftFrac:coordinates = "time_counter lat lon" ; float rGrowth(time_counter, lat, lon) ; rGrowth:units = "kg C m-2 s-1" ; rGrowth:standard_name = "Growth Autotrophic Respiration" ; rGrowth:_FillValue = 9.96921e+36f ; rGrowth:long_name = "Growth Autotrophic Respiration" ; rGrowth:online_operation = "ave(scatter(X))" ; rGrowth:interval_operation = 1800.f ; rGrowth:interval_write = -1.f ; rGrowth:coordinates = "time_counter lat lon" ; float rMaint(time_counter, lat, lon) ; rMaint:units = "kg C m-2 s-1" ; rMaint:standard_name = "Maintenance Autotrophic Respiration" ; rMaint:_FillValue = 9.96921e+36f ; rMaint:long_name = "Maintenance Autotrophic Respiration" ; rMaint:online_operation = "ave(scatter(X))" ; rMaint:interval_operation = 1800.f ; rMaint:interval_write = -1.f ; rMaint:coordinates = "time_counter lat lon" ; float nppLeaf(time_counter, lat, lon) ; nppLeaf:units = "kg C m-2 s-1" ; nppLeaf:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Leaf" ; nppLeaf:_FillValue = 9.96921e+36f ; nppLeaf:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Leaf" ; nppLeaf:online_operation = "ave(scatter(X))" ; nppLeaf:interval_operation = 1800.f ; nppLeaf:interval_write = -1.f ; nppLeaf:coordinates = "time_counter lat lon" ; float nppWood(time_counter, lat, lon) ; nppWood:units = "kg C m-2 s-1" ; nppWood:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Wood" ; nppWood:_FillValue = 9.96921e+36f ; nppWood:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Wood" ; nppWood:online_operation = "ave(scatter(X))" ; nppWood:interval_operation = 1800.f ; nppWood:interval_write = -1.f ; nppWood:coordinates = "time_counter lat lon" ; float nppRoot(time_counter, lat, lon) ; nppRoot:units = "kg C m-2 s-1" ; nppRoot:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Root" ; nppRoot:_FillValue = 9.96921e+36f ; nppRoot:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Root" ; nppRoot:online_operation = "ave(scatter(X))" ; nppRoot:interval_operation = 1800.f ; nppRoot:interval_write = -1.f ; nppRoot:coordinates = "time_counter lat lon" ; float nep(time_counter, lat, lon) ; nep:units = "kg C m-2 s-1" ; nep:standard_name = "Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity." ; nep:_FillValue = 9.96921e+36f ; nep:long_name = "Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity." ; nep:online_operation = "ave(scatter(X))" ; nep:interval_operation = 1800.f ; nep:interval_write = -1.f ; nep:coordinates = "time_counter lat lon" ; float RESOLUTION_X(lat, lon) ; RESOLUTION_X:units = "m" ; RESOLUTION_X:standard_name = "E-W resolution" ; RESOLUTION_X:_FillValue = 9.96921e+36f ; RESOLUTION_X:long_name = "E-W resolution" ; RESOLUTION_X:online_operation = "once(scatter(X))" ; RESOLUTION_X:coordinates = "lat lon" ; float RESOLUTION_Y(lat, lon) ; RESOLUTION_Y:units = "m" ; RESOLUTION_Y:standard_name = "N-S resolution" ; RESOLUTION_Y:_FillValue = 9.96921e+36f ; RESOLUTION_Y:long_name = "N-S resolution" ; RESOLUTION_Y:online_operation = "once(scatter(X))" ; RESOLUTION_Y:coordinates = "lat lon" ; float CONTFRAC(lat, lon) ; CONTFRAC:units = "1" ; CONTFRAC:standard_name = "Continental fraction" ; CONTFRAC:_FillValue = 9.96921e+36f ; CONTFRAC:long_name = "Continental fraction" ; CONTFRAC:online_operation = "once(scatter(X))" ; CONTFRAC:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "stomate_ipcc_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == SRF/Output/MO/v2.historical1_19800101_19800131_1M_sechiba_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_sechiba_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; veget = 13 ; solth = 7 ; soiltyp = 3 ; nobio = 1 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float veget(veget) ; veget:axis = "Z" ; veget:standard_name = "model_level_number" ; veget:units = "1" ; veget:valid_min = 1.f ; veget:valid_max = 13.f ; veget:title = "veget" ; veget:long_name = "Vegetation types" ; float solth(solth) ; solth:axis = "Z" ; solth:standard_name = "model_level_number" ; solth:units = "m" ; solth:valid_min = 1.f ; solth:valid_max = 7.f ; solth:title = "solth" ; solth:long_name = "Soil levels" ; float soiltyp(soiltyp) ; soiltyp:axis = "Z" ; soiltyp:standard_name = "model_level_number" ; soiltyp:units = "1" ; soiltyp:valid_min = 1.f ; soiltyp:valid_max = 3.f ; soiltyp:title = "soiltyp" ; soiltyp:long_name = "Soil types" ; float nobio(nobio) ; nobio:axis = "Z" ; nobio:standard_name = "model_level_number" ; nobio:units = "1" ; nobio:valid_min = 1.f ; nobio:valid_max = 1.f ; nobio:title = "nobio" ; nobio:long_name = "Other surface types" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float evap(time_counter, lat, lon) ; evap:units = "mm/d" ; evap:standard_name = "Evaporation" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "Evaporation" ; evap:online_operation = "ave(scatter(X* 48.0))" ; evap:interval_operation = 1800.f ; evap:interval_write = -1.f ; evap:coordinates = "time_counter lat lon" ; float coastalflow(time_counter, lat, lon) ; coastalflow:units = "m^3/s" ; coastalflow:standard_name = "Diffuse coastal flow" ; coastalflow:_FillValue = 9.96921e+36f ; coastalflow:long_name = "Diffuse coastal flow" ; coastalflow:online_operation = "ave(scatter(X*0.000556))" ; coastalflow:interval_operation = 1800.f ; coastalflow:interval_write = -1.f ; coastalflow:coordinates = "time_counter lat lon" ; float riverflow(time_counter, lat, lon) ; riverflow:units = "m^3/s" ; riverflow:standard_name = "River flow to the oceans" ; riverflow:_FillValue = 9.96921e+36f ; riverflow:long_name = "River flow to the oceans" ; riverflow:online_operation = "ave(scatter(X*0.000556))" ; riverflow:interval_operation = 1800.f ; riverflow:interval_write = -1.f ; riverflow:coordinates = "time_counter lat lon" ; float temp_sol(time_counter, lat, lon) ; temp_sol:units = "C" ; temp_sol:standard_name = "Surface Temperature" ; temp_sol:_FillValue = 9.96921e+36f ; temp_sol:long_name = "Surface Temperature" ; temp_sol:online_operation = "ave(cels(X))" ; temp_sol:interval_operation = 1800.f ; temp_sol:interval_write = -1.f ; temp_sol:coordinates = "time_counter lat lon" ; float rain(time_counter, lat, lon) ; rain:units = "mm/d" ; rain:standard_name = "Rainfall" ; rain:_FillValue = 9.96921e+36f ; rain:long_name = "Rainfall" ; rain:online_operation = "ave(scatter(X* 48.0))" ; rain:interval_operation = 1800.f ; rain:interval_write = -1.f ; rain:coordinates = "time_counter lat lon" ; float snowf(time_counter, lat, lon) ; snowf:units = "mm/d" ; snowf:standard_name = "Snowfall" ; snowf:_FillValue = 9.96921e+36f ; snowf:long_name = "Snowfall" ; snowf:online_operation = "ave(scatter(X* 48.0))" ; snowf:interval_operation = 1800.f ; snowf:interval_write = -1.f ; snowf:coordinates = "time_counter lat lon" ; float netrad(time_counter, lat, lon) ; netrad:units = "W/m^2" ; netrad:standard_name = "Net radiation" ; netrad:_FillValue = 9.96921e+36f ; netrad:long_name = "Net radiation" ; netrad:online_operation = "ave(scatter(X))" ; netrad:interval_operation = 1800.f ; netrad:interval_write = -1.f ; netrad:coordinates = "time_counter lat lon" ; float lai(time_counter, veget, lat, lon) ; lai:units = "1" ; lai:standard_name = "Leaf Area Index" ; lai:_FillValue = 9.96921e+36f ; lai:long_name = "Leaf Area Index" ; lai:online_operation = "ave(scatter(X))" ; lai:interval_operation = 1800.f ; lai:interval_write = -1.f ; lai:coordinates = "time_counter veget lat lon" ; float basinmap(lat, lon) ; basinmap:standard_name = "Aproximate map of the river basins" ; basinmap:_FillValue = 9.96921e+36f ; basinmap:long_name = "Aproximate map of the river basins" ; basinmap:online_operation = "once(scatter(X))" ; basinmap:coordinates = "lat lon" ; float nbrivers(lat, lon) ; nbrivers:standard_name = "Number or rivers in the outflow grid box" ; nbrivers:_FillValue = 9.96921e+36f ; nbrivers:long_name = "Number or rivers in the outflow grid box" ; nbrivers:online_operation = "once(scatter(X))" ; nbrivers:coordinates = "lat lon" ; float CO2FLUX(time_counter, veget, lat, lon) ; CO2FLUX:units = "gC/day/(m^2 tot)" ; CO2FLUX:standard_name = "Total output CO2 flux" ; CO2FLUX:_FillValue = 9.96921e+36f ; CO2FLUX:long_name = "Total output CO2 flux" ; CO2FLUX:online_operation = "ave(scatter(X))" ; CO2FLUX:interval_operation = 1800.f ; CO2FLUX:interval_write = -1.f ; CO2FLUX:coordinates = "time_counter veget lat lon" ; float subli(time_counter, lat, lon) ; subli:units = "mm/d" ; subli:standard_name = "Sublimation" ; subli:_FillValue = 9.96921e+36f ; subli:long_name = "Sublimation" ; subli:online_operation = "ave(scatter(X* 48.0))" ; subli:interval_operation = 1800.f ; subli:interval_write = -1.f ; subli:coordinates = "time_counter lat lon" ; float evapnu(time_counter, lat, lon) ; evapnu:units = "mm/d" ; evapnu:standard_name = "Bare soil evaporation" ; evapnu:_FillValue = 9.96921e+36f ; evapnu:long_name = "Bare soil evaporation" ; evapnu:online_operation = "ave(scatter(X* 48.0))" ; evapnu:interval_operation = 1800.f ; evapnu:interval_write = -1.f ; evapnu:coordinates = "time_counter lat lon" ; float runoff(time_counter, lat, lon) ; runoff:units = "mm/d" ; runoff:standard_name = "Surface runoff" ; runoff:_FillValue = 9.96921e+36f ; runoff:long_name = "Surface runoff" ; runoff:online_operation = "ave(scatter(X* 48.0))" ; runoff:interval_operation = 1800.f ; runoff:interval_write = -1.f ; runoff:coordinates = "time_counter lat lon" ; float drainage(time_counter, lat, lon) ; drainage:units = "mm/d" ; drainage:standard_name = "Deep drainage" ; drainage:_FillValue = 9.96921e+36f ; drainage:long_name = "Deep drainage" ; drainage:online_operation = "ave(scatter(X* 48.0))" ; drainage:interval_operation = 1800.f ; drainage:interval_write = -1.f ; drainage:coordinates = "time_counter lat lon" ; float riversret(time_counter, lat, lon) ; riversret:units = "mm/d" ; riversret:standard_name = "Return from endorheic rivers" ; riversret:_FillValue = 9.96921e+36f ; riversret:long_name = "Return from endorheic rivers" ; riversret:online_operation = "ave(scatter(X* 48.0))" ; riversret:interval_operation = 1800.f ; riversret:interval_write = -1.f ; riversret:coordinates = "time_counter lat lon" ; float hydrographs(time_counter, lat, lon) ; hydrographs:units = "m^3/s" ; hydrographs:standard_name = "Hydrographs of gridbox outflow" ; hydrographs:_FillValue = 9.96921e+36f ; hydrographs:long_name = "Hydrographs of gridbox outflow" ; hydrographs:online_operation = "ave(scatter(X*0.000556))" ; hydrographs:interval_operation = 1800.f ; hydrographs:interval_write = -1.f ; hydrographs:coordinates = "time_counter lat lon" ; float tair(time_counter, lat, lon) ; tair:units = "K" ; tair:standard_name = "Air Temperature" ; tair:_FillValue = 9.96921e+36f ; tair:long_name = "Air Temperature" ; tair:online_operation = "ave(X)" ; tair:interval_operation = 1800.f ; tair:interval_write = -1.f ; tair:coordinates = "time_counter lat lon" ; float qair(time_counter, lat, lon) ; qair:units = "g/g" ; qair:standard_name = "Air humidity" ; qair:_FillValue = 9.96921e+36f ; qair:long_name = "Air humidity" ; qair:online_operation = "ave(X)" ; qair:interval_operation = 1800.f ; qair:interval_write = -1.f ; qair:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "g/g" ; q2m:standard_name = "2m Air humidity" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "2m Air humidity" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = -1.f ; q2m:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "2m Air Temperature" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "2m Air Temperature" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = -1.f ; t2m:coordinates = "time_counter lat lon" ; float alb_vis(time_counter, lat, lon) ; alb_vis:units = "1" ; alb_vis:standard_name = "Albedo visible" ; alb_vis:_FillValue = 9.96921e+36f ; alb_vis:long_name = "Albedo visible" ; alb_vis:online_operation = "ave(X)" ; alb_vis:interval_operation = 1800.f ; alb_vis:interval_write = -1.f ; alb_vis:coordinates = "time_counter lat lon" ; float alb_nir(time_counter, lat, lon) ; alb_nir:units = "1" ; alb_nir:standard_name = "Albedo near infrared" ; alb_nir:_FillValue = 9.96921e+36f ; alb_nir:long_name = "Albedo near infrared" ; alb_nir:online_operation = "ave(X)" ; alb_nir:interval_operation = 1800.f ; alb_nir:interval_write = -1.f ; alb_nir:coordinates = "time_counter lat lon" ; float soilalb_vis(time_counter, lat, lon) ; soilalb_vis:units = "1" ; soilalb_vis:standard_name = "Soil Albedo visible" ; soilalb_vis:_FillValue = 9.96921e+36f ; soilalb_vis:long_name = "Soil Albedo visible" ; soilalb_vis:online_operation = "ave(scatter(X))" ; soilalb_vis:interval_operation = 1800.f ; soilalb_vis:interval_write = -1.f ; soilalb_vis:coordinates = "time_counter lat lon" ; float soilalb_nir(time_counter, lat, lon) ; soilalb_nir:units = "1" ; soilalb_nir:standard_name = "Soil Albedo near infrared" ; soilalb_nir:_FillValue = 9.96921e+36f ; soilalb_nir:long_name = "Soil Albedo near infrared" ; soilalb_nir:online_operation = "ave(scatter(X))" ; soilalb_nir:interval_operation = 1800.f ; soilalb_nir:interval_write = -1.f ; soilalb_nir:coordinates = "time_counter lat lon" ; float vegalb_vis(time_counter, lat, lon) ; vegalb_vis:units = "1" ; vegalb_vis:standard_name = "Vegetation Albedo visible" ; vegalb_vis:_FillValue = 9.96921e+36f ; vegalb_vis:long_name = "Vegetation Albedo visible" ; vegalb_vis:online_operation = "ave(scatter(X))" ; vegalb_vis:interval_operation = 1800.f ; vegalb_vis:interval_write = -1.f ; vegalb_vis:coordinates = "time_counter lat lon" ; float vegalb_nir(time_counter, lat, lon) ; vegalb_nir:units = "1" ; vegalb_nir:standard_name = "Vegetation Albedo near infrared" ; vegalb_nir:_FillValue = 9.96921e+36f ; vegalb_nir:long_name = "Vegetation Albedo near infrared" ; vegalb_nir:online_operation = "ave(scatter(X))" ; vegalb_nir:interval_operation = 1800.f ; vegalb_nir:interval_write = -1.f ; vegalb_nir:coordinates = "time_counter lat lon" ; float z0(time_counter, lat, lon) ; z0:units = "m" ; z0:standard_name = "Surface roughness" ; z0:_FillValue = 9.96921e+36f ; z0:long_name = "Surface roughness" ; z0:online_operation = "ave(scatter(X))" ; z0:interval_operation = 1800.f ; z0:interval_write = -1.f ; z0:coordinates = "time_counter lat lon" ; float roughheight(time_counter, lat, lon) ; roughheight:units = "m" ; roughheight:standard_name = "Effective roughness height" ; roughheight:_FillValue = 9.96921e+36f ; roughheight:long_name = "Effective roughness height" ; roughheight:online_operation = "ave(scatter(X))" ; roughheight:interval_operation = 1800.f ; roughheight:interval_write = -1.f ; roughheight:coordinates = "time_counter lat lon" ; float transpir(time_counter, veget, lat, lon) ; transpir:units = "mm/d" ; transpir:standard_name = "Transpiration" ; transpir:_FillValue = 9.96921e+36f ; transpir:long_name = "Transpiration" ; transpir:online_operation = "ave(scatter(X* 48.0))" ; transpir:interval_operation = 1800.f ; transpir:interval_write = -1.f ; transpir:coordinates = "time_counter veget lat lon" ; float inter(time_counter, veget, lat, lon) ; inter:units = "mm/d" ; inter:standard_name = "Interception loss" ; inter:_FillValue = 9.96921e+36f ; inter:long_name = "Interception loss" ; inter:online_operation = "ave(scatter(X* 48.0))" ; inter:interval_operation = 1800.f ; inter:interval_write = -1.f ; inter:coordinates = "time_counter veget lat lon" ; float tsol_max(time_counter, lat, lon) ; tsol_max:units = "C" ; tsol_max:standard_name = "Maximum Surface Temperature" ; tsol_max:_FillValue = 9.96921e+36f ; tsol_max:long_name = "Maximum Surface Temperature" ; tsol_max:online_operation = "t_max(cels(X))" ; tsol_max:interval_operation = 1800.f ; tsol_max:interval_write = -1.f ; tsol_max:coordinates = "time_counter lat lon" ; float tsol_min(time_counter, lat, lon) ; tsol_min:units = "C" ; tsol_min:standard_name = "Minimum Surface Temperature" ; tsol_min:_FillValue = 9.96921e+36f ; tsol_min:long_name = "Minimum Surface Temperature" ; tsol_min:online_operation = "t_min(cels(X))" ; tsol_min:interval_operation = 1800.f ; tsol_min:interval_write = -1.f ; tsol_min:coordinates = "time_counter lat lon" ; float fluxsens(time_counter, lat, lon) ; fluxsens:units = "W/m^2" ; fluxsens:standard_name = "Sensible Heat Flux" ; fluxsens:_FillValue = 9.96921e+36f ; fluxsens:long_name = "Sensible Heat Flux" ; fluxsens:online_operation = "ave(X)" ; fluxsens:interval_operation = 1800.f ; fluxsens:interval_write = -1.f ; fluxsens:coordinates = "time_counter lat lon" ; float fluxlat(time_counter, lat, lon) ; fluxlat:units = "W/m^2" ; fluxlat:standard_name = "Latent Heat Flux" ; fluxlat:_FillValue = 9.96921e+36f ; fluxlat:long_name = "Latent Heat Flux" ; fluxlat:online_operation = "ave(X)" ; fluxlat:interval_operation = 1800.f ; fluxlat:interval_write = -1.f ; fluxlat:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/m^2" ; snow:standard_name = "Snow mass" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow mass" ; snow:online_operation = "ave(scatter(X))" ; snow:interval_operation = 1800.f ; snow:interval_write = -1.f ; snow:coordinates = "time_counter lat lon" ; float snowage(time_counter, lat, lon) ; snowage:units = "?" ; snowage:standard_name = "Snow age" ; snowage:_FillValue = 9.96921e+36f ; snowage:long_name = "Snow age" ; snowage:online_operation = "ave(scatter(X))" ; snowage:interval_operation = 1800.f ; snowage:interval_write = -1.f ; snowage:coordinates = "time_counter lat lon" ; float snownobio(time_counter, lat, lon) ; snownobio:units = "kg/m^2" ; snownobio:standard_name = "Snow on other surfaces" ; snownobio:_FillValue = 9.96921e+36f ; snownobio:long_name = "Snow on other surfaces" ; snownobio:online_operation = "ave(scatter(X))" ; snownobio:interval_operation = 1800.f ; snownobio:interval_write = -1.f ; snownobio:coordinates = "time_counter lat lon" ; float snownobioage(time_counter, lat, lon) ; snownobioage:units = "d" ; snownobioage:standard_name = "Snow age on other surfaces" ; snownobioage:_FillValue = 9.96921e+36f ; snownobioage:long_name = "Snow age on other surfaces" ; snownobioage:online_operation = "ave(scatter(X))" ; snownobioage:interval_operation = 1800.f ; snownobioage:interval_write = -1.f ; snownobioage:coordinates = "time_counter lat lon" ; float vegetfrac(time_counter, veget, lat, lon) ; vegetfrac:units = "1" ; vegetfrac:standard_name = "Fraction of vegetation" ; vegetfrac:_FillValue = 9.96921e+36f ; vegetfrac:long_name = "Fraction of vegetation" ; vegetfrac:online_operation = "ave(scatter(X))" ; vegetfrac:interval_operation = 1800.f ; vegetfrac:interval_write = -1.f ; vegetfrac:coordinates = "time_counter veget lat lon" ; float maxvegetfrac(time_counter, veget, lat, lon) ; maxvegetfrac:units = "1" ; maxvegetfrac:standard_name = "Maximum fraction of vegetation" ; maxvegetfrac:_FillValue = 9.96921e+36f ; maxvegetfrac:long_name = "Maximum fraction of vegetation" ; maxvegetfrac:online_operation = "ave(scatter(X))" ; maxvegetfrac:interval_operation = 1800.f ; maxvegetfrac:interval_write = -1.f ; maxvegetfrac:coordinates = "time_counter veget lat lon" ; float nobiofrac(time_counter, lat, lon) ; nobiofrac:units = "1" ; nobiofrac:standard_name = "Fraction of other surface types" ; nobiofrac:_FillValue = 9.96921e+36f ; nobiofrac:long_name = "Fraction of other surface types" ; nobiofrac:online_operation = "ave(scatter(X))" ; nobiofrac:interval_operation = 1800.f ; nobiofrac:interval_write = -1.f ; nobiofrac:coordinates = "time_counter lat lon" ; float dss(time_counter, veget, lat, lon) ; dss:units = "m" ; dss:standard_name = "Up-reservoir Height" ; dss:_FillValue = 9.96921e+36f ; dss:long_name = "Up-reservoir Height" ; dss:online_operation = "ave(scatter(X))" ; dss:interval_operation = 1800.f ; dss:interval_write = -1.f ; dss:coordinates = "time_counter veget lat lon" ; float gqsb(time_counter, lat, lon) ; gqsb:units = "1" ; gqsb:standard_name = "Upper Soil Moisture" ; gqsb:_FillValue = 9.96921e+36f ; gqsb:long_name = "Upper Soil Moisture" ; gqsb:online_operation = "ave(scatter(X))" ; gqsb:interval_operation = 1800.f ; gqsb:interval_write = -1.f ; gqsb:coordinates = "time_counter lat lon" ; float bqsb(time_counter, lat, lon) ; bqsb:units = "1" ; bqsb:standard_name = "Lower Soil Moisture" ; bqsb:_FillValue = 9.96921e+36f ; bqsb:long_name = "Lower Soil Moisture" ; bqsb:online_operation = "ave(scatter(X))" ; bqsb:interval_operation = 1800.f ; bqsb:interval_write = -1.f ; bqsb:coordinates = "time_counter lat lon" ; float qsintveg(time_counter, veget, lat, lon) ; qsintveg:units = "Kg/m^2" ; qsintveg:standard_name = "Water on canopy" ; qsintveg:_FillValue = 9.96921e+36f ; qsintveg:long_name = "Water on canopy" ; qsintveg:online_operation = "ave(scatter(X))" ; qsintveg:interval_operation = 1800.f ; qsintveg:interval_write = -1.f ; qsintveg:coordinates = "time_counter veget lat lon" ; float rstruct(time_counter, veget, lat, lon) ; rstruct:units = "s/m" ; rstruct:standard_name = "Structural resistance" ; rstruct:_FillValue = 9.96921e+36f ; rstruct:long_name = "Structural resistance" ; rstruct:online_operation = "ave(scatter(X))" ; rstruct:interval_operation = 1800.f ; rstruct:interval_write = -1.f ; rstruct:coordinates = "time_counter veget lat lon" ; float gpp(time_counter, veget, lat, lon) ; gpp:units = "gC/m^2/s" ; gpp:standard_name = "Net assimilation of carbon by the vegetation" ; gpp:_FillValue = 9.96921e+36f ; gpp:long_name = "Net assimilation of carbon by the vegetation" ; gpp:online_operation = "ave(scatter(X*0.000556))" ; gpp:interval_operation = 1800.f ; gpp:interval_write = -1.f ; gpp:coordinates = "time_counter veget lat lon" ; float nee(time_counter, veget, lat, lon) ; nee:units = "gC/m^2/s" ; nee:standard_name = "Net Ecosystem Exchange" ; nee:_FillValue = 9.96921e+36f ; nee:long_name = "Net Ecosystem Exchange" ; nee:online_operation = "ave(scatter(X*0.000556))" ; nee:interval_operation = 1800.f ; nee:interval_write = -1.f ; nee:coordinates = "time_counter veget lat lon" ; float maint_resp(time_counter, veget, lat, lon) ; maint_resp:units = "gC/m^2/s" ; maint_resp:standard_name = "Maintenance respiration" ; maint_resp:_FillValue = 9.96921e+36f ; maint_resp:long_name = "Maintenance respiration" ; maint_resp:online_operation = "ave(scatter(X*0.000556))" ; maint_resp:interval_operation = 1800.f ; maint_resp:interval_write = -1.f ; maint_resp:coordinates = "time_counter veget lat lon" ; float hetero_resp(time_counter, veget, lat, lon) ; hetero_resp:units = "gC/m^2/s" ; hetero_resp:standard_name = "Heterotrophic respiration" ; hetero_resp:_FillValue = 9.96921e+36f ; hetero_resp:long_name = "Heterotrophic respiration" ; hetero_resp:online_operation = "ave(scatter(X*0.000556))" ; hetero_resp:interval_operation = 1800.f ; hetero_resp:interval_write = -1.f ; hetero_resp:coordinates = "time_counter veget lat lon" ; float growth_resp(time_counter, veget, lat, lon) ; growth_resp:units = "gC/m^2/s" ; growth_resp:standard_name = "Growth respiration" ; growth_resp:_FillValue = 9.96921e+36f ; growth_resp:long_name = "Growth respiration" ; growth_resp:online_operation = "ave(scatter(X*0.000556))" ; growth_resp:interval_operation = 1800.f ; growth_resp:interval_write = -1.f ; growth_resp:coordinates = "time_counter veget lat lon" ; float npp(time_counter, veget, lat, lon) ; npp:units = "gC/m^2/s" ; npp:standard_name = "Net Primary Production" ; npp:_FillValue = 9.96921e+36f ; npp:long_name = "Net Primary Production" ; npp:online_operation = "ave(scatter(X*0.000556))" ; npp:interval_operation = 1800.f ; npp:interval_write = -1.f ; npp:coordinates = "time_counter veget lat lon" ; float precisol(time_counter, veget, lat, lon) ; precisol:units = "mm/d" ; precisol:standard_name = "Throughfall" ; precisol:_FillValue = 9.96921e+36f ; precisol:long_name = "Throughfall" ; precisol:online_operation = "ave(scatter(X* 48.0))" ; precisol:interval_operation = 1800.f ; precisol:interval_write = -1.f ; precisol:coordinates = "time_counter veget lat lon" ; float drysoil_frac(time_counter, lat, lon) ; drysoil_frac:units = "1" ; drysoil_frac:standard_name = "Fraction of visibly dry soil" ; drysoil_frac:_FillValue = 9.96921e+36f ; drysoil_frac:long_name = "Fraction of visibly dry soil" ; drysoil_frac:online_operation = "ave(scatter(X))" ; drysoil_frac:interval_operation = 1800.f ; drysoil_frac:interval_write = -1.f ; drysoil_frac:coordinates = "time_counter lat lon" ; float evapot(time_counter, lat, lon) ; evapot:units = "mm/d" ; evapot:standard_name = "Potential evaporation" ; evapot:_FillValue = 9.96921e+36f ; evapot:long_name = "Potential evaporation" ; evapot:online_operation = "ave(scatter(X* 48.0))" ; evapot:interval_operation = 1800.f ; evapot:interval_write = -1.f ; evapot:coordinates = "time_counter lat lon" ; float evapot_corr(time_counter, lat, lon) ; evapot_corr:units = "mm/d" ; evapot_corr:standard_name = "Potential evaporation" ; evapot_corr:_FillValue = 9.96921e+36f ; evapot_corr:long_name = "Potential evaporation" ; evapot_corr:online_operation = "ave(scatter(X* 48.0))" ; evapot_corr:interval_operation = 1800.f ; evapot_corr:interval_write = -1.f ; evapot_corr:coordinates = "time_counter lat lon" ; float swnet(time_counter, lat, lon) ; swnet:units = "W/m^2" ; swnet:standard_name = "Net solar radiation" ; swnet:_FillValue = 9.96921e+36f ; swnet:long_name = "Net solar radiation" ; swnet:online_operation = "ave(X)" ; swnet:interval_operation = 1800.f ; swnet:interval_write = -1.f ; swnet:coordinates = "time_counter lat lon" ; float swdown(time_counter, lat, lon) ; swdown:units = "W/m^2" ; swdown:standard_name = "Incident solar radiation" ; swdown:_FillValue = 9.96921e+36f ; swdown:long_name = "Incident solar radiation" ; swdown:online_operation = "ave(X)" ; swdown:interval_operation = 1800.f ; swdown:interval_write = -1.f ; swdown:coordinates = "time_counter lat lon" ; float lwdown(time_counter, lat, lon) ; lwdown:units = "W/m^2" ; lwdown:standard_name = "Absorbed downward longwave radiation" ; lwdown:_FillValue = 9.96921e+36f ; lwdown:long_name = "Absorbed downward longwave radiation" ; lwdown:online_operation = "ave(scatter(X))" ; lwdown:interval_operation = 1800.f ; lwdown:interval_write = -1.f ; lwdown:coordinates = "time_counter lat lon" ; float lwnet(time_counter, lat, lon) ; lwnet:units = "W/m^2" ; lwnet:standard_name = "Net surface longwave radiation" ; lwnet:_FillValue = 9.96921e+36f ; lwnet:long_name = "Net surface longwave radiation" ; lwnet:online_operation = "ave(scatter(X))" ; lwnet:interval_operation = 1800.f ; lwnet:interval_write = -1.f ; lwnet:coordinates = "time_counter lat lon" ; float temp_pheno(time_counter, lat, lon) ; temp_pheno:units = "K" ; temp_pheno:standard_name = "Temperature for Pheno" ; temp_pheno:_FillValue = 9.96921e+36f ; temp_pheno:long_name = "Temperature for Pheno" ; temp_pheno:online_operation = "ave(scatter(X))" ; temp_pheno:interval_operation = 1800.f ; temp_pheno:interval_write = -1.f ; temp_pheno:coordinates = "time_counter lat lon" ; float ptn(time_counter, solth, lat, lon) ; ptn:units = "K" ; ptn:standard_name = "Deep ground temperature" ; ptn:_FillValue = 9.96921e+36f ; ptn:long_name = "Deep ground temperature" ; ptn:online_operation = "ave(scatter(X))" ; ptn:interval_operation = 1800.f ; ptn:interval_write = -1.f ; ptn:coordinates = "time_counter solth lat lon" ; float fastr(time_counter, lat, lon) ; fastr:units = "kg/m^2" ; fastr:standard_name = "Fast flow reservoir" ; fastr:_FillValue = 9.96921e+36f ; fastr:long_name = "Fast flow reservoir" ; fastr:online_operation = "ave(scatter(X))" ; fastr:interval_operation = 1800.f ; fastr:interval_write = -1.f ; fastr:coordinates = "time_counter lat lon" ; float slowr(time_counter, lat, lon) ; slowr:units = "kg/m^2" ; slowr:standard_name = "Slow flow reservoir" ; slowr:_FillValue = 9.96921e+36f ; slowr:long_name = "Slow flow reservoir" ; slowr:online_operation = "ave(scatter(X))" ; slowr:interval_operation = 1800.f ; slowr:interval_write = -1.f ; slowr:coordinates = "time_counter lat lon" ; float streamr(time_counter, lat, lon) ; streamr:units = "kg/m^2" ; streamr:standard_name = "Stream flow reservoir" ; streamr:_FillValue = 9.96921e+36f ; streamr:long_name = "Stream flow reservoir" ; streamr:online_operation = "ave(scatter(X))" ; streamr:interval_operation = 1800.f ; streamr:interval_write = -1.f ; streamr:coordinates = "time_counter lat lon" ; float lakevol(time_counter, lat, lon) ; lakevol:units = "kg/m^2" ; lakevol:standard_name = "Volume in lake reservoir" ; lakevol:_FillValue = 9.96921e+36f ; lakevol:long_name = "Volume in lake reservoir" ; lakevol:online_operation = "ave(scatter(X))" ; lakevol:interval_operation = 1800.f ; lakevol:interval_write = -1.f ; lakevol:coordinates = "time_counter lat lon" ; float irrigation(time_counter, lat, lon) ; irrigation:units = "mm/d" ; irrigation:standard_name = "Net irrigation" ; irrigation:_FillValue = 9.96921e+36f ; irrigation:long_name = "Net irrigation" ; irrigation:online_operation = "ave(scatter(X* 48.0))" ; irrigation:interval_operation = 1800.f ; irrigation:interval_write = -1.f ; irrigation:coordinates = "time_counter lat lon" ; float netirrig(time_counter, lat, lon) ; netirrig:units = "mm/d" ; netirrig:standard_name = "Net irrigation requirement" ; netirrig:_FillValue = 9.96921e+36f ; netirrig:long_name = "Net irrigation requirement" ; netirrig:online_operation = "ave(scatter(X* 48.0))" ; netirrig:interval_operation = 1800.f ; netirrig:interval_write = -1.f ; netirrig:coordinates = "time_counter lat lon" ; float irrigmap(lat, lon) ; irrigmap:units = "m^2" ; irrigmap:standard_name = "Map of irrigated areas" ; irrigmap:_FillValue = 9.96921e+36f ; irrigmap:long_name = "Map of irrigated areas" ; irrigmap:online_operation = "once(scatter(X))" ; irrigmap:coordinates = "lat lon" ; float beta(time_counter, lat, lon) ; beta:units = "1" ; beta:standard_name = "Beta Function" ; beta:_FillValue = 9.96921e+36f ; beta:long_name = "Beta Function" ; beta:online_operation = "ave(scatter(X))" ; beta:interval_operation = 1800.f ; beta:interval_write = -1.f ; beta:coordinates = "time_counter lat lon" ; float raero(time_counter, lat, lon) ; raero:units = "s/m" ; raero:standard_name = "Aerodynamic resistance" ; raero:_FillValue = 9.96921e+36f ; raero:long_name = "Aerodynamic resistance" ; raero:online_operation = "ave(scatter(X))" ; raero:interval_operation = 1800.f ; raero:interval_write = -1.f ; raero:coordinates = "time_counter lat lon" ; float cdrag(time_counter, lat, lon) ; cdrag:units = "?" ; cdrag:standard_name = "Drag coefficient for LE and SH" ; cdrag:_FillValue = 9.96921e+36f ; cdrag:long_name = "Drag coefficient for LE and SH" ; cdrag:online_operation = "ave(scatter(X))" ; cdrag:interval_operation = 1800.f ; cdrag:interval_write = -1.f ; cdrag:coordinates = "time_counter lat lon" ; float Wind(time_counter, lat, lon) ; Wind:units = "m/s" ; Wind:standard_name = "Wind speed" ; Wind:_FillValue = 9.96921e+36f ; Wind:long_name = "Wind speed" ; Wind:online_operation = "ave(scatter(X))" ; Wind:interval_operation = 1800.f ; Wind:interval_write = -1.f ; Wind:coordinates = "time_counter lat lon" ; float qsatt(time_counter, lat, lon) ; qsatt:units = "g/g" ; qsatt:standard_name = "Surface saturated humidity" ; qsatt:_FillValue = 9.96921e+36f ; qsatt:long_name = "Surface saturated humidity" ; qsatt:online_operation = "ave(scatter(X))" ; qsatt:interval_operation = 1800.f ; qsatt:interval_write = -1.f ; qsatt:coordinates = "time_counter lat lon" ; float vbeta1(time_counter, lat, lon) ; vbeta1:units = "1" ; vbeta1:standard_name = "Beta for sublimation" ; vbeta1:_FillValue = 9.96921e+36f ; vbeta1:long_name = "Beta for sublimation" ; vbeta1:online_operation = "ave(scatter(X))" ; vbeta1:interval_operation = 1800.f ; vbeta1:interval_write = -1.f ; vbeta1:coordinates = "time_counter lat lon" ; float vbeta4(time_counter, lat, lon) ; vbeta4:units = "1" ; vbeta4:standard_name = "Beta for bare soil" ; vbeta4:_FillValue = 9.96921e+36f ; vbeta4:long_name = "Beta for bare soil" ; vbeta4:online_operation = "ave(scatter(X))" ; vbeta4:interval_operation = 1800.f ; vbeta4:interval_write = -1.f ; vbeta4:coordinates = "time_counter lat lon" ; float vbetaco2(time_counter, veget, lat, lon) ; vbetaco2:units = "mm/d" ; vbetaco2:standard_name = "beta for CO2" ; vbetaco2:_FillValue = 9.96921e+36f ; vbetaco2:long_name = "beta for CO2" ; vbetaco2:online_operation = "ave(scatter(X))" ; vbetaco2:interval_operation = 1800.f ; vbetaco2:interval_write = -1.f ; vbetaco2:coordinates = "time_counter veget lat lon" ; float soiltype(soiltyp, lat, lon) ; soiltype:units = "%" ; soiltype:standard_name = "Fraction of soil textures" ; soiltype:_FillValue = 9.96921e+36f ; soiltype:long_name = "Fraction of soil textures" ; soiltype:online_operation = "once(scatter(X))" ; soiltype:coordinates = "soiltyp lat lon" ; float humrel(time_counter, veget, lat, lon) ; humrel:units = "1" ; humrel:standard_name = "Soil moisture stress" ; humrel:_FillValue = 9.96921e+36f ; humrel:long_name = "Soil moisture stress" ; humrel:online_operation = "ave(scatter(X))" ; humrel:interval_operation = 1800.f ; humrel:interval_write = -1.f ; humrel:coordinates = "time_counter veget lat lon" ; float cimean(time_counter, veget, lat, lon) ; cimean:units = "mmole/m2/s" ; cimean:standard_name = "Stomatal CO2 concentation" ; cimean:_FillValue = 9.96921e+36f ; cimean:long_name = "Stomatal CO2 concentation" ; cimean:online_operation = "ave(scatter(X))" ; cimean:interval_operation = 1800.f ; cimean:interval_write = -1.f ; cimean:coordinates = "time_counter veget lat lon" ; float vbeta3(time_counter, veget, lat, lon) ; vbeta3:units = "mm/d" ; vbeta3:standard_name = "Beta for Transpiration" ; vbeta3:_FillValue = 9.96921e+36f ; vbeta3:long_name = "Beta for Transpiration" ; vbeta3:online_operation = "ave(scatter(X))" ; vbeta3:interval_operation = 1800.f ; vbeta3:interval_write = -1.f ; vbeta3:coordinates = "time_counter veget lat lon" ; float rveget(time_counter, veget, lat, lon) ; rveget:units = "s/m" ; rveget:standard_name = "Canopy resistance" ; rveget:_FillValue = 9.96921e+36f ; rveget:long_name = "Canopy resistance" ; rveget:online_operation = "ave(scatter(X))" ; rveget:interval_operation = 1800.f ; rveget:interval_write = -1.f ; rveget:coordinates = "time_counter veget lat lon" ; float rsol(time_counter, lat, lon) ; rsol:units = "s/m" ; rsol:standard_name = "Soil resistance" ; rsol:_FillValue = 9.96921e+36f ; rsol:long_name = "Soil resistance" ; rsol:online_operation = "ave(scatter(X))" ; rsol:interval_operation = 1800.f ; rsol:interval_write = -1.f ; rsol:coordinates = "time_counter lat lon" ; float vbeta2(time_counter, veget, lat, lon) ; vbeta2:units = "mm/d" ; vbeta2:standard_name = "Beta for Interception loss" ; vbeta2:_FillValue = 9.96921e+36f ; vbeta2:long_name = "Beta for Interception loss" ; vbeta2:online_operation = "ave(scatter(X))" ; vbeta2:interval_operation = 1800.f ; vbeta2:interval_write = -1.f ; vbeta2:coordinates = "time_counter veget lat lon" ; float qsintmax(time_counter, veget, lat, lon) ; qsintmax:units = "Kg/m^2" ; qsintmax:standard_name = "Maximum Interception capacity" ; qsintmax:_FillValue = 9.96921e+36f ; qsintmax:long_name = "Maximum Interception capacity" ; qsintmax:online_operation = "ave(scatter(X))" ; qsintmax:interval_operation = 1800.f ; qsintmax:interval_write = -1.f ; qsintmax:coordinates = "time_counter veget lat lon" ; float mrsos(time_counter, lat, lon) ; mrsos:units = "kg m-2" ; mrsos:standard_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:_FillValue = 9.96921e+36f ; mrsos:long_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:online_operation = "ave(scatter(X))" ; mrsos:interval_operation = 1800.f ; mrsos:interval_write = -1.f ; mrsos:coordinates = "time_counter lat lon" ; float mrso(time_counter, lat, lon) ; mrso:units = "kg m-2" ; mrso:standard_name = "Total Soil Moisture Content" ; mrso:_FillValue = 9.96921e+36f ; mrso:long_name = "Total Soil Moisture Content" ; mrso:online_operation = "ave(scatter(X))" ; mrso:interval_operation = 1800.f ; mrso:interval_write = -1.f ; mrso:coordinates = "time_counter lat lon" ; float mrros(time_counter, lat, lon) ; mrros:units = "kg m-2 s-1" ; mrros:standard_name = "Surface Runoff" ; mrros:_FillValue = 9.96921e+36f ; mrros:long_name = "Surface Runoff" ; mrros:online_operation = "ave(scatter(X))" ; mrros:interval_operation = 1800.f ; mrros:interval_write = -1.f ; mrros:coordinates = "time_counter lat lon" ; float mrro(time_counter, lat, lon) ; mrro:units = "kg m-2 s-1" ; mrro:standard_name = "Total Runoff" ; mrro:_FillValue = 9.96921e+36f ; mrro:long_name = "Total Runoff" ; mrro:online_operation = "ave(scatter(X))" ; mrro:interval_operation = 1800.f ; mrro:interval_write = -1.f ; mrro:coordinates = "time_counter lat lon" ; float prveg(time_counter, lat, lon) ; prveg:units = "kg m-2 s-1" ; prveg:standard_name = "Precipitation onto Canopy" ; prveg:_FillValue = 9.96921e+36f ; prveg:long_name = "Precipitation onto Canopy" ; prveg:online_operation = "ave(scatter(X))" ; prveg:interval_operation = 1800.f ; prveg:interval_write = -1.f ; prveg:coordinates = "time_counter lat lon" ; float evspsblveg(time_counter, lat, lon) ; evspsblveg:units = "kg m-2 s-1" ; evspsblveg:standard_name = "Evaporation from Canopy" ; evspsblveg:_FillValue = 9.96921e+36f ; evspsblveg:long_name = "Evaporation from Canopy" ; evspsblveg:online_operation = "ave(scatter(X))" ; evspsblveg:interval_operation = 1800.f ; evspsblveg:interval_write = -1.f ; evspsblveg:coordinates = "time_counter lat lon" ; float evspsblsoi(time_counter, lat, lon) ; evspsblsoi:units = "kg m-2 s-1" ; evspsblsoi:standard_name = "Water Evaporation from Soil" ; evspsblsoi:_FillValue = 9.96921e+36f ; evspsblsoi:long_name = "Water Evaporation from Soil" ; evspsblsoi:online_operation = "ave(scatter(X))" ; evspsblsoi:interval_operation = 1800.f ; evspsblsoi:interval_write = -1.f ; evspsblsoi:coordinates = "time_counter lat lon" ; float tran(time_counter, lat, lon) ; tran:units = "kg m-2 s-1" ; tran:standard_name = "Transpiration" ; tran:_FillValue = 9.96921e+36f ; tran:long_name = "Transpiration" ; tran:online_operation = "ave(scatter(X))" ; tran:interval_operation = 1800.f ; tran:interval_write = -1.f ; tran:coordinates = "time_counter lat lon" ; float treeFrac(time_counter, lat, lon) ; treeFrac:units = "%" ; treeFrac:standard_name = "Tree Cover Fraction" ; treeFrac:_FillValue = 9.96921e+36f ; treeFrac:long_name = "Tree Cover Fraction" ; treeFrac:online_operation = "ave(scatter(X))" ; treeFrac:interval_operation = 1800.f ; treeFrac:interval_write = -1.f ; treeFrac:coordinates = "time_counter lat lon" ; float grassFrac(time_counter, lat, lon) ; grassFrac:units = "%" ; grassFrac:standard_name = "Natural Grass Fraction" ; grassFrac:_FillValue = 9.96921e+36f ; grassFrac:long_name = "Natural Grass Fraction" ; grassFrac:online_operation = "ave(scatter(X))" ; grassFrac:interval_operation = 1800.f ; grassFrac:interval_write = -1.f ; grassFrac:coordinates = "time_counter lat lon" ; float cropFrac(time_counter, lat, lon) ; cropFrac:units = "%" ; cropFrac:standard_name = "Crop Fraction" ; cropFrac:_FillValue = 9.96921e+36f ; cropFrac:long_name = "Crop Fraction" ; cropFrac:online_operation = "ave(scatter(X))" ; cropFrac:interval_operation = 1800.f ; cropFrac:interval_write = -1.f ; cropFrac:coordinates = "time_counter lat lon" ; float baresoilFrac(time_counter, lat, lon) ; baresoilFrac:units = "%" ; baresoilFrac:standard_name = "Bare Soil Fraction" ; baresoilFrac:_FillValue = 9.96921e+36f ; baresoilFrac:long_name = "Bare Soil Fraction" ; baresoilFrac:online_operation = "ave(scatter(X))" ; baresoilFrac:interval_operation = 1800.f ; baresoilFrac:interval_write = -1.f ; baresoilFrac:coordinates = "time_counter lat lon" ; float residualFrac(time_counter, lat, lon) ; residualFrac:units = "%" ; residualFrac:standard_name = "Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil" ; residualFrac:_FillValue = 9.96921e+36f ; residualFrac:long_name = "Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil" ; residualFrac:online_operation = "ave(scatter(X))" ; residualFrac:interval_operation = 1800.f ; residualFrac:interval_write = -1.f ; residualFrac:coordinates = "time_counter lat lon" ; float LandPoints(lat, lon) ; LandPoints:units = "1" ; LandPoints:standard_name = "Land Points" ; LandPoints:_FillValue = 9.96921e+36f ; LandPoints:long_name = "Land Points" ; LandPoints:online_operation = "once(scatter(X))" ; LandPoints:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; float Contfrac(lat, lon) ; Contfrac:units = "1" ; Contfrac:standard_name = "Continental fraction" ; Contfrac:_FillValue = 9.96921e+36f ; Contfrac:long_name = "Continental fraction" ; Contfrac:online_operation = "once(scatter(X))" ; Contfrac:coordinates = "lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "sechiba_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmthCOSP.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmthCOSP { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; height = 40 ; height_mlev = 39 ; sza = 5 ; pressure2 = 7 ; column = 20 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float height(height) ; height:axis = "Z" ; height:standard_name = "model_level_number" ; height:units = "m" ; height:valid_min = 240.f ; height:valid_max = 18960.f ; height:title = "height" ; height:long_name = "height" ; float height_mlev(height_mlev) ; height_mlev:axis = "Z" ; height_mlev:standard_name = "model_level_number" ; height_mlev:units = "m" ; height_mlev:valid_min = 30.54139f ; height_mlev:valid_max = 76491.88f ; height_mlev:title = "height_mlev" ; height_mlev:long_name = "height_mlev" ; float sza(sza) ; sza:axis = "Z" ; sza:standard_name = "model_level_number" ; sza:units = "degrees" ; sza:valid_min = 0.f ; sza:valid_max = 80.f ; sza:title = "sza" ; sza:long_name = "solar_zenith_angle" ; float pressure2(pressure2) ; pressure2:axis = "Z" ; pressure2:standard_name = "model_level_number" ; pressure2:units = "mb" ; pressure2:valid_min = 9000.f ; pressure2:valid_max = 90000.f ; pressure2:title = "pressure2" ; pressure2:long_name = "pressure" ; float column(column) ; column:axis = "Z" ; column:standard_name = "model_level_number" ; column:units = "count" ; column:valid_min = 1.f ; column:valid_max = 20.f ; column:title = "column" ; column:long_name = "column" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float cllcalipso(time_counter, lat, lon) ; cllcalipso:units = "1" ; cllcalipso:standard_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:_FillValue = 9.96921e+36f ; cllcalipso:long_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:online_operation = "ave(X)" ; cllcalipso:interval_operation = 10800.f ; cllcalipso:interval_write = 2678400.f ; cllcalipso:coordinates = "time_counter lat lon" ; float clhcalipso(time_counter, lat, lon) ; clhcalipso:units = "1" ; clhcalipso:standard_name = "Lidar High-level Cloud Fraction" ; clhcalipso:_FillValue = 9.96921e+36f ; clhcalipso:long_name = "Lidar High-level Cloud Fraction" ; clhcalipso:online_operation = "ave(X)" ; clhcalipso:interval_operation = 10800.f ; clhcalipso:interval_write = 2678400.f ; clhcalipso:coordinates = "time_counter lat lon" ; float clmcalipso(time_counter, lat, lon) ; clmcalipso:units = "1" ; clmcalipso:standard_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:_FillValue = 9.96921e+36f ; clmcalipso:long_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:online_operation = "ave(X)" ; clmcalipso:interval_operation = 10800.f ; clmcalipso:interval_write = 2678400.f ; clmcalipso:coordinates = "time_counter lat lon" ; float cltcalipso(time_counter, lat, lon) ; cltcalipso:units = "1" ; cltcalipso:standard_name = "Lidar Total Cloud Fraction" ; cltcalipso:_FillValue = 9.96921e+36f ; cltcalipso:long_name = "Lidar Total Cloud Fraction" ; cltcalipso:online_operation = "ave(X)" ; cltcalipso:interval_operation = 10800.f ; cltcalipso:interval_write = 2678400.f ; cltcalipso:coordinates = "time_counter lat lon" ; float clcalipso(time_counter, height, lat, lon) ; clcalipso:units = "1" ; clcalipso:standard_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:_FillValue = 9.96921e+36f ; clcalipso:long_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:online_operation = "ave(X)" ; clcalipso:interval_operation = 10800.f ; clcalipso:interval_write = 2678400.f ; clcalipso:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c01(time_counter, height, lat, lon) ; cfad_lidarsr532_c01:units = "1" ; cfad_lidarsr532_c01:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c01:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:online_operation = "ave(X)" ; cfad_lidarsr532_c01:interval_operation = 10800.f ; cfad_lidarsr532_c01:interval_write = 2678400.f ; cfad_lidarsr532_c01:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c02(time_counter, height, lat, lon) ; cfad_lidarsr532_c02:units = "1" ; cfad_lidarsr532_c02:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c02:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:online_operation = "ave(X)" ; cfad_lidarsr532_c02:interval_operation = 10800.f ; cfad_lidarsr532_c02:interval_write = 2678400.f ; cfad_lidarsr532_c02:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c03(time_counter, height, lat, lon) ; cfad_lidarsr532_c03:units = "1" ; cfad_lidarsr532_c03:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c03:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:online_operation = "ave(X)" ; cfad_lidarsr532_c03:interval_operation = 10800.f ; cfad_lidarsr532_c03:interval_write = 2678400.f ; cfad_lidarsr532_c03:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c04(time_counter, height, lat, lon) ; cfad_lidarsr532_c04:units = "1" ; cfad_lidarsr532_c04:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c04:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:online_operation = "ave(X)" ; cfad_lidarsr532_c04:interval_operation = 10800.f ; cfad_lidarsr532_c04:interval_write = 2678400.f ; cfad_lidarsr532_c04:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c05(time_counter, height, lat, lon) ; cfad_lidarsr532_c05:units = "1" ; cfad_lidarsr532_c05:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c05:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:online_operation = "ave(X)" ; cfad_lidarsr532_c05:interval_operation = 10800.f ; cfad_lidarsr532_c05:interval_write = 2678400.f ; cfad_lidarsr532_c05:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c06(time_counter, height, lat, lon) ; cfad_lidarsr532_c06:units = "1" ; cfad_lidarsr532_c06:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c06:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:online_operation = "ave(X)" ; cfad_lidarsr532_c06:interval_operation = 10800.f ; cfad_lidarsr532_c06:interval_write = 2678400.f ; cfad_lidarsr532_c06:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c07(time_counter, height, lat, lon) ; cfad_lidarsr532_c07:units = "1" ; cfad_lidarsr532_c07:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c07:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:online_operation = "ave(X)" ; cfad_lidarsr532_c07:interval_operation = 10800.f ; cfad_lidarsr532_c07:interval_write = 2678400.f ; cfad_lidarsr532_c07:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c08(time_counter, height, lat, lon) ; cfad_lidarsr532_c08:units = "1" ; cfad_lidarsr532_c08:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c08:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:online_operation = "ave(X)" ; cfad_lidarsr532_c08:interval_operation = 10800.f ; cfad_lidarsr532_c08:interval_write = 2678400.f ; cfad_lidarsr532_c08:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c09(time_counter, height, lat, lon) ; cfad_lidarsr532_c09:units = "1" ; cfad_lidarsr532_c09:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c09:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:online_operation = "ave(X)" ; cfad_lidarsr532_c09:interval_operation = 10800.f ; cfad_lidarsr532_c09:interval_write = 2678400.f ; cfad_lidarsr532_c09:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c10(time_counter, height, lat, lon) ; cfad_lidarsr532_c10:units = "1" ; cfad_lidarsr532_c10:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c10:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:online_operation = "ave(X)" ; cfad_lidarsr532_c10:interval_operation = 10800.f ; cfad_lidarsr532_c10:interval_write = 2678400.f ; cfad_lidarsr532_c10:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c11(time_counter, height, lat, lon) ; cfad_lidarsr532_c11:units = "1" ; cfad_lidarsr532_c11:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c11:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:online_operation = "ave(X)" ; cfad_lidarsr532_c11:interval_operation = 10800.f ; cfad_lidarsr532_c11:interval_write = 2678400.f ; cfad_lidarsr532_c11:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c12(time_counter, height, lat, lon) ; cfad_lidarsr532_c12:units = "1" ; cfad_lidarsr532_c12:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c12:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:online_operation = "ave(X)" ; cfad_lidarsr532_c12:interval_operation = 10800.f ; cfad_lidarsr532_c12:interval_write = 2678400.f ; cfad_lidarsr532_c12:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c13(time_counter, height, lat, lon) ; cfad_lidarsr532_c13:units = "1" ; cfad_lidarsr532_c13:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c13:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:online_operation = "ave(X)" ; cfad_lidarsr532_c13:interval_operation = 10800.f ; cfad_lidarsr532_c13:interval_write = 2678400.f ; cfad_lidarsr532_c13:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c14(time_counter, height, lat, lon) ; cfad_lidarsr532_c14:units = "1" ; cfad_lidarsr532_c14:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c14:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:online_operation = "ave(X)" ; cfad_lidarsr532_c14:interval_operation = 10800.f ; cfad_lidarsr532_c14:interval_write = 2678400.f ; cfad_lidarsr532_c14:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c15(time_counter, height, lat, lon) ; cfad_lidarsr532_c15:units = "1" ; cfad_lidarsr532_c15:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c15:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:online_operation = "ave(X)" ; cfad_lidarsr532_c15:interval_operation = 10800.f ; cfad_lidarsr532_c15:interval_write = 2678400.f ; cfad_lidarsr532_c15:coordinates = "time_counter height lat lon" ; float parasol_refl(time_counter, sza, lat, lon) ; parasol_refl:units = "1" ; parasol_refl:standard_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:_FillValue = 9.96921e+36f ; parasol_refl:long_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:online_operation = "ave(X)" ; parasol_refl:interval_operation = 10800.f ; parasol_refl:interval_write = 2678400.f ; parasol_refl:coordinates = "time_counter sza lat lon" ; float atb532_c01(time_counter, height_mlev, lat, lon) ; atb532_c01:units = "1" ; atb532_c01:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:_FillValue = 9.96921e+36f ; atb532_c01:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:online_operation = "ave(X)" ; atb532_c01:interval_operation = 10800.f ; atb532_c01:interval_write = 2678400.f ; atb532_c01:coordinates = "time_counter height_mlev lat lon" ; float atb532_c02(time_counter, height_mlev, lat, lon) ; atb532_c02:units = "1" ; atb532_c02:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:_FillValue = 9.96921e+36f ; atb532_c02:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:online_operation = "ave(X)" ; atb532_c02:interval_operation = 10800.f ; atb532_c02:interval_write = 2678400.f ; atb532_c02:coordinates = "time_counter height_mlev lat lon" ; float atb532_c03(time_counter, height_mlev, lat, lon) ; atb532_c03:units = "1" ; atb532_c03:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:_FillValue = 9.96921e+36f ; atb532_c03:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:online_operation = "ave(X)" ; atb532_c03:interval_operation = 10800.f ; atb532_c03:interval_write = 2678400.f ; atb532_c03:coordinates = "time_counter height_mlev lat lon" ; float atb532_c04(time_counter, height_mlev, lat, lon) ; atb532_c04:units = "1" ; atb532_c04:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:_FillValue = 9.96921e+36f ; atb532_c04:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:online_operation = "ave(X)" ; atb532_c04:interval_operation = 10800.f ; atb532_c04:interval_write = 2678400.f ; atb532_c04:coordinates = "time_counter height_mlev lat lon" ; float atb532_c05(time_counter, height_mlev, lat, lon) ; atb532_c05:units = "1" ; atb532_c05:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:_FillValue = 9.96921e+36f ; atb532_c05:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:online_operation = "ave(X)" ; atb532_c05:interval_operation = 10800.f ; atb532_c05:interval_write = 2678400.f ; atb532_c05:coordinates = "time_counter height_mlev lat lon" ; float atb532_c06(time_counter, height_mlev, lat, lon) ; atb532_c06:units = "1" ; atb532_c06:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:_FillValue = 9.96921e+36f ; atb532_c06:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:online_operation = "ave(X)" ; atb532_c06:interval_operation = 10800.f ; atb532_c06:interval_write = 2678400.f ; atb532_c06:coordinates = "time_counter height_mlev lat lon" ; float atb532_c07(time_counter, height_mlev, lat, lon) ; atb532_c07:units = "1" ; atb532_c07:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:_FillValue = 9.96921e+36f ; atb532_c07:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:online_operation = "ave(X)" ; atb532_c07:interval_operation = 10800.f ; atb532_c07:interval_write = 2678400.f ; atb532_c07:coordinates = "time_counter height_mlev lat lon" ; float atb532_c08(time_counter, height_mlev, lat, lon) ; atb532_c08:units = "1" ; atb532_c08:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:_FillValue = 9.96921e+36f ; atb532_c08:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:online_operation = "ave(X)" ; atb532_c08:interval_operation = 10800.f ; atb532_c08:interval_write = 2678400.f ; atb532_c08:coordinates = "time_counter height_mlev lat lon" ; float atb532_c09(time_counter, height_mlev, lat, lon) ; atb532_c09:units = "1" ; atb532_c09:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:_FillValue = 9.96921e+36f ; atb532_c09:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:online_operation = "ave(X)" ; atb532_c09:interval_operation = 10800.f ; atb532_c09:interval_write = 2678400.f ; atb532_c09:coordinates = "time_counter height_mlev lat lon" ; float atb532_c10(time_counter, height_mlev, lat, lon) ; atb532_c10:units = "1" ; atb532_c10:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:_FillValue = 9.96921e+36f ; atb532_c10:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:online_operation = "ave(X)" ; atb532_c10:interval_operation = 10800.f ; atb532_c10:interval_write = 2678400.f ; atb532_c10:coordinates = "time_counter height_mlev lat lon" ; float atb532_c11(time_counter, height_mlev, lat, lon) ; atb532_c11:units = "1" ; atb532_c11:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:_FillValue = 9.96921e+36f ; atb532_c11:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:online_operation = "ave(X)" ; atb532_c11:interval_operation = 10800.f ; atb532_c11:interval_write = 2678400.f ; atb532_c11:coordinates = "time_counter height_mlev lat lon" ; float atb532_c12(time_counter, height_mlev, lat, lon) ; atb532_c12:units = "1" ; atb532_c12:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:_FillValue = 9.96921e+36f ; atb532_c12:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:online_operation = "ave(X)" ; atb532_c12:interval_operation = 10800.f ; atb532_c12:interval_write = 2678400.f ; atb532_c12:coordinates = "time_counter height_mlev lat lon" ; float atb532_c13(time_counter, height_mlev, lat, lon) ; atb532_c13:units = "1" ; atb532_c13:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:_FillValue = 9.96921e+36f ; atb532_c13:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:online_operation = "ave(X)" ; atb532_c13:interval_operation = 10800.f ; atb532_c13:interval_write = 2678400.f ; atb532_c13:coordinates = "time_counter height_mlev lat lon" ; float atb532_c14(time_counter, height_mlev, lat, lon) ; atb532_c14:units = "1" ; atb532_c14:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:_FillValue = 9.96921e+36f ; atb532_c14:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:online_operation = "ave(X)" ; atb532_c14:interval_operation = 10800.f ; atb532_c14:interval_write = 2678400.f ; atb532_c14:coordinates = "time_counter height_mlev lat lon" ; float atb532_c15(time_counter, height_mlev, lat, lon) ; atb532_c15:units = "1" ; atb532_c15:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:_FillValue = 9.96921e+36f ; atb532_c15:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:online_operation = "ave(X)" ; atb532_c15:interval_operation = 10800.f ; atb532_c15:interval_write = 2678400.f ; atb532_c15:coordinates = "time_counter height_mlev lat lon" ; float atb532_c16(time_counter, height_mlev, lat, lon) ; atb532_c16:units = "1" ; atb532_c16:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:_FillValue = 9.96921e+36f ; atb532_c16:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:online_operation = "ave(X)" ; atb532_c16:interval_operation = 10800.f ; atb532_c16:interval_write = 2678400.f ; atb532_c16:coordinates = "time_counter height_mlev lat lon" ; float atb532_c17(time_counter, height_mlev, lat, lon) ; atb532_c17:units = "1" ; atb532_c17:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:_FillValue = 9.96921e+36f ; atb532_c17:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:online_operation = "ave(X)" ; atb532_c17:interval_operation = 10800.f ; atb532_c17:interval_write = 2678400.f ; atb532_c17:coordinates = "time_counter height_mlev lat lon" ; float atb532_c18(time_counter, height_mlev, lat, lon) ; atb532_c18:units = "1" ; atb532_c18:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:_FillValue = 9.96921e+36f ; atb532_c18:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:online_operation = "ave(X)" ; atb532_c18:interval_operation = 10800.f ; atb532_c18:interval_write = 2678400.f ; atb532_c18:coordinates = "time_counter height_mlev lat lon" ; float atb532_c19(time_counter, height_mlev, lat, lon) ; atb532_c19:units = "1" ; atb532_c19:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:_FillValue = 9.96921e+36f ; atb532_c19:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:online_operation = "ave(X)" ; atb532_c19:interval_operation = 10800.f ; atb532_c19:interval_write = 2678400.f ; atb532_c19:coordinates = "time_counter height_mlev lat lon" ; float atb532_c20(time_counter, height_mlev, lat, lon) ; atb532_c20:units = "1" ; atb532_c20:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:_FillValue = 9.96921e+36f ; atb532_c20:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:online_operation = "ave(X)" ; atb532_c20:interval_operation = 10800.f ; atb532_c20:interval_write = 2678400.f ; atb532_c20:coordinates = "time_counter height_mlev lat lon" ; float beta_mol532(time_counter, height_mlev, lat, lon) ; beta_mol532:units = "m-1 sr-1" ; beta_mol532:standard_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:_FillValue = 9.96921e+36f ; beta_mol532:long_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:online_operation = "ave(X)" ; beta_mol532:interval_operation = 10800.f ; beta_mol532:interval_write = 2678400.f ; beta_mol532:coordinates = "time_counter height_mlev lat lon" ; float clisccp2_c01(time_counter, pressure2, lat, lon) ; clisccp2_c01:units = "1" ; clisccp2_c01:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:_FillValue = 9.96921e+36f ; clisccp2_c01:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:online_operation = "ave(X)" ; clisccp2_c01:interval_operation = 10800.f ; clisccp2_c01:interval_write = 2678400.f ; clisccp2_c01:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c02(time_counter, pressure2, lat, lon) ; clisccp2_c02:units = "1" ; clisccp2_c02:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:_FillValue = 9.96921e+36f ; clisccp2_c02:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:online_operation = "ave(X)" ; clisccp2_c02:interval_operation = 10800.f ; clisccp2_c02:interval_write = 2678400.f ; clisccp2_c02:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c03(time_counter, pressure2, lat, lon) ; clisccp2_c03:units = "1" ; clisccp2_c03:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:_FillValue = 9.96921e+36f ; clisccp2_c03:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:online_operation = "ave(X)" ; clisccp2_c03:interval_operation = 10800.f ; clisccp2_c03:interval_write = 2678400.f ; clisccp2_c03:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c04(time_counter, pressure2, lat, lon) ; clisccp2_c04:units = "1" ; clisccp2_c04:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:_FillValue = 9.96921e+36f ; clisccp2_c04:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:online_operation = "ave(X)" ; clisccp2_c04:interval_operation = 10800.f ; clisccp2_c04:interval_write = 2678400.f ; clisccp2_c04:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c05(time_counter, pressure2, lat, lon) ; clisccp2_c05:units = "1" ; clisccp2_c05:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:_FillValue = 9.96921e+36f ; clisccp2_c05:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:online_operation = "ave(X)" ; clisccp2_c05:interval_operation = 10800.f ; clisccp2_c05:interval_write = 2678400.f ; clisccp2_c05:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c06(time_counter, pressure2, lat, lon) ; clisccp2_c06:units = "1" ; clisccp2_c06:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:_FillValue = 9.96921e+36f ; clisccp2_c06:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:online_operation = "ave(X)" ; clisccp2_c06:interval_operation = 10800.f ; clisccp2_c06:interval_write = 2678400.f ; clisccp2_c06:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c07(time_counter, pressure2, lat, lon) ; clisccp2_c07:units = "1" ; clisccp2_c07:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:_FillValue = 9.96921e+36f ; clisccp2_c07:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:online_operation = "ave(X)" ; clisccp2_c07:interval_operation = 10800.f ; clisccp2_c07:interval_write = 2678400.f ; clisccp2_c07:coordinates = "time_counter pressure2 lat lon" ; float boxtauisccp(time_counter, column, lat, lon) ; boxtauisccp:units = "1" ; boxtauisccp:standard_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:_FillValue = 9.96921e+36f ; boxtauisccp:long_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:online_operation = "ave(X)" ; boxtauisccp:interval_operation = 10800.f ; boxtauisccp:interval_write = 2678400.f ; boxtauisccp:coordinates = "time_counter column lat lon" ; float boxptopisccp(time_counter, column, lat, lon) ; boxptopisccp:units = "Pa" ; boxptopisccp:standard_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:_FillValue = 9.96921e+36f ; boxptopisccp:long_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:online_operation = "ave(X)" ; boxptopisccp:interval_operation = 10800.f ; boxptopisccp:interval_write = 2678400.f ; boxptopisccp:coordinates = "time_counter column lat lon" ; float tclisccp(time_counter, lat, lon) ; tclisccp:units = "1" ; tclisccp:standard_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:_FillValue = 9.96921e+36f ; tclisccp:long_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:online_operation = "ave(X)" ; tclisccp:interval_operation = 10800.f ; tclisccp:interval_write = 2678400.f ; tclisccp:coordinates = "time_counter lat lon" ; float ctpisccp(time_counter, lat, lon) ; ctpisccp:units = "Pa" ; ctpisccp:standard_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:_FillValue = 9.96921e+36f ; ctpisccp:long_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:online_operation = "ave(X)" ; ctpisccp:interval_operation = 10800.f ; ctpisccp:interval_write = 2678400.f ; ctpisccp:coordinates = "time_counter lat lon" ; float tauisccp(time_counter, lat, lon) ; tauisccp:units = "1" ; tauisccp:standard_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:_FillValue = 9.96921e+36f ; tauisccp:long_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:online_operation = "ave(X)" ; tauisccp:interval_operation = 10800.f ; tauisccp:interval_write = 2678400.f ; tauisccp:coordinates = "time_counter lat lon" ; float albisccp(time_counter, lat, lon) ; albisccp:units = "1" ; albisccp:standard_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:_FillValue = 9.96921e+36f ; albisccp:long_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:online_operation = "ave(X)" ; albisccp:interval_operation = 10800.f ; albisccp:interval_write = 2678400.f ; albisccp:coordinates = "time_counter lat lon" ; float meantbisccp(time_counter, lat, lon) ; meantbisccp:units = "K" ; meantbisccp:standard_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:_FillValue = 9.96921e+36f ; meantbisccp:long_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:online_operation = "ave(X)" ; meantbisccp:interval_operation = 10800.f ; meantbisccp:interval_write = 2678400.f ; meantbisccp:coordinates = "time_counter lat lon" ; float meantbclrisccp(time_counter, lat, lon) ; meantbclrisccp:units = "K" ; meantbclrisccp:standard_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:_FillValue = 9.96921e+36f ; meantbclrisccp:long_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:online_operation = "ave(X)" ; meantbclrisccp:interval_operation = 10800.f ; meantbclrisccp:interval_write = 2678400.f ; meantbclrisccp:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmthCOSP.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmth.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmth { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; double t_inst_02678400(time_counter) ; t_inst_02678400:standard_name = "time" ; t_inst_02678400:units = "seconds since 1850-01-01 00:00:00" ; t_inst_02678400:calendar = "noleap" ; t_inst_02678400:title = "Time" ; t_inst_02678400:long_name = "Time axis" ; t_inst_02678400:time_origin = " 1850-JAN-01 00:00:00" ; float phis(time_counter, lat, lon) ; phis:units = "m2/s2" ; phis:standard_name = "Surface geop.height" ; phis:_FillValue = 9.96921e+36f ; phis:long_name = "Surface geop.height" ; phis:online_operation = "ave(X)" ; phis:interval_operation = 1800.f ; phis:interval_write = 2678400.f ; phis:coordinates = "time_counter lat lon" ; float aire(lat, lon) ; aire:units = "-" ; aire:standard_name = "Grid area" ; aire:_FillValue = 9.96921e+36f ; aire:long_name = "Grid area" ; aire:online_operation = "once" ; aire:coordinates = "lat lon" ; float flat(time_counter, lat, lon) ; flat:units = "W/m2" ; flat:standard_name = "Latent heat flux" ; flat:_FillValue = 9.96921e+36f ; flat:long_name = "Latent heat flux" ; flat:online_operation = "ave(X)" ; flat:interval_operation = 1800.f ; flat:interval_write = 2678400.f ; flat:coordinates = "time_counter lat lon" ; float slp(time_counter, lat, lon) ; slp:units = "Pa" ; slp:standard_name = "Sea Level Pressure" ; slp:_FillValue = 9.96921e+36f ; slp:long_name = "Sea Level Pressure" ; slp:online_operation = "ave(X)" ; slp:interval_operation = 1800.f ; slp:interval_write = 2678400.f ; slp:coordinates = "time_counter lat lon" ; float tsol(time_counter, lat, lon) ; tsol:units = "K" ; tsol:standard_name = "Surface Temperature" ; tsol:_FillValue = 9.96921e+36f ; tsol:long_name = "Surface Temperature" ; tsol:online_operation = "ave(X)" ; tsol:interval_operation = 1800.f ; tsol:interval_write = 2678400.f ; tsol:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "Temperature 2m" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "Temperature 2m" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = 2678400.f ; t2m:coordinates = "time_counter lat lon" ; float t2m_min(time_counter, lat, lon) ; t2m_min:units = "K" ; t2m_min:standard_name = "Temp 2m min" ; t2m_min:_FillValue = 9.96921e+36f ; t2m_min:long_name = "Temp 2m min" ; t2m_min:online_operation = "t_min(X)" ; t2m_min:interval_operation = 1800.f ; t2m_min:interval_write = 2678400.f ; t2m_min:coordinates = "time_counter lat lon" ; float t2m_max(time_counter, lat, lon) ; t2m_max:units = "K" ; t2m_max:standard_name = "Temp 2m max" ; t2m_max:_FillValue = 9.96921e+36f ; t2m_max:long_name = "Temp 2m max" ; t2m_max:online_operation = "t_max(X)" ; t2m_max:interval_operation = 1800.f ; t2m_max:interval_write = 2678400.f ; t2m_max:coordinates = "time_counter lat lon" ; float wind10m(time_counter, lat, lon) ; wind10m:units = "m/s" ; wind10m:standard_name = "10-m wind speed" ; wind10m:_FillValue = 9.96921e+36f ; wind10m:long_name = "10-m wind speed" ; wind10m:online_operation = "ave(X)" ; wind10m:interval_operation = 1800.f ; wind10m:interval_write = 2678400.f ; wind10m:coordinates = "time_counter lat lon" ; float sicf(time_counter, lat, lon) ; sicf:units = "-" ; sicf:standard_name = "Sea-ice fraction" ; sicf:_FillValue = 9.96921e+36f ; sicf:long_name = "Sea-ice fraction" ; sicf:online_operation = "ave(X)" ; sicf:interval_operation = 1800.f ; sicf:interval_write = 2678400.f ; sicf:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "kg/kg" ; q2m:standard_name = "Specific humidity 2m" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "Specific humidity 2m" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = 2678400.f ; q2m:coordinates = "time_counter lat lon" ; float u10m(time_counter, lat, lon) ; u10m:units = "m/s" ; u10m:standard_name = "Vent zonal 10m" ; u10m:_FillValue = 9.96921e+36f ; u10m:long_name = "Vent zonal 10m" ; u10m:online_operation = "ave(X)" ; u10m:interval_operation = 1800.f ; u10m:interval_write = 2678400.f ; u10m:coordinates = "time_counter lat lon" ; float v10m(time_counter, lat, lon) ; v10m:units = "m/s" ; v10m:standard_name = "Vent meridien 10m" ; v10m:_FillValue = 9.96921e+36f ; v10m:long_name = "Vent meridien 10m" ; v10m:online_operation = "ave(X)" ; v10m:interval_operation = 1800.f ; v10m:interval_write = 2678400.f ; v10m:coordinates = "time_counter lat lon" ; float psol(time_counter, lat, lon) ; psol:units = "Pa" ; psol:standard_name = "Surface Pressure" ; psol:_FillValue = 9.96921e+36f ; psol:long_name = "Surface Pressure" ; psol:online_operation = "ave(X)" ; psol:interval_operation = 1800.f ; psol:interval_write = 2678400.f ; psol:coordinates = "time_counter lat lon" ; float qsurf(time_counter, lat, lon) ; qsurf:units = "kg/kg" ; qsurf:standard_name = "Surface Air humidity" ; qsurf:_FillValue = 9.96921e+36f ; qsurf:long_name = "Surface Air humidity" ; qsurf:online_operation = "ave(X)" ; qsurf:interval_operation = 1800.f ; qsurf:interval_write = 2678400.f ; qsurf:coordinates = "time_counter lat lon" ; float ndayrain(time_counter, lat, lon) ; ndayrain:units = "-" ; ndayrain:standard_name = "Number of dayrain(liq+sol)" ; ndayrain:_FillValue = 9.96921e+36f ; ndayrain:long_name = "Number of dayrain(liq+sol)" ; ndayrain:online_operation = "ave(X)" ; ndayrain:interval_operation = 1800.f ; ndayrain:interval_write = 2678400.f ; ndayrain:coordinates = "time_counter lat lon" ; float precip(time_counter, lat, lon) ; precip:units = "kg/(s*m2)" ; precip:standard_name = "Precip Totale liq+sol" ; precip:_FillValue = 9.96921e+36f ; precip:long_name = "Precip Totale liq+sol" ; precip:online_operation = "ave(X)" ; precip:interval_operation = 1800.f ; precip:interval_write = 2678400.f ; precip:coordinates = "time_counter lat lon" ; float plul(time_counter, lat, lon) ; plul:units = "kg/(s*m2)" ; plul:standard_name = "Large-scale Precip." ; plul:_FillValue = 9.96921e+36f ; plul:long_name = "Large-scale Precip." ; plul:online_operation = "ave(X)" ; plul:interval_operation = 1800.f ; plul:interval_write = 2678400.f ; plul:coordinates = "time_counter lat lon" ; float pluc(time_counter, lat, lon) ; pluc:units = "kg/(s*m2)" ; pluc:standard_name = "Convective Precip." ; pluc:_FillValue = 9.96921e+36f ; pluc:long_name = "Convective Precip." ; pluc:online_operation = "ave(X)" ; pluc:interval_operation = 1800.f ; pluc:interval_write = 2678400.f ; pluc:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/(s*m2)" ; snow:standard_name = "Snow fall" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow fall" ; snow:online_operation = "ave(X)" ; snow:interval_operation = 1800.f ; snow:interval_write = 2678400.f ; snow:coordinates = "time_counter lat lon" ; float msnow(time_counter, lat, lon) ; msnow:units = "kg/m2" ; msnow:standard_name = "Surface snow amount" ; msnow:_FillValue = 9.96921e+36f ; msnow:long_name = "Surface snow amount" ; msnow:online_operation = "ave(X)" ; msnow:interval_operation = 1800.f ; msnow:interval_write = 2678400.f ; msnow:coordinates = "time_counter lat lon" ; float fsnow(time_counter, lat, lon) ; fsnow:units = "-" ; fsnow:standard_name = "Surface snow area fraction" ; fsnow:_FillValue = 9.96921e+36f ; fsnow:long_name = "Surface snow area fraction" ; fsnow:online_operation = "ave(X)" ; fsnow:interval_operation = 1800.f ; fsnow:interval_write = 2678400.f ; fsnow:coordinates = "time_counter lat lon" ; float evap(time_counter, lat, lon) ; evap:units = "kg/(s*m2)" ; evap:standard_name = "Evaporat" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "Evaporat" ; evap:online_operation = "ave(X)" ; evap:interval_operation = 1800.f ; evap:interval_write = 2678400.f ; evap:coordinates = "time_counter lat lon" ; float tops(time_counter, lat, lon) ; tops:units = "W/m2" ; tops:standard_name = "Solar rad. at TOA" ; tops:_FillValue = 9.96921e+36f ; tops:long_name = "Solar rad. at TOA" ; tops:online_operation = "ave(X)" ; tops:interval_operation = 1800.f ; tops:interval_write = 2678400.f ; tops:coordinates = "time_counter lat lon" ; float tops0(time_counter, lat, lon) ; tops0:units = "W/m2" ; tops0:standard_name = "CS Solar rad. at TOA" ; tops0:_FillValue = 9.96921e+36f ; tops0:long_name = "CS Solar rad. at TOA" ; tops0:online_operation = "ave(X)" ; tops0:interval_operation = 1800.f ; tops0:interval_write = 2678400.f ; tops0:coordinates = "time_counter lat lon" ; float topl(time_counter, lat, lon) ; topl:units = "W/m2" ; topl:standard_name = "IR rad. at TOA" ; topl:_FillValue = 9.96921e+36f ; topl:long_name = "IR rad. at TOA" ; topl:online_operation = "ave(X)" ; topl:interval_operation = 1800.f ; topl:interval_write = 2678400.f ; topl:coordinates = "time_counter lat lon" ; float topl0(time_counter, lat, lon) ; topl0:units = "W/m2" ; topl0:standard_name = "IR rad. at TOA" ; topl0:_FillValue = 9.96921e+36f ; topl0:long_name = "IR rad. at TOA" ; topl0:online_operation = "ave(X)" ; topl0:interval_operation = 1800.f ; topl0:interval_write = 2678400.f ; topl0:coordinates = "time_counter lat lon" ; float SWupTOA(time_counter, lat, lon) ; SWupTOA:units = "W/m2" ; SWupTOA:standard_name = "SWup at TOA" ; SWupTOA:_FillValue = 9.96921e+36f ; SWupTOA:long_name = "SWup at TOA" ; SWupTOA:online_operation = "ave(X)" ; SWupTOA:interval_operation = 1800.f ; SWupTOA:interval_write = 2678400.f ; SWupTOA:coordinates = "time_counter lat lon" ; float SWupTOAclr(time_counter, lat, lon) ; SWupTOAclr:units = "W/m2" ; SWupTOAclr:standard_name = "SWup clear sky at TOA" ; SWupTOAclr:_FillValue = 9.96921e+36f ; SWupTOAclr:long_name = "SWup clear sky at TOA" ; SWupTOAclr:online_operation = "ave(X)" ; SWupTOAclr:interval_operation = 1800.f ; SWupTOAclr:interval_write = 2678400.f ; SWupTOAclr:coordinates = "time_counter lat lon" ; float SWdnTOA(time_counter, lat, lon) ; SWdnTOA:units = "W/m2" ; SWdnTOA:standard_name = "SWdn at TOA" ; SWdnTOA:_FillValue = 9.96921e+36f ; SWdnTOA:long_name = "SWdn at TOA" ; SWdnTOA:online_operation = "ave(X)" ; SWdnTOA:interval_operation = 1800.f ; SWdnTOA:interval_write = 2678400.f ; SWdnTOA:coordinates = "time_counter lat lon" ; float SWdnTOAclr(time_counter, lat, lon) ; SWdnTOAclr:units = "W/m2" ; SWdnTOAclr:standard_name = "SWdn clear sky at TOA" ; SWdnTOAclr:_FillValue = 9.96921e+36f ; SWdnTOAclr:long_name = "SWdn clear sky at TOA" ; SWdnTOAclr:online_operation = "ave(X)" ; SWdnTOAclr:interval_operation = 1800.f ; SWdnTOAclr:interval_write = 2678400.f ; SWdnTOAclr:coordinates = "time_counter lat lon" ; float nettop(time_counter, lat, lon) ; nettop:units = "W/m2" ; nettop:standard_name = "Net dn radiatif flux at TOA" ; nettop:_FillValue = 9.96921e+36f ; nettop:long_name = "Net dn radiatif flux at TOA" ; nettop:online_operation = "ave(X)" ; nettop:interval_operation = 1800.f ; nettop:interval_write = 2678400.f ; nettop:coordinates = "time_counter lat lon" ; float SWup200(time_counter, lat, lon) ; SWup200:units = "W/m2" ; SWup200:standard_name = "SWup at 200mb" ; SWup200:_FillValue = 9.96921e+36f ; SWup200:long_name = "SWup at 200mb" ; SWup200:online_operation = "ave(X)" ; SWup200:interval_operation = 1800.f ; SWup200:interval_write = 2678400.f ; SWup200:coordinates = "time_counter lat lon" ; float SWdn200(time_counter, lat, lon) ; SWdn200:units = "W/m2" ; SWdn200:standard_name = "SWdn at 200mb" ; SWdn200:_FillValue = 9.96921e+36f ; SWdn200:long_name = "SWdn at 200mb" ; SWdn200:online_operation = "ave(X)" ; SWdn200:interval_operation = 1800.f ; SWdn200:interval_write = 2678400.f ; SWdn200:coordinates = "time_counter lat lon" ; float LWup200(time_counter, lat, lon) ; LWup200:units = "W/m2" ; LWup200:standard_name = "LWup at 200mb" ; LWup200:_FillValue = 9.96921e+36f ; LWup200:long_name = "LWup at 200mb" ; LWup200:online_operation = "ave(X)" ; LWup200:interval_operation = 1800.f ; LWup200:interval_write = 2678400.f ; LWup200:coordinates = "time_counter lat lon" ; float LWup200clr(time_counter, lat, lon) ; LWup200clr:units = "W/m2" ; LWup200clr:standard_name = "LWup clear sky at 200mb" ; LWup200clr:_FillValue = 9.96921e+36f ; LWup200clr:long_name = "LWup clear sky at 200mb" ; LWup200clr:online_operation = "ave(X)" ; LWup200clr:interval_operation = 1800.f ; LWup200clr:interval_write = 2678400.f ; LWup200clr:coordinates = "time_counter lat lon" ; float LWdn200(time_counter, lat, lon) ; LWdn200:units = "W/m2" ; LWdn200:standard_name = "LWdn at 200mb" ; LWdn200:_FillValue = 9.96921e+36f ; LWdn200:long_name = "LWdn at 200mb" ; LWdn200:online_operation = "ave(X)" ; LWdn200:interval_operation = 1800.f ; LWdn200:interval_write = 2678400.f ; LWdn200:coordinates = "time_counter lat lon" ; float LWdn200clr(time_counter, lat, lon) ; LWdn200clr:units = "W/m2" ; LWdn200clr:standard_name = "LWdn clear sky at 200mb" ; LWdn200clr:_FillValue = 9.96921e+36f ; LWdn200clr:long_name = "LWdn clear sky at 200mb" ; LWdn200clr:online_operation = "ave(X)" ; LWdn200clr:interval_operation = 1800.f ; LWdn200clr:interval_write = 2678400.f ; LWdn200clr:coordinates = "time_counter lat lon" ; float sols(time_counter, lat, lon) ; sols:units = "W/m2" ; sols:standard_name = "Solar rad. at surf." ; sols:_FillValue = 9.96921e+36f ; sols:long_name = "Solar rad. at surf." ; sols:online_operation = "ave(X)" ; sols:interval_operation = 1800.f ; sols:interval_write = 2678400.f ; sols:coordinates = "time_counter lat lon" ; float sols0(time_counter, lat, lon) ; sols0:units = "W/m2" ; sols0:standard_name = "Solar rad. at surf." ; sols0:_FillValue = 9.96921e+36f ; sols0:long_name = "Solar rad. at surf." ; sols0:online_operation = "ave(X)" ; sols0:interval_operation = 1800.f ; sols0:interval_write = 2678400.f ; sols0:coordinates = "time_counter lat lon" ; float soll(time_counter, lat, lon) ; soll:units = "W/m2" ; soll:standard_name = "IR rad. at surface" ; soll:_FillValue = 9.96921e+36f ; soll:long_name = "IR rad. at surface" ; soll:online_operation = "ave(X)" ; soll:interval_operation = 1800.f ; soll:interval_write = 2678400.f ; soll:coordinates = "time_counter lat lon" ; float radsol(time_counter, lat, lon) ; radsol:units = "W/m2" ; radsol:standard_name = "Rayonnement au sol" ; radsol:_FillValue = 9.96921e+36f ; radsol:long_name = "Rayonnement au sol" ; radsol:online_operation = "ave(X)" ; radsol:interval_operation = 1800.f ; radsol:interval_write = 2678400.f ; radsol:coordinates = "time_counter lat lon" ; float soll0(time_counter, lat, lon) ; soll0:units = "W/m2" ; soll0:standard_name = "IR rad. at surface" ; soll0:_FillValue = 9.96921e+36f ; soll0:long_name = "IR rad. at surface" ; soll0:online_operation = "ave(X)" ; soll0:interval_operation = 1800.f ; soll0:interval_write = 2678400.f ; soll0:coordinates = "time_counter lat lon" ; float SWupSFC(time_counter, lat, lon) ; SWupSFC:units = "W/m2" ; SWupSFC:standard_name = "SWup at surface" ; SWupSFC:_FillValue = 9.96921e+36f ; SWupSFC:long_name = "SWup at surface" ; SWupSFC:online_operation = "ave(X)" ; SWupSFC:interval_operation = 1800.f ; SWupSFC:interval_write = 2678400.f ; SWupSFC:coordinates = "time_counter lat lon" ; float SWupSFCclr(time_counter, lat, lon) ; SWupSFCclr:units = "W/m2" ; SWupSFCclr:standard_name = "SWup clear sky at surface" ; SWupSFCclr:_FillValue = 9.96921e+36f ; SWupSFCclr:long_name = "SWup clear sky at surface" ; SWupSFCclr:online_operation = "ave(X)" ; SWupSFCclr:interval_operation = 1800.f ; SWupSFCclr:interval_write = 2678400.f ; SWupSFCclr:coordinates = "time_counter lat lon" ; float SWdnSFC(time_counter, lat, lon) ; SWdnSFC:units = "W/m2" ; SWdnSFC:standard_name = "SWdn at surface" ; SWdnSFC:_FillValue = 9.96921e+36f ; SWdnSFC:long_name = "SWdn at surface" ; SWdnSFC:online_operation = "ave(X)" ; SWdnSFC:interval_operation = 1800.f ; SWdnSFC:interval_write = 2678400.f ; SWdnSFC:coordinates = "time_counter lat lon" ; float SWdnSFCclr(time_counter, lat, lon) ; SWdnSFCclr:units = "W/m2" ; SWdnSFCclr:standard_name = "SWdn clear sky at surface" ; SWdnSFCclr:_FillValue = 9.96921e+36f ; SWdnSFCclr:long_name = "SWdn clear sky at surface" ; SWdnSFCclr:online_operation = "ave(X)" ; SWdnSFCclr:interval_operation = 1800.f ; SWdnSFCclr:interval_write = 2678400.f ; SWdnSFCclr:coordinates = "time_counter lat lon" ; float LWupSFC(time_counter, lat, lon) ; LWupSFC:units = "W/m2" ; LWupSFC:standard_name = "Upwd. IR rad. at surface" ; LWupSFC:_FillValue = 9.96921e+36f ; LWupSFC:long_name = "Upwd. IR rad. at surface" ; LWupSFC:online_operation = "ave(X)" ; LWupSFC:interval_operation = 1800.f ; LWupSFC:interval_write = 2678400.f ; LWupSFC:coordinates = "time_counter lat lon" ; float LWdnSFC(time_counter, lat, lon) ; LWdnSFC:units = "W/m2" ; LWdnSFC:standard_name = "Down. IR rad. at surface" ; LWdnSFC:_FillValue = 9.96921e+36f ; LWdnSFC:long_name = "Down. IR rad. at surface" ; LWdnSFC:online_operation = "ave(X)" ; LWdnSFC:interval_operation = 1800.f ; LWdnSFC:interval_write = 2678400.f ; LWdnSFC:coordinates = "time_counter lat lon" ; float LWupSFCclr(time_counter, lat, lon) ; LWupSFCclr:units = "W/m2" ; LWupSFCclr:standard_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:_FillValue = 9.96921e+36f ; LWupSFCclr:long_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:online_operation = "ave(X)" ; LWupSFCclr:interval_operation = 1800.f ; LWupSFCclr:interval_write = 2678400.f ; LWupSFCclr:coordinates = "time_counter lat lon" ; float LWdnSFCclr(time_counter, lat, lon) ; LWdnSFCclr:units = "W/m2" ; LWdnSFCclr:standard_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:_FillValue = 9.96921e+36f ; LWdnSFCclr:long_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:online_operation = "ave(X)" ; LWdnSFCclr:interval_operation = 1800.f ; LWdnSFCclr:interval_write = 2678400.f ; LWdnSFCclr:coordinates = "time_counter lat lon" ; float bils(time_counter, lat, lon) ; bils:units = "W/m2" ; bils:standard_name = "Surf. total heat flux" ; bils:_FillValue = 9.96921e+36f ; bils:long_name = "Surf. total heat flux" ; bils:online_operation = "ave(X)" ; bils:interval_operation = 1800.f ; bils:interval_write = 2678400.f ; bils:coordinates = "time_counter lat lon" ; float sens(time_counter, lat, lon) ; sens:units = "W/m2" ; sens:standard_name = "Sensible heat flux" ; sens:_FillValue = 9.96921e+36f ; sens:long_name = "Sensible heat flux" ; sens:online_operation = "ave(X)" ; sens:interval_operation = 1800.f ; sens:interval_write = 2678400.f ; sens:coordinates = "time_counter lat lon" ; float fder(time_counter, lat, lon) ; fder:units = "W/m2" ; fder:standard_name = "Heat flux derivation" ; fder:_FillValue = 9.96921e+36f ; fder:long_name = "Heat flux derivation" ; fder:online_operation = "ave(X)" ; fder:interval_operation = 1800.f ; fder:interval_write = 2678400.f ; fder:coordinates = "time_counter lat lon" ; float ffonte(time_counter, lat, lon) ; ffonte:units = "W/m2" ; ffonte:standard_name = "Thermal flux for snow melting" ; ffonte:_FillValue = 9.96921e+36f ; ffonte:long_name = "Thermal flux for snow melting" ; ffonte:online_operation = "ave(X)" ; ffonte:interval_operation = 1800.f ; ffonte:interval_write = 2678400.f ; ffonte:coordinates = "time_counter lat lon" ; float fqcalving(time_counter, lat, lon) ; fqcalving:units = "kg/m2/s" ; fqcalving:standard_name = "Ice Calving" ; fqcalving:_FillValue = 9.96921e+36f ; fqcalving:long_name = "Ice Calving" ; fqcalving:online_operation = "ave(X)" ; fqcalving:interval_operation = 1800.f ; fqcalving:interval_write = 2678400.f ; fqcalving:coordinates = "time_counter lat lon" ; float fqfonte(time_counter, lat, lon) ; fqfonte:units = "kg/m2/s" ; fqfonte:standard_name = "Land ice melt" ; fqfonte:_FillValue = 9.96921e+36f ; fqfonte:long_name = "Land ice melt" ; fqfonte:online_operation = "ave(X)" ; fqfonte:interval_operation = 1800.f ; fqfonte:interval_write = 2678400.f ; fqfonte:coordinates = "time_counter lat lon" ; float taux(time_counter, lat, lon) ; taux:units = "Pa" ; taux:standard_name = "Zonal wind stress" ; taux:_FillValue = 9.96921e+36f ; taux:long_name = "Zonal wind stress" ; taux:online_operation = "ave(X)" ; taux:interval_operation = 1800.f ; taux:interval_write = 2678400.f ; taux:coordinates = "time_counter lat lon" ; float tauy(time_counter, lat, lon) ; tauy:units = "Pa" ; tauy:standard_name = "Meridional wind stress" ; tauy:_FillValue = 9.96921e+36f ; tauy:long_name = "Meridional wind stress" ; tauy:online_operation = "ave(X)" ; tauy:interval_operation = 1800.f ; tauy:interval_write = 2678400.f ; tauy:coordinates = "time_counter lat lon" ; float pourc_ter(time_counter, lat, lon) ; pourc_ter:units = "%" ; pourc_ter:standard_name = "% ter" ; pourc_ter:_FillValue = 9.96921e+36f ; pourc_ter:long_name = "% ter" ; pourc_ter:online_operation = "ave(X)" ; pourc_ter:interval_operation = 1800.f ; pourc_ter:interval_write = 2678400.f ; pourc_ter:coordinates = "time_counter lat lon" ; float fract_ter(time_counter, lat, lon) ; fract_ter:units = "1" ; fract_ter:standard_name = "Fraction ter" ; fract_ter:_FillValue = 9.96921e+36f ; fract_ter:long_name = "Fraction ter" ; fract_ter:online_operation = "ave(X)" ; fract_ter:interval_operation = 1800.f ; fract_ter:interval_write = 2678400.f ; fract_ter:coordinates = "time_counter lat lon" ; float taux_ter(time_counter, lat, lon) ; taux_ter:units = "Pa" ; taux_ter:standard_name = "Zonal wind stresster" ; taux_ter:_FillValue = 9.96921e+36f ; taux_ter:long_name = "Zonal wind stresster" ; taux_ter:online_operation = "ave(X)" ; taux_ter:interval_operation = 1800.f ; taux_ter:interval_write = 2678400.f ; taux_ter:coordinates = "time_counter lat lon" ; float tauy_ter(time_counter, lat, lon) ; tauy_ter:units = "Pa" ; tauy_ter:standard_name = "Meridional wind stress ter" ; tauy_ter:_FillValue = 9.96921e+36f ; tauy_ter:long_name = "Meridional wind stress ter" ; tauy_ter:online_operation = "ave(X)" ; tauy_ter:interval_operation = 1800.f ; tauy_ter:interval_write = 2678400.f ; tauy_ter:coordinates = "time_counter lat lon" ; float tsol_ter(time_counter, lat, lon) ; tsol_ter:units = "K" ; tsol_ter:standard_name = "Temperature ter" ; tsol_ter:_FillValue = 9.96921e+36f ; tsol_ter:long_name = "Temperature ter" ; tsol_ter:online_operation = "ave(X)" ; tsol_ter:interval_operation = 1800.f ; tsol_ter:interval_write = 2678400.f ; tsol_ter:coordinates = "time_counter lat lon" ; float evap_ter(time_counter, lat, lon) ; evap_ter:units = "kg/(s*m2)" ; evap_ter:standard_name = "evaporation at surface ter" ; evap_ter:_FillValue = 9.96921e+36f ; evap_ter:long_name = "evaporation at surface ter" ; evap_ter:online_operation = "ave(X)" ; evap_ter:interval_operation = 1800.f ; evap_ter:interval_write = 2678400.f ; evap_ter:coordinates = "time_counter lat lon" ; float sens_ter(time_counter, lat, lon) ; sens_ter:units = "W/m2" ; sens_ter:standard_name = "Sensible heat flux ter" ; sens_ter:_FillValue = 9.96921e+36f ; sens_ter:long_name = "Sensible heat flux ter" ; sens_ter:online_operation = "ave(X)" ; sens_ter:interval_operation = 1800.f ; sens_ter:interval_write = 2678400.f ; sens_ter:coordinates = "time_counter lat lon" ; float lat_ter(time_counter, lat, lon) ; lat_ter:units = "W/m2" ; lat_ter:standard_name = "Latent heat flux ter" ; lat_ter:_FillValue = 9.96921e+36f ; lat_ter:long_name = "Latent heat flux ter" ; lat_ter:online_operation = "ave(X)" ; lat_ter:interval_operation = 1800.f ; lat_ter:interval_write = 2678400.f ; lat_ter:coordinates = "time_counter lat lon" ; float flw_ter(time_counter, lat, lon) ; flw_ter:units = "W/m2" ; flw_ter:standard_name = "LW ter" ; flw_ter:_FillValue = 9.96921e+36f ; flw_ter:long_name = "LW ter" ; flw_ter:online_operation = "ave(X)" ; flw_ter:interval_operation = 1800.f ; flw_ter:interval_write = 2678400.f ; flw_ter:coordinates = "time_counter lat lon" ; float fsw_ter(time_counter, lat, lon) ; fsw_ter:units = "W/m2" ; fsw_ter:standard_name = "SW ter" ; fsw_ter:_FillValue = 9.96921e+36f ; fsw_ter:long_name = "SW ter" ; fsw_ter:online_operation = "ave(X)" ; fsw_ter:interval_operation = 1800.f ; fsw_ter:interval_write = 2678400.f ; fsw_ter:coordinates = "time_counter lat lon" ; float wbils_ter(time_counter, lat, lon) ; wbils_ter:units = "W/m2" ; wbils_ter:standard_name = "Bilan sol ter" ; wbils_ter:_FillValue = 9.96921e+36f ; wbils_ter:long_name = "Bilan sol ter" ; wbils_ter:online_operation = "ave(X)" ; wbils_ter:interval_operation = 1800.f ; wbils_ter:interval_write = 2678400.f ; wbils_ter:coordinates = "time_counter lat lon" ; float wbilo_ter(time_counter, lat, lon) ; wbilo_ter:units = "kg/(m2*s)" ; wbilo_ter:standard_name = "Bilan eau ter" ; wbilo_ter:_FillValue = 9.96921e+36f ; wbilo_ter:long_name = "Bilan eau ter" ; wbilo_ter:online_operation = "ave(X)" ; wbilo_ter:interval_operation = 1800.f ; wbilo_ter:interval_write = 2678400.f ; wbilo_ter:coordinates = "time_counter lat lon" ; float albe_ter(time_counter, lat, lon) ; albe_ter:units = "-" ; albe_ter:standard_name = "Albedo VIS surf. ter" ; albe_ter:_FillValue = 9.96921e+36f ; albe_ter:long_name = "Albedo VIS surf. ter" ; albe_ter:online_operation = "ave(X)" ; albe_ter:interval_operation = 1800.f ; albe_ter:interval_write = 2678400.f ; albe_ter:coordinates = "time_counter lat lon" ; float rugs_ter(time_counter, lat, lon) ; rugs_ter:units = "m" ; rugs_ter:standard_name = "Surface roughness ter" ; rugs_ter:_FillValue = 9.96921e+36f ; rugs_ter:long_name = "Surface roughness ter" ; rugs_ter:online_operation = "ave(X)" ; rugs_ter:interval_operation = 1800.f ; rugs_ter:interval_write = 2678400.f ; rugs_ter:coordinates = "time_counter lat lon" ; float pourc_lic(time_counter, lat, lon) ; pourc_lic:units = "%" ; pourc_lic:standard_name = "% lic" ; pourc_lic:_FillValue = 9.96921e+36f ; pourc_lic:long_name = "% lic" ; pourc_lic:online_operation = "ave(X)" ; pourc_lic:interval_operation = 1800.f ; pourc_lic:interval_write = 2678400.f ; pourc_lic:coordinates = "time_counter lat lon" ; float fract_lic(time_counter, lat, lon) ; fract_lic:units = "1" ; fract_lic:standard_name = "Fraction lic" ; fract_lic:_FillValue = 9.96921e+36f ; fract_lic:long_name = "Fraction lic" ; fract_lic:online_operation = "ave(X)" ; fract_lic:interval_operation = 1800.f ; fract_lic:interval_write = 2678400.f ; fract_lic:coordinates = "time_counter lat lon" ; float taux_lic(time_counter, lat, lon) ; taux_lic:units = "Pa" ; taux_lic:standard_name = "Zonal wind stresslic" ; taux_lic:_FillValue = 9.96921e+36f ; taux_lic:long_name = "Zonal wind stresslic" ; taux_lic:online_operation = "ave(X)" ; taux_lic:interval_operation = 1800.f ; taux_lic:interval_write = 2678400.f ; taux_lic:coordinates = "time_counter lat lon" ; float tauy_lic(time_counter, lat, lon) ; tauy_lic:units = "Pa" ; tauy_lic:standard_name = "Meridional wind stress lic" ; tauy_lic:_FillValue = 9.96921e+36f ; tauy_lic:long_name = "Meridional wind stress lic" ; tauy_lic:online_operation = "ave(X)" ; tauy_lic:interval_operation = 1800.f ; tauy_lic:interval_write = 2678400.f ; tauy_lic:coordinates = "time_counter lat lon" ; float tsol_lic(time_counter, lat, lon) ; tsol_lic:units = "K" ; tsol_lic:standard_name = "Temperature lic" ; tsol_lic:_FillValue = 9.96921e+36f ; tsol_lic:long_name = "Temperature lic" ; tsol_lic:online_operation = "ave(X)" ; tsol_lic:interval_operation = 1800.f ; tsol_lic:interval_write = 2678400.f ; tsol_lic:coordinates = "time_counter lat lon" ; float evap_lic(time_counter, lat, lon) ; evap_lic:units = "kg/(s*m2)" ; evap_lic:standard_name = "evaporation at surface lic" ; evap_lic:_FillValue = 9.96921e+36f ; evap_lic:long_name = "evaporation at surface lic" ; evap_lic:online_operation = "ave(X)" ; evap_lic:interval_operation = 1800.f ; evap_lic:interval_write = 2678400.f ; evap_lic:coordinates = "time_counter lat lon" ; float sens_lic(time_counter, lat, lon) ; sens_lic:units = "W/m2" ; sens_lic:standard_name = "Sensible heat flux lic" ; sens_lic:_FillValue = 9.96921e+36f ; sens_lic:long_name = "Sensible heat flux lic" ; sens_lic:online_operation = "ave(X)" ; sens_lic:interval_operation = 1800.f ; sens_lic:interval_write = 2678400.f ; sens_lic:coordinates = "time_counter lat lon" ; float lat_lic(time_counter, lat, lon) ; lat_lic:units = "W/m2" ; lat_lic:standard_name = "Latent heat flux lic" ; lat_lic:_FillValue = 9.96921e+36f ; lat_lic:long_name = "Latent heat flux lic" ; lat_lic:online_operation = "ave(X)" ; lat_lic:interval_operation = 1800.f ; lat_lic:interval_write = 2678400.f ; lat_lic:coordinates = "time_counter lat lon" ; float flw_lic(time_counter, lat, lon) ; flw_lic:units = "W/m2" ; flw_lic:standard_name = "LW lic" ; flw_lic:_FillValue = 9.96921e+36f ; flw_lic:long_name = "LW lic" ; flw_lic:online_operation = "ave(X)" ; flw_lic:interval_operation = 1800.f ; flw_lic:interval_write = 2678400.f ; flw_lic:coordinates = "time_counter lat lon" ; float fsw_lic(time_counter, lat, lon) ; fsw_lic:units = "W/m2" ; fsw_lic:standard_name = "SW lic" ; fsw_lic:_FillValue = 9.96921e+36f ; fsw_lic:long_name = "SW lic" ; fsw_lic:online_operation = "ave(X)" ; fsw_lic:interval_operation = 1800.f ; fsw_lic:interval_write = 2678400.f ; fsw_lic:coordinates = "time_counter lat lon" ; float wbils_lic(time_counter, lat, lon) ; wbils_lic:units = "W/m2" ; wbils_lic:standard_name = "Bilan sol lic" ; wbils_lic:_FillValue = 9.96921e+36f ; wbils_lic:long_name = "Bilan sol lic" ; wbils_lic:online_operation = "ave(X)" ; wbils_lic:interval_operation = 1800.f ; wbils_lic:interval_write = 2678400.f ; wbils_lic:coordinates = "time_counter lat lon" ; float wbilo_lic(time_counter, lat, lon) ; wbilo_lic:units = "kg/(m2*s)" ; wbilo_lic:standard_name = "Bilan eau lic" ; wbilo_lic:_FillValue = 9.96921e+36f ; wbilo_lic:long_name = "Bilan eau lic" ; wbilo_lic:online_operation = "ave(X)" ; wbilo_lic:interval_operation = 1800.f ; wbilo_lic:interval_write = 2678400.f ; wbilo_lic:coordinates = "time_counter lat lon" ; float albe_lic(time_counter, lat, lon) ; albe_lic:units = "-" ; albe_lic:standard_name = "Albedo VIS surf. lic" ; albe_lic:_FillValue = 9.96921e+36f ; albe_lic:long_name = "Albedo VIS surf. lic" ; albe_lic:online_operation = "ave(X)" ; albe_lic:interval_operation = 1800.f ; albe_lic:interval_write = 2678400.f ; albe_lic:coordinates = "time_counter lat lon" ; float rugs_lic(time_counter, lat, lon) ; rugs_lic:units = "m" ; rugs_lic:standard_name = "Surface roughness lic" ; rugs_lic:_FillValue = 9.96921e+36f ; rugs_lic:long_name = "Surface roughness lic" ; rugs_lic:online_operation = "ave(X)" ; rugs_lic:interval_operation = 1800.f ; rugs_lic:interval_write = 2678400.f ; rugs_lic:coordinates = "time_counter lat lon" ; float ages_lic(time_counter, lat, lon) ; ages_lic:units = "day" ; ages_lic:standard_name = "Snow age" ; ages_lic:_FillValue = 9.96921e+36f ; ages_lic:long_name = "Snow age" ; ages_lic:online_operation = "ave(X)" ; ages_lic:interval_operation = 1800.f ; ages_lic:interval_write = 2678400.f ; ages_lic:coordinates = "time_counter lat lon" ; float pourc_oce(time_counter, lat, lon) ; pourc_oce:units = "%" ; pourc_oce:standard_name = "% oce" ; pourc_oce:_FillValue = 9.96921e+36f ; pourc_oce:long_name = "% oce" ; pourc_oce:online_operation = "ave(X)" ; pourc_oce:interval_operation = 1800.f ; pourc_oce:interval_write = 2678400.f ; pourc_oce:coordinates = "time_counter lat lon" ; float fract_oce(time_counter, lat, lon) ; fract_oce:units = "1" ; fract_oce:standard_name = "Fraction oce" ; fract_oce:_FillValue = 9.96921e+36f ; fract_oce:long_name = "Fraction oce" ; fract_oce:online_operation = "ave(X)" ; fract_oce:interval_operation = 1800.f ; fract_oce:interval_write = 2678400.f ; fract_oce:coordinates = "time_counter lat lon" ; float taux_oce(time_counter, lat, lon) ; taux_oce:units = "Pa" ; taux_oce:standard_name = "Zonal wind stressoce" ; taux_oce:_FillValue = 9.96921e+36f ; taux_oce:long_name = "Zonal wind stressoce" ; taux_oce:online_operation = "ave(X)" ; taux_oce:interval_operation = 1800.f ; taux_oce:interval_write = 2678400.f ; taux_oce:coordinates = "time_counter lat lon" ; float tauy_oce(time_counter, lat, lon) ; tauy_oce:units = "Pa" ; tauy_oce:standard_name = "Meridional wind stress oce" ; tauy_oce:_FillValue = 9.96921e+36f ; tauy_oce:long_name = "Meridional wind stress oce" ; tauy_oce:online_operation = "ave(X)" ; tauy_oce:interval_operation = 1800.f ; tauy_oce:interval_write = 2678400.f ; tauy_oce:coordinates = "time_counter lat lon" ; float tsol_oce(time_counter, lat, lon) ; tsol_oce:units = "K" ; tsol_oce:standard_name = "Temperature oce" ; tsol_oce:_FillValue = 9.96921e+36f ; tsol_oce:long_name = "Temperature oce" ; tsol_oce:online_operation = "ave(X)" ; tsol_oce:interval_operation = 1800.f ; tsol_oce:interval_write = 2678400.f ; tsol_oce:coordinates = "time_counter lat lon" ; float evap_oce(time_counter, lat, lon) ; evap_oce:units = "kg/(s*m2)" ; evap_oce:standard_name = "evaporation at surface oce" ; evap_oce:_FillValue = 9.96921e+36f ; evap_oce:long_name = "evaporation at surface oce" ; evap_oce:online_operation = "ave(X)" ; evap_oce:interval_operation = 1800.f ; evap_oce:interval_write = 2678400.f ; evap_oce:coordinates = "time_counter lat lon" ; float sens_oce(time_counter, lat, lon) ; sens_oce:units = "W/m2" ; sens_oce:standard_name = "Sensible heat flux oce" ; sens_oce:_FillValue = 9.96921e+36f ; sens_oce:long_name = "Sensible heat flux oce" ; sens_oce:online_operation = "ave(X)" ; sens_oce:interval_operation = 1800.f ; sens_oce:interval_write = 2678400.f ; sens_oce:coordinates = "time_counter lat lon" ; float lat_oce(time_counter, lat, lon) ; lat_oce:units = "W/m2" ; lat_oce:standard_name = "Latent heat flux oce" ; lat_oce:_FillValue = 9.96921e+36f ; lat_oce:long_name = "Latent heat flux oce" ; lat_oce:online_operation = "ave(X)" ; lat_oce:interval_operation = 1800.f ; lat_oce:interval_write = 2678400.f ; lat_oce:coordinates = "time_counter lat lon" ; float flw_oce(time_counter, lat, lon) ; flw_oce:units = "W/m2" ; flw_oce:standard_name = "LW oce" ; flw_oce:_FillValue = 9.96921e+36f ; flw_oce:long_name = "LW oce" ; flw_oce:online_operation = "ave(X)" ; flw_oce:interval_operation = 1800.f ; flw_oce:interval_write = 2678400.f ; flw_oce:coordinates = "time_counter lat lon" ; float fsw_oce(time_counter, lat, lon) ; fsw_oce:units = "W/m2" ; fsw_oce:standard_name = "SW oce" ; fsw_oce:_FillValue = 9.96921e+36f ; fsw_oce:long_name = "SW oce" ; fsw_oce:online_operation = "ave(X)" ; fsw_oce:interval_operation = 1800.f ; fsw_oce:interval_write = 2678400.f ; fsw_oce:coordinates = "time_counter lat lon" ; float wbils_oce(time_counter, lat, lon) ; wbils_oce:units = "W/m2" ; wbils_oce:standard_name = "Bilan sol oce" ; wbils_oce:_FillValue = 9.96921e+36f ; wbils_oce:long_name = "Bilan sol oce" ; wbils_oce:online_operation = "ave(X)" ; wbils_oce:interval_operation = 1800.f ; wbils_oce:interval_write = 2678400.f ; wbils_oce:coordinates = "time_counter lat lon" ; float wbilo_oce(time_counter, lat, lon) ; wbilo_oce:units = "kg/(m2*s)" ; wbilo_oce:standard_name = "Bilan eau oce" ; wbilo_oce:_FillValue = 9.96921e+36f ; wbilo_oce:long_name = "Bilan eau oce" ; wbilo_oce:online_operation = "ave(X)" ; wbilo_oce:interval_operation = 1800.f ; wbilo_oce:interval_write = 2678400.f ; wbilo_oce:coordinates = "time_counter lat lon" ; float albe_oce(time_counter, lat, lon) ; albe_oce:units = "-" ; albe_oce:standard_name = "Albedo VIS surf. oce" ; albe_oce:_FillValue = 9.96921e+36f ; albe_oce:long_name = "Albedo VIS surf. oce" ; albe_oce:online_operation = "ave(X)" ; albe_oce:interval_operation = 1800.f ; albe_oce:interval_write = 2678400.f ; albe_oce:coordinates = "time_counter lat lon" ; float rugs_oce(time_counter, lat, lon) ; rugs_oce:units = "m" ; rugs_oce:standard_name = "Surface roughness oce" ; rugs_oce:_FillValue = 9.96921e+36f ; rugs_oce:long_name = "Surface roughness oce" ; rugs_oce:online_operation = "ave(X)" ; rugs_oce:interval_operation = 1800.f ; rugs_oce:interval_write = 2678400.f ; rugs_oce:coordinates = "time_counter lat lon" ; float pourc_sic(time_counter, lat, lon) ; pourc_sic:units = "%" ; pourc_sic:standard_name = "% sic" ; pourc_sic:_FillValue = 9.96921e+36f ; pourc_sic:long_name = "% sic" ; pourc_sic:online_operation = "ave(X)" ; pourc_sic:interval_operation = 1800.f ; pourc_sic:interval_write = 2678400.f ; pourc_sic:coordinates = "time_counter lat lon" ; float fract_sic(time_counter, lat, lon) ; fract_sic:units = "1" ; fract_sic:standard_name = "Fraction sic" ; fract_sic:_FillValue = 9.96921e+36f ; fract_sic:long_name = "Fraction sic" ; fract_sic:online_operation = "ave(X)" ; fract_sic:interval_operation = 1800.f ; fract_sic:interval_write = 2678400.f ; fract_sic:coordinates = "time_counter lat lon" ; float taux_sic(time_counter, lat, lon) ; taux_sic:units = "Pa" ; taux_sic:standard_name = "Zonal wind stresssic" ; taux_sic:_FillValue = 9.96921e+36f ; taux_sic:long_name = "Zonal wind stresssic" ; taux_sic:online_operation = "ave(X)" ; taux_sic:interval_operation = 1800.f ; taux_sic:interval_write = 2678400.f ; taux_sic:coordinates = "time_counter lat lon" ; float tauy_sic(time_counter, lat, lon) ; tauy_sic:units = "Pa" ; tauy_sic:standard_name = "Meridional wind stress sic" ; tauy_sic:_FillValue = 9.96921e+36f ; tauy_sic:long_name = "Meridional wind stress sic" ; tauy_sic:online_operation = "ave(X)" ; tauy_sic:interval_operation = 1800.f ; tauy_sic:interval_write = 2678400.f ; tauy_sic:coordinates = "time_counter lat lon" ; float tsol_sic(time_counter, lat, lon) ; tsol_sic:units = "K" ; tsol_sic:standard_name = "Temperature sic" ; tsol_sic:_FillValue = 9.96921e+36f ; tsol_sic:long_name = "Temperature sic" ; tsol_sic:online_operation = "ave(X)" ; tsol_sic:interval_operation = 1800.f ; tsol_sic:interval_write = 2678400.f ; tsol_sic:coordinates = "time_counter lat lon" ; float evap_sic(time_counter, lat, lon) ; evap_sic:units = "kg/(s*m2)" ; evap_sic:standard_name = "evaporation at surface sic" ; evap_sic:_FillValue = 9.96921e+36f ; evap_sic:long_name = "evaporation at surface sic" ; evap_sic:online_operation = "ave(X)" ; evap_sic:interval_operation = 1800.f ; evap_sic:interval_write = 2678400.f ; evap_sic:coordinates = "time_counter lat lon" ; float sens_sic(time_counter, lat, lon) ; sens_sic:units = "W/m2" ; sens_sic:standard_name = "Sensible heat flux sic" ; sens_sic:_FillValue = 9.96921e+36f ; sens_sic:long_name = "Sensible heat flux sic" ; sens_sic:online_operation = "ave(X)" ; sens_sic:interval_operation = 1800.f ; sens_sic:interval_write = 2678400.f ; sens_sic:coordinates = "time_counter lat lon" ; float lat_sic(time_counter, lat, lon) ; lat_sic:units = "W/m2" ; lat_sic:standard_name = "Latent heat flux sic" ; lat_sic:_FillValue = 9.96921e+36f ; lat_sic:long_name = "Latent heat flux sic" ; lat_sic:online_operation = "ave(X)" ; lat_sic:interval_operation = 1800.f ; lat_sic:interval_write = 2678400.f ; lat_sic:coordinates = "time_counter lat lon" ; float flw_sic(time_counter, lat, lon) ; flw_sic:units = "W/m2" ; flw_sic:standard_name = "LW sic" ; flw_sic:_FillValue = 9.96921e+36f ; flw_sic:long_name = "LW sic" ; flw_sic:online_operation = "ave(X)" ; flw_sic:interval_operation = 1800.f ; flw_sic:interval_write = 2678400.f ; flw_sic:coordinates = "time_counter lat lon" ; float fsw_sic(time_counter, lat, lon) ; fsw_sic:units = "W/m2" ; fsw_sic:standard_name = "SW sic" ; fsw_sic:_FillValue = 9.96921e+36f ; fsw_sic:long_name = "SW sic" ; fsw_sic:online_operation = "ave(X)" ; fsw_sic:interval_operation = 1800.f ; fsw_sic:interval_write = 2678400.f ; fsw_sic:coordinates = "time_counter lat lon" ; float wbils_sic(time_counter, lat, lon) ; wbils_sic:units = "W/m2" ; wbils_sic:standard_name = "Bilan sol sic" ; wbils_sic:_FillValue = 9.96921e+36f ; wbils_sic:long_name = "Bilan sol sic" ; wbils_sic:online_operation = "ave(X)" ; wbils_sic:interval_operation = 1800.f ; wbils_sic:interval_write = 2678400.f ; wbils_sic:coordinates = "time_counter lat lon" ; float wbilo_sic(time_counter, lat, lon) ; wbilo_sic:units = "kg/(m2*s)" ; wbilo_sic:standard_name = "Bilan eau sic" ; wbilo_sic:_FillValue = 9.96921e+36f ; wbilo_sic:long_name = "Bilan eau sic" ; wbilo_sic:online_operation = "ave(X)" ; wbilo_sic:interval_operation = 1800.f ; wbilo_sic:interval_write = 2678400.f ; wbilo_sic:coordinates = "time_counter lat lon" ; float albe_sic(time_counter, lat, lon) ; albe_sic:units = "-" ; albe_sic:standard_name = "Albedo VIS surf. sic" ; albe_sic:_FillValue = 9.96921e+36f ; albe_sic:long_name = "Albedo VIS surf. sic" ; albe_sic:online_operation = "ave(X)" ; albe_sic:interval_operation = 1800.f ; albe_sic:interval_write = 2678400.f ; albe_sic:coordinates = "time_counter lat lon" ; float rugs_sic(time_counter, lat, lon) ; rugs_sic:units = "m" ; rugs_sic:standard_name = "Surface roughness sic" ; rugs_sic:_FillValue = 9.96921e+36f ; rugs_sic:long_name = "Surface roughness sic" ; rugs_sic:online_operation = "ave(X)" ; rugs_sic:interval_operation = 1800.f ; rugs_sic:interval_write = 2678400.f ; rugs_sic:coordinates = "time_counter lat lon" ; float ages_sic(time_counter, lat, lon) ; ages_sic:units = "day" ; ages_sic:standard_name = "Snow age" ; ages_sic:_FillValue = 9.96921e+36f ; ages_sic:long_name = "Snow age" ; ages_sic:online_operation = "ave(X)" ; ages_sic:interval_operation = 1800.f ; ages_sic:interval_write = 2678400.f ; ages_sic:coordinates = "time_counter lat lon" ; float od550aer(time_counter, lat, lon) ; od550aer:units = "-" ; od550aer:standard_name = "Total aerosol optical depth at 550nm" ; od550aer:_FillValue = 9.96921e+36f ; od550aer:long_name = "Total aerosol optical depth at 550nm" ; od550aer:online_operation = "ave(X)" ; od550aer:interval_operation = 1800.f ; od550aer:interval_write = 2678400.f ; od550aer:coordinates = "time_counter lat lon" ; float od865aer(time_counter, lat, lon) ; od865aer:units = "-" ; od865aer:standard_name = "Total aerosol optical depth at 870nm" ; od865aer:_FillValue = 9.96921e+36f ; od865aer:long_name = "Total aerosol optical depth at 870nm" ; od865aer:online_operation = "ave(X)" ; od865aer:interval_operation = 1800.f ; od865aer:interval_write = 2678400.f ; od865aer:coordinates = "time_counter lat lon" ; float absvisaer(time_counter, lat, lon) ; absvisaer:units = "-" ; absvisaer:standard_name = "Absorption aerosol visible optical depth" ; absvisaer:_FillValue = 9.96921e+36f ; absvisaer:long_name = "Absorption aerosol visible optical depth" ; absvisaer:online_operation = "ave(X)" ; absvisaer:interval_operation = 1800.f ; absvisaer:interval_write = 2678400.f ; absvisaer:coordinates = "time_counter lat lon" ; float od550lt1aer(time_counter, lat, lon) ; od550lt1aer:units = "-" ; od550lt1aer:standard_name = "Fine mode optical depth" ; od550lt1aer:_FillValue = 9.96921e+36f ; od550lt1aer:long_name = "Fine mode optical depth" ; od550lt1aer:online_operation = "ave(X)" ; od550lt1aer:interval_operation = 1800.f ; od550lt1aer:interval_write = 2678400.f ; od550lt1aer:coordinates = "time_counter lat lon" ; float sconcso4(time_counter, lat, lon) ; sconcso4:units = "kg/m3" ; sconcso4:standard_name = "Surface Concentration of Sulfate" ; sconcso4:_FillValue = 9.96921e+36f ; sconcso4:long_name = "Surface Concentration of Sulfate" ; sconcso4:online_operation = "ave(X)" ; sconcso4:interval_operation = 1800.f ; sconcso4:interval_write = 2678400.f ; sconcso4:coordinates = "time_counter lat lon" ; float sconcoa(time_counter, lat, lon) ; sconcoa:units = "kg/m3" ; sconcoa:standard_name = "Surface Concentration of Organic Aerosol" ; sconcoa:_FillValue = 9.96921e+36f ; sconcoa:long_name = "Surface Concentration of Organic Aerosol" ; sconcoa:online_operation = "ave(X)" ; sconcoa:interval_operation = 1800.f ; sconcoa:interval_write = 2678400.f ; sconcoa:coordinates = "time_counter lat lon" ; float sconcbc(time_counter, lat, lon) ; sconcbc:units = "kg/m3" ; sconcbc:standard_name = "Surface Concentration of Black Carbon" ; sconcbc:_FillValue = 9.96921e+36f ; sconcbc:long_name = "Surface Concentration of Black Carbon" ; sconcbc:online_operation = "ave(X)" ; sconcbc:interval_operation = 1800.f ; sconcbc:interval_write = 2678400.f ; sconcbc:coordinates = "time_counter lat lon" ; float sconcss(time_counter, lat, lon) ; sconcss:units = "kg/m3" ; sconcss:standard_name = "Surface Concentration of Sea Salt" ; sconcss:_FillValue = 9.96921e+36f ; sconcss:long_name = "Surface Concentration of Sea Salt" ; sconcss:online_operation = "ave(X)" ; sconcss:interval_operation = 1800.f ; sconcss:interval_write = 2678400.f ; sconcss:coordinates = "time_counter lat lon" ; float sconcdust(time_counter, lat, lon) ; sconcdust:units = "kg/m3" ; sconcdust:standard_name = "Surface Concentration of Dust" ; sconcdust:_FillValue = 9.96921e+36f ; sconcdust:long_name = "Surface Concentration of Dust" ; sconcdust:online_operation = "ave(X)" ; sconcdust:interval_operation = 1800.f ; sconcdust:interval_write = 2678400.f ; sconcdust:coordinates = "time_counter lat lon" ; float concso4(time_counter, presnivs, lat, lon) ; concso4:units = "kg/m3" ; concso4:standard_name = "Concentration of Sulfate" ; concso4:_FillValue = 9.96921e+36f ; concso4:long_name = "Concentration of Sulfate" ; concso4:online_operation = "ave(X)" ; concso4:interval_operation = 1800.f ; concso4:interval_write = 2678400.f ; concso4:coordinates = "time_counter presnivs lat lon" ; float concoa(time_counter, presnivs, lat, lon) ; concoa:units = "kg/m3" ; concoa:standard_name = "Concentration of Organic Aerosol" ; concoa:_FillValue = 9.96921e+36f ; concoa:long_name = "Concentration of Organic Aerosol" ; concoa:online_operation = "ave(X)" ; concoa:interval_operation = 1800.f ; concoa:interval_write = 2678400.f ; concoa:coordinates = "time_counter presnivs lat lon" ; float concbc(time_counter, presnivs, lat, lon) ; concbc:units = "kg/m3" ; concbc:standard_name = "Concentration of Black Carbon" ; concbc:_FillValue = 9.96921e+36f ; concbc:long_name = "Concentration of Black Carbon" ; concbc:online_operation = "ave(X)" ; concbc:interval_operation = 1800.f ; concbc:interval_write = 2678400.f ; concbc:coordinates = "time_counter presnivs lat lon" ; float concss(time_counter, presnivs, lat, lon) ; concss:units = "kg/m3" ; concss:standard_name = "Concentration of Sea Salt" ; concss:_FillValue = 9.96921e+36f ; concss:long_name = "Concentration of Sea Salt" ; concss:online_operation = "ave(X)" ; concss:interval_operation = 1800.f ; concss:interval_write = 2678400.f ; concss:coordinates = "time_counter presnivs lat lon" ; float concdust(time_counter, presnivs, lat, lon) ; concdust:units = "kg/m3" ; concdust:standard_name = "Concentration of Dust" ; concdust:_FillValue = 9.96921e+36f ; concdust:long_name = "Concentration of Dust" ; concdust:online_operation = "ave(X)" ; concdust:interval_operation = 1800.f ; concdust:interval_write = 2678400.f ; concdust:coordinates = "time_counter presnivs lat lon" ; float loadso4(time_counter, lat, lon) ; loadso4:units = "kg/m2" ; loadso4:standard_name = "Column Load of Sulfate" ; loadso4:_FillValue = 9.96921e+36f ; loadso4:long_name = "Column Load of Sulfate" ; loadso4:online_operation = "ave(X)" ; loadso4:interval_operation = 1800.f ; loadso4:interval_write = 2678400.f ; loadso4:coordinates = "time_counter lat lon" ; float loadoa(time_counter, lat, lon) ; loadoa:units = "kg/m2" ; loadoa:standard_name = "Column Load of Organic Aerosol" ; loadoa:_FillValue = 9.96921e+36f ; loadoa:long_name = "Column Load of Organic Aerosol" ; loadoa:online_operation = "ave(X)" ; loadoa:interval_operation = 1800.f ; loadoa:interval_write = 2678400.f ; loadoa:coordinates = "time_counter lat lon" ; float loadbc(time_counter, lat, lon) ; loadbc:units = "kg/m2" ; loadbc:standard_name = "Column Load of Black Carbon" ; loadbc:_FillValue = 9.96921e+36f ; loadbc:long_name = "Column Load of Black Carbon" ; loadbc:online_operation = "ave(X)" ; loadbc:interval_operation = 1800.f ; loadbc:interval_write = 2678400.f ; loadbc:coordinates = "time_counter lat lon" ; float loadss(time_counter, lat, lon) ; loadss:units = "kg/m2" ; loadss:standard_name = "Column Load of Sea Salt" ; loadss:_FillValue = 9.96921e+36f ; loadss:long_name = "Column Load of Sea Salt" ; loadss:online_operation = "ave(X)" ; loadss:interval_operation = 1800.f ; loadss:interval_write = 2678400.f ; loadss:coordinates = "time_counter lat lon" ; float loaddust(time_counter, lat, lon) ; loaddust:units = "kg/m2" ; loaddust:standard_name = "Column Load of Dust" ; loaddust:_FillValue = 9.96921e+36f ; loaddust:long_name = "Column Load of Dust" ; loaddust:online_operation = "ave(X)" ; loaddust:interval_operation = 1800.f ; loaddust:interval_write = 2678400.f ; loaddust:coordinates = "time_counter lat lon" ; float OD550_ASBCM(time_counter, lat, lon) ; OD550_ASBCM:units = "1" ; OD550_ASBCM:standard_name = "Aerosol Optical depth at 550 nm ASBCM" ; OD550_ASBCM:_FillValue = 9.96921e+36f ; OD550_ASBCM:long_name = "Aerosol Optical depth at 550 nm ASBCM" ; OD550_ASBCM:online_operation = "ave(X)" ; OD550_ASBCM:interval_operation = 1800.f ; OD550_ASBCM:interval_write = 2678400.f ; OD550_ASBCM:coordinates = "time_counter lat lon" ; float OD550_ASPOMM(time_counter, lat, lon) ; OD550_ASPOMM:units = "1" ; OD550_ASPOMM:standard_name = "Aerosol Optical depth at 550 nm ASPOMM" ; OD550_ASPOMM:_FillValue = 9.96921e+36f ; OD550_ASPOMM:long_name = "Aerosol Optical depth at 550 nm ASPOMM" ; OD550_ASPOMM:online_operation = "ave(X)" ; OD550_ASPOMM:interval_operation = 1800.f ; OD550_ASPOMM:interval_write = 2678400.f ; OD550_ASPOMM:coordinates = "time_counter lat lon" ; float OD550_ASSO4M(time_counter, lat, lon) ; OD550_ASSO4M:units = "1" ; OD550_ASSO4M:standard_name = "Aerosol Optical depth at 550 nm SO4" ; OD550_ASSO4M:_FillValue = 9.96921e+36f ; OD550_ASSO4M:long_name = "Aerosol Optical depth at 550 nm SO4" ; OD550_ASSO4M:online_operation = "ave(X)" ; OD550_ASSO4M:interval_operation = 1800.f ; OD550_ASSO4M:interval_write = 2678400.f ; OD550_ASSO4M:coordinates = "time_counter lat lon" ; float OD550_CSSO4M(time_counter, lat, lon) ; OD550_CSSO4M:units = "1" ; OD550_CSSO4M:standard_name = "Aerosol Optical depth at 550 nm CSSO4M" ; OD550_CSSO4M:_FillValue = 9.96921e+36f ; OD550_CSSO4M:long_name = "Aerosol Optical depth at 550 nm CSSO4M" ; OD550_CSSO4M:online_operation = "ave(X)" ; OD550_CSSO4M:interval_operation = 1800.f ; OD550_CSSO4M:interval_write = 2678400.f ; OD550_CSSO4M:coordinates = "time_counter lat lon" ; float OD550_SSSSM(time_counter, lat, lon) ; OD550_SSSSM:units = "1" ; OD550_SSSSM:standard_name = "Aerosol Optical depth at 550 nm SSSSM" ; OD550_SSSSM:_FillValue = 9.96921e+36f ; OD550_SSSSM:long_name = "Aerosol Optical depth at 550 nm SSSSM" ; OD550_SSSSM:online_operation = "ave(X)" ; OD550_SSSSM:interval_operation = 1800.f ; OD550_SSSSM:interval_write = 2678400.f ; OD550_SSSSM:coordinates = "time_counter lat lon" ; float OD550_ASSSM(time_counter, lat, lon) ; OD550_ASSSM:units = "1" ; OD550_ASSSM:standard_name = "Aerosol Optical depth at 550 nm CSSSM" ; OD550_ASSSM:_FillValue = 9.96921e+36f ; OD550_ASSSM:long_name = "Aerosol Optical depth at 550 nm CSSSM" ; OD550_ASSSM:online_operation = "ave(X)" ; OD550_ASSSM:interval_operation = 1800.f ; OD550_ASSSM:interval_write = 2678400.f ; OD550_ASSSM:coordinates = "time_counter lat lon" ; float OD550_CSSSM(time_counter, lat, lon) ; OD550_CSSSM:units = "1" ; OD550_CSSSM:standard_name = "Aerosol Optical depth at 550 nm ASSSM" ; OD550_CSSSM:_FillValue = 9.96921e+36f ; OD550_CSSSM:long_name = "Aerosol Optical depth at 550 nm ASSSM" ; OD550_CSSSM:online_operation = "ave(X)" ; OD550_CSSSM:interval_operation = 1800.f ; OD550_CSSSM:interval_write = 2678400.f ; OD550_CSSSM:coordinates = "time_counter lat lon" ; float OD550_CIDUSTM(time_counter, lat, lon) ; OD550_CIDUSTM:units = "1" ; OD550_CIDUSTM:standard_name = "Aerosol Optical depth at 550 nm CIDUSTM" ; OD550_CIDUSTM:_FillValue = 9.96921e+36f ; OD550_CIDUSTM:long_name = "Aerosol Optical depth at 550 nm CIDUSTM" ; OD550_CIDUSTM:online_operation = "ave(X)" ; OD550_CIDUSTM:interval_operation = 1800.f ; OD550_CIDUSTM:interval_write = 2678400.f ; OD550_CIDUSTM:coordinates = "time_counter lat lon" ; float OD550_AIBCM(time_counter, lat, lon) ; OD550_AIBCM:units = "1" ; OD550_AIBCM:standard_name = "Aerosol Optical depth at 550 nm AIBCM" ; OD550_AIBCM:_FillValue = 9.96921e+36f ; OD550_AIBCM:long_name = "Aerosol Optical depth at 550 nm AIBCM" ; OD550_AIBCM:online_operation = "ave(X)" ; OD550_AIBCM:interval_operation = 1800.f ; OD550_AIBCM:interval_write = 2678400.f ; OD550_AIBCM:coordinates = "time_counter lat lon" ; float OD550_AIPOMM(time_counter, lat, lon) ; OD550_AIPOMM:units = "1" ; OD550_AIPOMM:standard_name = "Aerosol Optical depth at 550 nm AIPOMM" ; OD550_AIPOMM:_FillValue = 9.96921e+36f ; OD550_AIPOMM:long_name = "Aerosol Optical depth at 550 nm AIPOMM" ; OD550_AIPOMM:online_operation = "ave(X)" ; OD550_AIPOMM:interval_operation = 1800.f ; OD550_AIPOMM:interval_write = 2678400.f ; OD550_AIPOMM:coordinates = "time_counter lat lon" ; float topswad(time_counter, lat, lon) ; topswad:units = "W/m2" ; topswad:standard_name = "ADE at TOA" ; topswad:_FillValue = 9.96921e+36f ; topswad:long_name = "ADE at TOA" ; topswad:online_operation = "ave(X)" ; topswad:interval_operation = 1800.f ; topswad:interval_write = 2678400.f ; topswad:coordinates = "time_counter lat lon" ; float solswad(time_counter, lat, lon) ; solswad:units = "W/m2" ; solswad:standard_name = "ADE at SRF" ; solswad:_FillValue = 9.96921e+36f ; solswad:long_name = "ADE at SRF" ; solswad:online_operation = "ave(X)" ; solswad:interval_operation = 1800.f ; solswad:interval_write = 2678400.f ; solswad:coordinates = "time_counter lat lon" ; float swtoaas_nat(time_counter, lat, lon) ; swtoaas_nat:units = "W/m2" ; swtoaas_nat:standard_name = "Natural aerosol radiative forcing all-sky at TOA" ; swtoaas_nat:_FillValue = 9.96921e+36f ; swtoaas_nat:long_name = "Natural aerosol radiative forcing all-sky at TOA" ; swtoaas_nat:online_operation = "ave(X)" ; swtoaas_nat:interval_operation = 1800.f ; swtoaas_nat:interval_write = 2678400.f ; swtoaas_nat:coordinates = "time_counter lat lon" ; float swsrfas_nat(time_counter, lat, lon) ; swsrfas_nat:units = "W/m2" ; swsrfas_nat:standard_name = "Natural aerosol radiative forcing all-sky at SRF" ; swsrfas_nat:_FillValue = 9.96921e+36f ; swsrfas_nat:long_name = "Natural aerosol radiative forcing all-sky at SRF" ; swsrfas_nat:online_operation = "ave(X)" ; swsrfas_nat:interval_operation = 1800.f ; swsrfas_nat:interval_write = 2678400.f ; swsrfas_nat:coordinates = "time_counter lat lon" ; float swtoacs_nat(time_counter, lat, lon) ; swtoacs_nat:units = "W/m2" ; swtoacs_nat:standard_name = "Natural aerosol radiative forcing clear-sky at TOA" ; swtoacs_nat:_FillValue = 9.96921e+36f ; swtoacs_nat:long_name = "Natural aerosol radiative forcing clear-sky at TOA" ; swtoacs_nat:online_operation = "ave(X)" ; swtoacs_nat:interval_operation = 1800.f ; swtoacs_nat:interval_write = 2678400.f ; swtoacs_nat:coordinates = "time_counter lat lon" ; float swsrfcs_nat(time_counter, lat, lon) ; swsrfcs_nat:units = "W/m2" ; swsrfcs_nat:standard_name = "Natural aerosol radiative forcing clear-sky at SRF" ; swsrfcs_nat:_FillValue = 9.96921e+36f ; swsrfcs_nat:long_name = "Natural aerosol radiative forcing clear-sky at SRF" ; swsrfcs_nat:online_operation = "ave(X)" ; swsrfcs_nat:interval_operation = 1800.f ; swsrfcs_nat:interval_write = 2678400.f ; swsrfcs_nat:coordinates = "time_counter lat lon" ; float swtoaas_ant(time_counter, lat, lon) ; swtoaas_ant:units = "W/m2" ; swtoaas_ant:standard_name = "Anthropogenic aerosol radiative forcing all-sky at TOA" ; swtoaas_ant:_FillValue = 9.96921e+36f ; swtoaas_ant:long_name = "Anthropogenic aerosol radiative forcing all-sky at TOA" ; swtoaas_ant:online_operation = "ave(X)" ; swtoaas_ant:interval_operation = 1800.f ; swtoaas_ant:interval_write = 2678400.f ; swtoaas_ant:coordinates = "time_counter lat lon" ; float swsrfas_ant(time_counter, lat, lon) ; swsrfas_ant:units = "W/m2" ; swsrfas_ant:standard_name = "Anthropogenic aerosol radiative forcing all-sky at SRF" ; swsrfas_ant:_FillValue = 9.96921e+36f ; swsrfas_ant:long_name = "Anthropogenic aerosol radiative forcing all-sky at SRF" ; swsrfas_ant:online_operation = "ave(X)" ; swsrfas_ant:interval_operation = 1800.f ; swsrfas_ant:interval_write = 2678400.f ; swsrfas_ant:coordinates = "time_counter lat lon" ; float swtoacs_ant(time_counter, lat, lon) ; swtoacs_ant:units = "W/m2" ; swtoacs_ant:standard_name = "Anthropogenic aerosol radiative forcing clear-sky at TOA" ; swtoacs_ant:_FillValue = 9.96921e+36f ; swtoacs_ant:long_name = "Anthropogenic aerosol radiative forcing clear-sky at TOA" ; swtoacs_ant:online_operation = "ave(X)" ; swtoacs_ant:interval_operation = 1800.f ; swtoacs_ant:interval_write = 2678400.f ; swtoacs_ant:coordinates = "time_counter lat lon" ; float swsrfcs_ant(time_counter, lat, lon) ; swsrfcs_ant:units = "W/m2" ; swsrfcs_ant:standard_name = "Anthropogenic aerosol radiative forcing clear-sky at SRF" ; swsrfcs_ant:_FillValue = 9.96921e+36f ; swsrfcs_ant:long_name = "Anthropogenic aerosol radiative forcing clear-sky at SRF" ; swsrfcs_ant:online_operation = "ave(X)" ; swsrfcs_ant:interval_operation = 1800.f ; swsrfcs_ant:interval_write = 2678400.f ; swsrfcs_ant:coordinates = "time_counter lat lon" ; float swtoacf_nat(time_counter, lat, lon) ; swtoacf_nat:units = "W/m2" ; swtoacf_nat:standard_name = "Natural aerosol impact on cloud radiative forcing at TOA" ; swtoacf_nat:_FillValue = 9.96921e+36f ; swtoacf_nat:long_name = "Natural aerosol impact on cloud radiative forcing at TOA" ; swtoacf_nat:online_operation = "ave(X)" ; swtoacf_nat:interval_operation = 1800.f ; swtoacf_nat:interval_write = 2678400.f ; swtoacf_nat:coordinates = "time_counter lat lon" ; float swsrfcf_nat(time_counter, lat, lon) ; swsrfcf_nat:units = "W/m2" ; swsrfcf_nat:standard_name = "Natural aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_nat:_FillValue = 9.96921e+36f ; swsrfcf_nat:long_name = "Natural aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_nat:online_operation = "ave(X)" ; swsrfcf_nat:interval_operation = 1800.f ; swsrfcf_nat:interval_write = 2678400.f ; swsrfcf_nat:coordinates = "time_counter lat lon" ; float swtoacf_ant(time_counter, lat, lon) ; swtoacf_ant:units = "W/m2" ; swtoacf_ant:standard_name = "Anthropogenic aerosol impact on cloud radiative forcing at TOA" ; swtoacf_ant:_FillValue = 9.96921e+36f ; swtoacf_ant:long_name = "Anthropogenic aerosol impact on cloud radiative forcing at TOA" ; swtoacf_ant:online_operation = "ave(X)" ; swtoacf_ant:interval_operation = 1800.f ; swtoacf_ant:interval_write = 2678400.f ; swtoacf_ant:coordinates = "time_counter lat lon" ; float swsrfcf_ant(time_counter, lat, lon) ; swsrfcf_ant:units = "W/m2" ; swsrfcf_ant:standard_name = "Anthropogenic aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_ant:_FillValue = 9.96921e+36f ; swsrfcf_ant:long_name = "Anthropogenic aerosol impact on cloud radiative forcing at SRF" ; swsrfcf_ant:online_operation = "ave(X)" ; swsrfcf_ant:interval_operation = 1800.f ; swsrfcf_ant:interval_write = 2678400.f ; swsrfcf_ant:coordinates = "time_counter lat lon" ; float swtoacf_zero(time_counter, lat, lon) ; swtoacf_zero:units = "W/m2" ; swtoacf_zero:standard_name = "Cloud radiative forcing (allsky-clearsky fluxes) at TOA" ; swtoacf_zero:_FillValue = 9.96921e+36f ; swtoacf_zero:long_name = "Cloud radiative forcing (allsky-clearsky fluxes) at TOA" ; swtoacf_zero:online_operation = "ave(X)" ; swtoacf_zero:interval_operation = 1800.f ; swtoacf_zero:interval_write = 2678400.f ; swtoacf_zero:coordinates = "time_counter lat lon" ; float swsrfcf_zero(time_counter, lat, lon) ; swsrfcf_zero:units = "W/m2" ; swsrfcf_zero:standard_name = "Cloud radiative forcing (allsky-clearsky fluxes) at SRF" ; swsrfcf_zero:_FillValue = 9.96921e+36f ; swsrfcf_zero:long_name = "Cloud radiative forcing (allsky-clearsky fluxes) at SRF" ; swsrfcf_zero:online_operation = "ave(X)" ; swsrfcf_zero:interval_operation = 1800.f ; swsrfcf_zero:interval_write = 2678400.f ; swsrfcf_zero:coordinates = "time_counter lat lon" ; float topswai(time_counter, lat, lon) ; topswai:units = "W/m2" ; topswai:standard_name = "AIE at TOA" ; topswai:_FillValue = 9.96921e+36f ; topswai:long_name = "AIE at TOA" ; topswai:online_operation = "ave(X)" ; topswai:interval_operation = 1800.f ; topswai:interval_write = 2678400.f ; topswai:coordinates = "time_counter lat lon" ; float solswai(time_counter, lat, lon) ; solswai:units = "W/m2" ; solswai:standard_name = "AIE at SFR" ; solswai:_FillValue = 9.96921e+36f ; solswai:long_name = "AIE at SFR" ; solswai:online_operation = "ave(X)" ; solswai:interval_operation = 1800.f ; solswai:interval_write = 2678400.f ; solswai:coordinates = "time_counter lat lon" ; float scdnc(time_counter, presnivs, lat, lon) ; scdnc:units = "m-3" ; scdnc:standard_name = "Cloud droplet number concentration" ; scdnc:_FillValue = 9.96921e+36f ; scdnc:long_name = "Cloud droplet number concentration" ; scdnc:online_operation = "ave(X)" ; scdnc:interval_operation = 1800.f ; scdnc:interval_write = 2678400.f ; scdnc:coordinates = "time_counter presnivs lat lon" ; float cldncl(time_counter, lat, lon) ; cldncl:units = "m-3" ; cldncl:standard_name = "CDNC at top of liquid water cloud" ; cldncl:_FillValue = 9.96921e+36f ; cldncl:long_name = "CDNC at top of liquid water cloud" ; cldncl:online_operation = "ave(X)" ; cldncl:interval_operation = 1800.f ; cldncl:interval_write = 2678400.f ; cldncl:coordinates = "time_counter lat lon" ; float reffclws(time_counter, presnivs, lat, lon) ; reffclws:units = "m" ; reffclws:standard_name = "Stratiform Cloud Droplet Effective Radius" ; reffclws:_FillValue = 9.96921e+36f ; reffclws:long_name = "Stratiform Cloud Droplet Effective Radius" ; reffclws:online_operation = "ave(X)" ; reffclws:interval_operation = 1800.f ; reffclws:interval_write = 2678400.f ; reffclws:coordinates = "time_counter presnivs lat lon" ; float reffclwc(time_counter, presnivs, lat, lon) ; reffclwc:units = "m" ; reffclwc:standard_name = "Convective Cloud Droplet Effective Radius" ; reffclwc:_FillValue = 9.96921e+36f ; reffclwc:long_name = "Convective Cloud Droplet Effective Radius" ; reffclwc:online_operation = "ave(X)" ; reffclwc:interval_operation = 1800.f ; reffclwc:interval_write = 2678400.f ; reffclwc:coordinates = "time_counter presnivs lat lon" ; float cldnvi(time_counter, lat, lon) ; cldnvi:units = "m-2" ; cldnvi:standard_name = "Column Integrated Cloud Droplet Number" ; cldnvi:_FillValue = 9.96921e+36f ; cldnvi:long_name = "Column Integrated Cloud Droplet Number" ; cldnvi:online_operation = "ave(X)" ; cldnvi:interval_operation = 1800.f ; cldnvi:interval_write = 2678400.f ; cldnvi:coordinates = "time_counter lat lon" ; float lcc3d(time_counter, presnivs, lat, lon) ; lcc3d:units = "1" ; lcc3d:standard_name = "Cloud liquid fraction" ; lcc3d:_FillValue = 9.96921e+36f ; lcc3d:long_name = "Cloud liquid fraction" ; lcc3d:online_operation = "ave(X)" ; lcc3d:interval_operation = 1800.f ; lcc3d:interval_write = 2678400.f ; lcc3d:coordinates = "time_counter presnivs lat lon" ; float lcc3dcon(time_counter, presnivs, lat, lon) ; lcc3dcon:units = "1" ; lcc3dcon:standard_name = "Convective cloud liquid fraction" ; lcc3dcon:_FillValue = 9.96921e+36f ; lcc3dcon:long_name = "Convective cloud liquid fraction" ; lcc3dcon:online_operation = "ave(X)" ; lcc3dcon:interval_operation = 1800.f ; lcc3dcon:interval_write = 2678400.f ; lcc3dcon:coordinates = "time_counter presnivs lat lon" ; float lcc3dstra(time_counter, presnivs, lat, lon) ; lcc3dstra:units = "1" ; lcc3dstra:standard_name = "Stratiform cloud liquid fraction" ; lcc3dstra:_FillValue = 9.96921e+36f ; lcc3dstra:long_name = "Stratiform cloud liquid fraction" ; lcc3dstra:online_operation = "ave(X)" ; lcc3dstra:interval_operation = 1800.f ; lcc3dstra:interval_write = 2678400.f ; lcc3dstra:coordinates = "time_counter presnivs lat lon" ; float lcc(time_counter, lat, lon) ; lcc:units = "1" ; lcc:standard_name = "Cloud liquid fraction at top of cloud" ; lcc:_FillValue = 9.96921e+36f ; lcc:long_name = "Cloud liquid fraction at top of cloud" ; lcc:online_operation = "ave(X)" ; lcc:interval_operation = 1800.f ; lcc:interval_write = 2678400.f ; lcc:coordinates = "time_counter lat lon" ; float reffclwtop(time_counter, lat, lon) ; reffclwtop:units = "m" ; reffclwtop:standard_name = "Droplet effective radius at top of liquid water cloud" ; reffclwtop:_FillValue = 9.96921e+36f ; reffclwtop:long_name = "Droplet effective radius at top of liquid water cloud" ; reffclwtop:online_operation = "ave(X)" ; reffclwtop:interval_operation = 1800.f ; reffclwtop:interval_write = 2678400.f ; reffclwtop:coordinates = "time_counter lat lon" ; float alb1(time_counter, lat, lon) ; alb1:units = "-" ; alb1:standard_name = "Surface VIS albedo" ; alb1:_FillValue = 9.96921e+36f ; alb1:long_name = "Surface VIS albedo" ; alb1:online_operation = "ave(X)" ; alb1:interval_operation = 1800.f ; alb1:interval_write = 2678400.f ; alb1:coordinates = "time_counter lat lon" ; float alb2(time_counter, lat, lon) ; alb2:units = "-" ; alb2:standard_name = "Surface Near IR albedo" ; alb2:_FillValue = 9.96921e+36f ; alb2:long_name = "Surface Near IR albedo" ; alb2:online_operation = "ave(X)" ; alb2:interval_operation = 1800.f ; alb2:interval_write = 2678400.f ; alb2:coordinates = "time_counter lat lon" ; float cdrm(time_counter, lat, lon) ; cdrm:units = "-" ; cdrm:standard_name = "Momentum drag coef." ; cdrm:_FillValue = 9.96921e+36f ; cdrm:long_name = "Momentum drag coef." ; cdrm:online_operation = "ave(X)" ; cdrm:interval_operation = 1800.f ; cdrm:interval_write = 2678400.f ; cdrm:coordinates = "time_counter lat lon" ; float cdrh(time_counter, lat, lon) ; cdrh:units = "-" ; cdrh:standard_name = "Heat drag coef." ; cdrh:_FillValue = 9.96921e+36f ; cdrh:long_name = "Heat drag coef." ; cdrh:online_operation = "ave(X)" ; cdrh:interval_operation = 1800.f ; cdrh:interval_write = 2678400.f ; cdrh:coordinates = "time_counter lat lon" ; float cldl(time_counter, lat, lon) ; cldl:units = "-" ; cldl:standard_name = "Low-level cloudiness" ; cldl:_FillValue = 9.96921e+36f ; cldl:long_name = "Low-level cloudiness" ; cldl:online_operation = "ave(X)" ; cldl:interval_operation = 1800.f ; cldl:interval_write = 2678400.f ; cldl:coordinates = "time_counter lat lon" ; float cldm(time_counter, lat, lon) ; cldm:units = "-" ; cldm:standard_name = "Mid-level cloudiness" ; cldm:_FillValue = 9.96921e+36f ; cldm:long_name = "Mid-level cloudiness" ; cldm:online_operation = "ave(X)" ; cldm:interval_operation = 1800.f ; cldm:interval_write = 2678400.f ; cldm:coordinates = "time_counter lat lon" ; float cldh(time_counter, lat, lon) ; cldh:units = "-" ; cldh:standard_name = "High-level cloudiness" ; cldh:_FillValue = 9.96921e+36f ; cldh:long_name = "High-level cloudiness" ; cldh:online_operation = "ave(X)" ; cldh:interval_operation = 1800.f ; cldh:interval_write = 2678400.f ; cldh:coordinates = "time_counter lat lon" ; float cldt(time_counter, lat, lon) ; cldt:units = "-" ; cldt:standard_name = "Total cloudiness" ; cldt:_FillValue = 9.96921e+36f ; cldt:long_name = "Total cloudiness" ; cldt:online_operation = "ave(X)" ; cldt:interval_operation = 1800.f ; cldt:interval_write = 2678400.f ; cldt:coordinates = "time_counter lat lon" ; float cldq(time_counter, lat, lon) ; cldq:units = "kg/m2" ; cldq:standard_name = "Cloud liquid water path" ; cldq:_FillValue = 9.96921e+36f ; cldq:long_name = "Cloud liquid water path" ; cldq:online_operation = "ave(X)" ; cldq:interval_operation = 1800.f ; cldq:interval_write = 2678400.f ; cldq:coordinates = "time_counter lat lon" ; float lwp(time_counter, lat, lon) ; lwp:units = "kg/m2" ; lwp:standard_name = "Cloud water path" ; lwp:_FillValue = 9.96921e+36f ; lwp:long_name = "Cloud water path" ; lwp:online_operation = "ave(X)" ; lwp:interval_operation = 1800.f ; lwp:interval_write = 2678400.f ; lwp:coordinates = "time_counter lat lon" ; float iwp(time_counter, lat, lon) ; iwp:units = "kg/m2" ; iwp:standard_name = "Cloud ice water path" ; iwp:_FillValue = 9.96921e+36f ; iwp:long_name = "Cloud ice water path" ; iwp:online_operation = "ave(X)" ; iwp:interval_operation = 1800.f ; iwp:interval_write = 2678400.f ; iwp:coordinates = "time_counter lat lon" ; float ue(time_counter, lat, lon) ; ue:units = "-" ; ue:standard_name = "Zonal energy transport" ; ue:_FillValue = 9.96921e+36f ; ue:long_name = "Zonal energy transport" ; ue:online_operation = "ave(X)" ; ue:interval_operation = 1800.f ; ue:interval_write = 2678400.f ; ue:coordinates = "time_counter lat lon" ; float ve(time_counter, lat, lon) ; ve:units = "-" ; ve:standard_name = "Merid energy transport" ; ve:_FillValue = 9.96921e+36f ; ve:long_name = "Merid energy transport" ; ve:online_operation = "ave(X)" ; ve:interval_operation = 1800.f ; ve:interval_write = 2678400.f ; ve:coordinates = "time_counter lat lon" ; float uq(time_counter, lat, lon) ; uq:units = "-" ; uq:standard_name = "Zonal humidity transport" ; uq:_FillValue = 9.96921e+36f ; uq:long_name = "Zonal humidity transport" ; uq:online_operation = "ave(X)" ; uq:interval_operation = 1800.f ; uq:interval_write = 2678400.f ; uq:coordinates = "time_counter lat lon" ; float vq(time_counter, lat, lon) ; vq:units = "-" ; vq:standard_name = "Merid humidity transport" ; vq:_FillValue = 9.96921e+36f ; vq:long_name = "Merid humidity transport" ; vq:online_operation = "ave(X)" ; vq:interval_operation = 1800.f ; vq:interval_write = 2678400.f ; vq:coordinates = "time_counter lat lon" ; float cape(time_counter, lat, lon) ; cape:units = "J/kg" ; cape:standard_name = "Conv avlbl pot ener" ; cape:_FillValue = 9.96921e+36f ; cape:long_name = "Conv avlbl pot ener" ; cape:online_operation = "ave(X)" ; cape:interval_operation = 1800.f ; cape:interval_write = 2678400.f ; cape:coordinates = "time_counter lat lon" ; float pbase(time_counter, lat, lon) ; pbase:units = "Pa" ; pbase:standard_name = "Cld base pressure" ; pbase:_FillValue = 9.96921e+36f ; pbase:long_name = "Cld base pressure" ; pbase:online_operation = "ave(X)" ; pbase:interval_operation = 1800.f ; pbase:interval_write = 2678400.f ; pbase:coordinates = "time_counter lat lon" ; float ptop(time_counter, lat, lon) ; ptop:units = "Pa" ; ptop:standard_name = "Cld top pressure" ; ptop:_FillValue = 9.96921e+36f ; ptop:long_name = "Cld top pressure" ; ptop:online_operation = "ave(X)" ; ptop:interval_operation = 1800.f ; ptop:interval_write = 2678400.f ; ptop:coordinates = "time_counter lat lon" ; float fbase(time_counter, lat, lon) ; fbase:units = "kg/m2/s" ; fbase:standard_name = "Cld base mass flux" ; fbase:_FillValue = 9.96921e+36f ; fbase:long_name = "Cld base mass flux" ; fbase:online_operation = "ave(X)" ; fbase:interval_operation = 1800.f ; fbase:interval_write = 2678400.f ; fbase:coordinates = "time_counter lat lon" ; float prw(time_counter, lat, lon) ; prw:units = "kg/m2" ; prw:standard_name = "Precipitable water" ; prw:_FillValue = 9.96921e+36f ; prw:long_name = "Precipitable water" ; prw:online_operation = "ave(X)" ; prw:interval_operation = 1800.f ; prw:interval_write = 2678400.f ; prw:coordinates = "time_counter lat lon" ; float upwd(time_counter, presnivs, lat, lon) ; upwd:units = "kg/m2/s" ; upwd:standard_name = "saturated updraft" ; upwd:_FillValue = 9.96921e+36f ; upwd:long_name = "saturated updraft" ; upwd:online_operation = "ave(X)" ; upwd:interval_operation = 1800.f ; upwd:interval_write = 2678400.f ; upwd:coordinates = "time_counter presnivs lat lon" ; float Ma(time_counter, presnivs, lat, lon) ; Ma:units = "kg/m2/s" ; Ma:standard_name = "undilute adiab updraft" ; Ma:_FillValue = 9.96921e+36f ; Ma:long_name = "undilute adiab updraft" ; Ma:online_operation = "ave(X)" ; Ma:interval_operation = 1800.f ; Ma:interval_write = 2678400.f ; Ma:coordinates = "time_counter presnivs lat lon" ; float dnwd(time_counter, presnivs, lat, lon) ; dnwd:units = "kg/m2/s" ; dnwd:standard_name = "saturated downdraft" ; dnwd:_FillValue = 9.96921e+36f ; dnwd:long_name = "saturated downdraft" ; dnwd:online_operation = "ave(X)" ; dnwd:interval_operation = 1800.f ; dnwd:interval_write = 2678400.f ; dnwd:coordinates = "time_counter presnivs lat lon" ; float dnwd0(time_counter, presnivs, lat, lon) ; dnwd0:units = "kg/m2/s" ; dnwd0:standard_name = "unsat. downdraft" ; dnwd0:_FillValue = 9.96921e+36f ; dnwd0:long_name = "unsat. downdraft" ; dnwd0:online_operation = "ave(X)" ; dnwd0:interval_operation = 1800.f ; dnwd0:interval_write = 2678400.f ; dnwd0:coordinates = "time_counter presnivs lat lon" ; float mc(time_counter, presnivs, lat, lon) ; mc:units = "kg/m2/s" ; mc:standard_name = "Convective mass flux" ; mc:_FillValue = 9.96921e+36f ; mc:long_name = "Convective mass flux" ; mc:online_operation = "ave(X)" ; mc:interval_operation = 1800.f ; mc:interval_write = 2678400.f ; mc:coordinates = "time_counter presnivs lat lon" ; float ftime_con(time_counter, lat, lon) ; ftime_con:standard_name = "Fraction of time convection Occurs" ; ftime_con:_FillValue = 9.96921e+36f ; ftime_con:long_name = "Fraction of time convection Occurs" ; ftime_con:online_operation = "inst(X)" ; ftime_con:interval_operation = 2678400.f ; ftime_con:interval_write = 2678400.f ; ftime_con:coordinates = "t_inst_02678400 lat lon" ; float s_pblh(time_counter, lat, lon) ; s_pblh:units = "m" ; s_pblh:standard_name = "Boundary Layer Height" ; s_pblh:_FillValue = 9.96921e+36f ; s_pblh:long_name = "Boundary Layer Height" ; s_pblh:online_operation = "ave(X)" ; s_pblh:interval_operation = 1800.f ; s_pblh:interval_write = 2678400.f ; s_pblh:coordinates = "time_counter lat lon" ; float s_pblt(time_counter, lat, lon) ; s_pblt:units = "K" ; s_pblt:standard_name = "t at Boundary Layer Height" ; s_pblt:_FillValue = 9.96921e+36f ; s_pblt:long_name = "t at Boundary Layer Height" ; s_pblt:online_operation = "ave(X)" ; s_pblt:interval_operation = 1800.f ; s_pblt:interval_write = 2678400.f ; s_pblt:coordinates = "time_counter lat lon" ; float s_lcl(time_counter, lat, lon) ; s_lcl:units = "m" ; s_lcl:standard_name = "Condensation level" ; s_lcl:_FillValue = 9.96921e+36f ; s_lcl:long_name = "Condensation level" ; s_lcl:online_operation = "ave(X)" ; s_lcl:interval_operation = 1800.f ; s_lcl:interval_write = 2678400.f ; s_lcl:coordinates = "time_counter lat lon" ; float s_therm(time_counter, lat, lon) ; s_therm:units = "K" ; s_therm:standard_name = "Exces du thermique" ; s_therm:_FillValue = 9.96921e+36f ; s_therm:long_name = "Exces du thermique" ; s_therm:online_operation = "ave(X)" ; s_therm:interval_operation = 1800.f ; s_therm:interval_write = 2678400.f ; s_therm:coordinates = "time_counter lat lon" ; float u850(time_counter, lat, lon) ; u850:units = "m/s" ; u850:standard_name = "Zonal wind 850 hPa" ; u850:_FillValue = 9.96921e+36f ; u850:long_name = "Zonal wind 850 hPa" ; u850:online_operation = "inst(X)" ; u850:interval_operation = 2678400.f ; u850:interval_write = 2678400.f ; u850:coordinates = "t_inst_02678400 lat lon" ; float v850(time_counter, lat, lon) ; v850:units = "m/s" ; v850:standard_name = "Meridional wind 850 hPa" ; v850:_FillValue = 9.96921e+36f ; v850:long_name = "Meridional wind 850 hPa" ; v850:online_operation = "inst(X)" ; v850:interval_operation = 2678400.f ; v850:interval_write = 2678400.f ; v850:coordinates = "t_inst_02678400 lat lon" ; float w850(time_counter, lat, lon) ; w850:units = "Pa/s" ; w850:standard_name = "Vertical wind 850 hPa" ; w850:_FillValue = 9.96921e+36f ; w850:long_name = "Vertical wind 850 hPa" ; w850:online_operation = "inst(X)" ; w850:interval_operation = 2678400.f ; w850:interval_write = 2678400.f ; w850:coordinates = "t_inst_02678400 lat lon" ; float z850(time_counter, lat, lon) ; z850:units = "m" ; z850:standard_name = "Geopotential height 850 hPa" ; z850:_FillValue = 9.96921e+36f ; z850:long_name = "Geopotential height 850 hPa" ; z850:online_operation = "inst(X)" ; z850:interval_operation = 2678400.f ; z850:interval_write = 2678400.f ; z850:coordinates = "t_inst_02678400 lat lon" ; float q850(time_counter, lat, lon) ; q850:units = "kg/kg" ; q850:standard_name = "Specific humidity 850 hPa" ; q850:_FillValue = 9.96921e+36f ; q850:long_name = "Specific humidity 850 hPa" ; q850:online_operation = "inst(X)" ; q850:interval_operation = 2678400.f ; q850:interval_write = 2678400.f ; q850:coordinates = "t_inst_02678400 lat lon" ; float t850(time_counter, lat, lon) ; t850:units = "K" ; t850:standard_name = "Temperature 850 hPa" ; t850:_FillValue = 9.96921e+36f ; t850:long_name = "Temperature 850 hPa" ; t850:online_operation = "inst(X)" ; t850:interval_operation = 2678400.f ; t850:interval_write = 2678400.f ; t850:coordinates = "t_inst_02678400 lat lon" ; float u700(time_counter, lat, lon) ; u700:units = "m/s" ; u700:standard_name = "Zonal wind 700 hPa" ; u700:_FillValue = 9.96921e+36f ; u700:long_name = "Zonal wind 700 hPa" ; u700:online_operation = "inst(X)" ; u700:interval_operation = 2678400.f ; u700:interval_write = 2678400.f ; u700:coordinates = "t_inst_02678400 lat lon" ; float v700(time_counter, lat, lon) ; v700:units = "m/s" ; v700:standard_name = "Meridional wind 700 hPa" ; v700:_FillValue = 9.96921e+36f ; v700:long_name = "Meridional wind 700 hPa" ; v700:online_operation = "inst(X)" ; v700:interval_operation = 2678400.f ; v700:interval_write = 2678400.f ; v700:coordinates = "t_inst_02678400 lat lon" ; float w700(time_counter, lat, lon) ; w700:units = "Pa/s" ; w700:standard_name = "Vertical wind 700 hPa" ; w700:_FillValue = 9.96921e+36f ; w700:long_name = "Vertical wind 700 hPa" ; w700:online_operation = "inst(X)" ; w700:interval_operation = 2678400.f ; w700:interval_write = 2678400.f ; w700:coordinates = "t_inst_02678400 lat lon" ; float z700(time_counter, lat, lon) ; z700:units = "m" ; z700:standard_name = "Geopotential height 700 hPa" ; z700:_FillValue = 9.96921e+36f ; z700:long_name = "Geopotential height 700 hPa" ; z700:online_operation = "inst(X)" ; z700:interval_operation = 2678400.f ; z700:interval_write = 2678400.f ; z700:coordinates = "t_inst_02678400 lat lon" ; float q700(time_counter, lat, lon) ; q700:units = "kg/kg" ; q700:standard_name = "Specific humidity 700 hPa" ; q700:_FillValue = 9.96921e+36f ; q700:long_name = "Specific humidity 700 hPa" ; q700:online_operation = "inst(X)" ; q700:interval_operation = 2678400.f ; q700:interval_write = 2678400.f ; q700:coordinates = "t_inst_02678400 lat lon" ; float t700(time_counter, lat, lon) ; t700:units = "K" ; t700:standard_name = "Temperature 700 hPa" ; t700:_FillValue = 9.96921e+36f ; t700:long_name = "Temperature 700 hPa" ; t700:online_operation = "inst(X)" ; t700:interval_operation = 2678400.f ; t700:interval_write = 2678400.f ; t700:coordinates = "t_inst_02678400 lat lon" ; float u500(time_counter, lat, lon) ; u500:units = "m/s" ; u500:standard_name = "Zonal wind 500 hPa" ; u500:_FillValue = 9.96921e+36f ; u500:long_name = "Zonal wind 500 hPa" ; u500:online_operation = "inst(X)" ; u500:interval_operation = 2678400.f ; u500:interval_write = 2678400.f ; u500:coordinates = "t_inst_02678400 lat lon" ; float v500(time_counter, lat, lon) ; v500:units = "m/s" ; v500:standard_name = "Meridional wind 500 hPa" ; v500:_FillValue = 9.96921e+36f ; v500:long_name = "Meridional wind 500 hPa" ; v500:online_operation = "inst(X)" ; v500:interval_operation = 2678400.f ; v500:interval_write = 2678400.f ; v500:coordinates = "t_inst_02678400 lat lon" ; float w500(time_counter, lat, lon) ; w500:units = "Pa/s" ; w500:standard_name = "Vertical wind 500 hPa" ; w500:_FillValue = 9.96921e+36f ; w500:long_name = "Vertical wind 500 hPa" ; w500:online_operation = "inst(X)" ; w500:interval_operation = 2678400.f ; w500:interval_write = 2678400.f ; w500:coordinates = "t_inst_02678400 lat lon" ; float z500(time_counter, lat, lon) ; z500:units = "m" ; z500:standard_name = "Geopotential height 500 hPa" ; z500:_FillValue = 9.96921e+36f ; z500:long_name = "Geopotential height 500 hPa" ; z500:online_operation = "inst(X)" ; z500:interval_operation = 2678400.f ; z500:interval_write = 2678400.f ; z500:coordinates = "t_inst_02678400 lat lon" ; float q500(time_counter, lat, lon) ; q500:units = "kg/kg" ; q500:standard_name = "Specific humidity 500 hPa" ; q500:_FillValue = 9.96921e+36f ; q500:long_name = "Specific humidity 500 hPa" ; q500:online_operation = "inst(X)" ; q500:interval_operation = 2678400.f ; q500:interval_write = 2678400.f ; q500:coordinates = "t_inst_02678400 lat lon" ; float t500(time_counter, lat, lon) ; t500:units = "K" ; t500:standard_name = "Temperature 500 hPa" ; t500:_FillValue = 9.96921e+36f ; t500:long_name = "Temperature 500 hPa" ; t500:online_operation = "inst(X)" ; t500:interval_operation = 2678400.f ; t500:interval_write = 2678400.f ; t500:coordinates = "t_inst_02678400 lat lon" ; float u200(time_counter, lat, lon) ; u200:units = "m/s" ; u200:standard_name = "Zonal wind 200 hPa" ; u200:_FillValue = 9.96921e+36f ; u200:long_name = "Zonal wind 200 hPa" ; u200:online_operation = "inst(X)" ; u200:interval_operation = 2678400.f ; u200:interval_write = 2678400.f ; u200:coordinates = "t_inst_02678400 lat lon" ; float v200(time_counter, lat, lon) ; v200:units = "m/s" ; v200:standard_name = "Meridional wind 200 hPa" ; v200:_FillValue = 9.96921e+36f ; v200:long_name = "Meridional wind 200 hPa" ; v200:online_operation = "inst(X)" ; v200:interval_operation = 2678400.f ; v200:interval_write = 2678400.f ; v200:coordinates = "t_inst_02678400 lat lon" ; float w200(time_counter, lat, lon) ; w200:units = "Pa/s" ; w200:standard_name = "Vertical wind 200 hPa" ; w200:_FillValue = 9.96921e+36f ; w200:long_name = "Vertical wind 200 hPa" ; w200:online_operation = "inst(X)" ; w200:interval_operation = 2678400.f ; w200:interval_write = 2678400.f ; w200:coordinates = "t_inst_02678400 lat lon" ; float z200(time_counter, lat, lon) ; z200:units = "m" ; z200:standard_name = "Geopotential height 200 hPa" ; z200:_FillValue = 9.96921e+36f ; z200:long_name = "Geopotential height 200 hPa" ; z200:online_operation = "inst(X)" ; z200:interval_operation = 2678400.f ; z200:interval_write = 2678400.f ; z200:coordinates = "t_inst_02678400 lat lon" ; float q200(time_counter, lat, lon) ; q200:units = "kg/kg" ; q200:standard_name = "Specific humidity 200 hPa" ; q200:_FillValue = 9.96921e+36f ; q200:long_name = "Specific humidity 200 hPa" ; q200:online_operation = "inst(X)" ; q200:interval_operation = 2678400.f ; q200:interval_write = 2678400.f ; q200:coordinates = "t_inst_02678400 lat lon" ; float t200(time_counter, lat, lon) ; t200:units = "K" ; t200:standard_name = "Temperature 200 hPa" ; t200:_FillValue = 9.96921e+36f ; t200:long_name = "Temperature 200 hPa" ; t200:online_operation = "inst(X)" ; t200:interval_operation = 2678400.f ; t200:interval_write = 2678400.f ; t200:coordinates = "t_inst_02678400 lat lon" ; float u50(time_counter, lat, lon) ; u50:units = "m/s" ; u50:standard_name = "Zonal wind 50 hPa" ; u50:_FillValue = 9.96921e+36f ; u50:long_name = "Zonal wind 50 hPa" ; u50:online_operation = "inst(X)" ; u50:interval_operation = 2678400.f ; u50:interval_write = 2678400.f ; u50:coordinates = "t_inst_02678400 lat lon" ; float v50(time_counter, lat, lon) ; v50:units = "m/s" ; v50:standard_name = "Meridional wind 50 hPa" ; v50:_FillValue = 9.96921e+36f ; v50:long_name = "Meridional wind 50 hPa" ; v50:online_operation = "inst(X)" ; v50:interval_operation = 2678400.f ; v50:interval_write = 2678400.f ; v50:coordinates = "t_inst_02678400 lat lon" ; float w50(time_counter, lat, lon) ; w50:units = "Pa/s" ; w50:standard_name = "Vertical wind 50 hPa" ; w50:_FillValue = 9.96921e+36f ; w50:long_name = "Vertical wind 50 hPa" ; w50:online_operation = "inst(X)" ; w50:interval_operation = 2678400.f ; w50:interval_write = 2678400.f ; w50:coordinates = "t_inst_02678400 lat lon" ; float z50(time_counter, lat, lon) ; z50:units = "m" ; z50:standard_name = "Geopotential height 50 hPa" ; z50:_FillValue = 9.96921e+36f ; z50:long_name = "Geopotential height 50 hPa" ; z50:online_operation = "inst(X)" ; z50:interval_operation = 2678400.f ; z50:interval_write = 2678400.f ; z50:coordinates = "t_inst_02678400 lat lon" ; float q50(time_counter, lat, lon) ; q50:units = "kg/kg" ; q50:standard_name = "Specific humidity 50 hPa" ; q50:_FillValue = 9.96921e+36f ; q50:long_name = "Specific humidity 50 hPa" ; q50:online_operation = "inst(X)" ; q50:interval_operation = 2678400.f ; q50:interval_write = 2678400.f ; q50:coordinates = "t_inst_02678400 lat lon" ; float t50(time_counter, lat, lon) ; t50:units = "K" ; t50:standard_name = "Temperature 50 hPa" ; t50:_FillValue = 9.96921e+36f ; t50:long_name = "Temperature 50 hPa" ; t50:online_operation = "inst(X)" ; t50:interval_operation = 2678400.f ; t50:interval_write = 2678400.f ; t50:coordinates = "t_inst_02678400 lat lon" ; float u10(time_counter, lat, lon) ; u10:units = "m/s" ; u10:standard_name = "Zonal wind 10 hPa" ; u10:_FillValue = 9.96921e+36f ; u10:long_name = "Zonal wind 10 hPa" ; u10:online_operation = "inst(X)" ; u10:interval_operation = 2678400.f ; u10:interval_write = 2678400.f ; u10:coordinates = "t_inst_02678400 lat lon" ; float v10(time_counter, lat, lon) ; v10:units = "m/s" ; v10:standard_name = "Meridional wind 10 hPa" ; v10:_FillValue = 9.96921e+36f ; v10:long_name = "Meridional wind 10 hPa" ; v10:online_operation = "inst(X)" ; v10:interval_operation = 2678400.f ; v10:interval_write = 2678400.f ; v10:coordinates = "t_inst_02678400 lat lon" ; float w10(time_counter, lat, lon) ; w10:units = "Pa/s" ; w10:standard_name = "Vertical wind 10 hPa" ; w10:_FillValue = 9.96921e+36f ; w10:long_name = "Vertical wind 10 hPa" ; w10:online_operation = "inst(X)" ; w10:interval_operation = 2678400.f ; w10:interval_write = 2678400.f ; w10:coordinates = "t_inst_02678400 lat lon" ; float z10(time_counter, lat, lon) ; z10:units = "m" ; z10:standard_name = "Geopotential height 10 hPa" ; z10:_FillValue = 9.96921e+36f ; z10:long_name = "Geopotential height 10 hPa" ; z10:online_operation = "inst(X)" ; z10:interval_operation = 2678400.f ; z10:interval_write = 2678400.f ; z10:coordinates = "t_inst_02678400 lat lon" ; float q10(time_counter, lat, lon) ; q10:units = "kg/kg" ; q10:standard_name = "Specific humidity 10 hPa" ; q10:_FillValue = 9.96921e+36f ; q10:long_name = "Specific humidity 10 hPa" ; q10:online_operation = "inst(X)" ; q10:interval_operation = 2678400.f ; q10:interval_write = 2678400.f ; q10:coordinates = "t_inst_02678400 lat lon" ; float t10(time_counter, lat, lon) ; t10:units = "K" ; t10:standard_name = "Temperature 10 hPa" ; t10:_FillValue = 9.96921e+36f ; t10:long_name = "Temperature 10 hPa" ; t10:online_operation = "inst(X)" ; t10:interval_operation = 2678400.f ; t10:interval_write = 2678400.f ; t10:coordinates = "t_inst_02678400 lat lon" ; float t_oce_sic(time_counter, lat, lon) ; t_oce_sic:units = "K" ; t_oce_sic:standard_name = "Temp mixte oce-sic" ; t_oce_sic:_FillValue = 9.96921e+36f ; t_oce_sic:long_name = "Temp mixte oce-sic" ; t_oce_sic:online_operation = "ave(X)" ; t_oce_sic:interval_operation = 1800.f ; t_oce_sic:interval_write = 2678400.f ; t_oce_sic:coordinates = "time_counter lat lon" ; float rh2m(time_counter, lat, lon) ; rh2m:units = "%" ; rh2m:standard_name = "Relative humidity at 2m" ; rh2m:_FillValue = 9.96921e+36f ; rh2m:long_name = "Relative humidity at 2m" ; rh2m:online_operation = "ave(X)" ; rh2m:interval_operation = 1800.f ; rh2m:interval_write = 2678400.f ; rh2m:coordinates = "time_counter lat lon" ; float ec550aer(time_counter, presnivs, lat, lon) ; ec550aer:units = "m^-1" ; ec550aer:standard_name = "Extinction at 550nm" ; ec550aer:_FillValue = 9.96921e+36f ; ec550aer:long_name = "Extinction at 550nm" ; ec550aer:online_operation = "ave(X)" ; ec550aer:interval_operation = 1800.f ; ec550aer:interval_write = 2678400.f ; ec550aer:coordinates = "time_counter presnivs lat lon" ; float lwcon(time_counter, presnivs, lat, lon) ; lwcon:units = "kg/kg" ; lwcon:standard_name = "Cloud liquid water content" ; lwcon:_FillValue = 9.96921e+36f ; lwcon:long_name = "Cloud liquid water content" ; lwcon:online_operation = "ave(X)" ; lwcon:interval_operation = 1800.f ; lwcon:interval_write = 2678400.f ; lwcon:coordinates = "time_counter presnivs lat lon" ; float iwcon(time_counter, presnivs, lat, lon) ; iwcon:units = "kg/kg" ; iwcon:standard_name = "Cloud ice water content" ; iwcon:_FillValue = 9.96921e+36f ; iwcon:long_name = "Cloud ice water content" ; iwcon:online_operation = "ave(X)" ; iwcon:interval_operation = 1800.f ; iwcon:interval_write = 2678400.f ; iwcon:coordinates = "time_counter presnivs lat lon" ; float temp(time_counter, presnivs, lat, lon) ; temp:units = "K" ; temp:standard_name = "Air temperature" ; temp:_FillValue = 9.96921e+36f ; temp:long_name = "Air temperature" ; temp:online_operation = "ave(X)" ; temp:interval_operation = 1800.f ; temp:interval_write = 2678400.f ; temp:coordinates = "time_counter presnivs lat lon" ; float theta(time_counter, presnivs, lat, lon) ; theta:units = "K" ; theta:standard_name = "Potential air temperature" ; theta:_FillValue = 9.96921e+36f ; theta:long_name = "Potential air temperature" ; theta:online_operation = "ave(X)" ; theta:interval_operation = 1800.f ; theta:interval_write = 2678400.f ; theta:coordinates = "time_counter presnivs lat lon" ; float ovap(time_counter, presnivs, lat, lon) ; ovap:units = "kg/kg" ; ovap:standard_name = "Specific humidity" ; ovap:_FillValue = 9.96921e+36f ; ovap:long_name = "Specific humidity" ; ovap:online_operation = "ave(X)" ; ovap:interval_operation = 1800.f ; ovap:interval_write = 2678400.f ; ovap:coordinates = "time_counter presnivs lat lon" ; float ovapinit(time_counter, presnivs, lat, lon) ; ovapinit:units = "kg/kg" ; ovapinit:standard_name = "Specific humidity (begin of timestep)" ; ovapinit:_FillValue = 9.96921e+36f ; ovapinit:long_name = "Specific humidity (begin of timestep)" ; ovapinit:online_operation = "ave(X)" ; ovapinit:interval_operation = 1800.f ; ovapinit:interval_write = 2678400.f ; ovapinit:coordinates = "time_counter presnivs lat lon" ; float geop(time_counter, presnivs, lat, lon) ; geop:units = "m2/s2" ; geop:standard_name = "Geopotential height" ; geop:_FillValue = 9.96921e+36f ; geop:long_name = "Geopotential height" ; geop:online_operation = "ave(X)" ; geop:interval_operation = 1800.f ; geop:interval_write = 2678400.f ; geop:coordinates = "time_counter presnivs lat lon" ; float vitu(time_counter, presnivs, lat, lon) ; vitu:units = "m/s" ; vitu:standard_name = "Zonal wind" ; vitu:_FillValue = 9.96921e+36f ; vitu:long_name = "Zonal wind" ; vitu:online_operation = "ave(X)" ; vitu:interval_operation = 1800.f ; vitu:interval_write = 2678400.f ; vitu:coordinates = "time_counter presnivs lat lon" ; float vitv(time_counter, presnivs, lat, lon) ; vitv:units = "m/s" ; vitv:standard_name = "Meridional wind" ; vitv:_FillValue = 9.96921e+36f ; vitv:long_name = "Meridional wind" ; vitv:online_operation = "ave(X)" ; vitv:interval_operation = 1800.f ; vitv:interval_write = 2678400.f ; vitv:coordinates = "time_counter presnivs lat lon" ; float vitw(time_counter, presnivs, lat, lon) ; vitw:units = "Pa/s" ; vitw:standard_name = "Vertical wind" ; vitw:_FillValue = 9.96921e+36f ; vitw:long_name = "Vertical wind" ; vitw:online_operation = "ave(X)" ; vitw:interval_operation = 1800.f ; vitw:interval_write = 2678400.f ; vitw:coordinates = "time_counter presnivs lat lon" ; float pres(time_counter, presnivs, lat, lon) ; pres:units = "Pa" ; pres:standard_name = "Air pressure" ; pres:_FillValue = 9.96921e+36f ; pres:long_name = "Air pressure" ; pres:online_operation = "ave(X)" ; pres:interval_operation = 1800.f ; pres:interval_write = 2678400.f ; pres:coordinates = "time_counter presnivs lat lon" ; float paprs(time_counter, presnivs, lat, lon) ; paprs:units = "Pa" ; paprs:standard_name = "Air pressure Inter-Couches" ; paprs:_FillValue = 9.96921e+36f ; paprs:long_name = "Air pressure Inter-Couches" ; paprs:online_operation = "ave(X)" ; paprs:interval_operation = 1800.f ; paprs:interval_write = 2678400.f ; paprs:coordinates = "time_counter presnivs lat lon" ; float rneb(time_counter, presnivs, lat, lon) ; rneb:units = "-" ; rneb:standard_name = "Cloud fraction" ; rneb:_FillValue = 9.96921e+36f ; rneb:long_name = "Cloud fraction" ; rneb:online_operation = "ave(X)" ; rneb:interval_operation = 1800.f ; rneb:interval_write = 2678400.f ; rneb:coordinates = "time_counter presnivs lat lon" ; float rnebcon(time_counter, presnivs, lat, lon) ; rnebcon:units = "-" ; rnebcon:standard_name = "Convective Cloud Fraction" ; rnebcon:_FillValue = 9.96921e+36f ; rnebcon:long_name = "Convective Cloud Fraction" ; rnebcon:online_operation = "ave(X)" ; rnebcon:interval_operation = 1800.f ; rnebcon:interval_write = 2678400.f ; rnebcon:coordinates = "time_counter presnivs lat lon" ; float rhum(time_counter, presnivs, lat, lon) ; rhum:units = "-" ; rhum:standard_name = "Relative humidity" ; rhum:_FillValue = 9.96921e+36f ; rhum:long_name = "Relative humidity" ; rhum:online_operation = "ave(X)" ; rhum:interval_operation = 1800.f ; rhum:interval_write = 2678400.f ; rhum:coordinates = "time_counter presnivs lat lon" ; float ozone(time_counter, presnivs, lat, lon) ; ozone:units = "-" ; ozone:standard_name = "Ozone mole fraction" ; ozone:_FillValue = 9.96921e+36f ; ozone:long_name = "Ozone mole fraction" ; ozone:online_operation = "ave(X)" ; ozone:interval_operation = 1800.f ; ozone:interval_write = 2678400.f ; ozone:coordinates = "time_counter presnivs lat lon" ; float ozone_daylight(time_counter, presnivs, lat, lon) ; ozone_daylight:units = "-" ; ozone_daylight:standard_name = "Daylight ozone mole fraction" ; ozone_daylight:_FillValue = 9.96921e+36f ; ozone_daylight:long_name = "Daylight ozone mole fraction" ; ozone_daylight:online_operation = "ave(X)" ; ozone_daylight:interval_operation = 1800.f ; ozone_daylight:interval_write = 2678400.f ; ozone_daylight:coordinates = "time_counter presnivs lat lon" ; float dtphy(time_counter, presnivs, lat, lon) ; dtphy:units = "K/s" ; dtphy:standard_name = "Physics dT" ; dtphy:_FillValue = 9.96921e+36f ; dtphy:long_name = "Physics dT" ; dtphy:online_operation = "ave(X)" ; dtphy:interval_operation = 1800.f ; dtphy:interval_write = 2678400.f ; dtphy:coordinates = "time_counter presnivs lat lon" ; float dqphy(time_counter, presnivs, lat, lon) ; dqphy:units = "(kg/kg)/s" ; dqphy:standard_name = "Physics dQ" ; dqphy:_FillValue = 9.96921e+36f ; dqphy:long_name = "Physics dQ" ; dqphy:online_operation = "ave(X)" ; dqphy:interval_operation = 1800.f ; dqphy:interval_write = 2678400.f ; dqphy:coordinates = "time_counter presnivs lat lon" ; float pr_con_l(time_counter, presnivs, lat, lon) ; pr_con_l:standard_name = "Convective precipitation lic" ; pr_con_l:_FillValue = 9.96921e+36f ; pr_con_l:long_name = "Convective precipitation lic" ; pr_con_l:online_operation = "ave(X)" ; pr_con_l:interval_operation = 1800.f ; pr_con_l:interval_write = 2678400.f ; pr_con_l:coordinates = "time_counter presnivs lat lon" ; float pr_con_i(time_counter, presnivs, lat, lon) ; pr_con_i:standard_name = "Convective precipitation ice" ; pr_con_i:_FillValue = 9.96921e+36f ; pr_con_i:long_name = "Convective precipitation ice" ; pr_con_i:online_operation = "ave(X)" ; pr_con_i:interval_operation = 1800.f ; pr_con_i:interval_write = 2678400.f ; pr_con_i:coordinates = "time_counter presnivs lat lon" ; float pr_lsc_l(time_counter, presnivs, lat, lon) ; pr_lsc_l:standard_name = "Large scale precipitation lic" ; pr_lsc_l:_FillValue = 9.96921e+36f ; pr_lsc_l:long_name = "Large scale precipitation lic" ; pr_lsc_l:online_operation = "ave(X)" ; pr_lsc_l:interval_operation = 1800.f ; pr_lsc_l:interval_write = 2678400.f ; pr_lsc_l:coordinates = "time_counter presnivs lat lon" ; float pr_lsc_i(time_counter, presnivs, lat, lon) ; pr_lsc_i:standard_name = "Large scale precipitation ice" ; pr_lsc_i:_FillValue = 9.96921e+36f ; pr_lsc_i:long_name = "Large scale precipitation ice" ; pr_lsc_i:online_operation = "ave(X)" ; pr_lsc_i:interval_operation = 1800.f ; pr_lsc_i:interval_write = 2678400.f ; pr_lsc_i:coordinates = "time_counter presnivs lat lon" ; float re(time_counter, presnivs, lat, lon) ; re:units = "um" ; re:standard_name = "Cloud droplet effective radius" ; re:_FillValue = 9.96921e+36f ; re:long_name = "Cloud droplet effective radius" ; re:online_operation = "ave(X)" ; re:interval_operation = 1800.f ; re:interval_write = 2678400.f ; re:coordinates = "time_counter presnivs lat lon" ; float fl(time_counter, presnivs, lat, lon) ; fl:standard_name = "Denominator of Cloud droplet effective radius" ; fl:_FillValue = 9.96921e+36f ; fl:long_name = "Denominator of Cloud droplet effective radius" ; fl:online_operation = "ave(X)" ; fl:interval_operation = 1800.f ; fl:interval_write = 2678400.f ; fl:coordinates = "time_counter presnivs lat lon" ; float kz(time_counter, presnivs, lat, lon) ; kz:units = "m2/s" ; kz:standard_name = "Kz melange" ; kz:_FillValue = 9.96921e+36f ; kz:long_name = "Kz melange" ; kz:online_operation = "ave(X)" ; kz:interval_operation = 1800.f ; kz:interval_write = 2678400.f ; kz:coordinates = "time_counter presnivs lat lon" ; float kz_max(time_counter, presnivs, lat, lon) ; kz_max:units = "m2/s" ; kz_max:standard_name = "Kz melange max" ; kz_max:_FillValue = 9.96921e+36f ; kz_max:long_name = "Kz melange max" ; kz_max:online_operation = "t_max(X)" ; kz_max:interval_operation = 1800.f ; kz_max:interval_write = 2678400.f ; kz_max:coordinates = "time_counter presnivs lat lon" ; float clwcon(time_counter, presnivs, lat, lon) ; clwcon:units = "kg/kg" ; clwcon:standard_name = "Convective Cloud Liquid water content" ; clwcon:_FillValue = 9.96921e+36f ; clwcon:long_name = "Convective Cloud Liquid water content" ; clwcon:online_operation = "ave(X)" ; clwcon:interval_operation = 1800.f ; clwcon:interval_write = 2678400.f ; clwcon:coordinates = "time_counter presnivs lat lon" ; float dtdyn(time_counter, presnivs, lat, lon) ; dtdyn:units = "K/s" ; dtdyn:standard_name = "Dynamics dT" ; dtdyn:_FillValue = 9.96921e+36f ; dtdyn:long_name = "Dynamics dT" ; dtdyn:online_operation = "ave(X)" ; dtdyn:interval_operation = 1800.f ; dtdyn:interval_write = 2678400.f ; dtdyn:coordinates = "time_counter presnivs lat lon" ; float dqdyn(time_counter, presnivs, lat, lon) ; dqdyn:units = "(kg/kg)/s" ; dqdyn:standard_name = "Dynamics dQ" ; dqdyn:_FillValue = 9.96921e+36f ; dqdyn:long_name = "Dynamics dQ" ; dqdyn:online_operation = "ave(X)" ; dqdyn:interval_operation = 1800.f ; dqdyn:interval_write = 2678400.f ; dqdyn:coordinates = "time_counter presnivs lat lon" ; float dudyn(time_counter, presnivs, lat, lon) ; dudyn:units = "m/s2" ; dudyn:standard_name = "Dynamics dU" ; dudyn:_FillValue = 9.96921e+36f ; dudyn:long_name = "Dynamics dU" ; dudyn:online_operation = "ave(X)" ; dudyn:interval_operation = 1800.f ; dudyn:interval_write = 2678400.f ; dudyn:coordinates = "time_counter presnivs lat lon" ; float dvdyn(time_counter, presnivs, lat, lon) ; dvdyn:units = "m/s2" ; dvdyn:standard_name = "Dynamics dV" ; dvdyn:_FillValue = 9.96921e+36f ; dvdyn:long_name = "Dynamics dV" ; dvdyn:online_operation = "ave(X)" ; dvdyn:interval_operation = 1800.f ; dvdyn:interval_write = 2678400.f ; dvdyn:coordinates = "time_counter presnivs lat lon" ; float dtcon(time_counter, presnivs, lat, lon) ; dtcon:units = "K/s" ; dtcon:standard_name = "Convection dT" ; dtcon:_FillValue = 9.96921e+36f ; dtcon:long_name = "Convection dT" ; dtcon:online_operation = "ave(X)" ; dtcon:interval_operation = 1800.f ; dtcon:interval_write = 2678400.f ; dtcon:coordinates = "time_counter presnivs lat lon" ; float ducon(time_counter, presnivs, lat, lon) ; ducon:units = "m/s2" ; ducon:standard_name = "Convection du" ; ducon:_FillValue = 9.96921e+36f ; ducon:long_name = "Convection du" ; ducon:online_operation = "ave(X)" ; ducon:interval_operation = 1800.f ; ducon:interval_write = 2678400.f ; ducon:coordinates = "time_counter presnivs lat lon" ; float dqcon(time_counter, presnivs, lat, lon) ; dqcon:units = "(kg/kg)/s" ; dqcon:standard_name = "Convection dQ" ; dqcon:_FillValue = 9.96921e+36f ; dqcon:long_name = "Convection dQ" ; dqcon:online_operation = "ave(X)" ; dqcon:interval_operation = 1800.f ; dqcon:interval_write = 2678400.f ; dqcon:coordinates = "time_counter presnivs lat lon" ; float dtlsc(time_counter, presnivs, lat, lon) ; dtlsc:units = "K/s" ; dtlsc:standard_name = "Condensation dT" ; dtlsc:_FillValue = 9.96921e+36f ; dtlsc:long_name = "Condensation dT" ; dtlsc:online_operation = "ave(X)" ; dtlsc:interval_operation = 1800.f ; dtlsc:interval_write = 2678400.f ; dtlsc:coordinates = "time_counter presnivs lat lon" ; float dtlschr(time_counter, presnivs, lat, lon) ; dtlschr:units = "K/s" ; dtlschr:standard_name = "Large-scale condensational heating rate" ; dtlschr:_FillValue = 9.96921e+36f ; dtlschr:long_name = "Large-scale condensational heating rate" ; dtlschr:online_operation = "ave(X)" ; dtlschr:interval_operation = 1800.f ; dtlschr:interval_write = 2678400.f ; dtlschr:coordinates = "time_counter presnivs lat lon" ; float dqlsc(time_counter, presnivs, lat, lon) ; dqlsc:units = "(kg/kg)/s" ; dqlsc:standard_name = "Condensation dQ" ; dqlsc:_FillValue = 9.96921e+36f ; dqlsc:long_name = "Condensation dQ" ; dqlsc:online_operation = "ave(X)" ; dqlsc:interval_operation = 1800.f ; dqlsc:interval_write = 2678400.f ; dqlsc:coordinates = "time_counter presnivs lat lon" ; float dtvdf(time_counter, presnivs, lat, lon) ; dtvdf:units = "K/s" ; dtvdf:standard_name = "Boundary-layer dT" ; dtvdf:_FillValue = 9.96921e+36f ; dtvdf:long_name = "Boundary-layer dT" ; dtvdf:online_operation = "ave(X)" ; dtvdf:interval_operation = 1800.f ; dtvdf:interval_write = 2678400.f ; dtvdf:coordinates = "time_counter presnivs lat lon" ; float dqvdf(time_counter, presnivs, lat, lon) ; dqvdf:units = "(kg/kg)/s" ; dqvdf:standard_name = "Boundary-layer dQ" ; dqvdf:_FillValue = 9.96921e+36f ; dqvdf:long_name = "Boundary-layer dQ" ; dqvdf:online_operation = "ave(X)" ; dqvdf:interval_operation = 1800.f ; dqvdf:interval_write = 2678400.f ; dqvdf:coordinates = "time_counter presnivs lat lon" ; float dteva(time_counter, presnivs, lat, lon) ; dteva:units = "K/s" ; dteva:standard_name = "Reevaporation dT" ; dteva:_FillValue = 9.96921e+36f ; dteva:long_name = "Reevaporation dT" ; dteva:online_operation = "ave(X)" ; dteva:interval_operation = 1800.f ; dteva:interval_write = 2678400.f ; dteva:coordinates = "time_counter presnivs lat lon" ; float dqeva(time_counter, presnivs, lat, lon) ; dqeva:units = "(kg/kg)/s" ; dqeva:standard_name = "Reevaporation dQ" ; dqeva:_FillValue = 9.96921e+36f ; dqeva:long_name = "Reevaporation dQ" ; dqeva:online_operation = "ave(X)" ; dqeva:interval_operation = 1800.f ; dqeva:interval_write = 2678400.f ; dqeva:coordinates = "time_counter presnivs lat lon" ; float ptconv(time_counter, presnivs, lat, lon) ; ptconv:standard_name = "POINTS CONVECTIFS" ; ptconv:_FillValue = 9.96921e+36f ; ptconv:long_name = "POINTS CONVECTIFS" ; ptconv:online_operation = "ave(X)" ; ptconv:interval_operation = 1800.f ; ptconv:interval_write = 2678400.f ; ptconv:coordinates = "time_counter presnivs lat lon" ; float ratqs(time_counter, presnivs, lat, lon) ; ratqs:standard_name = "RATQS" ; ratqs:_FillValue = 9.96921e+36f ; ratqs:long_name = "RATQS" ; ratqs:online_operation = "ave(X)" ; ratqs:interval_operation = 1800.f ; ratqs:interval_write = 2678400.f ; ratqs:coordinates = "time_counter presnivs lat lon" ; float dtthe(time_counter, presnivs, lat, lon) ; dtthe:units = "K/s" ; dtthe:standard_name = "Dry adjust. dT" ; dtthe:_FillValue = 9.96921e+36f ; dtthe:long_name = "Dry adjust. dT" ; dtthe:online_operation = "ave(X)" ; dtthe:interval_operation = 1800.f ; dtthe:interval_write = 2678400.f ; dtthe:coordinates = "time_counter presnivs lat lon" ; float dtajs(time_counter, presnivs, lat, lon) ; dtajs:units = "K/s" ; dtajs:standard_name = "Dry adjust. dT" ; dtajs:_FillValue = 9.96921e+36f ; dtajs:long_name = "Dry adjust. dT" ; dtajs:online_operation = "ave(X)" ; dtajs:interval_operation = 1800.f ; dtajs:interval_write = 2678400.f ; dtajs:coordinates = "time_counter presnivs lat lon" ; float dqajs(time_counter, presnivs, lat, lon) ; dqajs:units = "(kg/kg)/s" ; dqajs:standard_name = "Dry adjust. dQ" ; dqajs:_FillValue = 9.96921e+36f ; dqajs:long_name = "Dry adjust. dQ" ; dqajs:online_operation = "ave(X)" ; dqajs:interval_operation = 1800.f ; dqajs:interval_write = 2678400.f ; dqajs:coordinates = "time_counter presnivs lat lon" ; float dtswr(time_counter, presnivs, lat, lon) ; dtswr:units = "K/s" ; dtswr:standard_name = "SW radiation dT" ; dtswr:_FillValue = 9.96921e+36f ; dtswr:long_name = "SW radiation dT" ; dtswr:online_operation = "ave(X)" ; dtswr:interval_operation = 1800.f ; dtswr:interval_write = 2678400.f ; dtswr:coordinates = "time_counter presnivs lat lon" ; float dtsw0(time_counter, presnivs, lat, lon) ; dtsw0:units = "K/s" ; dtsw0:standard_name = "CS SW radiation dT" ; dtsw0:_FillValue = 9.96921e+36f ; dtsw0:long_name = "CS SW radiation dT" ; dtsw0:online_operation = "ave(X)" ; dtsw0:interval_operation = 1800.f ; dtsw0:interval_write = 2678400.f ; dtsw0:coordinates = "time_counter presnivs lat lon" ; float dtlwr(time_counter, presnivs, lat, lon) ; dtlwr:units = "K/s" ; dtlwr:standard_name = "LW radiation dT" ; dtlwr:_FillValue = 9.96921e+36f ; dtlwr:long_name = "LW radiation dT" ; dtlwr:online_operation = "ave(X)" ; dtlwr:interval_operation = 1800.f ; dtlwr:interval_write = 2678400.f ; dtlwr:coordinates = "time_counter presnivs lat lon" ; float dtlw0(time_counter, presnivs, lat, lon) ; dtlw0:units = "K/s" ; dtlw0:standard_name = "CS LW radiation dT" ; dtlw0:_FillValue = 9.96921e+36f ; dtlw0:long_name = "CS LW radiation dT" ; dtlw0:online_operation = "ave(X)" ; dtlw0:interval_operation = 1800.f ; dtlw0:interval_write = 2678400.f ; dtlw0:coordinates = "time_counter presnivs lat lon" ; float dtec(time_counter, presnivs, lat, lon) ; dtec:units = "K/s" ; dtec:standard_name = "Cinetic dissip dT" ; dtec:_FillValue = 9.96921e+36f ; dtec:long_name = "Cinetic dissip dT" ; dtec:online_operation = "ave(X)" ; dtec:interval_operation = 1800.f ; dtec:interval_write = 2678400.f ; dtec:coordinates = "time_counter presnivs lat lon" ; float duvdf(time_counter, presnivs, lat, lon) ; duvdf:units = "m/s2" ; duvdf:standard_name = "Boundary-layer dU" ; duvdf:_FillValue = 9.96921e+36f ; duvdf:long_name = "Boundary-layer dU" ; duvdf:online_operation = "ave(X)" ; duvdf:interval_operation = 1800.f ; duvdf:interval_write = 2678400.f ; duvdf:coordinates = "time_counter presnivs lat lon" ; float dvvdf(time_counter, presnivs, lat, lon) ; dvvdf:units = "m/s2" ; dvvdf:standard_name = "Boundary-layer dV" ; dvvdf:_FillValue = 9.96921e+36f ; dvvdf:long_name = "Boundary-layer dV" ; dvvdf:online_operation = "ave(X)" ; dvvdf:interval_operation = 1800.f ; dvvdf:interval_write = 2678400.f ; dvvdf:coordinates = "time_counter presnivs lat lon" ; float duoro(time_counter, presnivs, lat, lon) ; duoro:units = "m/s2" ; duoro:standard_name = "Orography dU" ; duoro:_FillValue = 9.96921e+36f ; duoro:long_name = "Orography dU" ; duoro:online_operation = "ave(X)" ; duoro:interval_operation = 1800.f ; duoro:interval_write = 2678400.f ; duoro:coordinates = "time_counter presnivs lat lon" ; float dvoro(time_counter, presnivs, lat, lon) ; dvoro:units = "m/s2" ; dvoro:standard_name = "Orography dV" ; dvoro:_FillValue = 9.96921e+36f ; dvoro:long_name = "Orography dV" ; dvoro:online_operation = "ave(X)" ; dvoro:interval_operation = 1800.f ; dvoro:interval_write = 2678400.f ; dvoro:coordinates = "time_counter presnivs lat lon" ; float dulif(time_counter, presnivs, lat, lon) ; dulif:units = "m/s2" ; dulif:standard_name = "Orography dU" ; dulif:_FillValue = 9.96921e+36f ; dulif:long_name = "Orography dU" ; dulif:online_operation = "ave(X)" ; dulif:interval_operation = 1800.f ; dulif:interval_write = 2678400.f ; dulif:coordinates = "time_counter presnivs lat lon" ; float dvlif(time_counter, presnivs, lat, lon) ; dvlif:units = "m/s2" ; dvlif:standard_name = "Orography dV" ; dvlif:_FillValue = 9.96921e+36f ; dvlif:long_name = "Orography dV" ; dvlif:online_operation = "ave(X)" ; dvlif:interval_operation = 1800.f ; dvlif:interval_write = 2678400.f ; dvlif:coordinates = "time_counter presnivs lat lon" ; float duhin(time_counter, presnivs, lat, lon) ; duhin:units = "m/s2" ; duhin:standard_name = "Hines GWD dU" ; duhin:_FillValue = 9.96921e+36f ; duhin:long_name = "Hines GWD dU" ; duhin:online_operation = "ave(X)" ; duhin:interval_operation = 1800.f ; duhin:interval_write = 2678400.f ; duhin:coordinates = "time_counter presnivs lat lon" ; float dvhin(time_counter, presnivs, lat, lon) ; dvhin:units = "m/s2" ; dvhin:standard_name = "Hines GWD dV" ; dvhin:_FillValue = 9.96921e+36f ; dvhin:long_name = "Hines GWD dV" ; dvhin:online_operation = "ave(X)" ; dvhin:interval_operation = 1800.f ; dvhin:interval_write = 2678400.f ; dvhin:coordinates = "time_counter presnivs lat lon" ; float Aga(time_counter, presnivs, lat, lon) ; Aga:units = "-" ; Aga:standard_name = "Age stratospheric air" ; Aga:_FillValue = 9.96921e+36f ; Aga:long_name = "Age stratospheric air" ; Aga:online_operation = "ave(X)" ; Aga:interval_operation = 1800.f ; Aga:interval_write = 2678400.f ; Aga:coordinates = "time_counter presnivs lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmth.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/MO/v2.historical1_19800101_19800131_1M_histmthNMC.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_histmthNMC { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; plev = 17 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float plev(plev) ; plev:axis = "Z" ; plev:standard_name = "model_level_number" ; plev:units = "Pa" ; plev:positive = "down" ; plev:valid_min = 1000.f ; plev:valid_max = 100000.f ; plev:title = "plev" ; plev:long_name = "pressure" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float tnondef(time_counter, plev, lat, lon) ; tnondef:units = "-" ; tnondef:standard_name = "Valeurs non-definies" ; tnondef:_FillValue = 9.96921e+36f ; tnondef:long_name = "Valeurs non-definies" ; tnondef:online_operation = "ave(X)" ; tnondef:interval_operation = 2678400.f ; tnondef:interval_write = 2678400.f ; tnondef:coordinates = "time_counter plev lat lon" ; float ta(time_counter, plev, lat, lon) ; ta:units = "K" ; ta:standard_name = "Air temperature" ; ta:_FillValue = 9.96921e+36f ; ta:long_name = "Air temperature" ; ta:online_operation = "ave(X)" ; ta:interval_operation = 2678400.f ; ta:interval_write = 2678400.f ; ta:coordinates = "time_counter plev lat lon" ; float zg(time_counter, plev, lat, lon) ; zg:units = "m" ; zg:standard_name = "Geopotential height" ; zg:_FillValue = 9.96921e+36f ; zg:long_name = "Geopotential height" ; zg:online_operation = "ave(X)" ; zg:interval_operation = 2678400.f ; zg:interval_write = 2678400.f ; zg:coordinates = "time_counter plev lat lon" ; float hus(time_counter, plev, lat, lon) ; hus:units = "1" ; hus:standard_name = "Specific humidity" ; hus:_FillValue = 9.96921e+36f ; hus:long_name = "Specific humidity" ; hus:online_operation = "ave(X)" ; hus:interval_operation = 2678400.f ; hus:interval_write = 2678400.f ; hus:coordinates = "time_counter plev lat lon" ; float hur(time_counter, plev, lat, lon) ; hur:units = "%" ; hur:standard_name = "Relative humidity" ; hur:_FillValue = 9.96921e+36f ; hur:long_name = "Relative humidity" ; hur:online_operation = "ave(X)" ; hur:interval_operation = 2678400.f ; hur:interval_write = 2678400.f ; hur:coordinates = "time_counter plev lat lon" ; float ua(time_counter, plev, lat, lon) ; ua:units = "m s-1" ; ua:standard_name = "Eastward wind" ; ua:_FillValue = 9.96921e+36f ; ua:long_name = "Eastward wind" ; ua:online_operation = "ave(X)" ; ua:interval_operation = 2678400.f ; ua:interval_write = 2678400.f ; ua:coordinates = "time_counter plev lat lon" ; float va(time_counter, plev, lat, lon) ; va:units = "m s-1" ; va:standard_name = "Northward wind" ; va:_FillValue = 9.96921e+36f ; va:long_name = "Northward wind" ; va:online_operation = "ave(X)" ; va:interval_operation = 2678400.f ; va:interval_write = 2678400.f ; va:coordinates = "time_counter plev lat lon" ; float wap(time_counter, plev, lat, lon) ; wap:units = "Pa s-1" ; wap:standard_name = "Lagrangian tendency of air pressure" ; wap:_FillValue = 9.96921e+36f ; wap:long_name = "Lagrangian tendency of air pressure" ; wap:online_operation = "ave(X)" ; wap:interval_operation = 2678400.f ; wap:interval_write = 2678400.f ; wap:coordinates = "time_counter plev lat lon" ; float psbg(time_counter, plev, lat, lon) ; psbg:units = "%" ; psbg:standard_name = "Pressure sfce below ground" ; psbg:_FillValue = 9.96921e+36f ; psbg:long_name = "Pressure sfce below ground" ; psbg:online_operation = "ave(X)" ; psbg:interval_operation = 2678400.f ; psbg:interval_write = 2678400.f ; psbg:coordinates = "time_counter plev lat lon" ; float uv(time_counter, plev, lat, lon) ; uv:units = "m2/s2" ; uv:standard_name = "uv" ; uv:_FillValue = 9.96921e+36f ; uv:long_name = "uv" ; uv:online_operation = "ave(X)" ; uv:interval_operation = 2678400.f ; uv:interval_write = 2678400.f ; uv:coordinates = "time_counter plev lat lon" ; float vq(time_counter, plev, lat, lon) ; vq:units = "m/s * (kg/kg)" ; vq:standard_name = "vq" ; vq:_FillValue = 9.96921e+36f ; vq:long_name = "vq" ; vq:online_operation = "ave(X)" ; vq:interval_operation = 2678400.f ; vq:interval_write = 2678400.f ; vq:coordinates = "time_counter plev lat lon" ; float vT(time_counter, plev, lat, lon) ; vT:units = "mK/s" ; vT:standard_name = "vT" ; vT:_FillValue = 9.96921e+36f ; vT:long_name = "vT" ; vT:online_operation = "ave(X)" ; vT:interval_operation = 2678400.f ; vT:interval_write = 2678400.f ; vT:coordinates = "time_counter plev lat lon" ; float wq(time_counter, plev, lat, lon) ; wq:units = "(Pa/s)*(kg/kg)" ; wq:standard_name = "wq" ; wq:_FillValue = 9.96921e+36f ; wq:long_name = "wq" ; wq:online_operation = "ave(X)" ; wq:interval_operation = 2678400.f ; wq:interval_write = 2678400.f ; wq:coordinates = "time_counter plev lat lon" ; float vphi(time_counter, plev, lat, lon) ; vphi:units = "m2/s" ; vphi:standard_name = "vphi" ; vphi:_FillValue = 9.96921e+36f ; vphi:long_name = "vphi" ; vphi:online_operation = "ave(X)" ; vphi:interval_operation = 2678400.f ; vphi:interval_write = 2678400.f ; vphi:coordinates = "time_counter plev lat lon" ; float wT(time_counter, plev, lat, lon) ; wT:units = "K*Pa/s" ; wT:standard_name = "wT" ; wT:_FillValue = 9.96921e+36f ; wT:long_name = "wT" ; wT:online_operation = "ave(X)" ; wT:interval_operation = 2678400.f ; wT:interval_write = 2678400.f ; wT:coordinates = "time_counter plev lat lon" ; float uxu(time_counter, plev, lat, lon) ; uxu:units = "m2/s2" ; uxu:standard_name = "u2" ; uxu:_FillValue = 9.96921e+36f ; uxu:long_name = "u2" ; uxu:online_operation = "ave(X)" ; uxu:interval_operation = 2678400.f ; uxu:interval_write = 2678400.f ; uxu:coordinates = "time_counter plev lat lon" ; float vxv(time_counter, plev, lat, lon) ; vxv:units = "m2/s2" ; vxv:standard_name = "v2" ; vxv:_FillValue = 9.96921e+36f ; vxv:long_name = "v2" ; vxv:online_operation = "ave(X)" ; vxv:interval_operation = 2678400.f ; vxv:interval_write = 2678400.f ; vxv:coordinates = "time_counter plev lat lon" ; float TxT(time_counter, plev, lat, lon) ; TxT:units = "K2" ; TxT:standard_name = "T2" ; TxT:_FillValue = 9.96921e+36f ; TxT:long_name = "T2" ; TxT:online_operation = "ave(X)" ; TxT:interval_operation = 2678400.f ; TxT:interval_write = 2678400.f ; TxT:coordinates = "time_counter plev lat lon" ; float tro3(time_counter, plev, lat, lon) ; tro3:units = "1e-9" ; tro3:standard_name = "Ozone mole fraction" ; tro3:_FillValue = 9.96921e+36f ; tro3:long_name = "Ozone mole fraction" ; tro3:online_operation = "ave(X)" ; tro3:interval_operation = 2678400.f ; tro3:interval_write = 2678400.f ; tro3:coordinates = "time_counter plev lat lon" ; float tro3_daylight(time_counter, plev, lat, lon) ; tro3_daylight:units = "1e-9" ; tro3_daylight:standard_name = "Daylight ozone mole fraction" ; tro3_daylight:_FillValue = 9.96921e+36f ; tro3_daylight:long_name = "Daylight ozone mole fraction" ; tro3_daylight:online_operation = "ave(X)" ; tro3_daylight:interval_operation = 2678400.f ; tro3_daylight:interval_write = 2678400.f ; tro3_daylight:coordinates = "time_counter plev lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histmthNMC.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == CPL/Output/MO/v2.historical1_19800101_19800131_1M_cpl_atm.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_cpl_atm { dimensions: X = 9216 ; Y = 1 ; C = 4 ; time = UNLIMITED ; // (1 currently) variables: float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; double SIICEALW(time, Y, X) ; SIICEALW:long_name = "surface_albedo" ; SIICEALW:units = "1" ; SIICEALW:coordinates = "lon lat" ; double SIICECOV(time, Y, X) ; SIICECOV:long_name = "sea_ice_area_fraction" ; SIICECOV:units = "1" ; SIICECOV:coordinates = "lon lat" ; double SIICTEMW(time, Y, X) ; SIICTEMW:long_name = "surface_temperature" ; SIICTEMW:units = "K" ; SIICTEMW:coordinates = "lon lat" ; double SISUTESW(time, Y, X) ; SISUTESW:long_name = "sea_surface_temperature" ; SISUTESW:units = "K" ; SISUTESW:coordinates = "lon lat" ; double COCALVIN(time, Y, X) ; COCALVIN:long_name = "water_flux_into_ocean_from_ice_sheet" ; COCALVIN:units = "kg m-2 s-1" ; COCALVIN:coordinates = "lon lat" ; double CODFLXDT(time, Y, X) ; CODFLXDT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; CODFLXDT:units = "W m-2" ; CODFLXDT:coordinates = "lon lat" ; double COICEVAP(time, Y, X) ; COICEVAP:long_name = "water_evaporation_flux_where_sea_ice" ; COICEVAP:units = "kg m-2 s-1" ; COICEVAP:coordinates = "lon lat" ; double COLIQRUN(time, Y, X) ; COLIQRUN:long_name = "water_flux_into_ocean_from_rivers" ; COLIQRUN:units = "kg m-2 s-1" ; COLIQRUN:coordinates = "lon lat" ; double CONSFICE(time, Y, X) ; CONSFICE:long_name = "surface_downward_non_shortwave_heat_flux" ; CONSFICE:units = "W m-2" ; CONSFICE:coordinates = "lon lat" ; double COQNSMIX(time, Y, X) ; COQNSMIX:long_name = "surface_downward_non_shortwave_heat_flux" ; COQNSMIX:units = "W m-2" ; COQNSMIX:coordinates = "lon lat" ; double COQSRMIX(time, Y, X) ; COQSRMIX:long_name = "surface_net_downward_shortwave_flux" ; COQSRMIX:units = "W m-2" ; COQSRMIX:coordinates = "lon lat" ; double COSHFICE(time, Y, X) ; COSHFICE:long_name = "surface_net_downward_shortwave_flux" ; COSHFICE:units = "W m-2" ; COSHFICE:coordinates = "lon lat" ; double COTAUXXU(time, Y, X) ; COTAUXXU:long_name = "surface_downward_grid_eastward_stress" ; COTAUXXU:units = "Pa" ; COTAUXXU:coordinates = "lon lat" ; double COTAUXXV(time, Y, X) ; COTAUXXV:long_name = "surface_downward_grid_northward_stress" ; COTAUXXV:units = "Pa" ; COTAUXXV:coordinates = "lon lat" ; double COTAUYYU(time, Y, X) ; COTAUYYU:long_name = "surface_downward_grid_eastward_stress" ; COTAUYYU:units = "Pa" ; COTAUYYU:coordinates = "lon lat" ; double COTAUYYV(time, Y, X) ; COTAUYYV:long_name = "surface_downward_grid_northward_stress" ; COTAUYYV:units = "Pa" ; COTAUYYV:coordinates = "lon lat" ; double COTAUZZU(time, Y, X) ; COTAUZZU:long_name = "surface_downward_grid_eastward_stress" ; COTAUZZU:units = "Pa" ; COTAUZZU:coordinates = "lon lat" ; double COTAUZZV(time, Y, X) ; COTAUZZV:long_name = "surface_downward_grid_northward_stress" ; COTAUZZV:units = "Pa" ; COTAUZZV:coordinates = "lon lat" ; double COTOTEVA(time, Y, X) ; COTOTEVA:long_name = "water_evaporation_flux" ; COTOTEVA:units = "1" ; COTOTEVA:coordinates = "lon lat" ; double COTOTRAI(time, Y, X) ; COTOTRAI:long_name = "surface_precipitation_flux" ; COTOTRAI:units = "kg m-2 s-1" ; COTOTRAI:coordinates = "lon lat" ; double COTOTSNO(time, Y, X) ; COTOTSNO:long_name = "snow_fall_flux" ; COTOTSNO:units = "kg m-2 s-1" ; COTOTSNO:coordinates = "lon lat" ; double COWINDSP(time, Y, X) ; COWINDSP:long_name = "wind_speed_at_10m" ; COWINDSP:units = "m s-1" ; COWINDSP:coordinates = "lon lat" ; double CURRENTX(time, Y, X) ; CURRENTX:long_name = "sea_water_speed" ; CURRENTX:units = "m s-1" ; CURRENTX:coordinates = "lon lat" ; double CURRENTY(time, Y, X) ; CURRENTY:long_name = "sea_water_speed" ; CURRENTY:units = "m s-1" ; CURRENTY:coordinates = "lon lat" ; double CURRENTZ(time, Y, X) ; CURRENTZ:long_name = "sea_water_speed" ; CURRENTZ:units = "m s-1" ; CURRENTZ:coordinates = "lon lat" ; // global attributes: :filename = "CURRENTZ_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:20:34 2010: ncra -A CURRENTZ_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:33 2010: ncra -A CURRENTY_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:31 2010: ncra -A CURRENTX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:30 2010: ncra -A COWINDSP_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:29 2010: ncra -A COTOTSNO_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:28 2010: ncra -A COTOTRAI_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:27 2010: ncra -A COTOTEVA_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:26 2010: ncra -A COTAUZZV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:25 2010: ncra -A COTAUZZU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:25 2010: ncra -A COTAUYYV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:24 2010: ncra -A COTAUYYU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:23 2010: ncra -A COTAUXXV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:22 2010: ncra -A COTAUXXU_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:21 2010: ncra -A COSHFICE_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:20 2010: ncra -A COQSRMIX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:19 2010: ncra -A COQNSMIX_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:19 2010: ncra -A CONSFICE_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncra -A COLIQRUN_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncra -A COICEVAP_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:17 2010: ncra -A CODFLXDT_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:16 2010: ncra -A COCALVIN_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:15 2010: ncra -A SISUTESW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:15 2010: ncra -A SIICTEMW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncra -A SIICECOV_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncra -A SIICEALW_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_atm.nc" ; :nco_openmp_thread_number = 4 ; } }}} == CPL/Output/MO/v2.historical1_19800101_19800131_1M_cpl_oce.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_cpl_oce { dimensions: X = 182 ; Y = 149 ; C = 4 ; time = UNLIMITED ; // (1 currently) variables: float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; double OCalving(time, Y, X) ; OCalving:long_name = "water_flux_into_ocean_from_ice_sheet" ; OCalving:units = "kg m-2 s-1" ; OCalving:coordinates = "lon lat" ; double OIceEvap(time, Y, X) ; OIceEvap:long_name = "water_evaporation_flux_where_sea_ice" ; OIceEvap:units = "kg m-2 s-1" ; OIceEvap:coordinates = "lon lat" ; double OIceFrac(time, Y, X) ; OIceFrac:long_name = "sea_ice_area_fraction" ; OIceFrac:units = "1" ; OIceFrac:coordinates = "lon lat" ; double OTotEvap(time, Y, X) ; OTotEvap:long_name = "water_evaporation_flux" ; OTotEvap:units = "1" ; OTotEvap:coordinates = "lon lat" ; double OTotRain(time, Y, X) ; OTotRain:long_name = "surface_precipitation_flux" ; OTotRain:units = "kg m-2 s-1" ; OTotRain:coordinates = "lon lat" ; double OTotSnow(time, Y, X) ; OTotSnow:long_name = "snow_fall_flux" ; OTotSnow:units = "kg m-2 s-1" ; OTotSnow:coordinates = "lon lat" ; double O_AlbIce(time, Y, X) ; O_AlbIce:long_name = "surface_albedo" ; O_AlbIce:units = "1" ; O_AlbIce:coordinates = "lon lat" ; double O_OCurx1(time, Y, X) ; O_OCurx1:long_name = "sea_water_speed" ; O_OCurx1:units = "m s-1" ; O_OCurx1:coordinates = "lon lat" ; double O_OCury1(time, Y, X) ; O_OCury1:long_name = "sea_water_speed" ; O_OCury1:units = "m s-1" ; O_OCury1:coordinates = "lon lat" ; double O_OCurz1(time, Y, X) ; O_OCurz1:long_name = "sea_water_speed" ; O_OCurz1:units = "m s-1" ; O_OCurz1:coordinates = "lon lat" ; double O_OTaux1(time, Y, X) ; O_OTaux1:long_name = "surface_downward_grid_eastward_stress" ; O_OTaux1:units = "Pa" ; O_OTaux1:coordinates = "lon lat" ; double O_OTaux2(time, Y, X) ; O_OTaux2:long_name = "surface_downward_grid_northward_stress" ; O_OTaux2:units = "Pa" ; O_OTaux2:coordinates = "lon lat" ; double O_OTauy1(time, Y, X) ; O_OTauy1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauy1:units = "Pa" ; O_OTauy1:coordinates = "lon lat" ; double O_OTauy2(time, Y, X) ; O_OTauy2:long_name = "surface_downward_grid_northward_stress" ; O_OTauy2:units = "Pa" ; O_OTauy2:coordinates = "lon lat" ; double O_OTauz1(time, Y, X) ; O_OTauz1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauz1:units = "Pa" ; O_OTauz1:coordinates = "lon lat" ; double O_OTauz2(time, Y, X) ; O_OTauz2:long_name = "surface_downward_grid_northward_stress" ; O_OTauz2:units = "Pa" ; O_OTauz2:coordinates = "lon lat" ; double O_QnsIce(time, Y, X) ; O_QnsIce:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsIce:units = "W m-2" ; O_QnsIce:coordinates = "lon lat" ; double O_QnsMix(time, Y, X) ; O_QnsMix:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsMix:units = "W m-2" ; O_QnsMix:coordinates = "lon lat" ; double O_QsrIce(time, Y, X) ; O_QsrIce:long_name = "surface_net_downward_shortwave_flux" ; O_QsrIce:units = "W m-2" ; O_QsrIce:coordinates = "lon lat" ; double O_QsrMix(time, Y, X) ; O_QsrMix:long_name = "surface_net_downward_shortwave_flux" ; O_QsrMix:units = "W m-2" ; O_QsrMix:coordinates = "lon lat" ; double O_Runoff(time, Y, X) ; O_Runoff:long_name = "water_flux_into_ocean_from_rivers" ; O_Runoff:units = "kg m-2 s-1" ; O_Runoff:coordinates = "lon lat" ; double O_SSTSST(time, Y, X) ; O_SSTSST:long_name = "sea_surface_temperature" ; O_SSTSST:units = "K" ; O_SSTSST:coordinates = "lon lat" ; double O_TepIce(time, Y, X) ; O_TepIce:long_name = "surface_temperature" ; O_TepIce:units = "K" ; O_TepIce:coordinates = "lon lat" ; double O_Wind10(time, Y, X) ; O_Wind10:long_name = "wind_speed_at_10m" ; O_Wind10:units = "m s-1" ; O_Wind10:coordinates = "lon lat" ; double O_dQnsdT(time, Y, X) ; O_dQnsdT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; O_dQnsdT:units = "W m-2" ; O_dQnsdT:coordinates = "lon lat" ; // global attributes: :filename = "O_dQnsdT_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:21:15 2010: ncra -A O_dQnsdT_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:12 2010: ncra -A O_Wind10_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:09 2010: ncra -A O_TepIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:07 2010: ncra -A O_SSTSST_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:03 2010: ncra -A O_Runoff_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:21:01 2010: ncra -A O_QsrMix_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:59 2010: ncra -A O_QsrIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:56 2010: ncra -A O_QnsMix_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:55 2010: ncra -A O_QnsIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:53 2010: ncra -A O_OTauz2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:51 2010: ncra -A O_OTauz1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:50 2010: ncra -A O_OTauy2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:48 2010: ncra -A O_OTauy1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:47 2010: ncra -A O_OTaux2_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:45 2010: ncra -A O_OTaux1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:44 2010: ncra -A O_OCurz1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:43 2010: ncra -A O_OCury1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:42 2010: ncra -A O_OCurx1_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:40 2010: ncra -A O_AlbIce_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:39 2010: ncra -A OTotSnow_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:38 2010: ncra -A OTotRain_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:37 2010: ncra -A OTotEvap_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:36 2010: ncra -A OIceFrac_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:35 2010: ncra -A OIceEvap_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc\n", "Mon Oct 25 01:20:34 2010: ncra -A OCalving_out.1980-01-01T00:00:00.nc TEMPO_1M_cpl_oce.nc" ; :nco_openmp_thread_number = 4 ; } }}} == ICE/Output/MO/v2.historical1_19800101_19800131_1M_icemod.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_icemod { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float bmelt(time_counter, y, x) ; bmelt:units = "kg/m2/s" ; bmelt:standard_name = "Rate of Melt at Sea Ice Base" ; bmelt:_FillValue = 9.96921e+36f ; bmelt:long_name = "Rate of Melt at Sea Ice Base" ; bmelt:online_operation = "ave(X)" ; bmelt:interval_operation = 28800.f ; bmelt:interval_write = -1.f ; bmelt:coordinates = "time_counter nav_lat nav_lon" ; float evap(time_counter, y, x) ; evap:units = "kg/m2/s" ; evap:standard_name = "water_evaporation_flux" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "water_evaporation_flux" ; evap:online_operation = "ave(X)" ; evap:interval_operation = 28800.f ; evap:interval_write = -1.f ; evap:coordinates = "time_counter nav_lat nav_lon" ; float grLateral(time_counter, y, x) ; grLateral:units = "kg/m2/s" ; grLateral:standard_name = "Lateral Sea Ice Growth Rate" ; grLateral:_FillValue = 9.96921e+36f ; grLateral:long_name = "Lateral Sea Ice Growth Rate" ; grLateral:online_operation = "ave(X)" ; grLateral:interval_operation = 28800.f ; grLateral:interval_write = -1.f ; grLateral:coordinates = "time_counter nav_lat nav_lon" ; float ialb(time_counter, y, x) ; ialb:units = "1" ; ialb:standard_name = "Bare Sea Ice Albedo" ; ialb:_FillValue = 9.96921e+36f ; ialb:long_name = "Bare Sea Ice Albedo" ; ialb:online_operation = "ave(X)" ; ialb:interval_operation = 28800.f ; ialb:interval_write = -1.f ; ialb:coordinates = "time_counter nav_lat nav_lon" ; float ice_pres(time_counter, y, x) ; ice_pres:units = "-" ; ice_pres:standard_name = "Ice presence" ; ice_pres:_FillValue = 9.96921e+36f ; ice_pres:long_name = "Ice presence" ; ice_pres:online_operation = "ave(X)" ; ice_pres:interval_operation = 28800.f ; ice_pres:interval_write = -1.f ; ice_pres:coordinates = "time_counter nav_lat nav_lon" ; float iicetemp(time_counter, y, x) ; iicetemp:units = "degC" ; iicetemp:standard_name = "Ice surface temperature (ice presence average)" ; iicetemp:_FillValue = 9.96921e+36f ; iicetemp:long_name = "Ice surface temperature (ice presence average)" ; iicetemp:online_operation = "ave(X)" ; iicetemp:interval_operation = 28800.f ; iicetemp:interval_write = -1.f ; iicetemp:coordinates = "time_counter nav_lat nav_lon" ; float iicethic(time_counter, y, x) ; iicethic:units = "m" ; iicethic:standard_name = "sea_ice_thickness" ; iicethic:_FillValue = 9.96921e+36f ; iicethic:long_name = "sea_ice_thickness" ; iicethic:online_operation = "ave(X)" ; iicethic:interval_operation = 28800.f ; iicethic:interval_write = -1.f ; iicethic:coordinates = "time_counter nav_lat nav_lon" ; float iicevelu(time_counter, y, x) ; iicevelu:units = "m/s" ; iicevelu:standard_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:_FillValue = 9.96921e+36f ; iicevelu:long_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:online_operation = "ave(X)" ; iicevelu:interval_operation = 28800.f ; iicevelu:interval_write = -1.f ; iicevelu:coordinates = "time_counter nav_lat nav_lon" ; float iicevelv(time_counter, y, x) ; iicevelv:units = "m/s" ; iicevelv:standard_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:_FillValue = 9.96921e+36f ; iicevelv:long_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:online_operation = "ave(X)" ; iicevelv:interval_operation = 28800.f ; iicevelv:interval_write = -1.f ; iicevelv:coordinates = "time_counter nav_lat nav_lon" ; float ileadfra(time_counter, y, x) ; ileadfra:units = "1" ; ileadfra:standard_name = "sea_ice_area_fraction" ; ileadfra:_FillValue = 9.96921e+36f ; ileadfra:long_name = "sea_ice_area_fraction" ; ileadfra:online_operation = "ave(X)" ; ileadfra:interval_operation = 28800.f ; ileadfra:interval_write = -1.f ; ileadfra:coordinates = "time_counter nav_lat nav_lon" ; float isnowthi(time_counter, y, x) ; isnowthi:units = "m" ; isnowthi:standard_name = "surface_snow_thickness" ; isnowthi:_FillValue = 9.96921e+36f ; isnowthi:long_name = "surface_snow_thickness" ; isnowthi:online_operation = "ave(X)" ; isnowthi:interval_operation = 28800.f ; isnowthi:interval_write = -1.f ; isnowthi:coordinates = "time_counter nav_lat nav_lon" ; float prsn(time_counter, y, x) ; prsn:units = "kg/m2/s" ; prsn:standard_name = "Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" ; prsn:_FillValue = 9.96921e+36f ; prsn:long_name = "Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" ; prsn:online_operation = "ave(X)" ; prsn:interval_operation = 28800.f ; prsn:interval_write = -1.f ; prsn:coordinates = "time_counter nav_lat nav_lon" ; float rsdssi(time_counter, y, x) ; rsdssi:units = "W/m2" ; rsdssi:standard_name = "surface_downwelling_shortwave_flux_in_air" ; rsdssi:_FillValue = 9.96921e+36f ; rsdssi:long_name = "surface_downwelling_shortwave_flux_in_air" ; rsdssi:online_operation = "ave(X)" ; rsdssi:interval_operation = 28800.f ; rsdssi:interval_write = -1.f ; rsdssi:coordinates = "time_counter nav_lat nav_lon" ; float sblsi(time_counter, y, x) ; sblsi:units = "kg/m2/s" ; sblsi:standard_name = "surface_snow_and_ice_sublimation_flux" ; sblsi:_FillValue = 9.96921e+36f ; sblsi:long_name = "surface_snow_and_ice_sublimation_flux" ; sblsi:online_operation = "ave(X)" ; sblsi:interval_operation = 28800.f ; sblsi:interval_write = -1.f ; sblsi:coordinates = "time_counter nav_lat nav_lon" ; float snoToIce(time_counter, y, x) ; snoToIce:units = "kg/m2/s" ; snoToIce:standard_name = "Snow-Ice Formation Rate" ; snoToIce:_FillValue = 9.96921e+36f ; snoToIce:long_name = "Snow-Ice Formation Rate" ; snoToIce:online_operation = "ave(X)" ; snoToIce:interval_operation = 28800.f ; snoToIce:interval_write = -1.f ; snoToIce:coordinates = "time_counter nav_lat nav_lon" ; float snomelt(time_counter, y, x) ; snomelt:units = "kg/m2/s" ; snomelt:standard_name = "Snow Melt Rate" ; snomelt:_FillValue = 9.96921e+36f ; snomelt:long_name = "Snow Melt Rate" ; snomelt:online_operation = "ave(X)" ; snomelt:interval_operation = 28800.f ; snomelt:interval_write = -1.f ; snomelt:coordinates = "time_counter nav_lat nav_lon" ; float soicecov(time_counter, y, x) ; soicecov:units = "1" ; soicecov:standard_name = "sea_ice_area_fraction" ; soicecov:_FillValue = 9.96921e+36f ; soicecov:long_name = "sea_ice_area_fraction" ; soicecov:online_operation = "ave(X)" ; soicecov:interval_operation = 28800.f ; soicecov:interval_write = -1.f ; soicecov:coordinates = "time_counter nav_lat nav_lon" ; float strairx(time_counter, y, x) ; strairx:units = "N/m2" ; strairx:standard_name = "Eastward Atmospheric Stress On Sea Ice" ; strairx:_FillValue = 9.96921e+36f ; strairx:long_name = "Eastward Atmospheric Stress On Sea Ice" ; strairx:online_operation = "ave(X)" ; strairx:interval_operation = 28800.f ; strairx:interval_write = -1.f ; strairx:coordinates = "time_counter nav_lat nav_lon" ; float strairy(time_counter, y, x) ; strairy:units = "N/m2" ; strairy:standard_name = "Northward Atmospheric Stress On Sea Ice" ; strairy:_FillValue = 9.96921e+36f ; strairy:long_name = "Northward Atmospheric Stress On Sea Ice" ; strairy:online_operation = "ave(X)" ; strairy:interval_operation = 28800.f ; strairy:interval_write = -1.f ; strairy:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float tmelt(time_counter, y, x) ; tmelt:units = "kg/m2/s" ; tmelt:standard_name = "Rate of Melt at Upper Surface of Sea Ice" ; tmelt:_FillValue = 9.96921e+36f ; tmelt:long_name = "Rate of Melt at Upper Surface of Sea Ice" ; tmelt:online_operation = "ave(X)" ; tmelt:interval_operation = 28800.f ; tmelt:interval_write = -1.f ; tmelt:coordinates = "time_counter nav_lat nav_lon" ; float transifs(time_counter, y, x) ; transifs:units = "kg/s" ; transifs:standard_name = "Sea Ice Mass Transport Through Fram Strait" ; transifs:_FillValue = 9.96921e+36f ; transifs:long_name = "Sea Ice Mass Transport Through Fram Strait" ; transifs:online_operation = "ave(X)" ; transifs:interval_operation = 5760.f ; transifs:interval_write = -1.f ; transifs:coordinates = "time_counter nav_lat nav_lon" ; float transix(time_counter, y, x) ; transix:units = "kg/s" ; transix:standard_name = "Eastward Sea Ice Transport" ; transix:_FillValue = 9.96921e+36f ; transix:long_name = "Eastward Sea Ice Transport" ; transix:online_operation = "ave(X)" ; transix:interval_operation = 28800.f ; transix:interval_write = -1.f ; transix:coordinates = "time_counter nav_lat nav_lon" ; float transiy(time_counter, y, x) ; transiy:units = "kg/s" ; transiy:standard_name = "Northward Sea Ice Transport" ; transiy:_FillValue = 9.96921e+36f ; transiy:long_name = "Northward Sea Ice Transport" ; transiy:online_operation = "ave(X)" ; transiy:interval_operation = 28800.f ; transiy:interval_write = -1.f ; transiy:coordinates = "time_counter nav_lat nav_lon" ; float tsice(time_counter, y, x) ; tsice:units = "degC" ; tsice:standard_name = "Surface Temperature of Sea Ice" ; tsice:_FillValue = 9.96921e+36f ; tsice:long_name = "Surface Temperature of Sea Ice" ; tsice:online_operation = "ave(X)" ; tsice:interval_operation = 28800.f ; tsice:interval_write = -1.f ; tsice:coordinates = "time_counter nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_icemod.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_dbio_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_dbio_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float CHLT(time_counter, deptht, y, x) ; CHLT:units = "gChl/L" ; CHLT:standard_name = "Total chlorophyll Concentration" ; CHLT:_FillValue = 9.96921e+36f ; CHLT:long_name = "Total chlorophyll Concentration" ; CHLT:online_operation = "ave(X)" ; CHLT:interval_operation = 5760.f ; CHLT:interval_write = -1.f ; CHLT:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPC(time_counter, deptht, y, x) ; EXPC:units = "molC/m2/s" ; EXPC:standard_name = "Export of carbon" ; EXPC:_FillValue = 9.96921e+36f ; EXPC:long_name = "Export of carbon" ; EXPC:online_operation = "ave(X)" ; EXPC:interval_operation = 5760.f ; EXPC:interval_write = -1.f ; EXPC:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPCAL(time_counter, deptht, y, x) ; EXPCAL:units = "molC/m2/s" ; EXPCAL:standard_name = "Export of Calcite" ; EXPCAL:_FillValue = 9.96921e+36f ; EXPCAL:long_name = "Export of Calcite" ; EXPCAL:online_operation = "ave(X)" ; EXPCAL:interval_operation = 5760.f ; EXPCAL:interval_write = -1.f ; EXPCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPFE(time_counter, deptht, y, x) ; EXPFE:units = "molFe/m2/s" ; EXPFE:standard_name = "Export of biogenic iron" ; EXPFE:_FillValue = 9.96921e+36f ; EXPFE:long_name = "Export of biogenic iron" ; EXPFE:online_operation = "ave(X)" ; EXPFE:interval_operation = 5760.f ; EXPFE:interval_write = -1.f ; EXPFE:coordinates = "time_counter deptht nav_lat nav_lon" ; float EXPSI(time_counter, deptht, y, x) ; EXPSI:units = "molSi/m2/s" ; EXPSI:standard_name = "Export of Silicate" ; EXPSI:_FillValue = 9.96921e+36f ; EXPSI:long_name = "Export of Silicate" ; EXPSI:online_operation = "ave(X)" ; EXPSI:interval_operation = 5760.f ; EXPSI:interval_write = -1.f ; EXPSI:coordinates = "time_counter deptht nav_lat nav_lon" ; float INTDIC(time_counter, y, x) ; INTDIC:units = "kg/m2" ; INTDIC:standard_name = "DIC content" ; INTDIC:_FillValue = 9.96921e+36f ; INTDIC:long_name = "DIC content" ; INTDIC:online_operation = "ave(X)" ; INTDIC:interval_operation = 5760.f ; INTDIC:interval_write = -1.f ; INTDIC:coordinates = "time_counter nav_lat nav_lon" ; float INTNFIX(time_counter, y, x) ; INTNFIX:units = "molN/m2/s" ; INTNFIX:standard_name = "Nitrogen fixation rate : vert. integrated" ; INTNFIX:_FillValue = 9.96921e+36f ; INTNFIX:long_name = "Nitrogen fixation rate : vert. integrated" ; INTNFIX:online_operation = "ave(X)" ; INTNFIX:interval_operation = 5760.f ; INTNFIX:interval_write = -1.f ; INTNFIX:coordinates = "time_counter nav_lat nav_lon" ; float INTPBFE(time_counter, y, x) ; INTPBFE:units = "molFe/m2/s" ; INTPBFE:standard_name = "Vertically integrated of biogenic iron production" ; INTPBFE:_FillValue = 9.96921e+36f ; INTPBFE:long_name = "Vertically integrated of biogenic iron production" ; INTPBFE:online_operation = "ave(X)" ; INTPBFE:interval_operation = 5760.f ; INTPBFE:interval_write = -1.f ; INTPBFE:coordinates = "time_counter nav_lat nav_lon" ; float INTPBSI(time_counter, y, x) ; INTPBSI:units = "molSi/m2/s" ; INTPBSI:standard_name = "Vertically integrated of biogenic Si production" ; INTPBSI:_FillValue = 9.96921e+36f ; INTPBSI:long_name = "Vertically integrated of biogenic Si production" ; INTPBSI:online_operation = "ave(X)" ; INTPBSI:interval_operation = 5760.f ; INTPBSI:interval_write = -1.f ; INTPBSI:coordinates = "time_counter nav_lat nav_lon" ; float INTPCAL(time_counter, y, x) ; INTPCAL:units = "molSi/m2/s" ; INTPCAL:standard_name = "Vertically integrated of calcite production" ; INTPCAL:_FillValue = 9.96921e+36f ; INTPCAL:long_name = "Vertically integrated of calcite production" ; INTPCAL:online_operation = "ave(X)" ; INTPCAL:interval_operation = 5760.f ; INTPCAL:interval_write = -1.f ; INTPCAL:coordinates = "time_counter nav_lat nav_lon" ; float INTPNEW(time_counter, y, x) ; INTPNEW:units = "molC/m2/s" ; INTPNEW:standard_name = "Vertically integrated new primary production" ; INTPNEW:_FillValue = 9.96921e+36f ; INTPNEW:long_name = "Vertically integrated new primary production" ; INTPNEW:online_operation = "ave(X)" ; INTPNEW:interval_operation = 5760.f ; INTPNEW:interval_write = -1.f ; INTPNEW:coordinates = "time_counter nav_lat nav_lon" ; float INTPP(time_counter, y, x) ; INTPP:units = "molC/m2/s" ; INTPP:standard_name = "Vertically integrated primary production by phyto" ; INTPP:_FillValue = 9.96921e+36f ; INTPP:long_name = "Vertically integrated primary production by phyto" ; INTPP:online_operation = "ave(X)" ; INTPP:interval_operation = 5760.f ; INTPP:interval_write = -1.f ; INTPP:coordinates = "time_counter nav_lat nav_lon" ; float INTPPPHY(time_counter, y, x) ; INTPPPHY:units = "molC/m2/s" ; INTPPPHY:standard_name = "Vertically integrated primary production by nanophy" ; INTPPPHY:_FillValue = 9.96921e+36f ; INTPPPHY:long_name = "Vertically integrated primary production by nanophy" ; INTPPPHY:online_operation = "ave(X)" ; INTPPPHY:interval_operation = 5760.f ; INTPPPHY:interval_write = -1.f ; INTPPPHY:coordinates = "time_counter nav_lat nav_lon" ; float INTPPPHY2(time_counter, y, x) ; INTPPPHY2:units = "molC/m2/s" ; INTPPPHY2:standard_name = "Vertically integrated primary production by diatom" ; INTPPPHY2:_FillValue = 9.96921e+36f ; INTPPPHY2:long_name = "Vertically integrated primary production by diatom" ; INTPPPHY2:online_operation = "ave(X)" ; INTPPPHY2:interval_operation = 5760.f ; INTPPPHY2:interval_write = -1.f ; INTPPPHY2:coordinates = "time_counter nav_lat nav_lon" ; float O2MIN(time_counter, y, x) ; O2MIN:units = "molC/L" ; O2MIN:standard_name = "Oxygen minimum concentration" ; O2MIN:_FillValue = 9.96921e+36f ; O2MIN:long_name = "Oxygen minimum concentration" ; O2MIN:online_operation = "ave(X)" ; O2MIN:interval_operation = 5760.f ; O2MIN:interval_write = -1.f ; O2MIN:coordinates = "time_counter nav_lat nav_lon" ; float PFET(time_counter, deptht, y, x) ; PFET:units = "molFe/L" ; PFET:standard_name = "Total biogenic Iron Concentration" ; PFET:_FillValue = 9.96921e+36f ; PFET:long_name = "Total biogenic Iron Concentration" ; PFET:online_operation = "ave(X)" ; PFET:interval_operation = 5760.f ; PFET:interval_write = -1.f ; PFET:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHYT(time_counter, deptht, y, x) ; PHYT:units = "molC/L" ; PHYT:standard_name = "Total phytoplankton Concentration" ; PHYT:_FillValue = 9.96921e+36f ; PHYT:long_name = "Total phytoplankton Concentration" ; PHYT:online_operation = "ave(X)" ; PHYT:interval_operation = 5760.f ; PHYT:interval_write = -1.f ; PHYT:coordinates = "time_counter deptht nav_lat nav_lon" ; float POCT(time_counter, deptht, y, x) ; POCT:units = "molC/L" ; POCT:standard_name = "Total carbon particles Concentration" ; POCT:_FillValue = 9.96921e+36f ; POCT:long_name = "Total carbon particles Concentration" ; POCT:online_operation = "ave(X)" ; POCT:interval_operation = 5760.f ; POCT:interval_write = -1.f ; POCT:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPBFE(time_counter, deptht, y, x) ; TPBFE:units = "molFe/m3/s" ; TPBFE:standard_name = "Total biogenic iron production" ; TPBFE:_FillValue = 9.96921e+36f ; TPBFE:long_name = "Total biogenic iron production" ; TPBFE:online_operation = "ave(X)" ; TPBFE:interval_operation = 5760.f ; TPBFE:interval_write = -1.f ; TPBFE:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPNEW(time_counter, deptht, y, x) ; TPNEW:units = "molC/m3/s" ; TPNEW:standard_name = "New Primary production of phyto" ; TPNEW:_FillValue = 9.96921e+36f ; TPNEW:long_name = "New Primary production of phyto" ; TPNEW:online_operation = "ave(X)" ; TPNEW:interval_operation = 5760.f ; TPNEW:interval_write = -1.f ; TPNEW:coordinates = "time_counter deptht nav_lat nav_lon" ; float TPP(time_counter, deptht, y, x) ; TPP:units = "molC/m3/s" ; TPP:standard_name = "Total Primary production of phyto" ; TPP:_FillValue = 9.96921e+36f ; TPP:long_name = "Total Primary production of phyto" ; TPP:online_operation = "ave(X)" ; TPP:interval_operation = 5760.f ; TPP:interval_write = -1.f ; TPP:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZO2MIN(time_counter, y, x) ; ZO2MIN:units = "m" ; ZO2MIN:standard_name = "Depth of oxygen minimum concentration" ; ZO2MIN:_FillValue = 9.96921e+36f ; ZO2MIN:long_name = "Depth of oxygen minimum concentration" ; ZO2MIN:online_operation = "ave(X)" ; ZO2MIN:interval_operation = 5760.f ; ZO2MIN:interval_write = -1.f ; ZO2MIN:coordinates = "time_counter nav_lat nav_lon" ; float ZOOT(time_counter, deptht, y, x) ; ZOOT:units = "molC/L" ; ZOOT:standard_name = "Total zooplankton Concentration" ; ZOOT:_FillValue = 9.96921e+36f ; ZOOT:long_name = "Total zooplankton Concentration" ; ZOOT:online_operation = "ave(X)" ; ZOOT:interval_operation = 5760.f ; ZOOT:interval_write = -1.f ; ZOOT:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_dbio_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_diad_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_diad_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float CO3(time_counter, deptht, y, x) ; CO3:units = "mol/L" ; CO3:standard_name = "Bicarbonates" ; CO3:_FillValue = 9.96921e+36f ; CO3:long_name = "Bicarbonates" ; CO3:online_operation = "ave(X)" ; CO3:interval_operation = 5760.f ; CO3:interval_write = -1.f ; CO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float CO3sat(time_counter, deptht, y, x) ; CO3sat:units = "mol/L" ; CO3sat:standard_name = "CO3 saturation" ; CO3sat:_FillValue = 9.96921e+36f ; CO3sat:long_name = "CO3 saturation" ; CO3sat:online_operation = "ave(X)" ; CO3sat:interval_operation = 5760.f ; CO3sat:interval_write = -1.f ; CO3sat:coordinates = "time_counter deptht nav_lat nav_lon" ; float Cflx(time_counter, y, x) ; Cflx:units = "molC/m2/s" ; Cflx:standard_name = "DIC flux" ; Cflx:_FillValue = 9.96921e+36f ; Cflx:long_name = "DIC flux" ; Cflx:online_operation = "ave(X)" ; Cflx:interval_operation = 5760.f ; Cflx:interval_write = -1.f ; Cflx:coordinates = "time_counter nav_lat nav_lon" ; float DCAL(time_counter, deptht, y, x) ; DCAL:units = "molC/m3/s" ; DCAL:standard_name = "Calcite dissolution" ; DCAL:_FillValue = 9.96921e+36f ; DCAL:long_name = "Calcite dissolution" ; DCAL:online_operation = "ave(X)" ; DCAL:interval_operation = 5760.f ; DCAL:interval_write = -1.f ; DCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float Dpco2(time_counter, y, x) ; Dpco2:units = "uatm" ; Dpco2:standard_name = "Delta CO2" ; Dpco2:_FillValue = 9.96921e+36f ; Dpco2:long_name = "Delta CO2" ; Dpco2:online_operation = "ave(X)" ; Dpco2:interval_operation = 5760.f ; Dpco2:interval_write = -1.f ; Dpco2:coordinates = "time_counter nav_lat nav_lon" ; float Dpo2(time_counter, y, x) ; Dpo2:units = "uatm" ; Dpo2:standard_name = "Delta O2" ; Dpo2:_FillValue = 9.96921e+36f ; Dpo2:long_name = "Delta O2" ; Dpo2:online_operation = "ave(X)" ; Dpo2:interval_operation = 5760.f ; Dpo2:interval_write = -1.f ; Dpo2:coordinates = "time_counter nav_lat nav_lon" ; float EPC100(time_counter, y, x) ; EPC100:units = "molC/m2/s" ; EPC100:standard_name = "Export of carbon particles at 100 m" ; EPC100:_FillValue = 9.96921e+36f ; EPC100:long_name = "Export of carbon particles at 100 m" ; EPC100:online_operation = "ave(X)" ; EPC100:interval_operation = 5760.f ; EPC100:interval_write = -1.f ; EPC100:coordinates = "time_counter nav_lat nav_lon" ; float EPCAL100(time_counter, y, x) ; EPCAL100:units = "molC/m2/s" ; EPCAL100:standard_name = "Export of Calcite at 100 m" ; EPCAL100:_FillValue = 9.96921e+36f ; EPCAL100:long_name = "Export of Calcite at 100 m" ; EPCAL100:online_operation = "ave(X)" ; EPCAL100:interval_operation = 5760.f ; EPCAL100:interval_write = -1.f ; EPCAL100:coordinates = "time_counter nav_lat nav_lon" ; float EPFE100(time_counter, y, x) ; EPFE100:units = "molFe/m2/s" ; EPFE100:standard_name = "Export of biogenic iron at 100 m" ; EPFE100:_FillValue = 9.96921e+36f ; EPFE100:long_name = "Export of biogenic iron at 100 m" ; EPFE100:online_operation = "ave(X)" ; EPFE100:interval_operation = 5760.f ; EPFE100:interval_write = -1.f ; EPFE100:coordinates = "time_counter nav_lat nav_lon" ; float EPSI100(time_counter, y, x) ; EPSI100:units = "molSi/m2/s" ; EPSI100:standard_name = "Export of Silicate at 100 m" ; EPSI100:_FillValue = 9.96921e+36f ; EPSI100:long_name = "Export of Silicate at 100 m" ; EPSI100:online_operation = "ave(X)" ; EPSI100:interval_operation = 5760.f ; EPSI100:interval_write = -1.f ; EPSI100:coordinates = "time_counter nav_lat nav_lon" ; float GRAZ(time_counter, deptht, y, x) ; GRAZ:units = "molC/m3/s" ; GRAZ:standard_name = "Grazing by zooplankton" ; GRAZ:_FillValue = 9.96921e+36f ; GRAZ:long_name = "Grazing by zooplankton" ; GRAZ:online_operation = "ave(X)" ; GRAZ:interval_operation = 5760.f ; GRAZ:interval_write = -1.f ; GRAZ:coordinates = "time_counter deptht nav_lat nav_lon" ; float Heup(time_counter, y, x) ; Heup:units = "m" ; Heup:standard_name = "Euphotic layer depth" ; Heup:_FillValue = 9.96921e+36f ; Heup:long_name = "Euphotic layer depth" ; Heup:online_operation = "ave(X)" ; Heup:interval_operation = 5760.f ; Heup:interval_write = -1.f ; Heup:coordinates = "time_counter nav_lat nav_lon" ; float Irondep(time_counter, y, x) ; Irondep:units = "molFe/m2/s" ; Irondep:standard_name = "Iron deposition" ; Irondep:_FillValue = 9.96921e+36f ; Irondep:long_name = "Iron deposition" ; Irondep:online_operation = "ave(X)" ; Irondep:interval_operation = 5760.f ; Irondep:interval_write = -1.f ; Irondep:coordinates = "time_counter nav_lat nav_lon" ; float Kg(time_counter, y, x) ; Kg:units = "molC/m2/s/uatm" ; Kg:standard_name = "Gas transfer" ; Kg:_FillValue = 9.96921e+36f ; Kg:long_name = "Gas transfer" ; Kg:online_operation = "ave(X)" ; Kg:interval_operation = 5760.f ; Kg:interval_write = -1.f ; Kg:coordinates = "time_counter nav_lat nav_lon" ; float Nfix(time_counter, y, x) ; Nfix:units = "molN/m2/s" ; Nfix:standard_name = "Nitrogen fixation at surface" ; Nfix:_FillValue = 9.96921e+36f ; Nfix:long_name = "Nitrogen fixation at surface" ; Nfix:online_operation = "ave(X)" ; Nfix:interval_operation = 5760.f ; Nfix:interval_write = -1.f ; Nfix:coordinates = "time_counter nav_lat nav_lon" ; float Oflx(time_counter, y, x) ; Oflx:units = "molC/m2/s" ; Oflx:standard_name = "Oxygen flux" ; Oflx:_FillValue = 9.96921e+36f ; Oflx:long_name = "Oxygen flux" ; Oflx:online_operation = "ave(X)" ; Oflx:interval_operation = 5760.f ; Oflx:interval_write = -1.f ; Oflx:coordinates = "time_counter nav_lat nav_lon" ; float PAR(time_counter, deptht, y, x) ; PAR:units = "W/m2" ; PAR:standard_name = "Photosynthetically Available Radiation" ; PAR:_FillValue = 9.96921e+36f ; PAR:long_name = "Photosynthetically Available Radiation" ; PAR:online_operation = "ave(X)" ; PAR:interval_operation = 5760.f ; PAR:interval_write = -1.f ; PAR:coordinates = "time_counter deptht nav_lat nav_lon" ; float PBSi(time_counter, deptht, y, x) ; PBSi:units = "molSi/m3/s" ; PBSi:standard_name = "Primary production of Si diatoms" ; PBSi:_FillValue = 9.96921e+36f ; PBSi:long_name = "Primary production of Si diatoms" ; PBSi:online_operation = "ave(X)" ; PBSi:interval_operation = 5760.f ; PBSi:interval_write = -1.f ; PBSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float PCAL(time_counter, deptht, y, x) ; PCAL:units = "molC/m3/s" ; PCAL:standard_name = "Calcite production" ; PCAL:_FillValue = 9.96921e+36f ; PCAL:long_name = "Calcite production" ; PCAL:online_operation = "ave(X)" ; PCAL:interval_operation = 5760.f ; PCAL:interval_write = -1.f ; PCAL:coordinates = "time_counter deptht nav_lat nav_lon" ; float PFeD(time_counter, deptht, y, x) ; PFeD:units = "molFe/m3/s" ; PFeD:standard_name = "Primary production of diatoms iron" ; PFeD:_FillValue = 9.96921e+36f ; PFeD:long_name = "Primary production of diatoms iron" ; PFeD:online_operation = "ave(X)" ; PFeD:interval_operation = 5760.f ; PFeD:interval_write = -1.f ; PFeD:coordinates = "time_counter deptht nav_lat nav_lon" ; float PFeN(time_counter, deptht, y, x) ; PFeN:units = "molFe/m3/s" ; PFeN:standard_name = "Primary production of nano iron" ; PFeN:_FillValue = 9.96921e+36f ; PFeN:long_name = "Primary production of nano iron" ; PFeN:online_operation = "ave(X)" ; PFeN:interval_operation = 5760.f ; PFeN:interval_write = -1.f ; PFeN:coordinates = "time_counter deptht nav_lat nav_lon" ; float PH(time_counter, deptht, y, x) ; PH:units = "-" ; PH:standard_name = "PH" ; PH:_FillValue = 9.96921e+36f ; PH:long_name = "PH" ; PH:online_operation = "ave(X)" ; PH:interval_operation = 5760.f ; PH:interval_write = -1.f ; PH:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPNEWD(time_counter, deptht, y, x) ; PPNEWD:units = "molC/m3/s" ; PPNEWD:standard_name = "New Primary production of diatoms" ; PPNEWD:_FillValue = 9.96921e+36f ; PPNEWD:long_name = "New Primary production of diatoms" ; PPNEWD:online_operation = "ave(X)" ; PPNEWD:interval_operation = 5760.f ; PPNEWD:interval_write = -1.f ; PPNEWD:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPNEWN(time_counter, deptht, y, x) ; PPNEWN:units = "molC/m3/s" ; PPNEWN:standard_name = "New Primary production of nanophyto" ; PPNEWN:_FillValue = 9.96921e+36f ; PPNEWN:long_name = "New Primary production of nanophyto" ; PPNEWN:online_operation = "ave(X)" ; PPNEWN:interval_operation = 5760.f ; PPNEWN:interval_write = -1.f ; PPNEWN:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPPHY(time_counter, deptht, y, x) ; PPPHY:units = "molC/m3/s" ; PPPHY:standard_name = "Primary production of nanophyto" ; PPPHY:_FillValue = 9.96921e+36f ; PPPHY:long_name = "Primary production of nanophyto" ; PPPHY:online_operation = "ave(X)" ; PPPHY:interval_operation = 5760.f ; PPPHY:interval_write = -1.f ; PPPHY:coordinates = "time_counter deptht nav_lat nav_lon" ; float PPPHY2(time_counter, deptht, y, x) ; PPPHY2:units = "molC/m3/s" ; PPPHY2:standard_name = "Primary production of diatoms" ; PPPHY2:_FillValue = 9.96921e+36f ; PPPHY2:long_name = "Primary production of diatoms" ; PPPHY2:online_operation = "ave(X)" ; PPPHY2:interval_operation = 5760.f ; PPPHY2:interval_write = -1.f ; PPPHY2:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_diad_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == MBG/Output/MO/v2.historical1_19800101_19800131_1M_ptrc_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_ptrc_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) deptht = 31 ; y = 149 ; x = 182 ; tbnds = 2 ; variables: float Alkalini(time_counter, deptht, y, x) ; Alkalini:units = "eq/L" ; Alkalini:standard_name = "Total Alkalinity Concentration" ; Alkalini:_FillValue = 9.96921e+36f ; Alkalini:long_name = "Total Alkalinity Concentration" ; Alkalini:online_operation = "ave(X)" ; Alkalini:interval_operation = 5760.f ; Alkalini:interval_write = -1.f ; Alkalini:coordinates = "time_counter deptht nav_lat nav_lon" ; float BFe(time_counter, deptht, y, x) ; BFe:units = "molFe/L" ; BFe:standard_name = "Big iron particles Concentration" ; BFe:_FillValue = 9.96921e+36f ; BFe:long_name = "Big iron particles Concentration" ; BFe:online_operation = "ave(X)" ; BFe:interval_operation = 5760.f ; BFe:interval_write = -1.f ; BFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float BSi(time_counter, deptht, y, x) ; BSi:units = "molC/L" ; BSi:standard_name = "Diatoms Silicate Concentration" ; BSi:_FillValue = 9.96921e+36f ; BSi:long_name = "Diatoms Silicate Concentration" ; BSi:online_operation = "ave(X)" ; BSi:interval_operation = 5760.f ; BSi:interval_write = -1.f ; BSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float CaCO3(time_counter, deptht, y, x) ; CaCO3:units = "molC/L" ; CaCO3:standard_name = "Calcite Concentration" ; CaCO3:_FillValue = 9.96921e+36f ; CaCO3:long_name = "Calcite Concentration" ; CaCO3:online_operation = "ave(X)" ; CaCO3:interval_operation = 5760.f ; CaCO3:interval_write = -1.f ; CaCO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float DCHL(time_counter, deptht, y, x) ; DCHL:units = "gChl/L" ; DCHL:standard_name = "Diatoms chlorophyl Concentration" ; DCHL:_FillValue = 9.96921e+36f ; DCHL:long_name = "Diatoms chlorophyl Concentration" ; DCHL:online_operation = "ave(X)" ; DCHL:interval_operation = 5760.f ; DCHL:interval_write = -1.f ; DCHL:coordinates = "time_counter deptht nav_lat nav_lon" ; float DFe(time_counter, deptht, y, x) ; DFe:units = "molFe/L" ; DFe:standard_name = "Diatoms iron Concentration" ; DFe:_FillValue = 9.96921e+36f ; DFe:long_name = "Diatoms iron Concentration" ; DFe:online_operation = "ave(X)" ; DFe:interval_operation = 5760.f ; DFe:interval_write = -1.f ; DFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float DIC(time_counter, deptht, y, x) ; DIC:units = "molC/L" ; DIC:standard_name = "Dissolved inorganic Concentration" ; DIC:_FillValue = 9.96921e+36f ; DIC:long_name = "Dissolved inorganic Concentration" ; DIC:online_operation = "ave(X)" ; DIC:interval_operation = 5760.f ; DIC:interval_write = -1.f ; DIC:coordinates = "time_counter deptht nav_lat nav_lon" ; float DOC(time_counter, deptht, y, x) ; DOC:units = "molC/L" ; DOC:standard_name = "Dissolved organic Concentration" ; DOC:_FillValue = 9.96921e+36f ; DOC:long_name = "Dissolved organic Concentration" ; DOC:online_operation = "ave(X)" ; DOC:interval_operation = 5760.f ; DOC:interval_write = -1.f ; DOC:coordinates = "time_counter deptht nav_lat nav_lon" ; float DSi(time_counter, deptht, y, x) ; DSi:units = "molC/L" ; DSi:standard_name = "Sinking biogenic Silicate Concentration" ; DSi:_FillValue = 9.96921e+36f ; DSi:long_name = "Sinking biogenic Silicate Concentration" ; DSi:online_operation = "ave(X)" ; DSi:interval_operation = 5760.f ; DSi:interval_write = -1.f ; DSi:coordinates = "time_counter deptht nav_lat nav_lon" ; float Fer(time_counter, deptht, y, x) ; Fer:units = "molFe/L" ; Fer:standard_name = "Dissolved Iron Concentration" ; Fer:_FillValue = 9.96921e+36f ; Fer:long_name = "Dissolved Iron Concentration" ; Fer:online_operation = "ave(X)" ; Fer:interval_operation = 5760.f ; Fer:interval_write = -1.f ; Fer:coordinates = "time_counter deptht nav_lat nav_lon" ; float GOC(time_counter, deptht, y, x) ; GOC:units = "molC/L" ; GOC:standard_name = "Big organic carbon Concentration" ; GOC:_FillValue = 9.96921e+36f ; GOC:long_name = "Big organic carbon Concentration" ; GOC:online_operation = "ave(X)" ; GOC:interval_operation = 5760.f ; GOC:interval_write = -1.f ; GOC:coordinates = "time_counter deptht nav_lat nav_lon" ; float NCHL(time_counter, deptht, y, x) ; NCHL:units = "gChl/L" ; NCHL:standard_name = "Nano chlorophyl Concentration" ; NCHL:_FillValue = 9.96921e+36f ; NCHL:long_name = "Nano chlorophyl Concentration" ; NCHL:online_operation = "ave(X)" ; NCHL:interval_operation = 5760.f ; NCHL:interval_write = -1.f ; NCHL:coordinates = "time_counter deptht nav_lat nav_lon" ; float NFe(time_counter, deptht, y, x) ; NFe:units = "molC/L" ; NFe:standard_name = "Nano iron Concentration" ; NFe:_FillValue = 9.96921e+36f ; NFe:long_name = "Nano iron Concentration" ; NFe:online_operation = "ave(X)" ; NFe:interval_operation = 5760.f ; NFe:interval_write = -1.f ; NFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float NH4(time_counter, deptht, y, x) ; NH4:units = "molC/L" ; NH4:standard_name = "Ammonium Concentration" ; NH4:_FillValue = 9.96921e+36f ; NH4:long_name = "Ammonium Concentration" ; NH4:online_operation = "ave(X)" ; NH4:interval_operation = 5760.f ; NH4:interval_write = -1.f ; NH4:coordinates = "time_counter deptht nav_lat nav_lon" ; float NO3(time_counter, deptht, y, x) ; NO3:units = "molC/L" ; NO3:standard_name = "Nitrates Concentration" ; NO3:_FillValue = 9.96921e+36f ; NO3:long_name = "Nitrates Concentration" ; NO3:online_operation = "ave(X)" ; NO3:interval_operation = 5760.f ; NO3:interval_write = -1.f ; NO3:coordinates = "time_counter deptht nav_lat nav_lon" ; float O2(time_counter, deptht, y, x) ; O2:units = "molO2/L" ; O2:standard_name = "Oxygen Concentration" ; O2:_FillValue = 9.96921e+36f ; O2:long_name = "Oxygen Concentration" ; O2:online_operation = "ave(X)" ; O2:interval_operation = 5760.f ; O2:interval_write = -1.f ; O2:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHY(time_counter, deptht, y, x) ; PHY:units = "molC/L" ; PHY:standard_name = "Nanophytoplankton Concentration" ; PHY:_FillValue = 9.96921e+36f ; PHY:long_name = "Nanophytoplankton Concentration" ; PHY:online_operation = "ave(X)" ; PHY:interval_operation = 5760.f ; PHY:interval_write = -1.f ; PHY:coordinates = "time_counter deptht nav_lat nav_lon" ; float PHY2(time_counter, deptht, y, x) ; PHY2:units = "molC/L" ; PHY2:standard_name = "Diatoms Concentration" ; PHY2:_FillValue = 9.96921e+36f ; PHY2:long_name = "Diatoms Concentration" ; PHY2:online_operation = "ave(X)" ; PHY2:interval_operation = 5760.f ; PHY2:interval_write = -1.f ; PHY2:coordinates = "time_counter deptht nav_lat nav_lon" ; float PO4(time_counter, deptht, y, x) ; PO4:units = "molC/L" ; PO4:standard_name = "Phosphate Concentration" ; PO4:_FillValue = 9.96921e+36f ; PO4:long_name = "Phosphate Concentration" ; PO4:online_operation = "ave(X)" ; PO4:interval_operation = 5760.f ; PO4:interval_write = -1.f ; PO4:coordinates = "time_counter deptht nav_lat nav_lon" ; float POC(time_counter, deptht, y, x) ; POC:units = "molC/L" ; POC:standard_name = "Small organic carbon Concentration" ; POC:_FillValue = 9.96921e+36f ; POC:long_name = "Small organic carbon Concentration" ; POC:online_operation = "ave(X)" ; POC:interval_operation = 5760.f ; POC:interval_write = -1.f ; POC:coordinates = "time_counter deptht nav_lat nav_lon" ; float SFe(time_counter, deptht, y, x) ; SFe:units = "molFe/L" ; SFe:standard_name = "Small iron particles Concentration" ; SFe:_FillValue = 9.96921e+36f ; SFe:long_name = "Small iron particles Concentration" ; SFe:online_operation = "ave(X)" ; SFe:interval_operation = 5760.f ; SFe:interval_write = -1.f ; SFe:coordinates = "time_counter deptht nav_lat nav_lon" ; float Si(time_counter, deptht, y, x) ; Si:units = "molSi/L" ; Si:standard_name = "Silicate Concentration" ; Si:_FillValue = 9.96921e+36f ; Si:long_name = "Silicate Concentration" ; Si:online_operation = "ave(X)" ; Si:interval_operation = 5760.f ; Si:interval_write = -1.f ; Si:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZOO(time_counter, deptht, y, x) ; ZOO:units = "molC/L" ; ZOO:standard_name = "Microzooplankton Concentration" ; ZOO:_FillValue = 9.96921e+36f ; ZOO:long_name = "Microzooplankton Concentration" ; ZOO:online_operation = "ave(X)" ; ZOO:interval_operation = 5760.f ; ZOO:interval_write = -1.f ; ZOO:coordinates = "time_counter deptht nav_lat nav_lon" ; float ZOO2(time_counter, deptht, y, x) ; ZOO2:units = "molC/L" ; ZOO2:standard_name = "Mesozooplankton Concentration" ; ZOO2:_FillValue = 9.96921e+36f ; ZOO2:long_name = "Mesozooplankton Concentration" ; ZOO2:online_operation = "ave(X)" ; ZOO2:interval_operation = 5760.f ; ZOO2:interval_write = -1.f ; ZOO2:coordinates = "time_counter deptht nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_ptrc_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_diaptr.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_diaptr { // format variant: 64bit dimensions: lon = 1 ; lat = 149 ; deptht = 31 ; depthw = 31 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = 0.f ; lon:valid_max = 0.f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -77.98417f ; lat:valid_max = 89.5f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; float depthw(depthw) ; depthw:axis = "Z" ; depthw:standard_name = "model_level_number" ; depthw:units = "m" ; depthw:positive = "down" ; depthw:valid_min = 0.f ; depthw:valid_max = 5000.f ; depthw:title = "depthw" ; depthw:long_name = "Vertical W levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float zotemglo(time_counter, deptht, lat, lon) ; zotemglo:units = "C" ; zotemglo:standard_name = "Zonal Mean Temperature" ; zotemglo:_FillValue = 9.96921e+36f ; zotemglo:long_name = "Zonal Mean Temperature" ; zotemglo:online_operation = "ave(only(x))" ; zotemglo:interval_operation = 5760.f ; zotemglo:interval_write = 2678400.f ; zotemglo:coordinates = "time_counter deptht lat lon" ; float zosalglo(time_counter, deptht, lat, lon) ; zosalglo:units = "PSU" ; zosalglo:standard_name = "Zonal Mean Salinity" ; zosalglo:_FillValue = 9.96921e+36f ; zosalglo:long_name = "Zonal Mean Salinity" ; zosalglo:online_operation = "ave(only(x))" ; zosalglo:interval_operation = 5760.f ; zosalglo:interval_write = 2678400.f ; zosalglo:coordinates = "time_counter deptht lat lon" ; float zosrfglo(deptht, lat, lon) ; zosrfglo:units = "m^2" ; zosrfglo:standard_name = "Zonal Mean Surface" ; zosrfglo:_FillValue = 9.96921e+36f ; zosrfglo:long_name = "Zonal Mean Surface" ; zosrfglo:online_operation = "once(only(x))" ; zosrfglo:coordinates = "deptht lat lon" ; float zotematl(time_counter, deptht, lat, lon) ; zotematl:units = "C" ; zotematl:standard_name = "Zonal Mean Temperature: Atlantic" ; zotematl:_FillValue = 9.96921e+36f ; zotematl:long_name = "Zonal Mean Temperature: Atlantic" ; zotematl:online_operation = "ave(only(x))" ; zotematl:interval_operation = 5760.f ; zotematl:interval_write = 2678400.f ; zotematl:coordinates = "time_counter deptht lat lon" ; float zosalatl(time_counter, deptht, lat, lon) ; zosalatl:units = "PSU" ; zosalatl:standard_name = "Zonal Mean Salinity: Atlantic" ; zosalatl:_FillValue = 9.96921e+36f ; zosalatl:long_name = "Zonal Mean Salinity: Atlantic" ; zosalatl:online_operation = "ave(only(x))" ; zosalatl:interval_operation = 5760.f ; zosalatl:interval_write = 2678400.f ; zosalatl:coordinates = "time_counter deptht lat lon" ; float zosrfatl(deptht, lat, lon) ; zosrfatl:units = "m^2" ; zosrfatl:standard_name = "Zonal Mean Surface: Atlantic" ; zosrfatl:_FillValue = 9.96921e+36f ; zosrfatl:long_name = "Zonal Mean Surface: Atlantic" ; zosrfatl:online_operation = "once(only(x))" ; zosrfatl:coordinates = "deptht lat lon" ; float zotempac(time_counter, deptht, lat, lon) ; zotempac:units = "C" ; zotempac:standard_name = "Zonal Mean Temperature: Pacific" ; zotempac:_FillValue = 9.96921e+36f ; zotempac:long_name = "Zonal Mean Temperature: Pacific" ; zotempac:online_operation = "ave(only(x))" ; zotempac:interval_operation = 5760.f ; zotempac:interval_write = 2678400.f ; zotempac:coordinates = "time_counter deptht lat lon" ; float zosalpac(time_counter, deptht, lat, lon) ; zosalpac:units = "PSU" ; zosalpac:standard_name = "Zonal Mean Salinity: Pacific" ; zosalpac:_FillValue = 9.96921e+36f ; zosalpac:long_name = "Zonal Mean Salinity: Pacific" ; zosalpac:online_operation = "ave(only(x))" ; zosalpac:interval_operation = 5760.f ; zosalpac:interval_write = 2678400.f ; zosalpac:coordinates = "time_counter deptht lat lon" ; float zosrfpac(deptht, lat, lon) ; zosrfpac:units = "m^2" ; zosrfpac:standard_name = "Zonal Mean Surface: Pacific" ; zosrfpac:_FillValue = 9.96921e+36f ; zosrfpac:long_name = "Zonal Mean Surface: Pacific" ; zosrfpac:online_operation = "once(only(x))" ; zosrfpac:coordinates = "deptht lat lon" ; float zotemind(time_counter, deptht, lat, lon) ; zotemind:units = "C" ; zotemind:standard_name = "Zonal Mean Temperature: Indian" ; zotemind:_FillValue = 9.96921e+36f ; zotemind:long_name = "Zonal Mean Temperature: Indian" ; zotemind:online_operation = "ave(only(x))" ; zotemind:interval_operation = 5760.f ; zotemind:interval_write = 2678400.f ; zotemind:coordinates = "time_counter deptht lat lon" ; float zosalind(time_counter, deptht, lat, lon) ; zosalind:units = "PSU" ; zosalind:standard_name = "Zonal Mean Salinity: Indian" ; zosalind:_FillValue = 9.96921e+36f ; zosalind:long_name = "Zonal Mean Salinity: Indian" ; zosalind:online_operation = "ave(only(x))" ; zosalind:interval_operation = 5760.f ; zosalind:interval_write = 2678400.f ; zosalind:coordinates = "time_counter deptht lat lon" ; float zosrfind(deptht, lat, lon) ; zosrfind:units = "m^2" ; zosrfind:standard_name = "Zonal Mean Surface: Indian" ; zosrfind:_FillValue = 9.96921e+36f ; zosrfind:long_name = "Zonal Mean Surface: Indian" ; zosrfind:online_operation = "once(only(x))" ; zosrfind:coordinates = "deptht lat lon" ; float zotemipc(time_counter, deptht, lat, lon) ; zotemipc:units = "C" ; zotemipc:standard_name = "Zonal Mean Temperature: Pacific+Indian" ; zotemipc:_FillValue = 9.96921e+36f ; zotemipc:long_name = "Zonal Mean Temperature: Pacific+Indian" ; zotemipc:online_operation = "ave(only(x))" ; zotemipc:interval_operation = 5760.f ; zotemipc:interval_write = 2678400.f ; zotemipc:coordinates = "time_counter deptht lat lon" ; float zosalipc(time_counter, deptht, lat, lon) ; zosalipc:units = "PSU" ; zosalipc:standard_name = "Zonal Mean Salinity: Pacific+Indian" ; zosalipc:_FillValue = 9.96921e+36f ; zosalipc:long_name = "Zonal Mean Salinity: Pacific+Indian" ; zosalipc:online_operation = "ave(only(x))" ; zosalipc:interval_operation = 5760.f ; zosalipc:interval_write = 2678400.f ; zosalipc:coordinates = "time_counter deptht lat lon" ; float zosrfipc(deptht, lat, lon) ; zosrfipc:units = "m^2" ; zosrfipc:standard_name = "Zonal Mean Surface: Pacific+Indian" ; zosrfipc:_FillValue = 9.96921e+36f ; zosrfipc:long_name = "Zonal Mean Surface: Pacific+Indian" ; zosrfipc:online_operation = "once(only(x))" ; zosrfipc:coordinates = "deptht lat lon" ; float zomsfglo(time_counter, depthw, lat, lon) ; zomsfglo:units = "Sv" ; zomsfglo:standard_name = "Meridional Stream-Function: Global (Bolus part included)" ; zomsfglo:_FillValue = 9.96921e+36f ; zomsfglo:long_name = "Meridional Stream-Function: Global (Bolus part included)" ; zomsfglo:online_operation = "ave(only(x))" ; zomsfglo:interval_operation = 5760.f ; zomsfglo:interval_write = 2678400.f ; zomsfglo:coordinates = "time_counter depthw lat lon" ; float zomsfatl(time_counter, depthw, lat, lon) ; zomsfatl:units = "Sv" ; zomsfatl:standard_name = "Meridional Stream-Function: Atlantic (Bolus part included)" ; zomsfatl:_FillValue = 9.96921e+36f ; zomsfatl:long_name = "Meridional Stream-Function: Atlantic (Bolus part included)" ; zomsfatl:online_operation = "ave(only(x))" ; zomsfatl:interval_operation = 5760.f ; zomsfatl:interval_write = 2678400.f ; zomsfatl:coordinates = "time_counter depthw lat lon" ; float zomsfpac(time_counter, depthw, lat, lon) ; zomsfpac:units = "Sv" ; zomsfpac:standard_name = "Meridional Stream-Function: Pacific (Bolus part included)" ; zomsfpac:_FillValue = 9.96921e+36f ; zomsfpac:long_name = "Meridional Stream-Function: Pacific (Bolus part included)" ; zomsfpac:online_operation = "ave(only(x))" ; zomsfpac:interval_operation = 5760.f ; zomsfpac:interval_write = 2678400.f ; zomsfpac:coordinates = "time_counter depthw lat lon" ; float zomsfind(time_counter, depthw, lat, lon) ; zomsfind:units = "Sv" ; zomsfind:standard_name = "Meridional Stream-Function: Indian (Bolus part included)" ; zomsfind:_FillValue = 9.96921e+36f ; zomsfind:long_name = "Meridional Stream-Function: Indian (Bolus part included)" ; zomsfind:online_operation = "ave(only(x))" ; zomsfind:interval_operation = 5760.f ; zomsfind:interval_write = 2678400.f ; zomsfind:coordinates = "time_counter depthw lat lon" ; float zomsfipc(time_counter, depthw, lat, lon) ; zomsfipc:units = "Sv" ; zomsfipc:standard_name = "Meridional Stream-Function: Indo-Pacific (Bolus part included)" ; zomsfipc:_FillValue = 9.96921e+36f ; zomsfipc:long_name = "Meridional Stream-Function: Indo-Pacific (Bolus part included)" ; zomsfipc:online_operation = "ave(only(x))" ; zomsfipc:interval_operation = 5760.f ; zomsfipc:interval_write = 2678400.f ; zomsfipc:coordinates = "time_counter depthw lat lon" ; float sophtadv(time_counter, lat, lon) ; sophtadv:units = "PW" ; sophtadv:standard_name = "Advective Heat Transport" ; sophtadv:_FillValue = 9.96921e+36f ; sophtadv:long_name = "Advective Heat Transport" ; sophtadv:online_operation = "ave(only(x))" ; sophtadv:interval_operation = 5760.f ; sophtadv:interval_write = 2678400.f ; sophtadv:coordinates = "time_counter lat lon" ; float sophtldf(time_counter, lat, lon) ; sophtldf:units = "PW" ; sophtldf:standard_name = "Diffusive Heat Transport" ; sophtldf:_FillValue = 9.96921e+36f ; sophtldf:long_name = "Diffusive Heat Transport" ; sophtldf:online_operation = "ave(only(x))" ; sophtldf:interval_operation = 5760.f ; sophtldf:interval_write = 2678400.f ; sophtldf:coordinates = "time_counter lat lon" ; float sophtove(time_counter, lat, lon) ; sophtove:units = "PW" ; sophtove:standard_name = "Overturning Heat Transport" ; sophtove:_FillValue = 9.96921e+36f ; sophtove:long_name = "Overturning Heat Transport" ; sophtove:online_operation = "ave(only(x))" ; sophtove:interval_operation = 5760.f ; sophtove:interval_write = 2678400.f ; sophtove:coordinates = "time_counter lat lon" ; float sohtatl(time_counter, lat, lon) ; sohtatl:units = "PW" ; sohtatl:standard_name = "Heat Transport Atlantic (Bolus part included)" ; sohtatl:_FillValue = 9.96921e+36f ; sohtatl:long_name = "Heat Transport Atlantic (Bolus part included)" ; sohtatl:online_operation = "ave(only(x))" ; sohtatl:interval_operation = 5760.f ; sohtatl:interval_write = 2678400.f ; sohtatl:coordinates = "time_counter lat lon" ; float sohtpac(time_counter, lat, lon) ; sohtpac:units = "PW" ; sohtpac:standard_name = "Heat Transport Pacific (Bolus part included)" ; sohtpac:_FillValue = 9.96921e+36f ; sohtpac:long_name = "Heat Transport Pacific (Bolus part included)" ; sohtpac:online_operation = "ave(only(x))" ; sohtpac:interval_operation = 5760.f ; sohtpac:interval_write = 2678400.f ; sohtpac:coordinates = "time_counter lat lon" ; float sohtind(time_counter, lat, lon) ; sohtind:units = "PW" ; sohtind:standard_name = "Heat Transport Indian (Bolus part included)" ; sohtind:_FillValue = 9.96921e+36f ; sohtind:long_name = "Heat Transport Indian (Bolus part included)" ; sohtind:online_operation = "ave(only(x))" ; sohtind:interval_operation = 5760.f ; sohtind:interval_write = 2678400.f ; sohtind:coordinates = "time_counter lat lon" ; float sohtipc(time_counter, lat, lon) ; sohtipc:units = "PW" ; sohtipc:standard_name = "Heat Transport Pacific+Indian (Bolus part included)" ; sohtipc:_FillValue = 9.96921e+36f ; sohtipc:long_name = "Heat Transport Pacific+Indian (Bolus part included)" ; sohtipc:online_operation = "ave(only(x))" ; sohtipc:interval_operation = 5760.f ; sohtipc:interval_write = 2678400.f ; sohtipc:coordinates = "time_counter lat lon" ; float sopstadv(time_counter, lat, lon) ; sopstadv:units = "Giga g/s" ; sopstadv:standard_name = "Advective Salt Transport" ; sopstadv:_FillValue = 9.96921e+36f ; sopstadv:long_name = "Advective Salt Transport" ; sopstadv:online_operation = "ave(only(x))" ; sopstadv:interval_operation = 5760.f ; sopstadv:interval_write = 2678400.f ; sopstadv:coordinates = "time_counter lat lon" ; float sopstldf(time_counter, lat, lon) ; sopstldf:units = "Giga g/s" ; sopstldf:standard_name = "Diffusive Salt Transport" ; sopstldf:_FillValue = 9.96921e+36f ; sopstldf:long_name = "Diffusive Salt Transport" ; sopstldf:online_operation = "ave(only(x))" ; sopstldf:interval_operation = 5760.f ; sopstldf:interval_write = 2678400.f ; sopstldf:coordinates = "time_counter lat lon" ; float sopstove(time_counter, lat, lon) ; sopstove:units = "Giga g/s" ; sopstove:standard_name = "Overturning Salt Transport" ; sopstove:_FillValue = 9.96921e+36f ; sopstove:long_name = "Overturning Salt Transport" ; sopstove:online_operation = "ave(only(x))" ; sopstove:interval_operation = 5760.f ; sopstove:interval_write = 2678400.f ; sopstove:coordinates = "time_counter lat lon" ; float zomsfeiv(time_counter, depthw, lat, lon) ; zomsfeiv:units = "Sv" ; zomsfeiv:standard_name = "Bolus Meridional Stream-Function: global" ; zomsfeiv:_FillValue = 9.96921e+36f ; zomsfeiv:long_name = "Bolus Meridional Stream-Function: global" ; zomsfeiv:online_operation = "ave(only(x))" ; zomsfeiv:interval_operation = 5760.f ; zomsfeiv:interval_write = 2678400.f ; zomsfeiv:coordinates = "time_counter depthw lat lon" ; float sophteiv(time_counter, lat, lon) ; sophteiv:units = "PW" ; sophteiv:standard_name = "Bolus Advective Heat Transport" ; sophteiv:_FillValue = 9.96921e+36f ; sophteiv:long_name = "Bolus Advective Heat Transport" ; sophteiv:online_operation = "ave(only(x))" ; sophteiv:interval_operation = 5760.f ; sophteiv:interval_write = 2678400.f ; sophteiv:coordinates = "time_counter lat lon" ; float sopsteiv(time_counter, lat, lon) ; sopsteiv:units = "Giga g/s" ; sopsteiv:standard_name = "Bolus Advective Salt Transport" ; sopsteiv:_FillValue = 9.96921e+36f ; sopsteiv:long_name = "Bolus Advective Salt Transport" ; sopsteiv:online_operation = "ave(only(x))" ; sopsteiv:interval_operation = 5760.f ; sopsteiv:interval_write = 2678400.f ; sopsteiv:coordinates = "time_counter lat lon" ; float sostatl(time_counter, lat, lon) ; sostatl:units = "Giga g/s" ; sostatl:standard_name = "Salt Transport Atlantic (Bolus part included)" ; sostatl:_FillValue = 9.96921e+36f ; sostatl:long_name = "Salt Transport Atlantic (Bolus part included)" ; sostatl:online_operation = "ave(only(x))" ; sostatl:interval_operation = 5760.f ; sostatl:interval_write = 2678400.f ; sostatl:coordinates = "time_counter lat lon" ; float sostpac(time_counter, lat, lon) ; sostpac:units = "Giga g/s" ; sostpac:standard_name = "Salt Transport Pacific (Bolus part included)" ; sostpac:_FillValue = 9.96921e+36f ; sostpac:long_name = "Salt Transport Pacific (Bolus part included)" ; sostpac:online_operation = "ave(only(x))" ; sostpac:interval_operation = 5760.f ; sostpac:interval_write = 2678400.f ; sostpac:coordinates = "time_counter lat lon" ; float sostind(time_counter, lat, lon) ; sostind:units = "Giga g/s" ; sostind:standard_name = "Salt Transport Indian (Bolus part included)" ; sostind:_FillValue = 9.96921e+36f ; sostind:long_name = "Salt Transport Indian (Bolus part included)" ; sostind:online_operation = "ave(only(x))" ; sostind:interval_operation = 5760.f ; sostind:interval_write = 2678400.f ; sostind:coordinates = "time_counter lat lon" ; float sostipc(time_counter, lat, lon) ; sostipc:units = "Giga g/s" ; sostipc:standard_name = "Salt Transport Pacific+Indian (Bolus part included)" ; sostipc:_FillValue = 9.96921e+36f ; sostipc:long_name = "Salt Transport Pacific+Indian (Bolus part included)" ; sostipc:online_operation = "ave(only(x))" ; sostipc:interval_operation = 5760.f ; sostipc:interval_write = 2678400.f ; sostipc:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "v2.historical1_1m_19800101_19800131_diaptr_0000.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :DOMAIN_number_total = 1 ; :DOMAIN_number = 0 ; :DOMAIN_dimensions_ids = 2 ; :DOMAIN_size_global = 149 ; :DOMAIN_size_local = 149 ; :DOMAIN_position_first = 1 ; :DOMAIN_position_last = 149 ; :DOMAIN_halo_size_start = 0 ; :DOMAIN_halo_size_end = 0 ; :DOMAIN_type = "box" ; :DOMAIN_DIM_N001 = "lon" ; :DOMAIN_DIM_N002 = "lat" ; :DOMAIN_DIM_N003 = "deptht" ; :DOMAIN_DIM_N004 = "depthw" ; :DOMAIN_DIM_N005 = "time_counter" ; :DOMAIN_DIM_N006 = "tbnds" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_T { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; deptht = 31 ; tbnds = 2 ; variables: float blt(time_counter, y, x) ; blt:units = "m" ; blt:standard_name = "Mixed Layer Depth |dt|=0.2 (ref.10m)" ; blt:_FillValue = 9.96921e+36f ; blt:long_name = "Mixed Layer Depth |dt|=0.2 (ref.10m)" ; blt:online_operation = "ave(X)" ; blt:interval_operation = 5760.f ; blt:interval_write = -1.f ; blt:coordinates = "time_counter nav_lat nav_lon" ; float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; float evs(time_counter, y, x) ; evs:units = "kg/m2/s" ; evs:standard_name = "water_evaporation_flux" ; evs:_FillValue = 9.96921e+36f ; evs:long_name = "water_evaporation_flux" ; evs:online_operation = "ave(X)" ; evs:interval_operation = 28800.f ; evs:interval_write = -1.f ; evs:coordinates = "time_counter nav_lat nav_lon" ; float ficeberg(time_counter, y, x) ; ficeberg:units = "kg/m2/s" ; ficeberg:standard_name = "water_flux_into_sea_water_from_icebergs" ; ficeberg:_FillValue = 9.96921e+36f ; ficeberg:long_name = "water_flux_into_sea_water_from_icebergs" ; ficeberg:online_operation = "ave(X)" ; ficeberg:interval_operation = 28800.f ; ficeberg:interval_write = -1.f ; ficeberg:coordinates = "time_counter nav_lat nav_lon" ; float friver(time_counter, y, x) ; friver:units = "kg/m2/s" ; friver:standard_name = "water_flux_into_sea_water_from_rivers" ; friver:_FillValue = 9.96921e+36f ; friver:long_name = "water_flux_into_sea_water_from_rivers" ; friver:online_operation = "ave(X)" ; friver:interval_operation = 28800.f ; friver:interval_write = -1.f ; friver:coordinates = "time_counter nav_lat nav_lon" ; float fsitherm(time_counter, y, x) ; fsitherm:units = "kg/m2/s" ; fsitherm:standard_name = "water_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; fsitherm:_FillValue = 9.96921e+36f ; fsitherm:long_name = "water_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; fsitherm:online_operation = "ave(X)" ; fsitherm:interval_operation = 28800.f ; fsitherm:interval_write = -1.f ; fsitherm:coordinates = "time_counter nav_lat nav_lon" ; float hfcorr(time_counter, y, x) ; hfcorr:units = "W/m2" ; hfcorr:standard_name = "heat_flux_correction" ; hfcorr:_FillValue = 9.96921e+36f ; hfcorr:long_name = "heat_flux_correction" ; hfcorr:online_operation = "ave(X)" ; hfcorr:interval_operation = 28800.f ; hfcorr:interval_write = -1.f ; hfcorr:coordinates = "time_counter nav_lat nav_lon" ; float hfevapds(time_counter, y, x) ; hfevapds:units = "W/m2" ; hfevapds:standard_name = "temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water" ; hfevapds:_FillValue = 9.96921e+36f ; hfevapds:long_name = "temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water" ; hfevapds:online_operation = "ave(X)" ; hfevapds:interval_operation = 28800.f ; hfevapds:interval_write = -1.f ; hfevapds:coordinates = "time_counter nav_lat nav_lon" ; float hfibthermds(time_counter, y, x) ; hfibthermds:units = "W/m2" ; hfibthermds:standard_name = "heat_flux_into_sea_water_due_to_iceberg_thermodynamics" ; hfibthermds:_FillValue = 9.96921e+36f ; hfibthermds:long_name = "heat_flux_into_sea_water_due_to_iceberg_thermodynamics" ; hfibthermds:online_operation = "ave(X)" ; hfibthermds:interval_operation = 28800.f ; hfibthermds:interval_write = -1.f ; hfibthermds:coordinates = "time_counter nav_lat nav_lon" ; float hfrainds(time_counter, y, x) ; hfrainds:units = "W/m2" ; hfrainds:standard_name = "temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water" ; hfrainds:_FillValue = 9.96921e+36f ; hfrainds:long_name = "temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water" ; hfrainds:online_operation = "ave(X)" ; hfrainds:interval_operation = 28800.f ; hfrainds:interval_write = -1.f ; hfrainds:coordinates = "time_counter nav_lat nav_lon" ; float hfrunoffds(time_counter, y, x) ; hfrunoffds:units = "W/m2" ; hfrunoffds:standard_name = "temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water" ; hfrunoffds:_FillValue = 9.96921e+36f ; hfrunoffds:long_name = "temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water" ; hfrunoffds:online_operation = "ave(X)" ; hfrunoffds:interval_operation = 28800.f ; hfrunoffds:interval_write = -1.f ; hfrunoffds:coordinates = "time_counter nav_lat nav_lon" ; float hfsithermds(time_counter, y, x) ; hfsithermds:units = "W/m2" ; hfsithermds:standard_name = "heat_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; hfsithermds:_FillValue = 9.96921e+36f ; hfsithermds:long_name = "heat_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; hfsithermds:online_operation = "ave(X)" ; hfsithermds:interval_operation = 28800.f ; hfsithermds:interval_write = -1.f ; hfsithermds:coordinates = "time_counter nav_lat nav_lon" ; float hfsnthermds(time_counter, y, x) ; hfsnthermds:units = "W/m2" ; hfsnthermds:standard_name = "heat_flux_into_sea_water_due_to_snow_thermodynamics" ; hfsnthermds:_FillValue = 9.96921e+36f ; hfsnthermds:long_name = "heat_flux_into_sea_water_due_to_snow_thermodynamics" ; hfsnthermds:online_operation = "ave(X)" ; hfsnthermds:interval_operation = 28800.f ; hfsnthermds:interval_write = -1.f ; hfsnthermds:coordinates = "time_counter nav_lat nav_lon" ; float nshfls(time_counter, y, x) ; nshfls:units = "W/m2" ; nshfls:standard_name = "surface_net_downward_non_solar_flux" ; nshfls:_FillValue = 9.96921e+36f ; nshfls:long_name = "surface_net_downward_non_solar_flux" ; nshfls:online_operation = "ave(X)" ; nshfls:interval_operation = 28800.f ; nshfls:interval_write = -1.f ; nshfls:coordinates = "time_counter nav_lat nav_lon" ; float omlmax(time_counter, y, x) ; omlmax:units = "m" ; omlmax:standard_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omlmax:_FillValue = 9.96921e+36f ; omlmax:long_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omlmax:online_operation = "t_max(X)" ; omlmax:interval_operation = 5760.f ; omlmax:interval_write = -1.f ; omlmax:coordinates = "time_counter nav_lat nav_lon" ; float pbo(time_counter, y, x) ; pbo:units = "dbar" ; pbo:standard_name = "sea_water_pressure_at_sea_floor" ; pbo:_FillValue = 9.96921e+36f ; pbo:long_name = "sea_water_pressure_at_sea_floor" ; pbo:online_operation = "ave(X)" ; pbo:interval_operation = 5760.f ; pbo:interval_write = -1.f ; pbo:coordinates = "time_counter nav_lat nav_lon" ; float pr(time_counter, y, x) ; pr:units = "kg/m2/s" ; pr:standard_name = "rainfall_flux" ; pr:_FillValue = 9.96921e+36f ; pr:long_name = "rainfall_flux" ; pr:online_operation = "ave(X)" ; pr:interval_operation = 28800.f ; pr:interval_write = -1.f ; pr:coordinates = "time_counter nav_lat nav_lon" ; float prsn(time_counter, y, x) ; prsn:units = "kg/m2/s" ; prsn:standard_name = "snowfall_flux" ; prsn:_FillValue = 9.96921e+36f ; prsn:long_name = "snowfall_flux" ; prsn:online_operation = "ave(X)" ; prsn:interval_operation = 28800.f ; prsn:interval_write = -1.f ; prsn:coordinates = "time_counter nav_lat nav_lon" ; float rhopoto(time_counter, deptht, y, x) ; rhopoto:units = "kg/m3" ; rhopoto:standard_name = "sea_water_potential_density" ; rhopoto:_FillValue = 9.96921e+36f ; rhopoto:long_name = "sea_water_potential_density" ; rhopoto:online_operation = "ave(X)" ; rhopoto:interval_operation = 5760.f ; rhopoto:interval_write = -1.f ; rhopoto:coordinates = "time_counter deptht nav_lat nav_lon" ; float rsds(time_counter, deptht, y, x) ; rsds:units = "W/m2" ; rsds:standard_name = "downwelling_shortwave_flux_in_sea_water" ; rsds:_FillValue = 9.96921e+36f ; rsds:long_name = "downwelling_shortwave_flux_in_sea_water" ; rsds:online_operation = "ave(X)" ; rsds:interval_operation = 28800.f ; rsds:interval_write = -1.f ; rsds:coordinates = "time_counter deptht nav_lat nav_lon" ; float sfdsi(time_counter, y, x) ; sfdsi:units = "kg/m2/s" ; sfdsi:standard_name = "downward_sea_ice_basal_salt_flux" ; sfdsi:_FillValue = 9.96921e+36f ; sfdsi:long_name = "downward_sea_ice_basal_salt_flux" ; sfdsi:online_operation = "ave(X)" ; sfdsi:interval_operation = 28800.f ; sfdsi:interval_write = -1.f ; sfdsi:coordinates = "time_counter nav_lat nav_lon" ; float so20chgt(time_counter, y, x) ; so20chgt:units = "m" ; so20chgt:standard_name = "Depth of 20C isotherm" ; so20chgt:_FillValue = 9.96921e+36f ; so20chgt:long_name = "Depth of 20C isotherm" ; so20chgt:online_operation = "ave(X)" ; so20chgt:interval_operation = 5760.f ; so20chgt:interval_write = -1.f ; so20chgt:coordinates = "time_counter nav_lat nav_lon" ; float so28chgt(time_counter, y, x) ; so28chgt:units = "m" ; so28chgt:standard_name = "Depth of 28C isotherm" ; so28chgt:_FillValue = 9.96921e+36f ; so28chgt:long_name = "Depth of 28C isotherm" ; so28chgt:online_operation = "ave(X)" ; so28chgt:interval_operation = 5760.f ; so28chgt:interval_write = -1.f ; so28chgt:coordinates = "time_counter nav_lat nav_lon" ; float sohefldo(time_counter, y, x) ; sohefldo:units = "W/m2" ; sohefldo:standard_name = "Net Downward Heat Flux" ; sohefldo:_FillValue = 9.96921e+36f ; sohefldo:long_name = "Net Downward Heat Flux" ; sohefldo:online_operation = "ave(X)" ; sohefldo:interval_operation = 28800.f ; sohefldo:interval_write = -1.f ; sohefldo:coordinates = "time_counter nav_lat nav_lon" ; float sohtc300(time_counter, y, x) ; sohtc300:units = "W" ; sohtc300:standard_name = "Heat content 300 m" ; sohtc300:_FillValue = 9.96921e+36f ; sohtc300:long_name = "Heat content 300 m" ; sohtc300:online_operation = "ave(X)" ; sohtc300:interval_operation = 5760.f ; sohtc300:interval_write = -1.f ; sohtc300:coordinates = "time_counter nav_lat nav_lon" ; float soicecov(time_counter, y, x) ; soicecov:units = "1" ; soicecov:standard_name = "sea_ice_area_fraction" ; soicecov:_FillValue = 9.96921e+36f ; soicecov:long_name = "sea_ice_area_fraction" ; soicecov:online_operation = "ave(X)" ; soicecov:interval_operation = 28800.f ; soicecov:interval_write = -1.f ; soicecov:coordinates = "time_counter nav_lat nav_lon" ; float somixhgt(time_counter, y, x) ; somixhgt:units = "m" ; somixhgt:standard_name = "mixing layer depth (Turbocline)" ; somixhgt:_FillValue = 9.96921e+36f ; somixhgt:long_name = "mixing layer depth (Turbocline)" ; somixhgt:online_operation = "ave(X)" ; somixhgt:interval_operation = 5760.f ; somixhgt:interval_write = -1.f ; somixhgt:coordinates = "time_counter nav_lat nav_lon" ; float somx3010(time_counter, y, x) ; somx3010:units = "m" ; somx3010:standard_name = "Mixed Layer Depth dr=0.03 (ref.10m)" ; somx3010:_FillValue = 9.96921e+36f ; somx3010:long_name = "Mixed Layer Depth dr=0.03 (ref.10m)" ; somx3010:online_operation = "ave(X)" ; somx3010:interval_operation = 5760.f ; somx3010:interval_write = -1.f ; somx3010:coordinates = "time_counter nav_lat nav_lon" ; float somxl010(time_counter, y, x) ; somxl010:units = "m" ; somxl010:standard_name = "Mixed Layer Depth 0.01 ref.10m" ; somxl010:_FillValue = 9.96921e+36f ; somxl010:long_name = "Mixed Layer Depth 0.01 ref.10m" ; somxl010:online_operation = "ave(X)" ; somxl010:interval_operation = 5760.f ; somxl010:interval_write = -1.f ; somxl010:coordinates = "time_counter nav_lat nav_lon" ; float sosaline(time_counter, y, x) ; sosaline:units = "psu" ; sosaline:standard_name = "sea_surface_salinity" ; sosaline:_FillValue = 9.96921e+36f ; sosaline:long_name = "sea_surface_salinity" ; sosaline:online_operation = "ave(X)" ; sosaline:interval_operation = 5760.f ; sosaline:interval_write = -1.f ; sosaline:coordinates = "time_counter nav_lat nav_lon" ; float soshfldo(time_counter, y, x) ; soshfldo:units = "W/m2" ; soshfldo:standard_name = "surface_net_downward_shortwave_flux" ; soshfldo:_FillValue = 9.96921e+36f ; soshfldo:long_name = "surface_net_downward_shortwave_flux" ; soshfldo:online_operation = "ave(X)" ; soshfldo:interval_operation = 28800.f ; soshfldo:interval_write = -1.f ; soshfldo:coordinates = "time_counter nav_lat nav_lon" ; float sossheig(time_counter, y, x) ; sossheig:units = "m" ; sossheig:standard_name = "sea_surface_height_above_geoid" ; sossheig:_FillValue = 9.96921e+36f ; sossheig:long_name = "sea_surface_height_above_geoid" ; sossheig:online_operation = "ave(X)" ; sossheig:interval_operation = 5760.f ; sossheig:interval_write = -1.f ; sossheig:coordinates = "time_counter nav_lat nav_lon" ; float sosstsst(time_counter, y, x) ; sosstsst:units = "degC" ; sosstsst:standard_name = "sea_surface_temperature" ; sosstsst:_FillValue = 9.96921e+36f ; sosstsst:long_name = "sea_surface_temperature" ; sosstsst:online_operation = "ave(X)" ; sosstsst:interval_operation = 5760.f ; sosstsst:interval_write = -1.f ; sosstsst:coordinates = "time_counter nav_lat nav_lon" ; float sotaumod(time_counter, y, x) ; sotaumod:units = "N/m2" ; sotaumod:standard_name = "Wind stress module" ; sotaumod:_FillValue = 9.96921e+36f ; sotaumod:long_name = "Wind stress module" ; sotaumod:online_operation = "ave(X)" ; sotaumod:interval_operation = 28800.f ; sotaumod:interval_write = -1.f ; sotaumod:coordinates = "time_counter nav_lat nav_lon" ; float sowaflcd(time_counter, y, x) ; sowaflcd:units = "kg/m2/s" ; sowaflcd:standard_name = "concentration/dilution water flux" ; sowaflcd:_FillValue = 9.96921e+36f ; sowaflcd:long_name = "concentration/dilution water flux" ; sowaflcd:online_operation = "ave(X)" ; sowaflcd:interval_operation = 28800.f ; sowaflcd:interval_write = -1.f ; sowaflcd:coordinates = "time_counter nav_lat nav_lon" ; float sowaflup(time_counter, y, x) ; sowaflup:units = "kg/m2/s" ; sowaflup:standard_name = "water_flux_into_sea_water" ; sowaflup:_FillValue = 9.96921e+36f ; sowaflup:long_name = "water_flux_into_sea_water" ; sowaflup:online_operation = "ave(X)" ; sowaflup:interval_operation = 28800.f ; sowaflup:interval_write = -1.f ; sowaflup:coordinates = "time_counter nav_lat nav_lon" ; float sowindsp(time_counter, y, x) ; sowindsp:units = "m/s" ; sowindsp:standard_name = "Wind speed module at 10 m" ; sowindsp:_FillValue = 9.96921e+36f ; sowindsp:long_name = "Wind speed module at 10 m" ; sowindsp:online_operation = "ave(X)" ; sowindsp:interval_operation = 28800.f ; sowindsp:interval_write = -1.f ; sowindsp:coordinates = "time_counter nav_lat nav_lon" ; float thkcello(time_counter, deptht, y, x) ; thkcello:units = "m" ; thkcello:standard_name = "cell_thickness" ; thkcello:_FillValue = 9.96921e+36f ; thkcello:long_name = "cell_thickness" ; thkcello:online_operation = "ave(X)" ; thkcello:interval_operation = 5760.f ; thkcello:interval_write = -1.f ; thkcello:coordinates = "time_counter deptht nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float tossq(time_counter, y, x) ; tossq:units = "degC2" ; tossq:standard_name = "square_of_sea_surface_temperature" ; tossq:_FillValue = 9.96921e+36f ; tossq:long_name = "square_of_sea_surface_temperature" ; tossq:online_operation = "ave(X)" ; tossq:interval_operation = 5760.f ; tossq:interval_write = -1.f ; tossq:coordinates = "time_counter nav_lat nav_lon" ; float vosaline(time_counter, deptht, y, x) ; vosaline:units = "psu" ; vosaline:standard_name = "sea_water_salinity" ; vosaline:_FillValue = 9.96921e+36f ; vosaline:long_name = "sea_water_salinity" ; vosaline:online_operation = "ave(X)" ; vosaline:interval_operation = 5760.f ; vosaline:interval_write = -1.f ; vosaline:coordinates = "time_counter deptht nav_lat nav_lon" ; float votemper(time_counter, deptht, y, x) ; votemper:units = "degC" ; votemper:standard_name = "sea_water_potential_temperature" ; votemper:_FillValue = 9.96921e+36f ; votemper:long_name = "sea_water_potential_temperature" ; votemper:online_operation = "ave(X)" ; votemper:interval_operation = 5760.f ; votemper:interval_write = -1.f ; votemper:coordinates = "time_counter deptht nav_lat nav_lon" ; float vsfsit(time_counter, y, x) ; vsfsit:units = "kg/m2/s" ; vsfsit:standard_name = "virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; vsfsit:_FillValue = 9.96921e+36f ; vsfsit:long_name = "virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics" ; vsfsit:online_operation = "ave(X)" ; vsfsit:interval_operation = 28800.f ; vsfsit:interval_write = -1.f ; vsfsit:coordinates = "time_counter nav_lat nav_lon" ; float wfcorr(time_counter, y, x) ; wfcorr:units = "kg/m2/s" ; wfcorr:standard_name = "water_flux_correction" ; wfcorr:_FillValue = 9.96921e+36f ; wfcorr:long_name = "water_flux_correction" ; wfcorr:online_operation = "ave(X)" ; wfcorr:interval_operation = 28800.f ; wfcorr:interval_write = -1.f ; wfcorr:coordinates = "time_counter nav_lat nav_lon" ; float zossq(time_counter, y, x) ; zossq:units = "m2" ; zossq:standard_name = "square_of_sea_surface_height_above_geoid" ; zossq:_FillValue = 9.96921e+36f ; zossq:long_name = "square_of_sea_surface_height_above_geoid" ; zossq:online_operation = "ave(X)" ; zossq:interval_operation = 5760.f ; zossq:interval_write = -1.f ; zossq:coordinates = "time_counter nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_U.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_U { // format variant: 64bit dimensions: depthu = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthu(depthu) ; depthu:axis = "Z" ; depthu:standard_name = "model_level_number" ; depthu:units = "m" ; depthu:positive = "down" ; depthu:valid_min = 4.999938f ; depthu:valid_max = 5250.227f ; depthu:title = "depthu" ; depthu:long_name = "Vertical U levels" ; float hfx(time_counter, y, x) ; hfx:units = "W" ; hfx:standard_name = "ocean_heat_x_transport" ; hfx:_FillValue = 9.96921e+36f ; hfx:long_name = "ocean_heat_x_transport" ; hfx:online_operation = "ave(X)" ; hfx:interval_operation = 5760.f ; hfx:interval_write = -1.f ; hfx:coordinates = "time_counter nav_lat nav_lon" ; float hfxba(time_counter, y, x) ; hfxba:units = "W" ; hfxba:standard_name = "ocean_heat_x_transport_due_to_bolus_advection" ; hfxba:_FillValue = 9.96921e+36f ; hfxba:long_name = "ocean_heat_x_transport_due_to_bolus_advection" ; hfxba:online_operation = "ave(X)" ; hfxba:interval_operation = 5760.f ; hfxba:interval_write = -1.f ; hfxba:coordinates = "time_counter nav_lat nav_lon" ; float hfxdiff(time_counter, y, x) ; hfxdiff:units = "W" ; hfxdiff:standard_name = "ocean_heat_x_transport_due_to_diffusion" ; hfxdiff:_FillValue = 9.96921e+36f ; hfxdiff:long_name = "ocean_heat_x_transport_due_to_diffusion" ; hfxdiff:online_operation = "ave(X)" ; hfxdiff:interval_operation = 5760.f ; hfxdiff:interval_write = -1.f ; hfxdiff:coordinates = "time_counter nav_lat nav_lon" ; float sozotaux(time_counter, y, x) ; sozotaux:units = "N/m2" ; sozotaux:standard_name = "surface_downward_x_stress" ; sozotaux:_FillValue = 9.96921e+36f ; sozotaux:long_name = "surface_downward_x_stress" ; sozotaux:online_operation = "ave(X)" ; sozotaux:interval_operation = 5760.f ; sozotaux:interval_write = -1.f ; sozotaux:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float umo(time_counter, depthu, y, x) ; umo:units = "kg/s" ; umo:standard_name = "ocean_mass_x_transport" ; umo:_FillValue = 9.96921e+36f ; umo:long_name = "ocean_mass_x_transport" ; umo:online_operation = "ave(X)" ; umo:interval_operation = 5760.f ; umo:interval_write = -1.f ; umo:coordinates = "time_counter depthu nav_lat nav_lon" ; float vozocrtx(time_counter, depthu, y, x) ; vozocrtx:units = "m/s" ; vozocrtx:standard_name = "sea_water_x_velocity" ; vozocrtx:_FillValue = 9.96921e+36f ; vozocrtx:long_name = "sea_water_x_velocity" ; vozocrtx:online_operation = "ave(X)" ; vozocrtx:interval_operation = 5760.f ; vozocrtx:interval_write = -1.f ; vozocrtx:coordinates = "time_counter depthu nav_lat nav_lon" ; float vozoeivu(time_counter, depthu, y, x) ; vozoeivu:units = "m/s" ; vozoeivu:standard_name = "EIV ocean current along i-axis" ; vozoeivu:_FillValue = 9.96921e+36f ; vozoeivu:long_name = "EIV ocean current along i-axis" ; vozoeivu:online_operation = "ave(X)" ; vozoeivu:interval_operation = 5760.f ; vozoeivu:interval_write = -1.f ; vozoeivu:coordinates = "time_counter depthu nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.97588f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7534f ; nav_lon:valid_max = 179.4187f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_U.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_V.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_V { // format variant: 64bit dimensions: depthv = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthv(depthv) ; depthv:axis = "Z" ; depthv:standard_name = "model_level_number" ; depthv:units = "m" ; depthv:positive = "down" ; depthv:valid_min = 4.999938f ; depthv:valid_max = 5250.227f ; depthv:title = "depthv" ; depthv:long_name = "Vertical V levels" ; float hfy(time_counter, y, x) ; hfy:units = "W" ; hfy:standard_name = "ocean_heat_y_transport" ; hfy:_FillValue = 9.96921e+36f ; hfy:long_name = "ocean_heat_y_transport" ; hfy:online_operation = "ave(X)" ; hfy:interval_operation = 5760.f ; hfy:interval_write = -1.f ; hfy:coordinates = "time_counter nav_lat nav_lon" ; float hfyba(time_counter, y, x) ; hfyba:units = "W" ; hfyba:standard_name = "ocean_heat_y_transport_due_to_bolus_advection" ; hfyba:_FillValue = 9.96921e+36f ; hfyba:long_name = "ocean_heat_y_transport_due_to_bolus_advection" ; hfyba:online_operation = "ave(X)" ; hfyba:interval_operation = 5760.f ; hfyba:interval_write = -1.f ; hfyba:coordinates = "time_counter nav_lat nav_lon" ; float hfydiff(time_counter, y, x) ; hfydiff:units = "W" ; hfydiff:standard_name = "ocean_heat_y_transport_due_to_diffusion" ; hfydiff:_FillValue = 9.96921e+36f ; hfydiff:long_name = "ocean_heat_y_transport_due_to_diffusion" ; hfydiff:online_operation = "ave(X)" ; hfydiff:interval_operation = 5760.f ; hfydiff:interval_write = -1.f ; hfydiff:coordinates = "time_counter nav_lat nav_lon" ; float sometauy(time_counter, y, x) ; sometauy:units = "N/m2" ; sometauy:standard_name = "surface_downward_y_stress" ; sometauy:_FillValue = 9.96921e+36f ; sometauy:long_name = "surface_downward_y_stress" ; sometauy:online_operation = "ave(X)" ; sometauy:interval_operation = 5760.f ; sometauy:interval_write = -1.f ; sometauy:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float vmo(time_counter, depthv, y, x) ; vmo:units = "kg/s" ; vmo:standard_name = "ocean_mass_y_transport" ; vmo:_FillValue = 9.96921e+36f ; vmo:long_name = "ocean_mass_y_transport" ; vmo:online_operation = "ave(X)" ; vmo:interval_operation = 5760.f ; vmo:interval_write = -1.f ; vmo:coordinates = "time_counter depthv nav_lat nav_lon" ; float vomecrty(time_counter, depthv, y, x) ; vomecrty:units = "m/s" ; vomecrty:standard_name = "sea_water_y_velocity" ; vomecrty:_FillValue = 9.96921e+36f ; vomecrty:long_name = "sea_water_y_velocity" ; vomecrty:online_operation = "ave(X)" ; vomecrty:interval_operation = 5760.f ; vomecrty:interval_write = -1.f ; vomecrty:coordinates = "time_counter depthv nav_lat nav_lon" ; float vomeeivv(time_counter, depthv, y, x) ; vomeeivv:units = "m/s" ; vomeeivv:standard_name = "EIV ocean current along j-axis" ; vomeeivv:_FillValue = 9.96921e+36f ; vomeeivv:long_name = "EIV ocean current along j-axis" ; vomeeivv:online_operation = "ave(X)" ; vomeeivv:interval_operation = 5760.f ; vomeeivv:interval_write = -1.f ; vomeeivv:coordinates = "time_counter depthv nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -77.98417f ; nav_lat:valid_max = 89.4608f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -180.f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_V.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_grid_W.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_grid_W { // format variant: 64bit dimensions: depthw = 31 ; time_counter = UNLIMITED ; // (1 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float depthw(depthw) ; depthw:axis = "Z" ; depthw:standard_name = "model_level_number" ; depthw:units = "m" ; depthw:positive = "down" ; depthw:valid_min = 0.f ; depthw:valid_max = 5000.f ; depthw:title = "depthw" ; depthw:long_name = "Vertical W levels" ; float difvmo(time_counter, depthw, y, x) ; difvmo:units = "m2/s" ; difvmo:standard_name = "ocean_vertical_momentum_diffusivity" ; difvmo:_FillValue = 9.96921e+36f ; difvmo:long_name = "ocean_vertical_momentum_diffusivity" ; difvmo:online_operation = "ave(X)" ; difvmo:interval_operation = 5760.f ; difvmo:interval_write = -1.f ; difvmo:coordinates = "time_counter depthw nav_lat nav_lon" ; float difvmto(time_counter, depthw, y, x) ; difvmto:units = "m2/s" ; difvmto:standard_name = "ocean_vertical_momentum_diffusivity_due_to_tides" ; difvmto:_FillValue = 9.96921e+36f ; difvmto:long_name = "ocean_vertical_momentum_diffusivity_due_to_tides" ; difvmto:online_operation = "ave(X)" ; difvmto:interval_operation = 5760.f ; difvmto:interval_write = -1.f ; difvmto:coordinates = "time_counter depthw nav_lat nav_lon" ; float difvtrto(time_counter, depthw, y, x) ; difvtrto:units = "m2/s" ; difvtrto:standard_name = "ocean_vertical_tracer_diffusivity_due_to_tides" ; difvtrto:_FillValue = 9.96921e+36f ; difvtrto:long_name = "ocean_vertical_tracer_diffusivity_due_to_tides" ; difvtrto:online_operation = "ave(X)" ; difvtrto:interval_operation = 5760.f ; difvtrto:interval_write = -1.f ; difvtrto:coordinates = "time_counter depthw nav_lat nav_lon" ; float soleaeiw(time_counter, y, x) ; soleaeiw:units = "m2/s" ; soleaeiw:standard_name = "ocean_tracer_bolus_laplacian_diffusivity" ; soleaeiw:_FillValue = 9.96921e+36f ; soleaeiw:long_name = "ocean_tracer_bolus_laplacian_diffusivity" ; soleaeiw:online_operation = "ave(X)" ; soleaeiw:interval_operation = 5760.f ; soleaeiw:interval_write = -1.f ; soleaeiw:coordinates = "time_counter nav_lat nav_lon" ; float soleahtw(time_counter, y, x) ; soleahtw:units = "m2/s" ; soleahtw:standard_name = "ocean_tracer_xy_laplacian_diffusivity" ; soleahtw:_FillValue = 9.96921e+36f ; soleahtw:long_name = "ocean_tracer_xy_laplacian_diffusivity" ; soleahtw:online_operation = "ave(X)" ; soleahtw:interval_operation = 5760.f ; soleahtw:interval_write = -1.f ; soleahtw:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float voddmavs(time_counter, depthw, y, x) ; voddmavs:units = "m2/s" ; voddmavs:standard_name = "ocean_vertical_salt_diffusivity" ; voddmavs:_FillValue = 9.96921e+36f ; voddmavs:long_name = "ocean_vertical_salt_diffusivity" ; voddmavs:online_operation = "ave(X)" ; voddmavs:interval_operation = 5760.f ; voddmavs:interval_write = -1.f ; voddmavs:coordinates = "time_counter depthw nav_lat nav_lon" ; float votkeavt(time_counter, depthw, y, x) ; votkeavt:units = "m2/s" ; votkeavt:standard_name = "ocean_vertical_heat_diffusivity" ; votkeavt:_FillValue = 9.96921e+36f ; votkeavt:long_name = "ocean_vertical_heat_diffusivity" ; votkeavt:online_operation = "ave(X)" ; votkeavt:interval_operation = 5760.f ; votkeavt:interval_write = -1.f ; votkeavt:coordinates = "time_counter depthw nav_lat nav_lon" ; float vovecrtz(time_counter, depthw, y, x) ; vovecrtz:units = "m/s" ; vovecrtz:standard_name = "ocean vertical velocity" ; vovecrtz:_FillValue = 9.96921e+36f ; vovecrtz:long_name = "ocean vertical velocity" ; vovecrtz:online_operation = "ave(X)" ; vovecrtz:interval_operation = 5760.f ; vovecrtz:interval_write = -1.f ; vovecrtz:coordinates = "time_counter depthw nav_lat nav_lon" ; float voveeivw(time_counter, depthw, y, x) ; voveeivw:units = "m/s" ; voveeivw:standard_name = "EIV ocean vertical velocity" ; voveeivw:_FillValue = 9.96921e+36f ; voveeivw:long_name = "EIV ocean vertical velocity" ; voveeivw:online_operation = "ave(X)" ; voveeivw:interval_operation = 5760.f ; voveeivw:interval_write = -1.f ; voveeivw:coordinates = "time_counter depthw nav_lat nav_lon" ; float wmo(time_counter, depthw, y, x) ; wmo:units = "kg/s" ; wmo:standard_name = "upward_ocean_mass_transport" ; wmo:_FillValue = 9.96921e+36f ; wmo:long_name = "upward_ocean_mass_transport" ; wmo:online_operation = "ave(X)" ; wmo:interval_operation = 5760.f ; wmo:interval_write = -1.f ; wmo:coordinates = "time_counter depthw nav_lat nav_lon" ; float wmosq(time_counter, depthw, y, x) ; wmosq:units = "kg2/s2" ; wmosq:standard_name = "square_pf_upward_ocean_mass_transport" ; wmosq:_FillValue = 9.96921e+36f ; wmosq:long_name = "square_pf_upward_ocean_mass_transport" ; wmosq:online_operation = "ave(X)" ; wmosq:interval_operation = 5760.f ; wmosq:interval_write = -1.f ; wmosq:coordinates = "time_counter depthw nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_grid_W.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/MO/v2.historical1_19800101_19800131_1M_scalar.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_scalar { // format variant: 64bit dimensions: x = 1 ; y = 1 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = 1.f ; nav_lon:valid_max = 1.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = 1.f ; nav_lat:valid_max = 1.f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float masso(time_counter, y, x) ; masso:units = "kg" ; masso:standard_name = "sea_water_mass" ; masso:_FillValue = 9.96921e+36f ; masso:long_name = "sea_water_mass" ; masso:online_operation = "ave(X)" ; masso:interval_operation = 5760.f ; masso:interval_write = -1.f ; masso:coordinates = "time_counter nav_lat nav_lon" ; float volo(time_counter, y, x) ; volo:units = "m3" ; volo:standard_name = "sea_water_volume" ; volo:_FillValue = 9.96921e+36f ; volo:long_name = "sea_water_volume" ; volo:online_operation = "ave(X)" ; volo:interval_operation = 5760.f ; volo:interval_write = -1.f ; volo:coordinates = "time_counter nav_lat nav_lon" ; float zosga(time_counter, y, x) ; zosga:units = "m" ; zosga:standard_name = "global_average_sea_level_change" ; zosga:_FillValue = 9.96921e+36f ; zosga:long_name = "global_average_sea_level_change" ; zosga:online_operation = "ave(X)" ; zosga:interval_operation = 5760.f ; zosga:interval_write = -1.f ; zosga:coordinates = "time_counter nav_lat nav_lon" ; float zossga(time_counter, y, x) ; zossga:units = "m" ; zossga:standard_name = "global_average_steric_sea_level_change" ; zossga:_FillValue = 9.96921e+36f ; zossga:long_name = "global_average_steric_sea_level_change" ; zossga:online_operation = "ave(X)" ; zossga:interval_operation = 5760.f ; zossga:interval_write = -1.f ; zossga:coordinates = "time_counter nav_lat nav_lon" ; float zostoga(time_counter, y, x) ; zostoga:units = "m" ; zostoga:standard_name = "global_average_thermosteric_sea_level_change" ; zostoga:_FillValue = 9.96921e+36f ; zostoga:long_name = "global_average_thermosteric_sea_level_change" ; zostoga:online_operation = "ave(X)" ; zostoga:interval_operation = 5760.f ; zostoga:interval_write = -1.f ; zostoga:coordinates = "time_counter nav_lat nav_lon" ; float thetaoga(time_counter, y, x) ; thetaoga:units = "degC" ; thetaoga:standard_name = "sea_water_potential_temperature" ; thetaoga:_FillValue = 9.96921e+36f ; thetaoga:long_name = "sea_water_potential_temperature" ; thetaoga:online_operation = "ave(X)" ; thetaoga:interval_operation = 5760.f ; thetaoga:interval_write = -1.f ; thetaoga:coordinates = "time_counter nav_lat nav_lon" ; float soga(time_counter, y, x) ; soga:units = "psu" ; soga:standard_name = "sea_water_salinity" ; soga:_FillValue = 9.96921e+36f ; soga:long_name = "sea_water_salinity" ; soga:online_operation = "ave(X)" ; soga:interval_operation = 5760.f ; soga:interval_write = -1.f ; soga:coordinates = "time_counter nav_lat nav_lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1m_scalar.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; } }}} == SBG/Output/MO/v2.historical1_19800101_19800131_1M_stomate_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_stomate_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; PFT = 13 ; P10 = 10 ; P100 = 100 ; P11 = 11 ; P101 = 101 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float PFT(PFT) ; PFT:axis = "Z" ; PFT:standard_name = "model_level_number" ; PFT:units = "1" ; PFT:valid_min = 1.f ; PFT:valid_max = 13.f ; PFT:title = "PFT" ; PFT:long_name = "Plant functional type" ; float P10(P10) ; P10:axis = "Z" ; P10:standard_name = "model_level_number" ; P10:units = "1" ; P10:valid_min = 1.f ; P10:valid_max = 10.f ; P10:title = "P10" ; P10:long_name = "Pool 10 years" ; float P100(P100) ; P100:axis = "Z" ; P100:standard_name = "model_level_number" ; P100:units = "1" ; P100:valid_min = 1.f ; P100:valid_max = 100.f ; P100:title = "P100" ; P100:long_name = "Pool 100 years" ; float P11(P11) ; P11:axis = "Z" ; P11:standard_name = "model_level_number" ; P11:units = "1" ; P11:valid_min = 1.f ; P11:valid_max = 11.f ; P11:title = "P11" ; P11:long_name = "Pool 10 years + 1" ; float P101(P101) ; P101:axis = "Z" ; P101:standard_name = "model_level_number" ; P101:units = "1" ; P101:valid_min = 1.f ; P101:valid_max = 101.f ; P101:title = "P101" ; P101:long_name = "Pool 100 years + 1" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float LITTER_STR_AB(time_counter, PFT, lat, lon) ; LITTER_STR_AB:units = "gC/m^2/pft" ; LITTER_STR_AB:standard_name = "structural litter above ground" ; LITTER_STR_AB:_FillValue = 9.96921e+36f ; LITTER_STR_AB:long_name = "structural litter above ground" ; LITTER_STR_AB:online_operation = "ave(scatter(X))" ; LITTER_STR_AB:interval_operation = 1800.f ; LITTER_STR_AB:interval_write = -1.f ; LITTER_STR_AB:coordinates = "time_counter PFT lat lon" ; float LITTER_MET_AB(time_counter, PFT, lat, lon) ; LITTER_MET_AB:units = "gC/m^2/pft" ; LITTER_MET_AB:standard_name = "metabolic litter above ground" ; LITTER_MET_AB:_FillValue = 9.96921e+36f ; LITTER_MET_AB:long_name = "metabolic litter above ground" ; LITTER_MET_AB:online_operation = "ave(scatter(X))" ; LITTER_MET_AB:interval_operation = 1800.f ; LITTER_MET_AB:interval_write = -1.f ; LITTER_MET_AB:coordinates = "time_counter PFT lat lon" ; float LITTER_STR_BE(time_counter, PFT, lat, lon) ; LITTER_STR_BE:units = "gC/m^2/pft" ; LITTER_STR_BE:standard_name = "structural litter below ground" ; LITTER_STR_BE:_FillValue = 9.96921e+36f ; LITTER_STR_BE:long_name = "structural litter below ground" ; LITTER_STR_BE:online_operation = "ave(scatter(X))" ; LITTER_STR_BE:interval_operation = 1800.f ; LITTER_STR_BE:interval_write = -1.f ; LITTER_STR_BE:coordinates = "time_counter PFT lat lon" ; float LITTER_MET_BE(time_counter, PFT, lat, lon) ; LITTER_MET_BE:units = "gC/m^2/pft" ; LITTER_MET_BE:standard_name = "metabolic litter below ground" ; LITTER_MET_BE:_FillValue = 9.96921e+36f ; LITTER_MET_BE:long_name = "metabolic litter below ground" ; LITTER_MET_BE:online_operation = "ave(scatter(X))" ; LITTER_MET_BE:interval_operation = 1800.f ; LITTER_MET_BE:interval_write = -1.f ; LITTER_MET_BE:coordinates = "time_counter PFT lat lon" ; float DEADLEAF_COVER(time_counter, lat, lon) ; DEADLEAF_COVER:units = "-" ; DEADLEAF_COVER:standard_name = "fraction of soil covered by dead leaves" ; DEADLEAF_COVER:_FillValue = 9.96921e+36f ; DEADLEAF_COVER:long_name = "fraction of soil covered by dead leaves" ; DEADLEAF_COVER:online_operation = "ave(scatter(X))" ; DEADLEAF_COVER:interval_operation = 1800.f ; DEADLEAF_COVER:interval_write = -1.f ; DEADLEAF_COVER:coordinates = "time_counter lat lon" ; float TOTAL_SOIL_CARB(time_counter, PFT, lat, lon) ; TOTAL_SOIL_CARB:units = "gC/m^2" ; TOTAL_SOIL_CARB:standard_name = "total soil and litter carbon" ; TOTAL_SOIL_CARB:_FillValue = 9.96921e+36f ; TOTAL_SOIL_CARB:long_name = "total soil and litter carbon" ; TOTAL_SOIL_CARB:online_operation = "ave(scatter(X))" ; TOTAL_SOIL_CARB:interval_operation = 1800.f ; TOTAL_SOIL_CARB:interval_write = -1.f ; TOTAL_SOIL_CARB:coordinates = "time_counter PFT lat lon" ; float CARBON_ACTIVE(time_counter, PFT, lat, lon) ; CARBON_ACTIVE:units = "gC/m^2/pft" ; CARBON_ACTIVE:standard_name = "active soil carbon in ground" ; CARBON_ACTIVE:_FillValue = 9.96921e+36f ; CARBON_ACTIVE:long_name = "active soil carbon in ground" ; CARBON_ACTIVE:online_operation = "ave(scatter(X))" ; CARBON_ACTIVE:interval_operation = 1800.f ; CARBON_ACTIVE:interval_write = -1.f ; CARBON_ACTIVE:coordinates = "time_counter PFT lat lon" ; float CARBON_SLOW(time_counter, PFT, lat, lon) ; CARBON_SLOW:units = "gC/m^2/pft" ; CARBON_SLOW:standard_name = "slow soil carbon in ground" ; CARBON_SLOW:_FillValue = 9.96921e+36f ; CARBON_SLOW:long_name = "slow soil carbon in ground" ; CARBON_SLOW:online_operation = "ave(scatter(X))" ; CARBON_SLOW:interval_operation = 1800.f ; CARBON_SLOW:interval_write = -1.f ; CARBON_SLOW:coordinates = "time_counter PFT lat lon" ; float CARBON_PASSIVE(time_counter, PFT, lat, lon) ; CARBON_PASSIVE:units = "gC/m^2/pft" ; CARBON_PASSIVE:standard_name = "passive soil carbon in ground" ; CARBON_PASSIVE:_FillValue = 9.96921e+36f ; CARBON_PASSIVE:long_name = "passive soil carbon in ground" ; CARBON_PASSIVE:online_operation = "ave(scatter(X))" ; CARBON_PASSIVE:interval_operation = 1800.f ; CARBON_PASSIVE:interval_write = -1.f ; CARBON_PASSIVE:coordinates = "time_counter PFT lat lon" ; float T2M_LONGTERM(time_counter, lat, lon) ; T2M_LONGTERM:units = "K" ; T2M_LONGTERM:standard_name = "Longterm 2 m temperature" ; T2M_LONGTERM:_FillValue = 9.96921e+36f ; T2M_LONGTERM:long_name = "Longterm 2 m temperature" ; T2M_LONGTERM:online_operation = "ave(scatter(X))" ; T2M_LONGTERM:interval_operation = 1800.f ; T2M_LONGTERM:interval_write = -1.f ; T2M_LONGTERM:coordinates = "time_counter lat lon" ; float T2M_MONTH(time_counter, lat, lon) ; T2M_MONTH:units = "K" ; T2M_MONTH:standard_name = "Monthly 2 m temperature" ; T2M_MONTH:_FillValue = 9.96921e+36f ; T2M_MONTH:long_name = "Monthly 2 m temperature" ; T2M_MONTH:online_operation = "ave(scatter(X))" ; T2M_MONTH:interval_operation = 1800.f ; T2M_MONTH:interval_write = -1.f ; T2M_MONTH:coordinates = "time_counter lat lon" ; float T2M_WEEK(time_counter, lat, lon) ; T2M_WEEK:units = "K" ; T2M_WEEK:standard_name = "Weekly 2 m temperature" ; T2M_WEEK:_FillValue = 9.96921e+36f ; T2M_WEEK:long_name = "Weekly 2 m temperature" ; T2M_WEEK:online_operation = "ave(scatter(X))" ; T2M_WEEK:interval_operation = 1800.f ; T2M_WEEK:interval_write = -1.f ; T2M_WEEK:coordinates = "time_counter lat lon" ; float HET_RESP(time_counter, PFT, lat, lon) ; HET_RESP:units = "gC/m^2 tot/pft/day" ; HET_RESP:standard_name = "heterotr. resp. from ground" ; HET_RESP:_FillValue = 9.96921e+36f ; HET_RESP:long_name = "heterotr. resp. from ground" ; HET_RESP:online_operation = "ave(scatter(X))" ; HET_RESP:interval_operation = 1800.f ; HET_RESP:interval_write = -1.f ; HET_RESP:coordinates = "time_counter PFT lat lon" ; float BLACK_CARBON(time_counter, lat, lon) ; BLACK_CARBON:units = "gC/m^2 tot" ; BLACK_CARBON:standard_name = "black carbon on average total ground" ; BLACK_CARBON:_FillValue = 9.96921e+36f ; BLACK_CARBON:long_name = "black carbon on average total ground" ; BLACK_CARBON:online_operation = "ave(scatter(X))" ; BLACK_CARBON:interval_operation = 1800.f ; BLACK_CARBON:interval_write = -1.f ; BLACK_CARBON:coordinates = "time_counter lat lon" ; float FIREFRAC(time_counter, PFT, lat, lon) ; FIREFRAC:units = "1/day" ; FIREFRAC:standard_name = "Fire fraction on ground" ; FIREFRAC:_FillValue = 9.96921e+36f ; FIREFRAC:long_name = "Fire fraction on ground" ; FIREFRAC:online_operation = "ave(scatter(X))" ; FIREFRAC:interval_operation = 1800.f ; FIREFRAC:interval_write = -1.f ; FIREFRAC:coordinates = "time_counter PFT lat lon" ; float FIREINDEX(time_counter, PFT, lat, lon) ; FIREINDEX:units = "-" ; FIREINDEX:standard_name = "Fire index on ground" ; FIREINDEX:_FillValue = 9.96921e+36f ; FIREINDEX:long_name = "Fire index on ground" ; FIREINDEX:online_operation = "ave(scatter(X))" ; FIREINDEX:interval_operation = 1800.f ; FIREINDEX:interval_write = -1.f ; FIREINDEX:coordinates = "time_counter PFT lat lon" ; float LITTERHUM(time_counter, lat, lon) ; LITTERHUM:units = "-" ; LITTERHUM:standard_name = "Litter humidity" ; LITTERHUM:_FillValue = 9.96921e+36f ; LITTERHUM:long_name = "Litter humidity" ; LITTERHUM:online_operation = "ave(scatter(X))" ; LITTERHUM:interval_operation = 1800.f ; LITTERHUM:interval_write = -1.f ; LITTERHUM:coordinates = "time_counter lat lon" ; float CO2FLUX_MONTHLY(time_counter, PFT, lat, lon) ; CO2FLUX_MONTHLY:units = "gC/m^2/pft/mth" ; CO2FLUX_MONTHLY:standard_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY:_FillValue = 9.96921e+36f ; CO2FLUX_MONTHLY:long_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY:online_operation = "ave(scatter(X))" ; CO2FLUX_MONTHLY:interval_operation = 1800.f ; CO2FLUX_MONTHLY:interval_write = -1.f ; CO2FLUX_MONTHLY:coordinates = "time_counter PFT lat lon" ; float CO2FLUX_MONTHLY_SUM(time_counter, lat, lon) ; CO2FLUX_MONTHLY_SUM:units = "PgC/m^2/mth" ; CO2FLUX_MONTHLY_SUM:standard_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY_SUM:_FillValue = 9.96921e+36f ; CO2FLUX_MONTHLY_SUM:long_name = "Monthly CO2 flux" ; CO2FLUX_MONTHLY_SUM:online_operation = "ave(scatter(X))" ; CO2FLUX_MONTHLY_SUM:interval_operation = 1800.f ; CO2FLUX_MONTHLY_SUM:interval_write = -1.f ; CO2FLUX_MONTHLY_SUM:coordinates = "time_counter lat lon" ; float CO2_FIRE(time_counter, PFT, lat, lon) ; CO2_FIRE:units = "gC/day/m^2/pft" ; CO2_FIRE:standard_name = "Output CO2 flux from fire" ; CO2_FIRE:_FillValue = 9.96921e+36f ; CO2_FIRE:long_name = "Output CO2 flux from fire" ; CO2_FIRE:online_operation = "ave(scatter(X))" ; CO2_FIRE:interval_operation = 1800.f ; CO2_FIRE:interval_write = -1.f ; CO2_FIRE:coordinates = "time_counter PFT lat lon" ; float CO2_TAKEN(time_counter, PFT, lat, lon) ; CO2_TAKEN:units = "gC/day/m^2/pft" ; CO2_TAKEN:standard_name = "CO2 taken from atmosphere for initiate growth" ; CO2_TAKEN:_FillValue = 9.96921e+36f ; CO2_TAKEN:long_name = "CO2 taken from atmosphere for initiate growth" ; CO2_TAKEN:online_operation = "ave(scatter(X))" ; CO2_TAKEN:interval_operation = 1800.f ; CO2_TAKEN:interval_write = -1.f ; CO2_TAKEN:coordinates = "time_counter PFT lat lon" ; float LAI(time_counter, PFT, lat, lon) ; LAI:units = "-" ; LAI:standard_name = "Leaf Area Index" ; LAI:_FillValue = 9.96921e+36f ; LAI:long_name = "Leaf Area Index" ; LAI:online_operation = "ave(scatter(X))" ; LAI:interval_operation = 1800.f ; LAI:interval_write = -1.f ; LAI:coordinates = "time_counter PFT lat lon" ; float VEGET(time_counter, PFT, lat, lon) ; VEGET:units = "-" ; VEGET:standard_name = "Vegetation fraction" ; VEGET:_FillValue = 9.96921e+36f ; VEGET:long_name = "Vegetation fraction" ; VEGET:online_operation = "ave(scatter(X))" ; VEGET:interval_operation = 1800.f ; VEGET:interval_write = -1.f ; VEGET:coordinates = "time_counter PFT lat lon" ; float VEGET_MAX(time_counter, PFT, lat, lon) ; VEGET_MAX:units = "-" ; VEGET_MAX:standard_name = "Maximum vegetation fraction (LAI -> infinity)" ; VEGET_MAX:_FillValue = 9.96921e+36f ; VEGET_MAX:long_name = "Maximum vegetation fraction (LAI -> infinity)" ; VEGET_MAX:online_operation = "ave(scatter(X))" ; VEGET_MAX:interval_operation = 1800.f ; VEGET_MAX:interval_write = -1.f ; VEGET_MAX:coordinates = "time_counter PFT lat lon" ; float NPP(time_counter, PFT, lat, lon) ; NPP:units = "gC/day/(m^2 tot)" ; NPP:standard_name = "Net primary productivity" ; NPP:_FillValue = 9.96921e+36f ; NPP:long_name = "Net primary productivity" ; NPP:online_operation = "ave(scatter(X))" ; NPP:interval_operation = 1800.f ; NPP:interval_write = -1.f ; NPP:coordinates = "time_counter PFT lat lon" ; float GPP(time_counter, PFT, lat, lon) ; GPP:units = "gC/day/m^2" ; GPP:standard_name = "Gross primary productivity" ; GPP:_FillValue = 9.96921e+36f ; GPP:long_name = "Gross primary productivity" ; GPP:online_operation = "ave(scatter(X))" ; GPP:interval_operation = 1800.f ; GPP:interval_write = -1.f ; GPP:coordinates = "time_counter PFT lat lon" ; float IND(time_counter, PFT, lat, lon) ; IND:units = "1/ m^2" ; IND:standard_name = "Density of individuals" ; IND:_FillValue = 9.96921e+36f ; IND:long_name = "Density of individuals" ; IND:online_operation = "ave(scatter(X))" ; IND:interval_operation = 1800.f ; IND:interval_write = -1.f ; IND:coordinates = "time_counter PFT lat lon" ; float TOTAL_M(time_counter, PFT, lat, lon) ; TOTAL_M:units = "gC/m^2/pft" ; TOTAL_M:standard_name = "Total living biomass" ; TOTAL_M:_FillValue = 9.96921e+36f ; TOTAL_M:long_name = "Total living biomass" ; TOTAL_M:online_operation = "ave(scatter(X))" ; TOTAL_M:interval_operation = 1800.f ; TOTAL_M:interval_write = -1.f ; TOTAL_M:coordinates = "time_counter PFT lat lon" ; float LEAF_M(time_counter, PFT, lat, lon) ; LEAF_M:units = "gC/m^2" ; LEAF_M:standard_name = "Leaf mass" ; LEAF_M:_FillValue = 9.96921e+36f ; LEAF_M:long_name = "Leaf mass" ; LEAF_M:online_operation = "ave(scatter(X))" ; LEAF_M:interval_operation = 1800.f ; LEAF_M:interval_write = -1.f ; LEAF_M:coordinates = "time_counter PFT lat lon" ; float SAP_M_AB(time_counter, PFT, lat, lon) ; SAP_M_AB:units = "gC/m^2" ; SAP_M_AB:standard_name = "Sap mass above ground" ; SAP_M_AB:_FillValue = 9.96921e+36f ; SAP_M_AB:long_name = "Sap mass above ground" ; SAP_M_AB:online_operation = "ave(scatter(X))" ; SAP_M_AB:interval_operation = 1800.f ; SAP_M_AB:interval_write = -1.f ; SAP_M_AB:coordinates = "time_counter PFT lat lon" ; float SAP_M_BE(time_counter, PFT, lat, lon) ; SAP_M_BE:units = "gC/m^2" ; SAP_M_BE:standard_name = "Sap mass below ground" ; SAP_M_BE:_FillValue = 9.96921e+36f ; SAP_M_BE:long_name = "Sap mass below ground" ; SAP_M_BE:online_operation = "ave(scatter(X))" ; SAP_M_BE:interval_operation = 1800.f ; SAP_M_BE:interval_write = -1.f ; SAP_M_BE:coordinates = "time_counter PFT lat lon" ; float HEART_M_AB(time_counter, PFT, lat, lon) ; HEART_M_AB:units = "gC/m^2" ; HEART_M_AB:standard_name = "Heartwood mass above ground" ; HEART_M_AB:_FillValue = 9.96921e+36f ; HEART_M_AB:long_name = "Heartwood mass above ground" ; HEART_M_AB:online_operation = "ave(scatter(X))" ; HEART_M_AB:interval_operation = 1800.f ; HEART_M_AB:interval_write = -1.f ; HEART_M_AB:coordinates = "time_counter PFT lat lon" ; float HEART_M_BE(time_counter, PFT, lat, lon) ; HEART_M_BE:units = "gC/m^2" ; HEART_M_BE:standard_name = "Heartwood mass below ground" ; HEART_M_BE:_FillValue = 9.96921e+36f ; HEART_M_BE:long_name = "Heartwood mass below ground" ; HEART_M_BE:online_operation = "ave(scatter(X))" ; HEART_M_BE:interval_operation = 1800.f ; HEART_M_BE:interval_write = -1.f ; HEART_M_BE:coordinates = "time_counter PFT lat lon" ; float ROOT_M(time_counter, PFT, lat, lon) ; ROOT_M:units = "gC/m^2" ; ROOT_M:standard_name = "Root mass" ; ROOT_M:_FillValue = 9.96921e+36f ; ROOT_M:long_name = "Root mass" ; ROOT_M:online_operation = "ave(scatter(X))" ; ROOT_M:interval_operation = 1800.f ; ROOT_M:interval_write = -1.f ; ROOT_M:coordinates = "time_counter PFT lat lon" ; float FRUIT_M(time_counter, PFT, lat, lon) ; FRUIT_M:units = "gC/m^2" ; FRUIT_M:standard_name = "Fruit mass" ; FRUIT_M:_FillValue = 9.96921e+36f ; FRUIT_M:long_name = "Fruit mass" ; FRUIT_M:online_operation = "ave(scatter(X))" ; FRUIT_M:interval_operation = 1800.f ; FRUIT_M:interval_write = -1.f ; FRUIT_M:coordinates = "time_counter PFT lat lon" ; float RESERVE_M(time_counter, PFT, lat, lon) ; RESERVE_M:units = "gC/m^2" ; RESERVE_M:standard_name = "Carbohydrate reserve mass" ; RESERVE_M:_FillValue = 9.96921e+36f ; RESERVE_M:long_name = "Carbohydrate reserve mass" ; RESERVE_M:online_operation = "ave(scatter(X))" ; RESERVE_M:interval_operation = 1800.f ; RESERVE_M:interval_write = -1.f ; RESERVE_M:coordinates = "time_counter PFT lat lon" ; float TOTAL_TURN(time_counter, PFT, lat, lon) ; TOTAL_TURN:units = "gC/m^2/day" ; TOTAL_TURN:standard_name = "total turnover rate" ; TOTAL_TURN:_FillValue = 9.96921e+36f ; TOTAL_TURN:long_name = "total turnover rate" ; TOTAL_TURN:online_operation = "ave(scatter(X))" ; TOTAL_TURN:interval_operation = 1800.f ; TOTAL_TURN:interval_write = -1.f ; TOTAL_TURN:coordinates = "time_counter PFT lat lon" ; float LEAF_TURN(time_counter, PFT, lat, lon) ; LEAF_TURN:units = "gC/m^2/day" ; LEAF_TURN:standard_name = "Leaf turnover" ; LEAF_TURN:_FillValue = 9.96921e+36f ; LEAF_TURN:long_name = "Leaf turnover" ; LEAF_TURN:online_operation = "ave(scatter(X))" ; LEAF_TURN:interval_operation = 1800.f ; LEAF_TURN:interval_write = -1.f ; LEAF_TURN:coordinates = "time_counter PFT lat lon" ; float SAP_AB_TURN(time_counter, PFT, lat, lon) ; SAP_AB_TURN:units = "gC/m^2/day" ; SAP_AB_TURN:standard_name = "Sap turnover above" ; SAP_AB_TURN:_FillValue = 9.96921e+36f ; SAP_AB_TURN:long_name = "Sap turnover above" ; SAP_AB_TURN:online_operation = "ave(scatter(X))" ; SAP_AB_TURN:interval_operation = 1800.f ; SAP_AB_TURN:interval_write = -1.f ; SAP_AB_TURN:coordinates = "time_counter PFT lat lon" ; float ROOT_TURN(time_counter, PFT, lat, lon) ; ROOT_TURN:units = "gC/m^2/day" ; ROOT_TURN:standard_name = "Root turnover" ; ROOT_TURN:_FillValue = 9.96921e+36f ; ROOT_TURN:long_name = "Root turnover" ; ROOT_TURN:online_operation = "ave(scatter(X))" ; ROOT_TURN:interval_operation = 1800.f ; ROOT_TURN:interval_write = -1.f ; ROOT_TURN:coordinates = "time_counter PFT lat lon" ; float FRUIT_TURN(time_counter, PFT, lat, lon) ; FRUIT_TURN:units = "gC/m^2/day" ; FRUIT_TURN:standard_name = "Fruit turnover" ; FRUIT_TURN:_FillValue = 9.96921e+36f ; FRUIT_TURN:long_name = "Fruit turnover" ; FRUIT_TURN:online_operation = "ave(scatter(X))" ; FRUIT_TURN:interval_operation = 1800.f ; FRUIT_TURN:interval_write = -1.f ; FRUIT_TURN:coordinates = "time_counter PFT lat lon" ; float TOTAL_BM_LITTER(time_counter, PFT, lat, lon) ; TOTAL_BM_LITTER:units = "gC/m^2/day" ; TOTAL_BM_LITTER:standard_name = "total conversion of biomass to litter" ; TOTAL_BM_LITTER:_FillValue = 9.96921e+36f ; TOTAL_BM_LITTER:long_name = "total conversion of biomass to litter" ; TOTAL_BM_LITTER:online_operation = "ave(scatter(X))" ; TOTAL_BM_LITTER:interval_operation = 1800.f ; TOTAL_BM_LITTER:interval_write = -1.f ; TOTAL_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float LEAF_BM_LITTER(time_counter, PFT, lat, lon) ; LEAF_BM_LITTER:units = "gC/m^2/day" ; LEAF_BM_LITTER:standard_name = "Leaf death" ; LEAF_BM_LITTER:_FillValue = 9.96921e+36f ; LEAF_BM_LITTER:long_name = "Leaf death" ; LEAF_BM_LITTER:online_operation = "ave(scatter(X))" ; LEAF_BM_LITTER:interval_operation = 1800.f ; LEAF_BM_LITTER:interval_write = -1.f ; LEAF_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float SAP_AB_BM_LITTER(time_counter, PFT, lat, lon) ; SAP_AB_BM_LITTER:units = "gC/m^2/day" ; SAP_AB_BM_LITTER:standard_name = "Sap death above ground" ; SAP_AB_BM_LITTER:_FillValue = 9.96921e+36f ; SAP_AB_BM_LITTER:long_name = "Sap death above ground" ; SAP_AB_BM_LITTER:online_operation = "ave(scatter(X))" ; SAP_AB_BM_LITTER:interval_operation = 1800.f ; SAP_AB_BM_LITTER:interval_write = -1.f ; SAP_AB_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float SAP_BE_BM_LITTER(time_counter, PFT, lat, lon) ; SAP_BE_BM_LITTER:units = "gC/m^2/day" ; SAP_BE_BM_LITTER:standard_name = "Sap death below ground" ; SAP_BE_BM_LITTER:_FillValue = 9.96921e+36f ; SAP_BE_BM_LITTER:long_name = "Sap death below ground" ; SAP_BE_BM_LITTER:online_operation = "ave(scatter(X))" ; SAP_BE_BM_LITTER:interval_operation = 1800.f ; SAP_BE_BM_LITTER:interval_write = -1.f ; SAP_BE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float HEART_AB_BM_LITTER(time_counter, PFT, lat, lon) ; HEART_AB_BM_LITTER:units = "gC/m^2/day" ; HEART_AB_BM_LITTER:standard_name = "Heartwood death above ground" ; HEART_AB_BM_LITTER:_FillValue = 9.96921e+36f ; HEART_AB_BM_LITTER:long_name = "Heartwood death above ground" ; HEART_AB_BM_LITTER:online_operation = "ave(scatter(X))" ; HEART_AB_BM_LITTER:interval_operation = 1800.f ; HEART_AB_BM_LITTER:interval_write = -1.f ; HEART_AB_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float HEART_BE_BM_LITTER(time_counter, PFT, lat, lon) ; HEART_BE_BM_LITTER:units = "gC/m^2/day" ; HEART_BE_BM_LITTER:standard_name = "Heartwood death below ground" ; HEART_BE_BM_LITTER:_FillValue = 9.96921e+36f ; HEART_BE_BM_LITTER:long_name = "Heartwood death below ground" ; HEART_BE_BM_LITTER:online_operation = "ave(scatter(X))" ; HEART_BE_BM_LITTER:interval_operation = 1800.f ; HEART_BE_BM_LITTER:interval_write = -1.f ; HEART_BE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float ROOT_BM_LITTER(time_counter, PFT, lat, lon) ; ROOT_BM_LITTER:units = "gC/m^2/day" ; ROOT_BM_LITTER:standard_name = "Root death" ; ROOT_BM_LITTER:_FillValue = 9.96921e+36f ; ROOT_BM_LITTER:long_name = "Root death" ; ROOT_BM_LITTER:online_operation = "ave(scatter(X))" ; ROOT_BM_LITTER:interval_operation = 1800.f ; ROOT_BM_LITTER:interval_write = -1.f ; ROOT_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float FRUIT_BM_LITTER(time_counter, PFT, lat, lon) ; FRUIT_BM_LITTER:units = "gC/m^2/day" ; FRUIT_BM_LITTER:standard_name = "Fruit death" ; FRUIT_BM_LITTER:_FillValue = 9.96921e+36f ; FRUIT_BM_LITTER:long_name = "Fruit death" ; FRUIT_BM_LITTER:online_operation = "ave(scatter(X))" ; FRUIT_BM_LITTER:interval_operation = 1800.f ; FRUIT_BM_LITTER:interval_write = -1.f ; FRUIT_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float RESERVE_BM_LITTER(time_counter, PFT, lat, lon) ; RESERVE_BM_LITTER:units = "gC/m^2/day" ; RESERVE_BM_LITTER:standard_name = "Carbohydrate reserve death" ; RESERVE_BM_LITTER:_FillValue = 9.96921e+36f ; RESERVE_BM_LITTER:long_name = "Carbohydrate reserve death" ; RESERVE_BM_LITTER:online_operation = "ave(scatter(X))" ; RESERVE_BM_LITTER:interval_operation = 1800.f ; RESERVE_BM_LITTER:interval_write = -1.f ; RESERVE_BM_LITTER:coordinates = "time_counter PFT lat lon" ; float MAINT_RESP(time_counter, PFT, lat, lon) ; MAINT_RESP:units = "gC/m^2/day" ; MAINT_RESP:standard_name = "Maintenance respiration" ; MAINT_RESP:_FillValue = 9.96921e+36f ; MAINT_RESP:long_name = "Maintenance respiration" ; MAINT_RESP:online_operation = "ave(scatter(X))" ; MAINT_RESP:interval_operation = 1800.f ; MAINT_RESP:interval_write = -1.f ; MAINT_RESP:coordinates = "time_counter PFT lat lon" ; float GROWTH_RESP(time_counter, PFT, lat, lon) ; GROWTH_RESP:units = "gC/m^2/day" ; GROWTH_RESP:standard_name = "Growth respiration" ; GROWTH_RESP:_FillValue = 9.96921e+36f ; GROWTH_RESP:long_name = "Growth respiration" ; GROWTH_RESP:online_operation = "ave(scatter(X))" ; GROWTH_RESP:interval_operation = 1800.f ; GROWTH_RESP:interval_write = -1.f ; GROWTH_RESP:coordinates = "time_counter PFT lat lon" ; float AGE(time_counter, PFT, lat, lon) ; AGE:units = "years" ; AGE:standard_name = "age" ; AGE:_FillValue = 9.96921e+36f ; AGE:long_name = "age" ; AGE:online_operation = "ave(scatter(X))" ; AGE:interval_operation = 1800.f ; AGE:interval_write = -1.f ; AGE:coordinates = "time_counter PFT lat lon" ; float HEIGHT(time_counter, PFT, lat, lon) ; HEIGHT:units = "m" ; HEIGHT:standard_name = "height" ; HEIGHT:_FillValue = 9.96921e+36f ; HEIGHT:long_name = "height" ; HEIGHT:online_operation = "ave(scatter(X))" ; HEIGHT:interval_operation = 1800.f ; HEIGHT:interval_write = -1.f ; HEIGHT:coordinates = "time_counter PFT lat lon" ; float MOISTRESS(time_counter, PFT, lat, lon) ; MOISTRESS:units = "-" ; MOISTRESS:standard_name = "weekly moisture stress" ; MOISTRESS:_FillValue = 9.96921e+36f ; MOISTRESS:long_name = "weekly moisture stress" ; MOISTRESS:online_operation = "ave(scatter(X))" ; MOISTRESS:interval_operation = 1800.f ; MOISTRESS:interval_write = -1.f ; MOISTRESS:coordinates = "time_counter PFT lat lon" ; float VCMAX(time_counter, PFT, lat, lon) ; VCMAX:units = "-" ; VCMAX:standard_name = "Maximum rate of carboxylation" ; VCMAX:_FillValue = 9.96921e+36f ; VCMAX:long_name = "Maximum rate of carboxylation" ; VCMAX:online_operation = "ave(scatter(X))" ; VCMAX:interval_operation = 1800.f ; VCMAX:interval_write = -1.f ; VCMAX:coordinates = "time_counter PFT lat lon" ; float LEAF_AGE(time_counter, PFT, lat, lon) ; LEAF_AGE:units = "days" ; LEAF_AGE:standard_name = "leaf age" ; LEAF_AGE:_FillValue = 9.96921e+36f ; LEAF_AGE:long_name = "leaf age" ; LEAF_AGE:online_operation = "ave(scatter(X))" ; LEAF_AGE:interval_operation = 1800.f ; LEAF_AGE:interval_write = -1.f ; LEAF_AGE:coordinates = "time_counter PFT lat lon" ; float MORTALITY(time_counter, PFT, lat, lon) ; MORTALITY:units = "1/day" ; MORTALITY:standard_name = "Fraction of trees that dies (gap)" ; MORTALITY:_FillValue = 9.96921e+36f ; MORTALITY:long_name = "Fraction of trees that dies (gap)" ; MORTALITY:online_operation = "ave(scatter(X))" ; MORTALITY:interval_operation = 1800.f ; MORTALITY:interval_write = -1.f ; MORTALITY:coordinates = "time_counter PFT lat lon" ; float FIREDEATH(time_counter, PFT, lat, lon) ; FIREDEATH:units = "1/day" ; FIREDEATH:standard_name = "Fraction of plants killed by fire" ; FIREDEATH:_FillValue = 9.96921e+36f ; FIREDEATH:long_name = "Fraction of plants killed by fire" ; FIREDEATH:online_operation = "ave(scatter(X))" ; FIREDEATH:interval_operation = 1800.f ; FIREDEATH:interval_write = -1.f ; FIREDEATH:coordinates = "time_counter PFT lat lon" ; float IND_ESTAB(time_counter, PFT, lat, lon) ; IND_ESTAB:units = "1/day" ; IND_ESTAB:standard_name = "Density of newly established saplings" ; IND_ESTAB:_FillValue = 9.96921e+36f ; IND_ESTAB:long_name = "Density of newly established saplings" ; IND_ESTAB:online_operation = "ave(scatter(X))" ; IND_ESTAB:interval_operation = 1800.f ; IND_ESTAB:interval_write = -1.f ; IND_ESTAB:coordinates = "time_counter PFT lat lon" ; float LIGHT_DEATH(time_counter, PFT, lat, lon) ; LIGHT_DEATH:units = "1/day" ; LIGHT_DEATH:standard_name = "Fraction of plants that dies (light competition)" ; LIGHT_DEATH:_FillValue = 9.96921e+36f ; LIGHT_DEATH:long_name = "Fraction of plants that dies (light competition)" ; LIGHT_DEATH:online_operation = "ave(scatter(X))" ; LIGHT_DEATH:interval_operation = 1800.f ; LIGHT_DEATH:interval_write = -1.f ; LIGHT_DEATH:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_LEAF(time_counter, PFT, lat, lon) ; BM_ALLOC_LEAF:units = "gC/m**2/pft/dt" ; BM_ALLOC_LEAF:standard_name = "biomass allocated to leaves" ; BM_ALLOC_LEAF:_FillValue = 9.96921e+36f ; BM_ALLOC_LEAF:long_name = "biomass allocated to leaves" ; BM_ALLOC_LEAF:online_operation = "ave(scatter(X))" ; BM_ALLOC_LEAF:interval_operation = 1800.f ; BM_ALLOC_LEAF:interval_write = -1.f ; BM_ALLOC_LEAF:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_SAP_AB(time_counter, PFT, lat, lon) ; BM_ALLOC_SAP_AB:units = "gC/m**2/pft/dt" ; BM_ALLOC_SAP_AB:standard_name = "biomass allocated to sapwood above ground" ; BM_ALLOC_SAP_AB:_FillValue = 9.96921e+36f ; BM_ALLOC_SAP_AB:long_name = "biomass allocated to sapwood above ground" ; BM_ALLOC_SAP_AB:online_operation = "ave(scatter(X))" ; BM_ALLOC_SAP_AB:interval_operation = 1800.f ; BM_ALLOC_SAP_AB:interval_write = -1.f ; BM_ALLOC_SAP_AB:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_SAP_BE(time_counter, PFT, lat, lon) ; BM_ALLOC_SAP_BE:units = "gC/m**2/pft/dt" ; BM_ALLOC_SAP_BE:standard_name = "biomass allocated to sapwood below ground" ; BM_ALLOC_SAP_BE:_FillValue = 9.96921e+36f ; BM_ALLOC_SAP_BE:long_name = "biomass allocated to sapwood below ground" ; BM_ALLOC_SAP_BE:online_operation = "ave(scatter(X))" ; BM_ALLOC_SAP_BE:interval_operation = 1800.f ; BM_ALLOC_SAP_BE:interval_write = -1.f ; BM_ALLOC_SAP_BE:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_ROOT(time_counter, PFT, lat, lon) ; BM_ALLOC_ROOT:units = "gC/m**2/pft/dt" ; BM_ALLOC_ROOT:standard_name = "biomass allocated to roots" ; BM_ALLOC_ROOT:_FillValue = 9.96921e+36f ; BM_ALLOC_ROOT:long_name = "biomass allocated to roots" ; BM_ALLOC_ROOT:online_operation = "ave(scatter(X))" ; BM_ALLOC_ROOT:interval_operation = 1800.f ; BM_ALLOC_ROOT:interval_write = -1.f ; BM_ALLOC_ROOT:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_FRUIT(time_counter, PFT, lat, lon) ; BM_ALLOC_FRUIT:units = "gC/m**2/pft/dt" ; BM_ALLOC_FRUIT:standard_name = "biomass allocated to fruits" ; BM_ALLOC_FRUIT:_FillValue = 9.96921e+36f ; BM_ALLOC_FRUIT:long_name = "biomass allocated to fruits" ; BM_ALLOC_FRUIT:online_operation = "ave(scatter(X))" ; BM_ALLOC_FRUIT:interval_operation = 1800.f ; BM_ALLOC_FRUIT:interval_write = -1.f ; BM_ALLOC_FRUIT:coordinates = "time_counter PFT lat lon" ; float BM_ALLOC_RES(time_counter, PFT, lat, lon) ; BM_ALLOC_RES:units = "gC/m**2/pft/dt" ; BM_ALLOC_RES:standard_name = "biomass allocated to carbohydrate reserve" ; BM_ALLOC_RES:_FillValue = 9.96921e+36f ; BM_ALLOC_RES:long_name = "biomass allocated to carbohydrate reserve" ; BM_ALLOC_RES:online_operation = "ave(scatter(X))" ; BM_ALLOC_RES:interval_operation = 1800.f ; BM_ALLOC_RES:interval_write = -1.f ; BM_ALLOC_RES:coordinates = "time_counter PFT lat lon" ; float HERBIVORES(time_counter, PFT, lat, lon) ; HERBIVORES:units = "days" ; HERBIVORES:standard_name = "time constant of herbivore activity" ; HERBIVORES:_FillValue = 9.96921e+36f ; HERBIVORES:long_name = "time constant of herbivore activity" ; HERBIVORES:online_operation = "ave(scatter(X))" ; HERBIVORES:interval_operation = 1800.f ; HERBIVORES:interval_write = -1.f ; HERBIVORES:coordinates = "time_counter PFT lat lon" ; float TURNOVER_TIME(time_counter, PFT, lat, lon) ; TURNOVER_TIME:units = "days" ; TURNOVER_TIME:standard_name = "turnover time for grass leaves" ; TURNOVER_TIME:_FillValue = 9.96921e+36f ; TURNOVER_TIME:long_name = "turnover time for grass leaves" ; TURNOVER_TIME:online_operation = "ave(scatter(X))" ; TURNOVER_TIME:interval_operation = 1800.f ; TURNOVER_TIME:interval_write = -1.f ; TURNOVER_TIME:coordinates = "time_counter PFT lat lon" ; float PROD10(time_counter, P11, lat, lon) ; PROD10:units = "gC/m**2" ; PROD10:standard_name = "10 year wood product pool" ; PROD10:_FillValue = 9.96921e+36f ; PROD10:long_name = "10 year wood product pool" ; PROD10:online_operation = "ave(scatter(X))" ; PROD10:interval_operation = 1800.f ; PROD10:interval_write = -1.f ; PROD10:coordinates = "time_counter P11 lat lon" ; float FLUX10(time_counter, P10, lat, lon) ; FLUX10:units = "gC/m**2/yr" ; FLUX10:standard_name = "annual flux for each 10 year wood product pool" ; FLUX10:_FillValue = 9.96921e+36f ; FLUX10:long_name = "annual flux for each 10 year wood product pool" ; FLUX10:online_operation = "ave(scatter(X))" ; FLUX10:interval_operation = 1800.f ; FLUX10:interval_write = -1.f ; FLUX10:coordinates = "time_counter P10 lat lon" ; float PROD100(time_counter, P101, lat, lon) ; PROD100:units = "gC/m**2" ; PROD100:standard_name = "100 year wood product pool" ; PROD100:_FillValue = 9.96921e+36f ; PROD100:long_name = "100 year wood product pool" ; PROD100:online_operation = "ave(scatter(X))" ; PROD100:interval_operation = 1800.f ; PROD100:interval_write = -1.f ; PROD100:coordinates = "time_counter P101 lat lon" ; float FLUX100(time_counter, P100, lat, lon) ; FLUX100:units = "gC/m**2/yr" ; FLUX100:standard_name = "annual flux for each 100 year wood product pool" ; FLUX100:_FillValue = 9.96921e+36f ; FLUX100:long_name = "annual flux for each 100 year wood product pool" ; FLUX100:online_operation = "ave(scatter(X))" ; FLUX100:interval_operation = 1800.f ; FLUX100:interval_write = -1.f ; FLUX100:coordinates = "time_counter P100 lat lon" ; float CONVFLUX(time_counter, lat, lon) ; CONVFLUX:units = "gC/m**2/day" ; CONVFLUX:standard_name = "annual release right after deforestation" ; CONVFLUX:_FillValue = 9.96921e+36f ; CONVFLUX:long_name = "annual release right after deforestation" ; CONVFLUX:online_operation = "ave(scatter(X))" ; CONVFLUX:interval_operation = 1800.f ; CONVFLUX:interval_write = -1.f ; CONVFLUX:coordinates = "time_counter lat lon" ; float CFLUX_PROD10(time_counter, lat, lon) ; CFLUX_PROD10:units = "gC/m**2/day" ; CFLUX_PROD10:standard_name = "annual release from all 10 year wood product pools" ; CFLUX_PROD10:_FillValue = 9.96921e+36f ; CFLUX_PROD10:long_name = "annual release from all 10 year wood product pools" ; CFLUX_PROD10:online_operation = "ave(scatter(X))" ; CFLUX_PROD10:interval_operation = 1800.f ; CFLUX_PROD10:interval_write = -1.f ; CFLUX_PROD10:coordinates = "time_counter lat lon" ; float CFLUX_PROD100(time_counter, lat, lon) ; CFLUX_PROD100:units = "gC/m**2/day" ; CFLUX_PROD100:standard_name = "annual release from all 100year wood product pools" ; CFLUX_PROD100:_FillValue = 9.96921e+36f ; CFLUX_PROD100:long_name = "annual release from all 100year wood product pools" ; CFLUX_PROD100:online_operation = "ave(scatter(X))" ; CFLUX_PROD100:interval_operation = 1800.f ; CFLUX_PROD100:interval_write = -1.f ; CFLUX_PROD100:coordinates = "time_counter lat lon" ; float HARVEST_ABOVE(time_counter, lat, lon) ; HARVEST_ABOVE:units = "gC/m**2/day" ; HARVEST_ABOVE:standard_name = "annual release product after harvest" ; HARVEST_ABOVE:_FillValue = 9.96921e+36f ; HARVEST_ABOVE:long_name = "annual release product after harvest" ; HARVEST_ABOVE:online_operation = "ave(scatter(X))" ; HARVEST_ABOVE:interval_operation = 1800.f ; HARVEST_ABOVE:interval_write = -1.f ; HARVEST_ABOVE:coordinates = "time_counter lat lon" ; float RESOLUTION_X(lat, lon) ; RESOLUTION_X:units = "m" ; RESOLUTION_X:standard_name = "E-W resolution" ; RESOLUTION_X:_FillValue = 9.96921e+36f ; RESOLUTION_X:long_name = "E-W resolution" ; RESOLUTION_X:online_operation = "once(scatter(X))" ; RESOLUTION_X:coordinates = "lat lon" ; float RESOLUTION_Y(lat, lon) ; RESOLUTION_Y:units = "m" ; RESOLUTION_Y:standard_name = "N-S resolution" ; RESOLUTION_Y:_FillValue = 9.96921e+36f ; RESOLUTION_Y:long_name = "N-S resolution" ; RESOLUTION_Y:online_operation = "once(scatter(X))" ; RESOLUTION_Y:coordinates = "lat lon" ; float CONTFRAC(lat, lon) ; CONTFRAC:units = "1" ; CONTFRAC:standard_name = "Continental fraction" ; CONTFRAC:_FillValue = 9.96921e+36f ; CONTFRAC:long_name = "Continental fraction" ; CONTFRAC:online_operation = "once(scatter(X))" ; CONTFRAC:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; float WHEN_GROWTHINIT(time_counter, PFT, lat, lon) ; WHEN_GROWTHINIT:units = "d" ; WHEN_GROWTHINIT:standard_name = "Time elapsed from season beginning" ; WHEN_GROWTHINIT:_FillValue = 9.96921e+36f ; WHEN_GROWTHINIT:long_name = "Time elapsed from season beginning" ; WHEN_GROWTHINIT:online_operation = "ave(scatter(X))" ; WHEN_GROWTHINIT:interval_operation = 1800.f ; WHEN_GROWTHINIT:interval_write = -1.f ; WHEN_GROWTHINIT:coordinates = "time_counter PFT lat lon" ; float TIME_LOWGPP(time_counter, PFT, lat, lon) ; TIME_LOWGPP:units = "d" ; TIME_LOWGPP:standard_name = "Time elapsed since the end of GPP" ; TIME_LOWGPP:_FillValue = 9.96921e+36f ; TIME_LOWGPP:long_name = "Time elapsed since the end of GPP" ; TIME_LOWGPP:online_operation = "ave(scatter(X))" ; TIME_LOWGPP:interval_operation = 1800.f ; TIME_LOWGPP:interval_write = -1.f ; TIME_LOWGPP:coordinates = "time_counter PFT lat lon" ; float PFTPRESENT(time_counter, PFT, lat, lon) ; PFTPRESENT:units = "d" ; PFTPRESENT:standard_name = "PFT exists" ; PFTPRESENT:_FillValue = 9.96921e+36f ; PFTPRESENT:long_name = "PFT exists" ; PFTPRESENT:online_operation = "ave(scatter(X))" ; PFTPRESENT:interval_operation = 1800.f ; PFTPRESENT:interval_write = -1.f ; PFTPRESENT:coordinates = "time_counter PFT lat lon" ; float GDD_MIDWINTER(time_counter, PFT, lat, lon) ; GDD_MIDWINTER:units = "degK" ; GDD_MIDWINTER:standard_name = "Growing degree days, since midwinter" ; GDD_MIDWINTER:_FillValue = 9.96921e+36f ; GDD_MIDWINTER:long_name = "Growing degree days, since midwinter" ; GDD_MIDWINTER:online_operation = "ave(scatter(X))" ; GDD_MIDWINTER:interval_operation = 1800.f ; GDD_MIDWINTER:interval_write = -1.f ; GDD_MIDWINTER:coordinates = "time_counter PFT lat lon" ; float NCD_DORMANCE(time_counter, PFT, lat, lon) ; NCD_DORMANCE:units = "d" ; NCD_DORMANCE:standard_name = "Number of chilling days, since leaves were lost" ; NCD_DORMANCE:_FillValue = 9.96921e+36f ; NCD_DORMANCE:long_name = "Number of chilling days, since leaves were lost" ; NCD_DORMANCE:online_operation = "ave(scatter(X))" ; NCD_DORMANCE:interval_operation = 1800.f ; NCD_DORMANCE:interval_write = -1.f ; NCD_DORMANCE:coordinates = "time_counter PFT lat lon" ; float ALLOW_INITPHENO(time_counter, PFT, lat, lon) ; ALLOW_INITPHENO:units = "-" ; ALLOW_INITPHENO:standard_name = "Allow to declare beginning of the growing season" ; ALLOW_INITPHENO:_FillValue = 9.96921e+36f ; ALLOW_INITPHENO:long_name = "Allow to declare beginning of the growing season" ; ALLOW_INITPHENO:online_operation = "ave(scatter(X))" ; ALLOW_INITPHENO:interval_operation = 1800.f ; ALLOW_INITPHENO:interval_write = -1.f ; ALLOW_INITPHENO:coordinates = "time_counter PFT lat lon" ; float BEGIN_LEAVES(time_counter, PFT, lat, lon) ; BEGIN_LEAVES:units = "-" ; BEGIN_LEAVES:standard_name = "Signal to start putting leaves on" ; BEGIN_LEAVES:_FillValue = 9.96921e+36f ; BEGIN_LEAVES:long_name = "Signal to start putting leaves on" ; BEGIN_LEAVES:online_operation = "ave(scatter(X))" ; BEGIN_LEAVES:interval_operation = 1800.f ; BEGIN_LEAVES:interval_write = -1.f ; BEGIN_LEAVES:coordinates = "time_counter PFT lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "stomate_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == SBG/Output/MO/v2.historical1_19800101_19800131_1M_stomate_ipcc_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_stomate_ipcc_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; PFT = 13 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float PFT(PFT) ; PFT:axis = "Z" ; PFT:standard_name = "model_level_number" ; PFT:units = "1" ; PFT:valid_min = 1.f ; PFT:valid_max = 13.f ; PFT:title = "PFT" ; PFT:long_name = "Plant functional type" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float cVeg(time_counter, lat, lon) ; cVeg:units = "kg C m-2" ; cVeg:standard_name = "Carbon in Vegetation" ; cVeg:_FillValue = 9.96921e+36f ; cVeg:long_name = "Carbon in Vegetation" ; cVeg:online_operation = "ave(scatter(X))" ; cVeg:interval_operation = 1800.f ; cVeg:interval_write = -1.f ; cVeg:coordinates = "time_counter lat lon" ; float cLitter(time_counter, lat, lon) ; cLitter:units = "kg C m-2" ; cLitter:standard_name = "Carbon in Litter Pool" ; cLitter:_FillValue = 9.96921e+36f ; cLitter:long_name = "Carbon in Litter Pool" ; cLitter:online_operation = "ave(scatter(X))" ; cLitter:interval_operation = 1800.f ; cLitter:interval_write = -1.f ; cLitter:coordinates = "time_counter lat lon" ; float cSoil(time_counter, lat, lon) ; cSoil:units = "kg C m-2" ; cSoil:standard_name = "Carbon in Soil Pool" ; cSoil:_FillValue = 9.96921e+36f ; cSoil:long_name = "Carbon in Soil Pool" ; cSoil:online_operation = "ave(scatter(X))" ; cSoil:interval_operation = 1800.f ; cSoil:interval_write = -1.f ; cSoil:coordinates = "time_counter lat lon" ; float cProduct(time_counter, lat, lon) ; cProduct:units = "kg C m-2" ; cProduct:standard_name = "Carbon in Products of Land Use Change" ; cProduct:_FillValue = 9.96921e+36f ; cProduct:long_name = "Carbon in Products of Land Use Change" ; cProduct:online_operation = "ave(scatter(X))" ; cProduct:interval_operation = 1800.f ; cProduct:interval_write = -1.f ; cProduct:coordinates = "time_counter lat lon" ; float lai(time_counter, lat, lon) ; lai:units = "1" ; lai:standard_name = "Leaf Area Fraction" ; lai:_FillValue = 9.96921e+36f ; lai:long_name = "Leaf Area Fraction" ; lai:online_operation = "ave(scatter(X))" ; lai:interval_operation = 1800.f ; lai:interval_write = -1.f ; lai:coordinates = "time_counter lat lon" ; float gpp(time_counter, lat, lon) ; gpp:units = "kg C m-2 s-1" ; gpp:standard_name = "Gross Primary Production" ; gpp:_FillValue = 9.96921e+36f ; gpp:long_name = "Gross Primary Production" ; gpp:online_operation = "ave(scatter(X))" ; gpp:interval_operation = 1800.f ; gpp:interval_write = -1.f ; gpp:coordinates = "time_counter lat lon" ; float ra(time_counter, lat, lon) ; ra:units = "kg C m-2 s-1" ; ra:standard_name = "Autotrophic Respiration" ; ra:_FillValue = 9.96921e+36f ; ra:long_name = "Autotrophic Respiration" ; ra:online_operation = "ave(scatter(X))" ; ra:interval_operation = 1800.f ; ra:interval_write = -1.f ; ra:coordinates = "time_counter lat lon" ; float npp(time_counter, lat, lon) ; npp:units = "kg C m-2 s-1" ; npp:standard_name = "Net Primary Production" ; npp:_FillValue = 9.96921e+36f ; npp:long_name = "Net Primary Production" ; npp:online_operation = "ave(scatter(X))" ; npp:interval_operation = 1800.f ; npp:interval_write = -1.f ; npp:coordinates = "time_counter lat lon" ; float rh(time_counter, lat, lon) ; rh:units = "kg C m-2 s-1" ; rh:standard_name = "Heterotrophic Respiration" ; rh:_FillValue = 9.96921e+36f ; rh:long_name = "Heterotrophic Respiration" ; rh:online_operation = "ave(scatter(X))" ; rh:interval_operation = 1800.f ; rh:interval_write = -1.f ; rh:coordinates = "time_counter lat lon" ; float fFire(time_counter, lat, lon) ; fFire:units = "kg C m-2 s-1" ; fFire:standard_name = "CO2 Emission from Fire" ; fFire:_FillValue = 9.96921e+36f ; fFire:long_name = "CO2 Emission from Fire" ; fFire:online_operation = "ave(scatter(X))" ; fFire:interval_operation = 1800.f ; fFire:interval_write = -1.f ; fFire:coordinates = "time_counter lat lon" ; float fHarvest(time_counter, lat, lon) ; fHarvest:units = "kg C m-2 s-1" ; fHarvest:standard_name = "CO2 Flux to Atmosphere from Crop Harvesting" ; fHarvest:_FillValue = 9.96921e+36f ; fHarvest:long_name = "CO2 Flux to Atmosphere from Crop Harvesting" ; fHarvest:online_operation = "ave(scatter(X))" ; fHarvest:interval_operation = 1800.f ; fHarvest:interval_write = -1.f ; fHarvest:coordinates = "time_counter lat lon" ; float fLuc(time_counter, lat, lon) ; fLuc:units = "kg C m-2 s-1" ; fLuc:standard_name = "CO2 Flux to Atmosphere from Land Use Change" ; fLuc:_FillValue = 9.96921e+36f ; fLuc:long_name = "CO2 Flux to Atmosphere from Land Use Change" ; fLuc:online_operation = "ave(scatter(X))" ; fLuc:interval_operation = 1800.f ; fLuc:interval_write = -1.f ; fLuc:coordinates = "time_counter lat lon" ; float nbp(time_counter, lat, lon) ; nbp:units = "kg C m-2 s-1" ; nbp:standard_name = "Net Biospheric Production" ; nbp:_FillValue = 9.96921e+36f ; nbp:long_name = "Net Biospheric Production" ; nbp:online_operation = "ave(scatter(X))" ; nbp:interval_operation = 1800.f ; nbp:interval_write = -1.f ; nbp:coordinates = "time_counter lat lon" ; float fVegLitter(time_counter, lat, lon) ; fVegLitter:units = "kg C m-2 s-1" ; fVegLitter:standard_name = "Total Carbon Flux from Vegetation to Litter" ; fVegLitter:_FillValue = 9.96921e+36f ; fVegLitter:long_name = "Total Carbon Flux from Vegetation to Litter" ; fVegLitter:online_operation = "ave(scatter(X))" ; fVegLitter:interval_operation = 1800.f ; fVegLitter:interval_write = -1.f ; fVegLitter:coordinates = "time_counter lat lon" ; float fLitterSoil(time_counter, lat, lon) ; fLitterSoil:units = "kg C m-2 s-1" ; fLitterSoil:standard_name = "Total Carbon Flux from Litter to Soil" ; fLitterSoil:_FillValue = 9.96921e+36f ; fLitterSoil:long_name = "Total Carbon Flux from Litter to Soil" ; fLitterSoil:online_operation = "ave(scatter(X))" ; fLitterSoil:interval_operation = 1800.f ; fLitterSoil:interval_write = -1.f ; fLitterSoil:coordinates = "time_counter lat lon" ; float cLeaf(time_counter, lat, lon) ; cLeaf:units = "kg C m-2" ; cLeaf:standard_name = "Carbon in Leaves" ; cLeaf:_FillValue = 9.96921e+36f ; cLeaf:long_name = "Carbon in Leaves" ; cLeaf:online_operation = "ave(scatter(X))" ; cLeaf:interval_operation = 1800.f ; cLeaf:interval_write = -1.f ; cLeaf:coordinates = "time_counter lat lon" ; float cWood(time_counter, lat, lon) ; cWood:units = "kg C m-2" ; cWood:standard_name = "Carbon in Wood" ; cWood:_FillValue = 9.96921e+36f ; cWood:long_name = "Carbon in Wood" ; cWood:online_operation = "ave(scatter(X))" ; cWood:interval_operation = 1800.f ; cWood:interval_write = -1.f ; cWood:coordinates = "time_counter lat lon" ; float cRoot(time_counter, lat, lon) ; cRoot:units = "kg C m-2" ; cRoot:standard_name = "Carbon in Roots" ; cRoot:_FillValue = 9.96921e+36f ; cRoot:long_name = "Carbon in Roots" ; cRoot:online_operation = "ave(scatter(X))" ; cRoot:interval_operation = 1800.f ; cRoot:interval_write = -1.f ; cRoot:coordinates = "time_counter lat lon" ; float cMisc(time_counter, lat, lon) ; cMisc:units = "kg C m-2" ; cMisc:standard_name = "Carbon in Other Living Compartments" ; cMisc:_FillValue = 9.96921e+36f ; cMisc:long_name = "Carbon in Other Living Compartments" ; cMisc:online_operation = "ave(scatter(X))" ; cMisc:interval_operation = 1800.f ; cMisc:interval_write = -1.f ; cMisc:coordinates = "time_counter lat lon" ; float cLitterAbove(time_counter, lat, lon) ; cLitterAbove:units = "kg C m-2" ; cLitterAbove:standard_name = "Carbon in Above-Ground Litter" ; cLitterAbove:_FillValue = 9.96921e+36f ; cLitterAbove:long_name = "Carbon in Above-Ground Litter" ; cLitterAbove:online_operation = "ave(scatter(X))" ; cLitterAbove:interval_operation = 1800.f ; cLitterAbove:interval_write = -1.f ; cLitterAbove:coordinates = "time_counter lat lon" ; float cLitterBelow(time_counter, lat, lon) ; cLitterBelow:units = "kg C m-2" ; cLitterBelow:standard_name = "Carbon in Below-Ground Litter" ; cLitterBelow:_FillValue = 9.96921e+36f ; cLitterBelow:long_name = "Carbon in Below-Ground Litter" ; cLitterBelow:online_operation = "ave(scatter(X))" ; cLitterBelow:interval_operation = 1800.f ; cLitterBelow:interval_write = -1.f ; cLitterBelow:coordinates = "time_counter lat lon" ; float cSoilFast(time_counter, lat, lon) ; cSoilFast:units = "kg C m-2" ; cSoilFast:standard_name = "Carbon in Fast Soil Pool" ; cSoilFast:_FillValue = 9.96921e+36f ; cSoilFast:long_name = "Carbon in Fast Soil Pool" ; cSoilFast:online_operation = "ave(scatter(X))" ; cSoilFast:interval_operation = 1800.f ; cSoilFast:interval_write = -1.f ; cSoilFast:coordinates = "time_counter lat lon" ; float cSoilMedium(time_counter, lat, lon) ; cSoilMedium:units = "kg C m-2" ; cSoilMedium:standard_name = "Carbon in Medium Soil Pool" ; cSoilMedium:_FillValue = 9.96921e+36f ; cSoilMedium:long_name = "Carbon in Medium Soil Pool" ; cSoilMedium:online_operation = "ave(scatter(X))" ; cSoilMedium:interval_operation = 1800.f ; cSoilMedium:interval_write = -1.f ; cSoilMedium:coordinates = "time_counter lat lon" ; float cSoilSlow(time_counter, lat, lon) ; cSoilSlow:units = "kg C m-2" ; cSoilSlow:standard_name = "Carbon in Slow Soil Pool" ; cSoilSlow:_FillValue = 9.96921e+36f ; cSoilSlow:long_name = "Carbon in Slow Soil Pool" ; cSoilSlow:online_operation = "ave(scatter(X))" ; cSoilSlow:interval_operation = 1800.f ; cSoilSlow:interval_write = -1.f ; cSoilSlow:coordinates = "time_counter lat lon" ; float landCoverFrac(time_counter, PFT, lat, lon) ; landCoverFrac:units = "%" ; landCoverFrac:standard_name = "Fractional Land Cover of PFT" ; landCoverFrac:_FillValue = 9.96921e+36f ; landCoverFrac:long_name = "Fractional Land Cover of PFT" ; landCoverFrac:online_operation = "ave(scatter(X))" ; landCoverFrac:interval_operation = 1800.f ; landCoverFrac:interval_write = -1.f ; landCoverFrac:coordinates = "time_counter PFT lat lon" ; float treeFracPrimDec(time_counter, lat, lon) ; treeFracPrimDec:units = "%" ; treeFracPrimDec:standard_name = "Total Primary Deciduous Tree Cover Fraction" ; treeFracPrimDec:_FillValue = 9.96921e+36f ; treeFracPrimDec:long_name = "Total Primary Deciduous Tree Cover Fraction" ; treeFracPrimDec:online_operation = "ave(scatter(X))" ; treeFracPrimDec:interval_operation = 1800.f ; treeFracPrimDec:interval_write = -1.f ; treeFracPrimDec:coordinates = "time_counter lat lon" ; float treeFracPrimEver(time_counter, lat, lon) ; treeFracPrimEver:units = "%" ; treeFracPrimEver:standard_name = "Total Primary Evergreen Tree Cover Fraction" ; treeFracPrimEver:_FillValue = 9.96921e+36f ; treeFracPrimEver:long_name = "Total Primary Evergreen Tree Cover Fraction" ; treeFracPrimEver:online_operation = "ave(scatter(X))" ; treeFracPrimEver:interval_operation = 1800.f ; treeFracPrimEver:interval_write = -1.f ; treeFracPrimEver:coordinates = "time_counter lat lon" ; float c3PftFrac(time_counter, lat, lon) ; c3PftFrac:units = "%" ; c3PftFrac:standard_name = "Total C3 PFT Cover Fraction" ; c3PftFrac:_FillValue = 9.96921e+36f ; c3PftFrac:long_name = "Total C3 PFT Cover Fraction" ; c3PftFrac:online_operation = "ave(scatter(X))" ; c3PftFrac:interval_operation = 1800.f ; c3PftFrac:interval_write = -1.f ; c3PftFrac:coordinates = "time_counter lat lon" ; float c4PftFrac(time_counter, lat, lon) ; c4PftFrac:units = "%" ; c4PftFrac:standard_name = "Total C4 PFT Cover Fraction" ; c4PftFrac:_FillValue = 9.96921e+36f ; c4PftFrac:long_name = "Total C4 PFT Cover Fraction" ; c4PftFrac:online_operation = "ave(scatter(X))" ; c4PftFrac:interval_operation = 1800.f ; c4PftFrac:interval_write = -1.f ; c4PftFrac:coordinates = "time_counter lat lon" ; float rGrowth(time_counter, lat, lon) ; rGrowth:units = "kg C m-2 s-1" ; rGrowth:standard_name = "Growth Autotrophic Respiration" ; rGrowth:_FillValue = 9.96921e+36f ; rGrowth:long_name = "Growth Autotrophic Respiration" ; rGrowth:online_operation = "ave(scatter(X))" ; rGrowth:interval_operation = 1800.f ; rGrowth:interval_write = -1.f ; rGrowth:coordinates = "time_counter lat lon" ; float rMaint(time_counter, lat, lon) ; rMaint:units = "kg C m-2 s-1" ; rMaint:standard_name = "Maintenance Autotrophic Respiration" ; rMaint:_FillValue = 9.96921e+36f ; rMaint:long_name = "Maintenance Autotrophic Respiration" ; rMaint:online_operation = "ave(scatter(X))" ; rMaint:interval_operation = 1800.f ; rMaint:interval_write = -1.f ; rMaint:coordinates = "time_counter lat lon" ; float nppLeaf(time_counter, lat, lon) ; nppLeaf:units = "kg C m-2 s-1" ; nppLeaf:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Leaf" ; nppLeaf:_FillValue = 9.96921e+36f ; nppLeaf:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Leaf" ; nppLeaf:online_operation = "ave(scatter(X))" ; nppLeaf:interval_operation = 1800.f ; nppLeaf:interval_write = -1.f ; nppLeaf:coordinates = "time_counter lat lon" ; float nppWood(time_counter, lat, lon) ; nppWood:units = "kg C m-2 s-1" ; nppWood:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Wood" ; nppWood:_FillValue = 9.96921e+36f ; nppWood:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Wood" ; nppWood:online_operation = "ave(scatter(X))" ; nppWood:interval_operation = 1800.f ; nppWood:interval_write = -1.f ; nppWood:coordinates = "time_counter lat lon" ; float nppRoot(time_counter, lat, lon) ; nppRoot:units = "kg C m-2 s-1" ; nppRoot:standard_name = "CO2 Flux from Atmosphere due to NPP Allocation to Root" ; nppRoot:_FillValue = 9.96921e+36f ; nppRoot:long_name = "CO2 Flux from Atmosphere due to NPP Allocation to Root" ; nppRoot:online_operation = "ave(scatter(X))" ; nppRoot:interval_operation = 1800.f ; nppRoot:interval_write = -1.f ; nppRoot:coordinates = "time_counter lat lon" ; float nep(time_counter, lat, lon) ; nep:units = "kg C m-2 s-1" ; nep:standard_name = "Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity." ; nep:_FillValue = 9.96921e+36f ; nep:long_name = "Net Carbon Mass Flux out of Atmophere due to Net Ecosystem Productivity." ; nep:online_operation = "ave(scatter(X))" ; nep:interval_operation = 1800.f ; nep:interval_write = -1.f ; nep:coordinates = "time_counter lat lon" ; float RESOLUTION_X(lat, lon) ; RESOLUTION_X:units = "m" ; RESOLUTION_X:standard_name = "E-W resolution" ; RESOLUTION_X:_FillValue = 9.96921e+36f ; RESOLUTION_X:long_name = "E-W resolution" ; RESOLUTION_X:online_operation = "once(scatter(X))" ; RESOLUTION_X:coordinates = "lat lon" ; float RESOLUTION_Y(lat, lon) ; RESOLUTION_Y:units = "m" ; RESOLUTION_Y:standard_name = "N-S resolution" ; RESOLUTION_Y:_FillValue = 9.96921e+36f ; RESOLUTION_Y:long_name = "N-S resolution" ; RESOLUTION_Y:online_operation = "once(scatter(X))" ; RESOLUTION_Y:coordinates = "lat lon" ; float CONTFRAC(lat, lon) ; CONTFRAC:units = "1" ; CONTFRAC:standard_name = "Continental fraction" ; CONTFRAC:_FillValue = 9.96921e+36f ; CONTFRAC:long_name = "Continental fraction" ; CONTFRAC:online_operation = "once(scatter(X))" ; CONTFRAC:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "stomate_ipcc_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == SRF/Output/MO/v2.historical1_19800101_19800131_1M_sechiba_history.nc == {{{ netcdf v2.historical1_19800101_19800131_1M_sechiba_history { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; veget = 13 ; solth = 7 ; soiltyp = 3 ; nobio = 1 ; time_counter = UNLIMITED ; // (1 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float veget(veget) ; veget:axis = "Z" ; veget:standard_name = "model_level_number" ; veget:units = "1" ; veget:valid_min = 1.f ; veget:valid_max = 13.f ; veget:title = "veget" ; veget:long_name = "Vegetation types" ; float solth(solth) ; solth:axis = "Z" ; solth:standard_name = "model_level_number" ; solth:units = "m" ; solth:valid_min = 1.f ; solth:valid_max = 7.f ; solth:title = "solth" ; solth:long_name = "Soil levels" ; float soiltyp(soiltyp) ; soiltyp:axis = "Z" ; soiltyp:standard_name = "model_level_number" ; soiltyp:units = "1" ; soiltyp:valid_min = 1.f ; soiltyp:valid_max = 3.f ; soiltyp:title = "soiltyp" ; soiltyp:long_name = "Soil types" ; float nobio(nobio) ; nobio:axis = "Z" ; nobio:standard_name = "model_level_number" ; nobio:units = "1" ; nobio:valid_min = 1.f ; nobio:valid_max = 1.f ; nobio:title = "nobio" ; nobio:long_name = "Other surface types" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float evap(time_counter, lat, lon) ; evap:units = "mm/d" ; evap:standard_name = "Evaporation" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "Evaporation" ; evap:online_operation = "ave(scatter(X* 48.0))" ; evap:interval_operation = 1800.f ; evap:interval_write = -1.f ; evap:coordinates = "time_counter lat lon" ; float coastalflow(time_counter, lat, lon) ; coastalflow:units = "m^3/s" ; coastalflow:standard_name = "Diffuse coastal flow" ; coastalflow:_FillValue = 9.96921e+36f ; coastalflow:long_name = "Diffuse coastal flow" ; coastalflow:online_operation = "ave(scatter(X*0.000556))" ; coastalflow:interval_operation = 1800.f ; coastalflow:interval_write = -1.f ; coastalflow:coordinates = "time_counter lat lon" ; float riverflow(time_counter, lat, lon) ; riverflow:units = "m^3/s" ; riverflow:standard_name = "River flow to the oceans" ; riverflow:_FillValue = 9.96921e+36f ; riverflow:long_name = "River flow to the oceans" ; riverflow:online_operation = "ave(scatter(X*0.000556))" ; riverflow:interval_operation = 1800.f ; riverflow:interval_write = -1.f ; riverflow:coordinates = "time_counter lat lon" ; float temp_sol(time_counter, lat, lon) ; temp_sol:units = "C" ; temp_sol:standard_name = "Surface Temperature" ; temp_sol:_FillValue = 9.96921e+36f ; temp_sol:long_name = "Surface Temperature" ; temp_sol:online_operation = "ave(cels(X))" ; temp_sol:interval_operation = 1800.f ; temp_sol:interval_write = -1.f ; temp_sol:coordinates = "time_counter lat lon" ; float rain(time_counter, lat, lon) ; rain:units = "mm/d" ; rain:standard_name = "Rainfall" ; rain:_FillValue = 9.96921e+36f ; rain:long_name = "Rainfall" ; rain:online_operation = "ave(scatter(X* 48.0))" ; rain:interval_operation = 1800.f ; rain:interval_write = -1.f ; rain:coordinates = "time_counter lat lon" ; float snowf(time_counter, lat, lon) ; snowf:units = "mm/d" ; snowf:standard_name = "Snowfall" ; snowf:_FillValue = 9.96921e+36f ; snowf:long_name = "Snowfall" ; snowf:online_operation = "ave(scatter(X* 48.0))" ; snowf:interval_operation = 1800.f ; snowf:interval_write = -1.f ; snowf:coordinates = "time_counter lat lon" ; float netrad(time_counter, lat, lon) ; netrad:units = "W/m^2" ; netrad:standard_name = "Net radiation" ; netrad:_FillValue = 9.96921e+36f ; netrad:long_name = "Net radiation" ; netrad:online_operation = "ave(scatter(X))" ; netrad:interval_operation = 1800.f ; netrad:interval_write = -1.f ; netrad:coordinates = "time_counter lat lon" ; float lai(time_counter, veget, lat, lon) ; lai:units = "1" ; lai:standard_name = "Leaf Area Index" ; lai:_FillValue = 9.96921e+36f ; lai:long_name = "Leaf Area Index" ; lai:online_operation = "ave(scatter(X))" ; lai:interval_operation = 1800.f ; lai:interval_write = -1.f ; lai:coordinates = "time_counter veget lat lon" ; float basinmap(lat, lon) ; basinmap:standard_name = "Aproximate map of the river basins" ; basinmap:_FillValue = 9.96921e+36f ; basinmap:long_name = "Aproximate map of the river basins" ; basinmap:online_operation = "once(scatter(X))" ; basinmap:coordinates = "lat lon" ; float nbrivers(lat, lon) ; nbrivers:standard_name = "Number or rivers in the outflow grid box" ; nbrivers:_FillValue = 9.96921e+36f ; nbrivers:long_name = "Number or rivers in the outflow grid box" ; nbrivers:online_operation = "once(scatter(X))" ; nbrivers:coordinates = "lat lon" ; float CO2FLUX(time_counter, veget, lat, lon) ; CO2FLUX:units = "gC/day/(m^2 tot)" ; CO2FLUX:standard_name = "Total output CO2 flux" ; CO2FLUX:_FillValue = 9.96921e+36f ; CO2FLUX:long_name = "Total output CO2 flux" ; CO2FLUX:online_operation = "ave(scatter(X))" ; CO2FLUX:interval_operation = 1800.f ; CO2FLUX:interval_write = -1.f ; CO2FLUX:coordinates = "time_counter veget lat lon" ; float subli(time_counter, lat, lon) ; subli:units = "mm/d" ; subli:standard_name = "Sublimation" ; subli:_FillValue = 9.96921e+36f ; subli:long_name = "Sublimation" ; subli:online_operation = "ave(scatter(X* 48.0))" ; subli:interval_operation = 1800.f ; subli:interval_write = -1.f ; subli:coordinates = "time_counter lat lon" ; float evapnu(time_counter, lat, lon) ; evapnu:units = "mm/d" ; evapnu:standard_name = "Bare soil evaporation" ; evapnu:_FillValue = 9.96921e+36f ; evapnu:long_name = "Bare soil evaporation" ; evapnu:online_operation = "ave(scatter(X* 48.0))" ; evapnu:interval_operation = 1800.f ; evapnu:interval_write = -1.f ; evapnu:coordinates = "time_counter lat lon" ; float runoff(time_counter, lat, lon) ; runoff:units = "mm/d" ; runoff:standard_name = "Surface runoff" ; runoff:_FillValue = 9.96921e+36f ; runoff:long_name = "Surface runoff" ; runoff:online_operation = "ave(scatter(X* 48.0))" ; runoff:interval_operation = 1800.f ; runoff:interval_write = -1.f ; runoff:coordinates = "time_counter lat lon" ; float drainage(time_counter, lat, lon) ; drainage:units = "mm/d" ; drainage:standard_name = "Deep drainage" ; drainage:_FillValue = 9.96921e+36f ; drainage:long_name = "Deep drainage" ; drainage:online_operation = "ave(scatter(X* 48.0))" ; drainage:interval_operation = 1800.f ; drainage:interval_write = -1.f ; drainage:coordinates = "time_counter lat lon" ; float riversret(time_counter, lat, lon) ; riversret:units = "mm/d" ; riversret:standard_name = "Return from endorheic rivers" ; riversret:_FillValue = 9.96921e+36f ; riversret:long_name = "Return from endorheic rivers" ; riversret:online_operation = "ave(scatter(X* 48.0))" ; riversret:interval_operation = 1800.f ; riversret:interval_write = -1.f ; riversret:coordinates = "time_counter lat lon" ; float hydrographs(time_counter, lat, lon) ; hydrographs:units = "m^3/s" ; hydrographs:standard_name = "Hydrographs of gridbox outflow" ; hydrographs:_FillValue = 9.96921e+36f ; hydrographs:long_name = "Hydrographs of gridbox outflow" ; hydrographs:online_operation = "ave(scatter(X*0.000556))" ; hydrographs:interval_operation = 1800.f ; hydrographs:interval_write = -1.f ; hydrographs:coordinates = "time_counter lat lon" ; float tair(time_counter, lat, lon) ; tair:units = "K" ; tair:standard_name = "Air Temperature" ; tair:_FillValue = 9.96921e+36f ; tair:long_name = "Air Temperature" ; tair:online_operation = "ave(X)" ; tair:interval_operation = 1800.f ; tair:interval_write = -1.f ; tair:coordinates = "time_counter lat lon" ; float qair(time_counter, lat, lon) ; qair:units = "g/g" ; qair:standard_name = "Air humidity" ; qair:_FillValue = 9.96921e+36f ; qair:long_name = "Air humidity" ; qair:online_operation = "ave(X)" ; qair:interval_operation = 1800.f ; qair:interval_write = -1.f ; qair:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "g/g" ; q2m:standard_name = "2m Air humidity" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "2m Air humidity" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = -1.f ; q2m:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "2m Air Temperature" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "2m Air Temperature" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = -1.f ; t2m:coordinates = "time_counter lat lon" ; float alb_vis(time_counter, lat, lon) ; alb_vis:units = "1" ; alb_vis:standard_name = "Albedo visible" ; alb_vis:_FillValue = 9.96921e+36f ; alb_vis:long_name = "Albedo visible" ; alb_vis:online_operation = "ave(X)" ; alb_vis:interval_operation = 1800.f ; alb_vis:interval_write = -1.f ; alb_vis:coordinates = "time_counter lat lon" ; float alb_nir(time_counter, lat, lon) ; alb_nir:units = "1" ; alb_nir:standard_name = "Albedo near infrared" ; alb_nir:_FillValue = 9.96921e+36f ; alb_nir:long_name = "Albedo near infrared" ; alb_nir:online_operation = "ave(X)" ; alb_nir:interval_operation = 1800.f ; alb_nir:interval_write = -1.f ; alb_nir:coordinates = "time_counter lat lon" ; float soilalb_vis(time_counter, lat, lon) ; soilalb_vis:units = "1" ; soilalb_vis:standard_name = "Soil Albedo visible" ; soilalb_vis:_FillValue = 9.96921e+36f ; soilalb_vis:long_name = "Soil Albedo visible" ; soilalb_vis:online_operation = "ave(scatter(X))" ; soilalb_vis:interval_operation = 1800.f ; soilalb_vis:interval_write = -1.f ; soilalb_vis:coordinates = "time_counter lat lon" ; float soilalb_nir(time_counter, lat, lon) ; soilalb_nir:units = "1" ; soilalb_nir:standard_name = "Soil Albedo near infrared" ; soilalb_nir:_FillValue = 9.96921e+36f ; soilalb_nir:long_name = "Soil Albedo near infrared" ; soilalb_nir:online_operation = "ave(scatter(X))" ; soilalb_nir:interval_operation = 1800.f ; soilalb_nir:interval_write = -1.f ; soilalb_nir:coordinates = "time_counter lat lon" ; float vegalb_vis(time_counter, lat, lon) ; vegalb_vis:units = "1" ; vegalb_vis:standard_name = "Vegetation Albedo visible" ; vegalb_vis:_FillValue = 9.96921e+36f ; vegalb_vis:long_name = "Vegetation Albedo visible" ; vegalb_vis:online_operation = "ave(scatter(X))" ; vegalb_vis:interval_operation = 1800.f ; vegalb_vis:interval_write = -1.f ; vegalb_vis:coordinates = "time_counter lat lon" ; float vegalb_nir(time_counter, lat, lon) ; vegalb_nir:units = "1" ; vegalb_nir:standard_name = "Vegetation Albedo near infrared" ; vegalb_nir:_FillValue = 9.96921e+36f ; vegalb_nir:long_name = "Vegetation Albedo near infrared" ; vegalb_nir:online_operation = "ave(scatter(X))" ; vegalb_nir:interval_operation = 1800.f ; vegalb_nir:interval_write = -1.f ; vegalb_nir:coordinates = "time_counter lat lon" ; float z0(time_counter, lat, lon) ; z0:units = "m" ; z0:standard_name = "Surface roughness" ; z0:_FillValue = 9.96921e+36f ; z0:long_name = "Surface roughness" ; z0:online_operation = "ave(scatter(X))" ; z0:interval_operation = 1800.f ; z0:interval_write = -1.f ; z0:coordinates = "time_counter lat lon" ; float roughheight(time_counter, lat, lon) ; roughheight:units = "m" ; roughheight:standard_name = "Effective roughness height" ; roughheight:_FillValue = 9.96921e+36f ; roughheight:long_name = "Effective roughness height" ; roughheight:online_operation = "ave(scatter(X))" ; roughheight:interval_operation = 1800.f ; roughheight:interval_write = -1.f ; roughheight:coordinates = "time_counter lat lon" ; float transpir(time_counter, veget, lat, lon) ; transpir:units = "mm/d" ; transpir:standard_name = "Transpiration" ; transpir:_FillValue = 9.96921e+36f ; transpir:long_name = "Transpiration" ; transpir:online_operation = "ave(scatter(X* 48.0))" ; transpir:interval_operation = 1800.f ; transpir:interval_write = -1.f ; transpir:coordinates = "time_counter veget lat lon" ; float inter(time_counter, veget, lat, lon) ; inter:units = "mm/d" ; inter:standard_name = "Interception loss" ; inter:_FillValue = 9.96921e+36f ; inter:long_name = "Interception loss" ; inter:online_operation = "ave(scatter(X* 48.0))" ; inter:interval_operation = 1800.f ; inter:interval_write = -1.f ; inter:coordinates = "time_counter veget lat lon" ; float tsol_max(time_counter, lat, lon) ; tsol_max:units = "C" ; tsol_max:standard_name = "Maximum Surface Temperature" ; tsol_max:_FillValue = 9.96921e+36f ; tsol_max:long_name = "Maximum Surface Temperature" ; tsol_max:online_operation = "t_max(cels(X))" ; tsol_max:interval_operation = 1800.f ; tsol_max:interval_write = -1.f ; tsol_max:coordinates = "time_counter lat lon" ; float tsol_min(time_counter, lat, lon) ; tsol_min:units = "C" ; tsol_min:standard_name = "Minimum Surface Temperature" ; tsol_min:_FillValue = 9.96921e+36f ; tsol_min:long_name = "Minimum Surface Temperature" ; tsol_min:online_operation = "t_min(cels(X))" ; tsol_min:interval_operation = 1800.f ; tsol_min:interval_write = -1.f ; tsol_min:coordinates = "time_counter lat lon" ; float fluxsens(time_counter, lat, lon) ; fluxsens:units = "W/m^2" ; fluxsens:standard_name = "Sensible Heat Flux" ; fluxsens:_FillValue = 9.96921e+36f ; fluxsens:long_name = "Sensible Heat Flux" ; fluxsens:online_operation = "ave(X)" ; fluxsens:interval_operation = 1800.f ; fluxsens:interval_write = -1.f ; fluxsens:coordinates = "time_counter lat lon" ; float fluxlat(time_counter, lat, lon) ; fluxlat:units = "W/m^2" ; fluxlat:standard_name = "Latent Heat Flux" ; fluxlat:_FillValue = 9.96921e+36f ; fluxlat:long_name = "Latent Heat Flux" ; fluxlat:online_operation = "ave(X)" ; fluxlat:interval_operation = 1800.f ; fluxlat:interval_write = -1.f ; fluxlat:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/m^2" ; snow:standard_name = "Snow mass" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow mass" ; snow:online_operation = "ave(scatter(X))" ; snow:interval_operation = 1800.f ; snow:interval_write = -1.f ; snow:coordinates = "time_counter lat lon" ; float snowage(time_counter, lat, lon) ; snowage:units = "?" ; snowage:standard_name = "Snow age" ; snowage:_FillValue = 9.96921e+36f ; snowage:long_name = "Snow age" ; snowage:online_operation = "ave(scatter(X))" ; snowage:interval_operation = 1800.f ; snowage:interval_write = -1.f ; snowage:coordinates = "time_counter lat lon" ; float snownobio(time_counter, lat, lon) ; snownobio:units = "kg/m^2" ; snownobio:standard_name = "Snow on other surfaces" ; snownobio:_FillValue = 9.96921e+36f ; snownobio:long_name = "Snow on other surfaces" ; snownobio:online_operation = "ave(scatter(X))" ; snownobio:interval_operation = 1800.f ; snownobio:interval_write = -1.f ; snownobio:coordinates = "time_counter lat lon" ; float snownobioage(time_counter, lat, lon) ; snownobioage:units = "d" ; snownobioage:standard_name = "Snow age on other surfaces" ; snownobioage:_FillValue = 9.96921e+36f ; snownobioage:long_name = "Snow age on other surfaces" ; snownobioage:online_operation = "ave(scatter(X))" ; snownobioage:interval_operation = 1800.f ; snownobioage:interval_write = -1.f ; snownobioage:coordinates = "time_counter lat lon" ; float vegetfrac(time_counter, veget, lat, lon) ; vegetfrac:units = "1" ; vegetfrac:standard_name = "Fraction of vegetation" ; vegetfrac:_FillValue = 9.96921e+36f ; vegetfrac:long_name = "Fraction of vegetation" ; vegetfrac:online_operation = "ave(scatter(X))" ; vegetfrac:interval_operation = 1800.f ; vegetfrac:interval_write = -1.f ; vegetfrac:coordinates = "time_counter veget lat lon" ; float maxvegetfrac(time_counter, veget, lat, lon) ; maxvegetfrac:units = "1" ; maxvegetfrac:standard_name = "Maximum fraction of vegetation" ; maxvegetfrac:_FillValue = 9.96921e+36f ; maxvegetfrac:long_name = "Maximum fraction of vegetation" ; maxvegetfrac:online_operation = "ave(scatter(X))" ; maxvegetfrac:interval_operation = 1800.f ; maxvegetfrac:interval_write = -1.f ; maxvegetfrac:coordinates = "time_counter veget lat lon" ; float nobiofrac(time_counter, lat, lon) ; nobiofrac:units = "1" ; nobiofrac:standard_name = "Fraction of other surface types" ; nobiofrac:_FillValue = 9.96921e+36f ; nobiofrac:long_name = "Fraction of other surface types" ; nobiofrac:online_operation = "ave(scatter(X))" ; nobiofrac:interval_operation = 1800.f ; nobiofrac:interval_write = -1.f ; nobiofrac:coordinates = "time_counter lat lon" ; float dss(time_counter, veget, lat, lon) ; dss:units = "m" ; dss:standard_name = "Up-reservoir Height" ; dss:_FillValue = 9.96921e+36f ; dss:long_name = "Up-reservoir Height" ; dss:online_operation = "ave(scatter(X))" ; dss:interval_operation = 1800.f ; dss:interval_write = -1.f ; dss:coordinates = "time_counter veget lat lon" ; float gqsb(time_counter, lat, lon) ; gqsb:units = "1" ; gqsb:standard_name = "Upper Soil Moisture" ; gqsb:_FillValue = 9.96921e+36f ; gqsb:long_name = "Upper Soil Moisture" ; gqsb:online_operation = "ave(scatter(X))" ; gqsb:interval_operation = 1800.f ; gqsb:interval_write = -1.f ; gqsb:coordinates = "time_counter lat lon" ; float bqsb(time_counter, lat, lon) ; bqsb:units = "1" ; bqsb:standard_name = "Lower Soil Moisture" ; bqsb:_FillValue = 9.96921e+36f ; bqsb:long_name = "Lower Soil Moisture" ; bqsb:online_operation = "ave(scatter(X))" ; bqsb:interval_operation = 1800.f ; bqsb:interval_write = -1.f ; bqsb:coordinates = "time_counter lat lon" ; float qsintveg(time_counter, veget, lat, lon) ; qsintveg:units = "Kg/m^2" ; qsintveg:standard_name = "Water on canopy" ; qsintveg:_FillValue = 9.96921e+36f ; qsintveg:long_name = "Water on canopy" ; qsintveg:online_operation = "ave(scatter(X))" ; qsintveg:interval_operation = 1800.f ; qsintveg:interval_write = -1.f ; qsintveg:coordinates = "time_counter veget lat lon" ; float rstruct(time_counter, veget, lat, lon) ; rstruct:units = "s/m" ; rstruct:standard_name = "Structural resistance" ; rstruct:_FillValue = 9.96921e+36f ; rstruct:long_name = "Structural resistance" ; rstruct:online_operation = "ave(scatter(X))" ; rstruct:interval_operation = 1800.f ; rstruct:interval_write = -1.f ; rstruct:coordinates = "time_counter veget lat lon" ; float gpp(time_counter, veget, lat, lon) ; gpp:units = "gC/m^2/s" ; gpp:standard_name = "Net assimilation of carbon by the vegetation" ; gpp:_FillValue = 9.96921e+36f ; gpp:long_name = "Net assimilation of carbon by the vegetation" ; gpp:online_operation = "ave(scatter(X*0.000556))" ; gpp:interval_operation = 1800.f ; gpp:interval_write = -1.f ; gpp:coordinates = "time_counter veget lat lon" ; float nee(time_counter, veget, lat, lon) ; nee:units = "gC/m^2/s" ; nee:standard_name = "Net Ecosystem Exchange" ; nee:_FillValue = 9.96921e+36f ; nee:long_name = "Net Ecosystem Exchange" ; nee:online_operation = "ave(scatter(X*0.000556))" ; nee:interval_operation = 1800.f ; nee:interval_write = -1.f ; nee:coordinates = "time_counter veget lat lon" ; float maint_resp(time_counter, veget, lat, lon) ; maint_resp:units = "gC/m^2/s" ; maint_resp:standard_name = "Maintenance respiration" ; maint_resp:_FillValue = 9.96921e+36f ; maint_resp:long_name = "Maintenance respiration" ; maint_resp:online_operation = "ave(scatter(X*0.000556))" ; maint_resp:interval_operation = 1800.f ; maint_resp:interval_write = -1.f ; maint_resp:coordinates = "time_counter veget lat lon" ; float hetero_resp(time_counter, veget, lat, lon) ; hetero_resp:units = "gC/m^2/s" ; hetero_resp:standard_name = "Heterotrophic respiration" ; hetero_resp:_FillValue = 9.96921e+36f ; hetero_resp:long_name = "Heterotrophic respiration" ; hetero_resp:online_operation = "ave(scatter(X*0.000556))" ; hetero_resp:interval_operation = 1800.f ; hetero_resp:interval_write = -1.f ; hetero_resp:coordinates = "time_counter veget lat lon" ; float growth_resp(time_counter, veget, lat, lon) ; growth_resp:units = "gC/m^2/s" ; growth_resp:standard_name = "Growth respiration" ; growth_resp:_FillValue = 9.96921e+36f ; growth_resp:long_name = "Growth respiration" ; growth_resp:online_operation = "ave(scatter(X*0.000556))" ; growth_resp:interval_operation = 1800.f ; growth_resp:interval_write = -1.f ; growth_resp:coordinates = "time_counter veget lat lon" ; float npp(time_counter, veget, lat, lon) ; npp:units = "gC/m^2/s" ; npp:standard_name = "Net Primary Production" ; npp:_FillValue = 9.96921e+36f ; npp:long_name = "Net Primary Production" ; npp:online_operation = "ave(scatter(X*0.000556))" ; npp:interval_operation = 1800.f ; npp:interval_write = -1.f ; npp:coordinates = "time_counter veget lat lon" ; float precisol(time_counter, veget, lat, lon) ; precisol:units = "mm/d" ; precisol:standard_name = "Throughfall" ; precisol:_FillValue = 9.96921e+36f ; precisol:long_name = "Throughfall" ; precisol:online_operation = "ave(scatter(X* 48.0))" ; precisol:interval_operation = 1800.f ; precisol:interval_write = -1.f ; precisol:coordinates = "time_counter veget lat lon" ; float drysoil_frac(time_counter, lat, lon) ; drysoil_frac:units = "1" ; drysoil_frac:standard_name = "Fraction of visibly dry soil" ; drysoil_frac:_FillValue = 9.96921e+36f ; drysoil_frac:long_name = "Fraction of visibly dry soil" ; drysoil_frac:online_operation = "ave(scatter(X))" ; drysoil_frac:interval_operation = 1800.f ; drysoil_frac:interval_write = -1.f ; drysoil_frac:coordinates = "time_counter lat lon" ; float evapot(time_counter, lat, lon) ; evapot:units = "mm/d" ; evapot:standard_name = "Potential evaporation" ; evapot:_FillValue = 9.96921e+36f ; evapot:long_name = "Potential evaporation" ; evapot:online_operation = "ave(scatter(X* 48.0))" ; evapot:interval_operation = 1800.f ; evapot:interval_write = -1.f ; evapot:coordinates = "time_counter lat lon" ; float evapot_corr(time_counter, lat, lon) ; evapot_corr:units = "mm/d" ; evapot_corr:standard_name = "Potential evaporation" ; evapot_corr:_FillValue = 9.96921e+36f ; evapot_corr:long_name = "Potential evaporation" ; evapot_corr:online_operation = "ave(scatter(X* 48.0))" ; evapot_corr:interval_operation = 1800.f ; evapot_corr:interval_write = -1.f ; evapot_corr:coordinates = "time_counter lat lon" ; float swnet(time_counter, lat, lon) ; swnet:units = "W/m^2" ; swnet:standard_name = "Net solar radiation" ; swnet:_FillValue = 9.96921e+36f ; swnet:long_name = "Net solar radiation" ; swnet:online_operation = "ave(X)" ; swnet:interval_operation = 1800.f ; swnet:interval_write = -1.f ; swnet:coordinates = "time_counter lat lon" ; float swdown(time_counter, lat, lon) ; swdown:units = "W/m^2" ; swdown:standard_name = "Incident solar radiation" ; swdown:_FillValue = 9.96921e+36f ; swdown:long_name = "Incident solar radiation" ; swdown:online_operation = "ave(X)" ; swdown:interval_operation = 1800.f ; swdown:interval_write = -1.f ; swdown:coordinates = "time_counter lat lon" ; float lwdown(time_counter, lat, lon) ; lwdown:units = "W/m^2" ; lwdown:standard_name = "Absorbed downward longwave radiation" ; lwdown:_FillValue = 9.96921e+36f ; lwdown:long_name = "Absorbed downward longwave radiation" ; lwdown:online_operation = "ave(scatter(X))" ; lwdown:interval_operation = 1800.f ; lwdown:interval_write = -1.f ; lwdown:coordinates = "time_counter lat lon" ; float lwnet(time_counter, lat, lon) ; lwnet:units = "W/m^2" ; lwnet:standard_name = "Net surface longwave radiation" ; lwnet:_FillValue = 9.96921e+36f ; lwnet:long_name = "Net surface longwave radiation" ; lwnet:online_operation = "ave(scatter(X))" ; lwnet:interval_operation = 1800.f ; lwnet:interval_write = -1.f ; lwnet:coordinates = "time_counter lat lon" ; float temp_pheno(time_counter, lat, lon) ; temp_pheno:units = "K" ; temp_pheno:standard_name = "Temperature for Pheno" ; temp_pheno:_FillValue = 9.96921e+36f ; temp_pheno:long_name = "Temperature for Pheno" ; temp_pheno:online_operation = "ave(scatter(X))" ; temp_pheno:interval_operation = 1800.f ; temp_pheno:interval_write = -1.f ; temp_pheno:coordinates = "time_counter lat lon" ; float ptn(time_counter, solth, lat, lon) ; ptn:units = "K" ; ptn:standard_name = "Deep ground temperature" ; ptn:_FillValue = 9.96921e+36f ; ptn:long_name = "Deep ground temperature" ; ptn:online_operation = "ave(scatter(X))" ; ptn:interval_operation = 1800.f ; ptn:interval_write = -1.f ; ptn:coordinates = "time_counter solth lat lon" ; float fastr(time_counter, lat, lon) ; fastr:units = "kg/m^2" ; fastr:standard_name = "Fast flow reservoir" ; fastr:_FillValue = 9.96921e+36f ; fastr:long_name = "Fast flow reservoir" ; fastr:online_operation = "ave(scatter(X))" ; fastr:interval_operation = 1800.f ; fastr:interval_write = -1.f ; fastr:coordinates = "time_counter lat lon" ; float slowr(time_counter, lat, lon) ; slowr:units = "kg/m^2" ; slowr:standard_name = "Slow flow reservoir" ; slowr:_FillValue = 9.96921e+36f ; slowr:long_name = "Slow flow reservoir" ; slowr:online_operation = "ave(scatter(X))" ; slowr:interval_operation = 1800.f ; slowr:interval_write = -1.f ; slowr:coordinates = "time_counter lat lon" ; float streamr(time_counter, lat, lon) ; streamr:units = "kg/m^2" ; streamr:standard_name = "Stream flow reservoir" ; streamr:_FillValue = 9.96921e+36f ; streamr:long_name = "Stream flow reservoir" ; streamr:online_operation = "ave(scatter(X))" ; streamr:interval_operation = 1800.f ; streamr:interval_write = -1.f ; streamr:coordinates = "time_counter lat lon" ; float lakevol(time_counter, lat, lon) ; lakevol:units = "kg/m^2" ; lakevol:standard_name = "Volume in lake reservoir" ; lakevol:_FillValue = 9.96921e+36f ; lakevol:long_name = "Volume in lake reservoir" ; lakevol:online_operation = "ave(scatter(X))" ; lakevol:interval_operation = 1800.f ; lakevol:interval_write = -1.f ; lakevol:coordinates = "time_counter lat lon" ; float irrigation(time_counter, lat, lon) ; irrigation:units = "mm/d" ; irrigation:standard_name = "Net irrigation" ; irrigation:_FillValue = 9.96921e+36f ; irrigation:long_name = "Net irrigation" ; irrigation:online_operation = "ave(scatter(X* 48.0))" ; irrigation:interval_operation = 1800.f ; irrigation:interval_write = -1.f ; irrigation:coordinates = "time_counter lat lon" ; float netirrig(time_counter, lat, lon) ; netirrig:units = "mm/d" ; netirrig:standard_name = "Net irrigation requirement" ; netirrig:_FillValue = 9.96921e+36f ; netirrig:long_name = "Net irrigation requirement" ; netirrig:online_operation = "ave(scatter(X* 48.0))" ; netirrig:interval_operation = 1800.f ; netirrig:interval_write = -1.f ; netirrig:coordinates = "time_counter lat lon" ; float irrigmap(lat, lon) ; irrigmap:units = "m^2" ; irrigmap:standard_name = "Map of irrigated areas" ; irrigmap:_FillValue = 9.96921e+36f ; irrigmap:long_name = "Map of irrigated areas" ; irrigmap:online_operation = "once(scatter(X))" ; irrigmap:coordinates = "lat lon" ; float beta(time_counter, lat, lon) ; beta:units = "1" ; beta:standard_name = "Beta Function" ; beta:_FillValue = 9.96921e+36f ; beta:long_name = "Beta Function" ; beta:online_operation = "ave(scatter(X))" ; beta:interval_operation = 1800.f ; beta:interval_write = -1.f ; beta:coordinates = "time_counter lat lon" ; float raero(time_counter, lat, lon) ; raero:units = "s/m" ; raero:standard_name = "Aerodynamic resistance" ; raero:_FillValue = 9.96921e+36f ; raero:long_name = "Aerodynamic resistance" ; raero:online_operation = "ave(scatter(X))" ; raero:interval_operation = 1800.f ; raero:interval_write = -1.f ; raero:coordinates = "time_counter lat lon" ; float cdrag(time_counter, lat, lon) ; cdrag:units = "?" ; cdrag:standard_name = "Drag coefficient for LE and SH" ; cdrag:_FillValue = 9.96921e+36f ; cdrag:long_name = "Drag coefficient for LE and SH" ; cdrag:online_operation = "ave(scatter(X))" ; cdrag:interval_operation = 1800.f ; cdrag:interval_write = -1.f ; cdrag:coordinates = "time_counter lat lon" ; float Wind(time_counter, lat, lon) ; Wind:units = "m/s" ; Wind:standard_name = "Wind speed" ; Wind:_FillValue = 9.96921e+36f ; Wind:long_name = "Wind speed" ; Wind:online_operation = "ave(scatter(X))" ; Wind:interval_operation = 1800.f ; Wind:interval_write = -1.f ; Wind:coordinates = "time_counter lat lon" ; float qsatt(time_counter, lat, lon) ; qsatt:units = "g/g" ; qsatt:standard_name = "Surface saturated humidity" ; qsatt:_FillValue = 9.96921e+36f ; qsatt:long_name = "Surface saturated humidity" ; qsatt:online_operation = "ave(scatter(X))" ; qsatt:interval_operation = 1800.f ; qsatt:interval_write = -1.f ; qsatt:coordinates = "time_counter lat lon" ; float vbeta1(time_counter, lat, lon) ; vbeta1:units = "1" ; vbeta1:standard_name = "Beta for sublimation" ; vbeta1:_FillValue = 9.96921e+36f ; vbeta1:long_name = "Beta for sublimation" ; vbeta1:online_operation = "ave(scatter(X))" ; vbeta1:interval_operation = 1800.f ; vbeta1:interval_write = -1.f ; vbeta1:coordinates = "time_counter lat lon" ; float vbeta4(time_counter, lat, lon) ; vbeta4:units = "1" ; vbeta4:standard_name = "Beta for bare soil" ; vbeta4:_FillValue = 9.96921e+36f ; vbeta4:long_name = "Beta for bare soil" ; vbeta4:online_operation = "ave(scatter(X))" ; vbeta4:interval_operation = 1800.f ; vbeta4:interval_write = -1.f ; vbeta4:coordinates = "time_counter lat lon" ; float vbetaco2(time_counter, veget, lat, lon) ; vbetaco2:units = "mm/d" ; vbetaco2:standard_name = "beta for CO2" ; vbetaco2:_FillValue = 9.96921e+36f ; vbetaco2:long_name = "beta for CO2" ; vbetaco2:online_operation = "ave(scatter(X))" ; vbetaco2:interval_operation = 1800.f ; vbetaco2:interval_write = -1.f ; vbetaco2:coordinates = "time_counter veget lat lon" ; float soiltype(soiltyp, lat, lon) ; soiltype:units = "%" ; soiltype:standard_name = "Fraction of soil textures" ; soiltype:_FillValue = 9.96921e+36f ; soiltype:long_name = "Fraction of soil textures" ; soiltype:online_operation = "once(scatter(X))" ; soiltype:coordinates = "soiltyp lat lon" ; float humrel(time_counter, veget, lat, lon) ; humrel:units = "1" ; humrel:standard_name = "Soil moisture stress" ; humrel:_FillValue = 9.96921e+36f ; humrel:long_name = "Soil moisture stress" ; humrel:online_operation = "ave(scatter(X))" ; humrel:interval_operation = 1800.f ; humrel:interval_write = -1.f ; humrel:coordinates = "time_counter veget lat lon" ; float cimean(time_counter, veget, lat, lon) ; cimean:units = "mmole/m2/s" ; cimean:standard_name = "Stomatal CO2 concentation" ; cimean:_FillValue = 9.96921e+36f ; cimean:long_name = "Stomatal CO2 concentation" ; cimean:online_operation = "ave(scatter(X))" ; cimean:interval_operation = 1800.f ; cimean:interval_write = -1.f ; cimean:coordinates = "time_counter veget lat lon" ; float vbeta3(time_counter, veget, lat, lon) ; vbeta3:units = "mm/d" ; vbeta3:standard_name = "Beta for Transpiration" ; vbeta3:_FillValue = 9.96921e+36f ; vbeta3:long_name = "Beta for Transpiration" ; vbeta3:online_operation = "ave(scatter(X))" ; vbeta3:interval_operation = 1800.f ; vbeta3:interval_write = -1.f ; vbeta3:coordinates = "time_counter veget lat lon" ; float rveget(time_counter, veget, lat, lon) ; rveget:units = "s/m" ; rveget:standard_name = "Canopy resistance" ; rveget:_FillValue = 9.96921e+36f ; rveget:long_name = "Canopy resistance" ; rveget:online_operation = "ave(scatter(X))" ; rveget:interval_operation = 1800.f ; rveget:interval_write = -1.f ; rveget:coordinates = "time_counter veget lat lon" ; float rsol(time_counter, lat, lon) ; rsol:units = "s/m" ; rsol:standard_name = "Soil resistance" ; rsol:_FillValue = 9.96921e+36f ; rsol:long_name = "Soil resistance" ; rsol:online_operation = "ave(scatter(X))" ; rsol:interval_operation = 1800.f ; rsol:interval_write = -1.f ; rsol:coordinates = "time_counter lat lon" ; float vbeta2(time_counter, veget, lat, lon) ; vbeta2:units = "mm/d" ; vbeta2:standard_name = "Beta for Interception loss" ; vbeta2:_FillValue = 9.96921e+36f ; vbeta2:long_name = "Beta for Interception loss" ; vbeta2:online_operation = "ave(scatter(X))" ; vbeta2:interval_operation = 1800.f ; vbeta2:interval_write = -1.f ; vbeta2:coordinates = "time_counter veget lat lon" ; float qsintmax(time_counter, veget, lat, lon) ; qsintmax:units = "Kg/m^2" ; qsintmax:standard_name = "Maximum Interception capacity" ; qsintmax:_FillValue = 9.96921e+36f ; qsintmax:long_name = "Maximum Interception capacity" ; qsintmax:online_operation = "ave(scatter(X))" ; qsintmax:interval_operation = 1800.f ; qsintmax:interval_write = -1.f ; qsintmax:coordinates = "time_counter veget lat lon" ; float mrsos(time_counter, lat, lon) ; mrsos:units = "kg m-2" ; mrsos:standard_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:_FillValue = 9.96921e+36f ; mrsos:long_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:online_operation = "ave(scatter(X))" ; mrsos:interval_operation = 1800.f ; mrsos:interval_write = -1.f ; mrsos:coordinates = "time_counter lat lon" ; float mrso(time_counter, lat, lon) ; mrso:units = "kg m-2" ; mrso:standard_name = "Total Soil Moisture Content" ; mrso:_FillValue = 9.96921e+36f ; mrso:long_name = "Total Soil Moisture Content" ; mrso:online_operation = "ave(scatter(X))" ; mrso:interval_operation = 1800.f ; mrso:interval_write = -1.f ; mrso:coordinates = "time_counter lat lon" ; float mrros(time_counter, lat, lon) ; mrros:units = "kg m-2 s-1" ; mrros:standard_name = "Surface Runoff" ; mrros:_FillValue = 9.96921e+36f ; mrros:long_name = "Surface Runoff" ; mrros:online_operation = "ave(scatter(X))" ; mrros:interval_operation = 1800.f ; mrros:interval_write = -1.f ; mrros:coordinates = "time_counter lat lon" ; float mrro(time_counter, lat, lon) ; mrro:units = "kg m-2 s-1" ; mrro:standard_name = "Total Runoff" ; mrro:_FillValue = 9.96921e+36f ; mrro:long_name = "Total Runoff" ; mrro:online_operation = "ave(scatter(X))" ; mrro:interval_operation = 1800.f ; mrro:interval_write = -1.f ; mrro:coordinates = "time_counter lat lon" ; float prveg(time_counter, lat, lon) ; prveg:units = "kg m-2 s-1" ; prveg:standard_name = "Precipitation onto Canopy" ; prveg:_FillValue = 9.96921e+36f ; prveg:long_name = "Precipitation onto Canopy" ; prveg:online_operation = "ave(scatter(X))" ; prveg:interval_operation = 1800.f ; prveg:interval_write = -1.f ; prveg:coordinates = "time_counter lat lon" ; float evspsblveg(time_counter, lat, lon) ; evspsblveg:units = "kg m-2 s-1" ; evspsblveg:standard_name = "Evaporation from Canopy" ; evspsblveg:_FillValue = 9.96921e+36f ; evspsblveg:long_name = "Evaporation from Canopy" ; evspsblveg:online_operation = "ave(scatter(X))" ; evspsblveg:interval_operation = 1800.f ; evspsblveg:interval_write = -1.f ; evspsblveg:coordinates = "time_counter lat lon" ; float evspsblsoi(time_counter, lat, lon) ; evspsblsoi:units = "kg m-2 s-1" ; evspsblsoi:standard_name = "Water Evaporation from Soil" ; evspsblsoi:_FillValue = 9.96921e+36f ; evspsblsoi:long_name = "Water Evaporation from Soil" ; evspsblsoi:online_operation = "ave(scatter(X))" ; evspsblsoi:interval_operation = 1800.f ; evspsblsoi:interval_write = -1.f ; evspsblsoi:coordinates = "time_counter lat lon" ; float tran(time_counter, lat, lon) ; tran:units = "kg m-2 s-1" ; tran:standard_name = "Transpiration" ; tran:_FillValue = 9.96921e+36f ; tran:long_name = "Transpiration" ; tran:online_operation = "ave(scatter(X))" ; tran:interval_operation = 1800.f ; tran:interval_write = -1.f ; tran:coordinates = "time_counter lat lon" ; float treeFrac(time_counter, lat, lon) ; treeFrac:units = "%" ; treeFrac:standard_name = "Tree Cover Fraction" ; treeFrac:_FillValue = 9.96921e+36f ; treeFrac:long_name = "Tree Cover Fraction" ; treeFrac:online_operation = "ave(scatter(X))" ; treeFrac:interval_operation = 1800.f ; treeFrac:interval_write = -1.f ; treeFrac:coordinates = "time_counter lat lon" ; float grassFrac(time_counter, lat, lon) ; grassFrac:units = "%" ; grassFrac:standard_name = "Natural Grass Fraction" ; grassFrac:_FillValue = 9.96921e+36f ; grassFrac:long_name = "Natural Grass Fraction" ; grassFrac:online_operation = "ave(scatter(X))" ; grassFrac:interval_operation = 1800.f ; grassFrac:interval_write = -1.f ; grassFrac:coordinates = "time_counter lat lon" ; float cropFrac(time_counter, lat, lon) ; cropFrac:units = "%" ; cropFrac:standard_name = "Crop Fraction" ; cropFrac:_FillValue = 9.96921e+36f ; cropFrac:long_name = "Crop Fraction" ; cropFrac:online_operation = "ave(scatter(X))" ; cropFrac:interval_operation = 1800.f ; cropFrac:interval_write = -1.f ; cropFrac:coordinates = "time_counter lat lon" ; float baresoilFrac(time_counter, lat, lon) ; baresoilFrac:units = "%" ; baresoilFrac:standard_name = "Bare Soil Fraction" ; baresoilFrac:_FillValue = 9.96921e+36f ; baresoilFrac:long_name = "Bare Soil Fraction" ; baresoilFrac:online_operation = "ave(scatter(X))" ; baresoilFrac:interval_operation = 1800.f ; baresoilFrac:interval_write = -1.f ; baresoilFrac:coordinates = "time_counter lat lon" ; float residualFrac(time_counter, lat, lon) ; residualFrac:units = "%" ; residualFrac:standard_name = "Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil" ; residualFrac:_FillValue = 9.96921e+36f ; residualFrac:long_name = "Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil" ; residualFrac:online_operation = "ave(scatter(X))" ; residualFrac:interval_operation = 1800.f ; residualFrac:interval_write = -1.f ; residualFrac:coordinates = "time_counter lat lon" ; float LandPoints(lat, lon) ; LandPoints:units = "1" ; LandPoints:standard_name = "Land Points" ; LandPoints:_FillValue = 9.96921e+36f ; LandPoints:long_name = "Land Points" ; LandPoints:online_operation = "once(scatter(X))" ; LandPoints:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; float Contfrac(lat, lon) ; Contfrac:units = "1" ; Contfrac:standard_name = "Continental fraction" ; Contfrac:_FillValue = 9.96921e+36f ; Contfrac:long_name = "Continental fraction" ; Contfrac:online_operation = "once(scatter(X))" ; Contfrac:coordinates = "lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "sechiba_history.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} = Variables journalières = == ATM/Output/DA/v2.historical1_19800101_19800131_1D_histdayCOSP.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_histdayCOSP { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; height = 40 ; height_mlev = 39 ; sza = 5 ; pressure2 = 7 ; column = 20 ; time_counter = UNLIMITED ; // (31 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float height(height) ; height:axis = "Z" ; height:standard_name = "model_level_number" ; height:units = "m" ; height:valid_min = 240.f ; height:valid_max = 18960.f ; height:title = "height" ; height:long_name = "height" ; float height_mlev(height_mlev) ; height_mlev:axis = "Z" ; height_mlev:standard_name = "model_level_number" ; height_mlev:units = "m" ; height_mlev:valid_min = 30.54139f ; height_mlev:valid_max = 76491.88f ; height_mlev:title = "height_mlev" ; height_mlev:long_name = "height_mlev" ; float sza(sza) ; sza:axis = "Z" ; sza:standard_name = "model_level_number" ; sza:units = "degrees" ; sza:valid_min = 0.f ; sza:valid_max = 80.f ; sza:title = "sza" ; sza:long_name = "solar_zenith_angle" ; float pressure2(pressure2) ; pressure2:axis = "Z" ; pressure2:standard_name = "model_level_number" ; pressure2:units = "mb" ; pressure2:valid_min = 9000.f ; pressure2:valid_max = 90000.f ; pressure2:title = "pressure2" ; pressure2:long_name = "pressure" ; float column(column) ; column:axis = "Z" ; column:standard_name = "model_level_number" ; column:units = "count" ; column:valid_min = 1.f ; column:valid_max = 20.f ; column:title = "column" ; column:long_name = "column" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float cllcalipso(time_counter, lat, lon) ; cllcalipso:units = "1" ; cllcalipso:standard_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:_FillValue = 9.96921e+36f ; cllcalipso:long_name = "Lidar Low-level Cloud Fraction" ; cllcalipso:online_operation = "ave(X)" ; cllcalipso:interval_operation = 10800.f ; cllcalipso:interval_write = 86400.f ; cllcalipso:coordinates = "time_counter lat lon" ; float clhcalipso(time_counter, lat, lon) ; clhcalipso:units = "1" ; clhcalipso:standard_name = "Lidar High-level Cloud Fraction" ; clhcalipso:_FillValue = 9.96921e+36f ; clhcalipso:long_name = "Lidar High-level Cloud Fraction" ; clhcalipso:online_operation = "ave(X)" ; clhcalipso:interval_operation = 10800.f ; clhcalipso:interval_write = 86400.f ; clhcalipso:coordinates = "time_counter lat lon" ; float clmcalipso(time_counter, lat, lon) ; clmcalipso:units = "1" ; clmcalipso:standard_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:_FillValue = 9.96921e+36f ; clmcalipso:long_name = "Lidar Mid-level Cloud Fraction" ; clmcalipso:online_operation = "ave(X)" ; clmcalipso:interval_operation = 10800.f ; clmcalipso:interval_write = 86400.f ; clmcalipso:coordinates = "time_counter lat lon" ; float cltcalipso(time_counter, lat, lon) ; cltcalipso:units = "1" ; cltcalipso:standard_name = "Lidar Total Cloud Fraction" ; cltcalipso:_FillValue = 9.96921e+36f ; cltcalipso:long_name = "Lidar Total Cloud Fraction" ; cltcalipso:online_operation = "ave(X)" ; cltcalipso:interval_operation = 10800.f ; cltcalipso:interval_write = 86400.f ; cltcalipso:coordinates = "time_counter lat lon" ; float clcalipso(time_counter, height, lat, lon) ; clcalipso:units = "1" ; clcalipso:standard_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:_FillValue = 9.96921e+36f ; clcalipso:long_name = "Lidar Cloud Fraction (532 nm)" ; clcalipso:online_operation = "ave(X)" ; clcalipso:interval_operation = 10800.f ; clcalipso:interval_write = 86400.f ; clcalipso:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c01(time_counter, height, lat, lon) ; cfad_lidarsr532_c01:units = "1" ; cfad_lidarsr532_c01:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c01:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c01:online_operation = "ave(X)" ; cfad_lidarsr532_c01:interval_operation = 10800.f ; cfad_lidarsr532_c01:interval_write = 86400.f ; cfad_lidarsr532_c01:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c02(time_counter, height, lat, lon) ; cfad_lidarsr532_c02:units = "1" ; cfad_lidarsr532_c02:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c02:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c02:online_operation = "ave(X)" ; cfad_lidarsr532_c02:interval_operation = 10800.f ; cfad_lidarsr532_c02:interval_write = 86400.f ; cfad_lidarsr532_c02:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c03(time_counter, height, lat, lon) ; cfad_lidarsr532_c03:units = "1" ; cfad_lidarsr532_c03:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c03:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c03:online_operation = "ave(X)" ; cfad_lidarsr532_c03:interval_operation = 10800.f ; cfad_lidarsr532_c03:interval_write = 86400.f ; cfad_lidarsr532_c03:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c04(time_counter, height, lat, lon) ; cfad_lidarsr532_c04:units = "1" ; cfad_lidarsr532_c04:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c04:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c04:online_operation = "ave(X)" ; cfad_lidarsr532_c04:interval_operation = 10800.f ; cfad_lidarsr532_c04:interval_write = 86400.f ; cfad_lidarsr532_c04:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c05(time_counter, height, lat, lon) ; cfad_lidarsr532_c05:units = "1" ; cfad_lidarsr532_c05:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c05:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c05:online_operation = "ave(X)" ; cfad_lidarsr532_c05:interval_operation = 10800.f ; cfad_lidarsr532_c05:interval_write = 86400.f ; cfad_lidarsr532_c05:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c06(time_counter, height, lat, lon) ; cfad_lidarsr532_c06:units = "1" ; cfad_lidarsr532_c06:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c06:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c06:online_operation = "ave(X)" ; cfad_lidarsr532_c06:interval_operation = 10800.f ; cfad_lidarsr532_c06:interval_write = 86400.f ; cfad_lidarsr532_c06:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c07(time_counter, height, lat, lon) ; cfad_lidarsr532_c07:units = "1" ; cfad_lidarsr532_c07:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c07:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c07:online_operation = "ave(X)" ; cfad_lidarsr532_c07:interval_operation = 10800.f ; cfad_lidarsr532_c07:interval_write = 86400.f ; cfad_lidarsr532_c07:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c08(time_counter, height, lat, lon) ; cfad_lidarsr532_c08:units = "1" ; cfad_lidarsr532_c08:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c08:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c08:online_operation = "ave(X)" ; cfad_lidarsr532_c08:interval_operation = 10800.f ; cfad_lidarsr532_c08:interval_write = 86400.f ; cfad_lidarsr532_c08:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c09(time_counter, height, lat, lon) ; cfad_lidarsr532_c09:units = "1" ; cfad_lidarsr532_c09:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c09:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c09:online_operation = "ave(X)" ; cfad_lidarsr532_c09:interval_operation = 10800.f ; cfad_lidarsr532_c09:interval_write = 86400.f ; cfad_lidarsr532_c09:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c10(time_counter, height, lat, lon) ; cfad_lidarsr532_c10:units = "1" ; cfad_lidarsr532_c10:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c10:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c10:online_operation = "ave(X)" ; cfad_lidarsr532_c10:interval_operation = 10800.f ; cfad_lidarsr532_c10:interval_write = 86400.f ; cfad_lidarsr532_c10:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c11(time_counter, height, lat, lon) ; cfad_lidarsr532_c11:units = "1" ; cfad_lidarsr532_c11:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c11:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c11:online_operation = "ave(X)" ; cfad_lidarsr532_c11:interval_operation = 10800.f ; cfad_lidarsr532_c11:interval_write = 86400.f ; cfad_lidarsr532_c11:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c12(time_counter, height, lat, lon) ; cfad_lidarsr532_c12:units = "1" ; cfad_lidarsr532_c12:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c12:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c12:online_operation = "ave(X)" ; cfad_lidarsr532_c12:interval_operation = 10800.f ; cfad_lidarsr532_c12:interval_write = 86400.f ; cfad_lidarsr532_c12:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c13(time_counter, height, lat, lon) ; cfad_lidarsr532_c13:units = "1" ; cfad_lidarsr532_c13:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c13:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c13:online_operation = "ave(X)" ; cfad_lidarsr532_c13:interval_operation = 10800.f ; cfad_lidarsr532_c13:interval_write = 86400.f ; cfad_lidarsr532_c13:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c14(time_counter, height, lat, lon) ; cfad_lidarsr532_c14:units = "1" ; cfad_lidarsr532_c14:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c14:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c14:online_operation = "ave(X)" ; cfad_lidarsr532_c14:interval_operation = 10800.f ; cfad_lidarsr532_c14:interval_write = 86400.f ; cfad_lidarsr532_c14:coordinates = "time_counter height lat lon" ; float cfad_lidarsr532_c15(time_counter, height, lat, lon) ; cfad_lidarsr532_c15:units = "1" ; cfad_lidarsr532_c15:standard_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:_FillValue = 9.96921e+36f ; cfad_lidarsr532_c15:long_name = "Lidar Scattering Ratio CFAD (532 nm)" ; cfad_lidarsr532_c15:online_operation = "ave(X)" ; cfad_lidarsr532_c15:interval_operation = 10800.f ; cfad_lidarsr532_c15:interval_write = 86400.f ; cfad_lidarsr532_c15:coordinates = "time_counter height lat lon" ; float parasol_refl(time_counter, sza, lat, lon) ; parasol_refl:units = "1" ; parasol_refl:standard_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:_FillValue = 9.96921e+36f ; parasol_refl:long_name = "PARASOL-like mono-directional reflectance" ; parasol_refl:online_operation = "ave(X)" ; parasol_refl:interval_operation = 10800.f ; parasol_refl:interval_write = 86400.f ; parasol_refl:coordinates = "time_counter sza lat lon" ; float atb532_c01(time_counter, height_mlev, lat, lon) ; atb532_c01:units = "1" ; atb532_c01:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:_FillValue = 9.96921e+36f ; atb532_c01:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c01:online_operation = "ave(X)" ; atb532_c01:interval_operation = 10800.f ; atb532_c01:interval_write = 86400.f ; atb532_c01:coordinates = "time_counter height_mlev lat lon" ; float atb532_c02(time_counter, height_mlev, lat, lon) ; atb532_c02:units = "1" ; atb532_c02:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:_FillValue = 9.96921e+36f ; atb532_c02:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c02:online_operation = "ave(X)" ; atb532_c02:interval_operation = 10800.f ; atb532_c02:interval_write = 86400.f ; atb532_c02:coordinates = "time_counter height_mlev lat lon" ; float atb532_c03(time_counter, height_mlev, lat, lon) ; atb532_c03:units = "1" ; atb532_c03:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:_FillValue = 9.96921e+36f ; atb532_c03:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c03:online_operation = "ave(X)" ; atb532_c03:interval_operation = 10800.f ; atb532_c03:interval_write = 86400.f ; atb532_c03:coordinates = "time_counter height_mlev lat lon" ; float atb532_c04(time_counter, height_mlev, lat, lon) ; atb532_c04:units = "1" ; atb532_c04:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:_FillValue = 9.96921e+36f ; atb532_c04:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c04:online_operation = "ave(X)" ; atb532_c04:interval_operation = 10800.f ; atb532_c04:interval_write = 86400.f ; atb532_c04:coordinates = "time_counter height_mlev lat lon" ; float atb532_c05(time_counter, height_mlev, lat, lon) ; atb532_c05:units = "1" ; atb532_c05:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:_FillValue = 9.96921e+36f ; atb532_c05:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c05:online_operation = "ave(X)" ; atb532_c05:interval_operation = 10800.f ; atb532_c05:interval_write = 86400.f ; atb532_c05:coordinates = "time_counter height_mlev lat lon" ; float atb532_c06(time_counter, height_mlev, lat, lon) ; atb532_c06:units = "1" ; atb532_c06:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:_FillValue = 9.96921e+36f ; atb532_c06:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c06:online_operation = "ave(X)" ; atb532_c06:interval_operation = 10800.f ; atb532_c06:interval_write = 86400.f ; atb532_c06:coordinates = "time_counter height_mlev lat lon" ; float atb532_c07(time_counter, height_mlev, lat, lon) ; atb532_c07:units = "1" ; atb532_c07:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:_FillValue = 9.96921e+36f ; atb532_c07:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c07:online_operation = "ave(X)" ; atb532_c07:interval_operation = 10800.f ; atb532_c07:interval_write = 86400.f ; atb532_c07:coordinates = "time_counter height_mlev lat lon" ; float atb532_c08(time_counter, height_mlev, lat, lon) ; atb532_c08:units = "1" ; atb532_c08:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:_FillValue = 9.96921e+36f ; atb532_c08:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c08:online_operation = "ave(X)" ; atb532_c08:interval_operation = 10800.f ; atb532_c08:interval_write = 86400.f ; atb532_c08:coordinates = "time_counter height_mlev lat lon" ; float atb532_c09(time_counter, height_mlev, lat, lon) ; atb532_c09:units = "1" ; atb532_c09:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:_FillValue = 9.96921e+36f ; atb532_c09:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c09:online_operation = "ave(X)" ; atb532_c09:interval_operation = 10800.f ; atb532_c09:interval_write = 86400.f ; atb532_c09:coordinates = "time_counter height_mlev lat lon" ; float atb532_c10(time_counter, height_mlev, lat, lon) ; atb532_c10:units = "1" ; atb532_c10:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:_FillValue = 9.96921e+36f ; atb532_c10:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c10:online_operation = "ave(X)" ; atb532_c10:interval_operation = 10800.f ; atb532_c10:interval_write = 86400.f ; atb532_c10:coordinates = "time_counter height_mlev lat lon" ; float atb532_c11(time_counter, height_mlev, lat, lon) ; atb532_c11:units = "1" ; atb532_c11:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:_FillValue = 9.96921e+36f ; atb532_c11:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c11:online_operation = "ave(X)" ; atb532_c11:interval_operation = 10800.f ; atb532_c11:interval_write = 86400.f ; atb532_c11:coordinates = "time_counter height_mlev lat lon" ; float atb532_c12(time_counter, height_mlev, lat, lon) ; atb532_c12:units = "1" ; atb532_c12:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:_FillValue = 9.96921e+36f ; atb532_c12:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c12:online_operation = "ave(X)" ; atb532_c12:interval_operation = 10800.f ; atb532_c12:interval_write = 86400.f ; atb532_c12:coordinates = "time_counter height_mlev lat lon" ; float atb532_c13(time_counter, height_mlev, lat, lon) ; atb532_c13:units = "1" ; atb532_c13:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:_FillValue = 9.96921e+36f ; atb532_c13:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c13:online_operation = "ave(X)" ; atb532_c13:interval_operation = 10800.f ; atb532_c13:interval_write = 86400.f ; atb532_c13:coordinates = "time_counter height_mlev lat lon" ; float atb532_c14(time_counter, height_mlev, lat, lon) ; atb532_c14:units = "1" ; atb532_c14:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:_FillValue = 9.96921e+36f ; atb532_c14:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c14:online_operation = "ave(X)" ; atb532_c14:interval_operation = 10800.f ; atb532_c14:interval_write = 86400.f ; atb532_c14:coordinates = "time_counter height_mlev lat lon" ; float atb532_c15(time_counter, height_mlev, lat, lon) ; atb532_c15:units = "1" ; atb532_c15:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:_FillValue = 9.96921e+36f ; atb532_c15:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c15:online_operation = "ave(X)" ; atb532_c15:interval_operation = 10800.f ; atb532_c15:interval_write = 86400.f ; atb532_c15:coordinates = "time_counter height_mlev lat lon" ; float atb532_c16(time_counter, height_mlev, lat, lon) ; atb532_c16:units = "1" ; atb532_c16:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:_FillValue = 9.96921e+36f ; atb532_c16:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c16:online_operation = "ave(X)" ; atb532_c16:interval_operation = 10800.f ; atb532_c16:interval_write = 86400.f ; atb532_c16:coordinates = "time_counter height_mlev lat lon" ; float atb532_c17(time_counter, height_mlev, lat, lon) ; atb532_c17:units = "1" ; atb532_c17:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:_FillValue = 9.96921e+36f ; atb532_c17:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c17:online_operation = "ave(X)" ; atb532_c17:interval_operation = 10800.f ; atb532_c17:interval_write = 86400.f ; atb532_c17:coordinates = "time_counter height_mlev lat lon" ; float atb532_c18(time_counter, height_mlev, lat, lon) ; atb532_c18:units = "1" ; atb532_c18:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:_FillValue = 9.96921e+36f ; atb532_c18:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c18:online_operation = "ave(X)" ; atb532_c18:interval_operation = 10800.f ; atb532_c18:interval_write = 86400.f ; atb532_c18:coordinates = "time_counter height_mlev lat lon" ; float atb532_c19(time_counter, height_mlev, lat, lon) ; atb532_c19:units = "1" ; atb532_c19:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:_FillValue = 9.96921e+36f ; atb532_c19:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c19:online_operation = "ave(X)" ; atb532_c19:interval_operation = 10800.f ; atb532_c19:interval_write = 86400.f ; atb532_c19:coordinates = "time_counter height_mlev lat lon" ; float atb532_c20(time_counter, height_mlev, lat, lon) ; atb532_c20:units = "1" ; atb532_c20:standard_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:_FillValue = 9.96921e+36f ; atb532_c20:long_name = "Lidar Attenuated Total Backscatter (532 nm)" ; atb532_c20:online_operation = "ave(X)" ; atb532_c20:interval_operation = 10800.f ; atb532_c20:interval_write = 86400.f ; atb532_c20:coordinates = "time_counter height_mlev lat lon" ; float beta_mol532(time_counter, height_mlev, lat, lon) ; beta_mol532:units = "m-1 sr-1" ; beta_mol532:standard_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:_FillValue = 9.96921e+36f ; beta_mol532:long_name = "Lidar Molecular Backscatter (532 nm)" ; beta_mol532:online_operation = "ave(X)" ; beta_mol532:interval_operation = 10800.f ; beta_mol532:interval_write = 86400.f ; beta_mol532:coordinates = "time_counter height_mlev lat lon" ; float clisccp2_c01(time_counter, pressure2, lat, lon) ; clisccp2_c01:units = "1" ; clisccp2_c01:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:_FillValue = 9.96921e+36f ; clisccp2_c01:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c01:online_operation = "ave(X)" ; clisccp2_c01:interval_operation = 10800.f ; clisccp2_c01:interval_write = 86400.f ; clisccp2_c01:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c02(time_counter, pressure2, lat, lon) ; clisccp2_c02:units = "1" ; clisccp2_c02:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:_FillValue = 9.96921e+36f ; clisccp2_c02:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c02:online_operation = "ave(X)" ; clisccp2_c02:interval_operation = 10800.f ; clisccp2_c02:interval_write = 86400.f ; clisccp2_c02:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c03(time_counter, pressure2, lat, lon) ; clisccp2_c03:units = "1" ; clisccp2_c03:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:_FillValue = 9.96921e+36f ; clisccp2_c03:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c03:online_operation = "ave(X)" ; clisccp2_c03:interval_operation = 10800.f ; clisccp2_c03:interval_write = 86400.f ; clisccp2_c03:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c04(time_counter, pressure2, lat, lon) ; clisccp2_c04:units = "1" ; clisccp2_c04:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:_FillValue = 9.96921e+36f ; clisccp2_c04:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c04:online_operation = "ave(X)" ; clisccp2_c04:interval_operation = 10800.f ; clisccp2_c04:interval_write = 86400.f ; clisccp2_c04:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c05(time_counter, pressure2, lat, lon) ; clisccp2_c05:units = "1" ; clisccp2_c05:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:_FillValue = 9.96921e+36f ; clisccp2_c05:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c05:online_operation = "ave(X)" ; clisccp2_c05:interval_operation = 10800.f ; clisccp2_c05:interval_write = 86400.f ; clisccp2_c05:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c06(time_counter, pressure2, lat, lon) ; clisccp2_c06:units = "1" ; clisccp2_c06:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:_FillValue = 9.96921e+36f ; clisccp2_c06:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c06:online_operation = "ave(X)" ; clisccp2_c06:interval_operation = 10800.f ; clisccp2_c06:interval_write = 86400.f ; clisccp2_c06:coordinates = "time_counter pressure2 lat lon" ; float clisccp2_c07(time_counter, pressure2, lat, lon) ; clisccp2_c07:units = "1" ; clisccp2_c07:standard_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:_FillValue = 9.96921e+36f ; clisccp2_c07:long_name = "Cloud Fraction as Calculated by the ISCCP Simulator" ; clisccp2_c07:online_operation = "ave(X)" ; clisccp2_c07:interval_operation = 10800.f ; clisccp2_c07:interval_write = 86400.f ; clisccp2_c07:coordinates = "time_counter pressure2 lat lon" ; float boxtauisccp(time_counter, column, lat, lon) ; boxtauisccp:units = "1" ; boxtauisccp:standard_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:_FillValue = 9.96921e+36f ; boxtauisccp:long_name = "Optical Depth in Each Column as Calculated by the ISCCP Simulator" ; boxtauisccp:online_operation = "ave(X)" ; boxtauisccp:interval_operation = 10800.f ; boxtauisccp:interval_write = 86400.f ; boxtauisccp:coordinates = "time_counter column lat lon" ; float boxptopisccp(time_counter, column, lat, lon) ; boxptopisccp:units = "Pa" ; boxptopisccp:standard_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:_FillValue = 9.96921e+36f ; boxptopisccp:long_name = "Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator" ; boxptopisccp:online_operation = "ave(X)" ; boxptopisccp:interval_operation = 10800.f ; boxptopisccp:interval_write = 86400.f ; boxptopisccp:coordinates = "time_counter column lat lon" ; float tclisccp(time_counter, lat, lon) ; tclisccp:units = "1" ; tclisccp:standard_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:_FillValue = 9.96921e+36f ; tclisccp:long_name = "Total Cloud Fraction as Calculated by the ISCCP Simulator" ; tclisccp:online_operation = "ave(X)" ; tclisccp:interval_operation = 10800.f ; tclisccp:interval_write = 86400.f ; tclisccp:coordinates = "time_counter lat lon" ; float ctpisccp(time_counter, lat, lon) ; ctpisccp:units = "Pa" ; ctpisccp:standard_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:_FillValue = 9.96921e+36f ; ctpisccp:long_name = "Mean Cloud Top Pressure as Calculated by the ISCCP Simulator" ; ctpisccp:online_operation = "ave(X)" ; ctpisccp:interval_operation = 10800.f ; ctpisccp:interval_write = 86400.f ; ctpisccp:coordinates = "time_counter lat lon" ; float tauisccp(time_counter, lat, lon) ; tauisccp:units = "1" ; tauisccp:standard_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:_FillValue = 9.96921e+36f ; tauisccp:long_name = "Optical Depth as Calculated by the ISCCP Simulator" ; tauisccp:online_operation = "ave(X)" ; tauisccp:interval_operation = 10800.f ; tauisccp:interval_write = 86400.f ; tauisccp:coordinates = "time_counter lat lon" ; float albisccp(time_counter, lat, lon) ; albisccp:units = "1" ; albisccp:standard_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:_FillValue = 9.96921e+36f ; albisccp:long_name = "Mean Cloud Albedo as Calculated by the ISCCP Simulator" ; albisccp:online_operation = "ave(X)" ; albisccp:interval_operation = 10800.f ; albisccp:interval_write = 86400.f ; albisccp:coordinates = "time_counter lat lon" ; float meantbisccp(time_counter, lat, lon) ; meantbisccp:units = "K" ; meantbisccp:standard_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:_FillValue = 9.96921e+36f ; meantbisccp:long_name = " Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbisccp:online_operation = "ave(X)" ; meantbisccp:interval_operation = 10800.f ; meantbisccp:interval_write = 86400.f ; meantbisccp:coordinates = "time_counter lat lon" ; float meantbclrisccp(time_counter, lat, lon) ; meantbclrisccp:units = "K" ; meantbclrisccp:standard_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:_FillValue = 9.96921e+36f ; meantbclrisccp:long_name = "Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator" ; meantbclrisccp:online_operation = "ave(X)" ; meantbclrisccp:interval_operation = 10800.f ; meantbclrisccp:interval_write = 86400.f ; meantbclrisccp:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histdayCOSP.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/DA/v2.historical1_19800101_19800131_1D_histday.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_histday { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (31 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float phis(time_counter, lat, lon) ; phis:units = "m2/s2" ; phis:standard_name = "Surface geop.height" ; phis:_FillValue = 9.96921e+36f ; phis:long_name = "Surface geop.height" ; phis:online_operation = "ave(X)" ; phis:interval_operation = 1800.f ; phis:interval_write = 86400.f ; phis:coordinates = "time_counter lat lon" ; float aire(lat, lon) ; aire:units = "-" ; aire:standard_name = "Grid area" ; aire:_FillValue = 9.96921e+36f ; aire:long_name = "Grid area" ; aire:online_operation = "once" ; aire:coordinates = "lat lon" ; float contfracATM(lat, lon) ; contfracATM:units = "-" ; contfracATM:standard_name = "% sfce ter+lic" ; contfracATM:_FillValue = 9.96921e+36f ; contfracATM:long_name = "% sfce ter+lic" ; contfracATM:online_operation = "once" ; contfracATM:coordinates = "lat lon" ; float contfracOR(time_counter, lat, lon) ; contfracOR:units = "-" ; contfracOR:standard_name = "% sfce terre OR" ; contfracOR:_FillValue = 9.96921e+36f ; contfracOR:long_name = "% sfce terre OR" ; contfracOR:online_operation = "ave(X)" ; contfracOR:interval_operation = 1800.f ; contfracOR:interval_write = 86400.f ; contfracOR:coordinates = "time_counter lat lon" ; float flat(time_counter, lat, lon) ; flat:units = "W/m2" ; flat:standard_name = "Latent heat flux" ; flat:_FillValue = 9.96921e+36f ; flat:long_name = "Latent heat flux" ; flat:online_operation = "ave(X)" ; flat:interval_operation = 1800.f ; flat:interval_write = 86400.f ; flat:coordinates = "time_counter lat lon" ; float slp(time_counter, lat, lon) ; slp:units = "Pa" ; slp:standard_name = "Sea Level Pressure" ; slp:_FillValue = 9.96921e+36f ; slp:long_name = "Sea Level Pressure" ; slp:online_operation = "ave(X)" ; slp:interval_operation = 1800.f ; slp:interval_write = 86400.f ; slp:coordinates = "time_counter lat lon" ; float tsol(time_counter, lat, lon) ; tsol:units = "K" ; tsol:standard_name = "Surface Temperature" ; tsol:_FillValue = 9.96921e+36f ; tsol:long_name = "Surface Temperature" ; tsol:online_operation = "ave(X)" ; tsol:interval_operation = 1800.f ; tsol:interval_write = 86400.f ; tsol:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "Temperature 2m" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "Temperature 2m" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = 86400.f ; t2m:coordinates = "time_counter lat lon" ; float t2m_min(time_counter, lat, lon) ; t2m_min:units = "K" ; t2m_min:standard_name = "Temp 2m min" ; t2m_min:_FillValue = 9.96921e+36f ; t2m_min:long_name = "Temp 2m min" ; t2m_min:online_operation = "t_min(X)" ; t2m_min:interval_operation = 1800.f ; t2m_min:interval_write = 86400.f ; t2m_min:coordinates = "time_counter lat lon" ; float t2m_max(time_counter, lat, lon) ; t2m_max:units = "K" ; t2m_max:standard_name = "Temp 2m max" ; t2m_max:_FillValue = 9.96921e+36f ; t2m_max:long_name = "Temp 2m max" ; t2m_max:online_operation = "t_max(X)" ; t2m_max:interval_operation = 1800.f ; t2m_max:interval_write = 86400.f ; t2m_max:coordinates = "time_counter lat lon" ; float wind10m(time_counter, lat, lon) ; wind10m:units = "m/s" ; wind10m:standard_name = "10-m wind speed" ; wind10m:_FillValue = 9.96921e+36f ; wind10m:long_name = "10-m wind speed" ; wind10m:online_operation = "ave(X)" ; wind10m:interval_operation = 1800.f ; wind10m:interval_write = 86400.f ; wind10m:coordinates = "time_counter lat lon" ; float wind10max(time_counter, lat, lon) ; wind10max:units = "m/s" ; wind10max:standard_name = "10m wind speed max" ; wind10max:_FillValue = 9.96921e+36f ; wind10max:long_name = "10m wind speed max" ; wind10max:online_operation = "ave(X)" ; wind10max:interval_operation = 1800.f ; wind10max:interval_write = 86400.f ; wind10max:coordinates = "time_counter lat lon" ; float sicf(time_counter, lat, lon) ; sicf:units = "-" ; sicf:standard_name = "Sea-ice fraction" ; sicf:_FillValue = 9.96921e+36f ; sicf:long_name = "Sea-ice fraction" ; sicf:online_operation = "ave(X)" ; sicf:interval_operation = 1800.f ; sicf:interval_write = 86400.f ; sicf:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "kg/kg" ; q2m:standard_name = "Specific humidity 2m" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "Specific humidity 2m" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = 86400.f ; q2m:coordinates = "time_counter lat lon" ; float u10m(time_counter, lat, lon) ; u10m:units = "m/s" ; u10m:standard_name = "Vent zonal 10m" ; u10m:_FillValue = 9.96921e+36f ; u10m:long_name = "Vent zonal 10m" ; u10m:online_operation = "ave(X)" ; u10m:interval_operation = 1800.f ; u10m:interval_write = 86400.f ; u10m:coordinates = "time_counter lat lon" ; float v10m(time_counter, lat, lon) ; v10m:units = "m/s" ; v10m:standard_name = "Vent meridien 10m" ; v10m:_FillValue = 9.96921e+36f ; v10m:long_name = "Vent meridien 10m" ; v10m:online_operation = "ave(X)" ; v10m:interval_operation = 1800.f ; v10m:interval_write = 86400.f ; v10m:coordinates = "time_counter lat lon" ; float psol(time_counter, lat, lon) ; psol:units = "Pa" ; psol:standard_name = "Surface Pressure" ; psol:_FillValue = 9.96921e+36f ; psol:long_name = "Surface Pressure" ; psol:online_operation = "ave(X)" ; psol:interval_operation = 1800.f ; psol:interval_write = 86400.f ; psol:coordinates = "time_counter lat lon" ; float precip(time_counter, lat, lon) ; precip:units = "kg/(s*m2)" ; precip:standard_name = "Precip Totale liq+sol" ; precip:_FillValue = 9.96921e+36f ; precip:long_name = "Precip Totale liq+sol" ; precip:online_operation = "ave(X)" ; precip:interval_operation = 1800.f ; precip:interval_write = 86400.f ; precip:coordinates = "time_counter lat lon" ; float plul(time_counter, lat, lon) ; plul:units = "kg/(s*m2)" ; plul:standard_name = "Large-scale Precip." ; plul:_FillValue = 9.96921e+36f ; plul:long_name = "Large-scale Precip." ; plul:online_operation = "ave(X)" ; plul:interval_operation = 1800.f ; plul:interval_write = 86400.f ; plul:coordinates = "time_counter lat lon" ; float pluc(time_counter, lat, lon) ; pluc:units = "kg/(s*m2)" ; pluc:standard_name = "Convective Precip." ; pluc:_FillValue = 9.96921e+36f ; pluc:long_name = "Convective Precip." ; pluc:online_operation = "ave(X)" ; pluc:interval_operation = 1800.f ; pluc:interval_write = 86400.f ; pluc:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/(s*m2)" ; snow:standard_name = "Snow fall" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow fall" ; snow:online_operation = "ave(X)" ; snow:interval_operation = 1800.f ; snow:interval_write = 86400.f ; snow:coordinates = "time_counter lat lon" ; float evap(time_counter, lat, lon) ; evap:units = "kg/(s*m2)" ; evap:standard_name = "Evaporat" ; evap:_FillValue = 9.96921e+36f ; evap:long_name = "Evaporat" ; evap:online_operation = "ave(X)" ; evap:interval_operation = 1800.f ; evap:interval_write = 86400.f ; evap:coordinates = "time_counter lat lon" ; float tops(time_counter, lat, lon) ; tops:units = "W/m2" ; tops:standard_name = "Solar rad. at TOA" ; tops:_FillValue = 9.96921e+36f ; tops:long_name = "Solar rad. at TOA" ; tops:online_operation = "ave(X)" ; tops:interval_operation = 1800.f ; tops:interval_write = 86400.f ; tops:coordinates = "time_counter lat lon" ; float tops0(time_counter, lat, lon) ; tops0:units = "W/m2" ; tops0:standard_name = "CS Solar rad. at TOA" ; tops0:_FillValue = 9.96921e+36f ; tops0:long_name = "CS Solar rad. at TOA" ; tops0:online_operation = "ave(X)" ; tops0:interval_operation = 1800.f ; tops0:interval_write = 86400.f ; tops0:coordinates = "time_counter lat lon" ; float topl(time_counter, lat, lon) ; topl:units = "W/m2" ; topl:standard_name = "IR rad. at TOA" ; topl:_FillValue = 9.96921e+36f ; topl:long_name = "IR rad. at TOA" ; topl:online_operation = "ave(X)" ; topl:interval_operation = 1800.f ; topl:interval_write = 86400.f ; topl:coordinates = "time_counter lat lon" ; float topl0(time_counter, lat, lon) ; topl0:units = "W/m2" ; topl0:standard_name = "IR rad. at TOA" ; topl0:_FillValue = 9.96921e+36f ; topl0:long_name = "IR rad. at TOA" ; topl0:online_operation = "ave(X)" ; topl0:interval_operation = 1800.f ; topl0:interval_write = 86400.f ; topl0:coordinates = "time_counter lat lon" ; float SWupTOA(time_counter, lat, lon) ; SWupTOA:units = "W/m2" ; SWupTOA:standard_name = "SWup at TOA" ; SWupTOA:_FillValue = 9.96921e+36f ; SWupTOA:long_name = "SWup at TOA" ; SWupTOA:online_operation = "ave(X)" ; SWupTOA:interval_operation = 1800.f ; SWupTOA:interval_write = 86400.f ; SWupTOA:coordinates = "time_counter lat lon" ; float SWupTOAclr(time_counter, lat, lon) ; SWupTOAclr:units = "W/m2" ; SWupTOAclr:standard_name = "SWup clear sky at TOA" ; SWupTOAclr:_FillValue = 9.96921e+36f ; SWupTOAclr:long_name = "SWup clear sky at TOA" ; SWupTOAclr:online_operation = "ave(X)" ; SWupTOAclr:interval_operation = 1800.f ; SWupTOAclr:interval_write = 86400.f ; SWupTOAclr:coordinates = "time_counter lat lon" ; float SWdnTOA(time_counter, lat, lon) ; SWdnTOA:units = "W/m2" ; SWdnTOA:standard_name = "SWdn at TOA" ; SWdnTOA:_FillValue = 9.96921e+36f ; SWdnTOA:long_name = "SWdn at TOA" ; SWdnTOA:online_operation = "ave(X)" ; SWdnTOA:interval_operation = 1800.f ; SWdnTOA:interval_write = 86400.f ; SWdnTOA:coordinates = "time_counter lat lon" ; float SWdnTOAclr(time_counter, lat, lon) ; SWdnTOAclr:units = "W/m2" ; SWdnTOAclr:standard_name = "SWdn clear sky at TOA" ; SWdnTOAclr:_FillValue = 9.96921e+36f ; SWdnTOAclr:long_name = "SWdn clear sky at TOA" ; SWdnTOAclr:online_operation = "ave(X)" ; SWdnTOAclr:interval_operation = 1800.f ; SWdnTOAclr:interval_write = 86400.f ; SWdnTOAclr:coordinates = "time_counter lat lon" ; float nettop(time_counter, lat, lon) ; nettop:units = "W/m2" ; nettop:standard_name = "Net dn radiatif flux at TOA" ; nettop:_FillValue = 9.96921e+36f ; nettop:long_name = "Net dn radiatif flux at TOA" ; nettop:online_operation = "ave(X)" ; nettop:interval_operation = 1800.f ; nettop:interval_write = 86400.f ; nettop:coordinates = "time_counter lat lon" ; float SWup200clr(time_counter, lat, lon) ; SWup200clr:units = "W/m2" ; SWup200clr:standard_name = "SWup clear sky at 200mb" ; SWup200clr:_FillValue = 9.96921e+36f ; SWup200clr:long_name = "SWup clear sky at 200mb" ; SWup200clr:online_operation = "ave(X)" ; SWup200clr:interval_operation = 1800.f ; SWup200clr:interval_write = 86400.f ; SWup200clr:coordinates = "time_counter lat lon" ; float SWdn200clr(time_counter, lat, lon) ; SWdn200clr:units = "W/m2" ; SWdn200clr:standard_name = "SWdn clear sky at 200mb" ; SWdn200clr:_FillValue = 9.96921e+36f ; SWdn200clr:long_name = "SWdn clear sky at 200mb" ; SWdn200clr:online_operation = "ave(X)" ; SWdn200clr:interval_operation = 1800.f ; SWdn200clr:interval_write = 86400.f ; SWdn200clr:coordinates = "time_counter lat lon" ; float sols(time_counter, lat, lon) ; sols:units = "W/m2" ; sols:standard_name = "Solar rad. at surf." ; sols:_FillValue = 9.96921e+36f ; sols:long_name = "Solar rad. at surf." ; sols:online_operation = "ave(X)" ; sols:interval_operation = 1800.f ; sols:interval_write = 86400.f ; sols:coordinates = "time_counter lat lon" ; float sols0(time_counter, lat, lon) ; sols0:units = "W/m2" ; sols0:standard_name = "Solar rad. at surf." ; sols0:_FillValue = 9.96921e+36f ; sols0:long_name = "Solar rad. at surf." ; sols0:online_operation = "ave(X)" ; sols0:interval_operation = 1800.f ; sols0:interval_write = 86400.f ; sols0:coordinates = "time_counter lat lon" ; float soll(time_counter, lat, lon) ; soll:units = "W/m2" ; soll:standard_name = "IR rad. at surface" ; soll:_FillValue = 9.96921e+36f ; soll:long_name = "IR rad. at surface" ; soll:online_operation = "ave(X)" ; soll:interval_operation = 1800.f ; soll:interval_write = 86400.f ; soll:coordinates = "time_counter lat lon" ; float soll0(time_counter, lat, lon) ; soll0:units = "W/m2" ; soll0:standard_name = "IR rad. at surface" ; soll0:_FillValue = 9.96921e+36f ; soll0:long_name = "IR rad. at surface" ; soll0:online_operation = "ave(X)" ; soll0:interval_operation = 1800.f ; soll0:interval_write = 86400.f ; soll0:coordinates = "time_counter lat lon" ; float SWupSFC(time_counter, lat, lon) ; SWupSFC:units = "W/m2" ; SWupSFC:standard_name = "SWup at surface" ; SWupSFC:_FillValue = 9.96921e+36f ; SWupSFC:long_name = "SWup at surface" ; SWupSFC:online_operation = "ave(X)" ; SWupSFC:interval_operation = 1800.f ; SWupSFC:interval_write = 86400.f ; SWupSFC:coordinates = "time_counter lat lon" ; float SWupSFCclr(time_counter, lat, lon) ; SWupSFCclr:units = "W/m2" ; SWupSFCclr:standard_name = "SWup clear sky at surface" ; SWupSFCclr:_FillValue = 9.96921e+36f ; SWupSFCclr:long_name = "SWup clear sky at surface" ; SWupSFCclr:online_operation = "ave(X)" ; SWupSFCclr:interval_operation = 1800.f ; SWupSFCclr:interval_write = 86400.f ; SWupSFCclr:coordinates = "time_counter lat lon" ; float SWdnSFC(time_counter, lat, lon) ; SWdnSFC:units = "W/m2" ; SWdnSFC:standard_name = "SWdn at surface" ; SWdnSFC:_FillValue = 9.96921e+36f ; SWdnSFC:long_name = "SWdn at surface" ; SWdnSFC:online_operation = "ave(X)" ; SWdnSFC:interval_operation = 1800.f ; SWdnSFC:interval_write = 86400.f ; SWdnSFC:coordinates = "time_counter lat lon" ; float SWdnSFCclr(time_counter, lat, lon) ; SWdnSFCclr:units = "W/m2" ; SWdnSFCclr:standard_name = "SWdn clear sky at surface" ; SWdnSFCclr:_FillValue = 9.96921e+36f ; SWdnSFCclr:long_name = "SWdn clear sky at surface" ; SWdnSFCclr:online_operation = "ave(X)" ; SWdnSFCclr:interval_operation = 1800.f ; SWdnSFCclr:interval_write = 86400.f ; SWdnSFCclr:coordinates = "time_counter lat lon" ; float LWupSFC(time_counter, lat, lon) ; LWupSFC:units = "W/m2" ; LWupSFC:standard_name = "Upwd. IR rad. at surface" ; LWupSFC:_FillValue = 9.96921e+36f ; LWupSFC:long_name = "Upwd. IR rad. at surface" ; LWupSFC:online_operation = "ave(X)" ; LWupSFC:interval_operation = 1800.f ; LWupSFC:interval_write = 86400.f ; LWupSFC:coordinates = "time_counter lat lon" ; float LWdnSFC(time_counter, lat, lon) ; LWdnSFC:units = "W/m2" ; LWdnSFC:standard_name = "Down. IR rad. at surface" ; LWdnSFC:_FillValue = 9.96921e+36f ; LWdnSFC:long_name = "Down. IR rad. at surface" ; LWdnSFC:online_operation = "ave(X)" ; LWdnSFC:interval_operation = 1800.f ; LWdnSFC:interval_write = 86400.f ; LWdnSFC:coordinates = "time_counter lat lon" ; float LWupSFCclr(time_counter, lat, lon) ; LWupSFCclr:units = "W/m2" ; LWupSFCclr:standard_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:_FillValue = 9.96921e+36f ; LWupSFCclr:long_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:online_operation = "ave(X)" ; LWupSFCclr:interval_operation = 1800.f ; LWupSFCclr:interval_write = 86400.f ; LWupSFCclr:coordinates = "time_counter lat lon" ; float LWdnSFCclr(time_counter, lat, lon) ; LWdnSFCclr:units = "W/m2" ; LWdnSFCclr:standard_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:_FillValue = 9.96921e+36f ; LWdnSFCclr:long_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:online_operation = "ave(X)" ; LWdnSFCclr:interval_operation = 1800.f ; LWdnSFCclr:interval_write = 86400.f ; LWdnSFCclr:coordinates = "time_counter lat lon" ; float bils(time_counter, lat, lon) ; bils:units = "W/m2" ; bils:standard_name = "Surf. total heat flux" ; bils:_FillValue = 9.96921e+36f ; bils:long_name = "Surf. total heat flux" ; bils:online_operation = "ave(X)" ; bils:interval_operation = 1800.f ; bils:interval_write = 86400.f ; bils:coordinates = "time_counter lat lon" ; float sens(time_counter, lat, lon) ; sens:units = "W/m2" ; sens:standard_name = "Sensible heat flux" ; sens:_FillValue = 9.96921e+36f ; sens:long_name = "Sensible heat flux" ; sens:online_operation = "ave(X)" ; sens:interval_operation = 1800.f ; sens:interval_write = 86400.f ; sens:coordinates = "time_counter lat lon" ; float fder(time_counter, lat, lon) ; fder:units = "W/m2" ; fder:standard_name = "Heat flux derivation" ; fder:_FillValue = 9.96921e+36f ; fder:long_name = "Heat flux derivation" ; fder:online_operation = "ave(X)" ; fder:interval_operation = 1800.f ; fder:interval_write = 86400.f ; fder:coordinates = "time_counter lat lon" ; float cldl(time_counter, lat, lon) ; cldl:units = "-" ; cldl:standard_name = "Low-level cloudiness" ; cldl:_FillValue = 9.96921e+36f ; cldl:long_name = "Low-level cloudiness" ; cldl:online_operation = "ave(X)" ; cldl:interval_operation = 1800.f ; cldl:interval_write = 86400.f ; cldl:coordinates = "time_counter lat lon" ; float cldm(time_counter, lat, lon) ; cldm:units = "-" ; cldm:standard_name = "Mid-level cloudiness" ; cldm:_FillValue = 9.96921e+36f ; cldm:long_name = "Mid-level cloudiness" ; cldm:online_operation = "ave(X)" ; cldm:interval_operation = 1800.f ; cldm:interval_write = 86400.f ; cldm:coordinates = "time_counter lat lon" ; float cldh(time_counter, lat, lon) ; cldh:units = "-" ; cldh:standard_name = "High-level cloudiness" ; cldh:_FillValue = 9.96921e+36f ; cldh:long_name = "High-level cloudiness" ; cldh:online_operation = "ave(X)" ; cldh:interval_operation = 1800.f ; cldh:interval_write = 86400.f ; cldh:coordinates = "time_counter lat lon" ; float cldt(time_counter, lat, lon) ; cldt:units = "-" ; cldt:standard_name = "Total cloudiness" ; cldt:_FillValue = 9.96921e+36f ; cldt:long_name = "Total cloudiness" ; cldt:online_operation = "ave(X)" ; cldt:interval_operation = 1800.f ; cldt:interval_write = 86400.f ; cldt:coordinates = "time_counter lat lon" ; float cldq(time_counter, lat, lon) ; cldq:units = "kg/m2" ; cldq:standard_name = "Cloud liquid water path" ; cldq:_FillValue = 9.96921e+36f ; cldq:long_name = "Cloud liquid water path" ; cldq:online_operation = "ave(X)" ; cldq:interval_operation = 1800.f ; cldq:interval_write = 86400.f ; cldq:coordinates = "time_counter lat lon" ; float lwp(time_counter, lat, lon) ; lwp:units = "kg/m2" ; lwp:standard_name = "Cloud water path" ; lwp:_FillValue = 9.96921e+36f ; lwp:long_name = "Cloud water path" ; lwp:online_operation = "ave(X)" ; lwp:interval_operation = 1800.f ; lwp:interval_write = 86400.f ; lwp:coordinates = "time_counter lat lon" ; float iwp(time_counter, lat, lon) ; iwp:units = "kg/m2" ; iwp:standard_name = "Cloud ice water path" ; iwp:_FillValue = 9.96921e+36f ; iwp:long_name = "Cloud ice water path" ; iwp:online_operation = "ave(X)" ; iwp:interval_operation = 1800.f ; iwp:interval_write = 86400.f ; iwp:coordinates = "time_counter lat lon" ; float pbase(time_counter, lat, lon) ; pbase:units = "Pa" ; pbase:standard_name = "Cld base pressure" ; pbase:_FillValue = 9.96921e+36f ; pbase:long_name = "Cld base pressure" ; pbase:online_operation = "ave(X)" ; pbase:interval_operation = 1800.f ; pbase:interval_write = 86400.f ; pbase:coordinates = "time_counter lat lon" ; float ptop(time_counter, lat, lon) ; ptop:units = "Pa" ; ptop:standard_name = "Cld top pressure" ; ptop:_FillValue = 9.96921e+36f ; ptop:long_name = "Cld top pressure" ; ptop:online_operation = "ave(X)" ; ptop:interval_operation = 1800.f ; ptop:interval_write = 86400.f ; ptop:coordinates = "time_counter lat lon" ; float prw(time_counter, lat, lon) ; prw:units = "kg/m2" ; prw:standard_name = "Precipitable water" ; prw:_FillValue = 9.96921e+36f ; prw:long_name = "Precipitable water" ; prw:online_operation = "ave(X)" ; prw:interval_operation = 1800.f ; prw:interval_write = 86400.f ; prw:coordinates = "time_counter lat lon" ; float cape_max(time_counter, lat, lon) ; cape_max:units = "J/kg" ; cape_max:standard_name = "CAPE max." ; cape_max:_FillValue = 9.96921e+36f ; cape_max:long_name = "CAPE max." ; cape_max:online_operation = "t_max(X)" ; cape_max:interval_operation = 1800.f ; cape_max:interval_write = 86400.f ; cape_max:coordinates = "time_counter lat lon" ; float mc(time_counter, presnivs, lat, lon) ; mc:units = "kg/m2/s" ; mc:standard_name = "Convective mass flux" ; mc:_FillValue = 9.96921e+36f ; mc:long_name = "Convective mass flux" ; mc:online_operation = "ave(X)" ; mc:interval_operation = 1800.f ; mc:interval_write = 86400.f ; mc:coordinates = "time_counter presnivs lat lon" ; float weakinv(time_counter, lat, lon) ; weakinv:units = "-" ; weakinv:standard_name = "Weak inversion" ; weakinv:_FillValue = 9.96921e+36f ; weakinv:long_name = "Weak inversion" ; weakinv:online_operation = "ave(X)" ; weakinv:interval_operation = 1800.f ; weakinv:interval_write = 86400.f ; weakinv:coordinates = "time_counter lat lon" ; float dthmin(time_counter, lat, lon) ; dthmin:units = "K/m" ; dthmin:standard_name = "dTheta mini" ; dthmin:_FillValue = 9.96921e+36f ; dthmin:long_name = "dTheta mini" ; dthmin:online_operation = "ave(X)" ; dthmin:interval_operation = 1800.f ; dthmin:interval_write = 86400.f ; dthmin:coordinates = "time_counter lat lon" ; float rh2m(time_counter, lat, lon) ; rh2m:units = "%" ; rh2m:standard_name = "Relative humidity at 2m" ; rh2m:_FillValue = 9.96921e+36f ; rh2m:long_name = "Relative humidity at 2m" ; rh2m:online_operation = "ave(X)" ; rh2m:interval_operation = 1800.f ; rh2m:interval_write = 86400.f ; rh2m:coordinates = "time_counter lat lon" ; float rh2m_min(time_counter, lat, lon) ; rh2m_min:units = "%" ; rh2m_min:standard_name = "Min Relative humidity at 2m" ; rh2m_min:_FillValue = 9.96921e+36f ; rh2m_min:long_name = "Min Relative humidity at 2m" ; rh2m_min:online_operation = "t_min(X)" ; rh2m_min:interval_operation = 1800.f ; rh2m_min:interval_write = 86400.f ; rh2m_min:coordinates = "time_counter lat lon" ; float rh2m_max(time_counter, lat, lon) ; rh2m_max:units = "%" ; rh2m_max:standard_name = "Max Relative humidity at 2m" ; rh2m_max:_FillValue = 9.96921e+36f ; rh2m_max:long_name = "Max Relative humidity at 2m" ; rh2m_max:online_operation = "t_max(X)" ; rh2m_max:interval_operation = 1800.f ; rh2m_max:interval_write = 86400.f ; rh2m_max:coordinates = "time_counter lat lon" ; float qsat2m(time_counter, lat, lon) ; qsat2m:units = "%" ; qsat2m:standard_name = "Saturant humidity at 2m" ; qsat2m:_FillValue = 9.96921e+36f ; qsat2m:long_name = "Saturant humidity at 2m" ; qsat2m:online_operation = "ave(X)" ; qsat2m:interval_operation = 1800.f ; qsat2m:interval_write = 86400.f ; qsat2m:coordinates = "time_counter lat lon" ; float tpot(time_counter, lat, lon) ; tpot:units = "K" ; tpot:standard_name = "Surface air potential temperature" ; tpot:_FillValue = 9.96921e+36f ; tpot:long_name = "Surface air potential temperature" ; tpot:online_operation = "ave(X)" ; tpot:interval_operation = 1800.f ; tpot:interval_write = 86400.f ; tpot:coordinates = "time_counter lat lon" ; float tpote(time_counter, lat, lon) ; tpote:units = "K" ; tpote:standard_name = "Surface air equivalent potential temperature" ; tpote:_FillValue = 9.96921e+36f ; tpote:long_name = "Surface air equivalent potential temperature" ; tpote:online_operation = "ave(X)" ; tpote:interval_operation = 1800.f ; tpote:interval_write = 86400.f ; tpote:coordinates = "time_counter lat lon" ; float snowl(time_counter, lat, lon) ; snowl:units = "kg/(m2*s)" ; snowl:standard_name = "Solid Large-scale Precip." ; snowl:_FillValue = 9.96921e+36f ; snowl:long_name = "Solid Large-scale Precip." ; snowl:online_operation = "ave(X)" ; snowl:interval_operation = 1800.f ; snowl:interval_write = 86400.f ; snowl:coordinates = "time_counter lat lon" ; float solldown(time_counter, lat, lon) ; solldown:units = "W/m2" ; solldown:standard_name = "Down. IR rad. at surface" ; solldown:_FillValue = 9.96921e+36f ; solldown:long_name = "Down. IR rad. at surface" ; solldown:online_operation = "ave(X)" ; solldown:interval_operation = 1800.f ; solldown:interval_write = 86400.f ; solldown:coordinates = "time_counter lat lon" ; float lwcon(time_counter, presnivs, lat, lon) ; lwcon:units = "kg/kg" ; lwcon:standard_name = "Cloud liquid water content" ; lwcon:_FillValue = 9.96921e+36f ; lwcon:long_name = "Cloud liquid water content" ; lwcon:online_operation = "ave(X)" ; lwcon:interval_operation = 1800.f ; lwcon:interval_write = 86400.f ; lwcon:coordinates = "time_counter presnivs lat lon" ; float iwcon(time_counter, presnivs, lat, lon) ; iwcon:units = "kg/kg" ; iwcon:standard_name = "Cloud ice water content" ; iwcon:_FillValue = 9.96921e+36f ; iwcon:long_name = "Cloud ice water content" ; iwcon:online_operation = "ave(X)" ; iwcon:interval_operation = 1800.f ; iwcon:interval_write = 86400.f ; iwcon:coordinates = "time_counter presnivs lat lon" ; float temp(time_counter, presnivs, lat, lon) ; temp:units = "K" ; temp:standard_name = "Air temperature" ; temp:_FillValue = 9.96921e+36f ; temp:long_name = "Air temperature" ; temp:online_operation = "ave(X)" ; temp:interval_operation = 1800.f ; temp:interval_write = 86400.f ; temp:coordinates = "time_counter presnivs lat lon" ; float theta(time_counter, presnivs, lat, lon) ; theta:units = "K" ; theta:standard_name = "Potential air temperature" ; theta:_FillValue = 9.96921e+36f ; theta:long_name = "Potential air temperature" ; theta:online_operation = "ave(X)" ; theta:interval_operation = 1800.f ; theta:interval_write = 86400.f ; theta:coordinates = "time_counter presnivs lat lon" ; float ovap(time_counter, presnivs, lat, lon) ; ovap:units = "kg/kg" ; ovap:standard_name = "Specific humidity" ; ovap:_FillValue = 9.96921e+36f ; ovap:long_name = "Specific humidity" ; ovap:online_operation = "ave(X)" ; ovap:interval_operation = 1800.f ; ovap:interval_write = 86400.f ; ovap:coordinates = "time_counter presnivs lat lon" ; float geop(time_counter, presnivs, lat, lon) ; geop:units = "m2/s2" ; geop:standard_name = "Geopotential height" ; geop:_FillValue = 9.96921e+36f ; geop:long_name = "Geopotential height" ; geop:online_operation = "ave(X)" ; geop:interval_operation = 1800.f ; geop:interval_write = 86400.f ; geop:coordinates = "time_counter presnivs lat lon" ; float vitu(time_counter, presnivs, lat, lon) ; vitu:units = "m/s" ; vitu:standard_name = "Zonal wind" ; vitu:_FillValue = 9.96921e+36f ; vitu:long_name = "Zonal wind" ; vitu:online_operation = "ave(X)" ; vitu:interval_operation = 1800.f ; vitu:interval_write = 86400.f ; vitu:coordinates = "time_counter presnivs lat lon" ; float vitv(time_counter, presnivs, lat, lon) ; vitv:units = "m/s" ; vitv:standard_name = "Meridional wind" ; vitv:_FillValue = 9.96921e+36f ; vitv:long_name = "Meridional wind" ; vitv:online_operation = "ave(X)" ; vitv:interval_operation = 1800.f ; vitv:interval_write = 86400.f ; vitv:coordinates = "time_counter presnivs lat lon" ; float vitw(time_counter, presnivs, lat, lon) ; vitw:units = "Pa/s" ; vitw:standard_name = "Vertical wind" ; vitw:_FillValue = 9.96921e+36f ; vitw:long_name = "Vertical wind" ; vitw:online_operation = "ave(X)" ; vitw:interval_operation = 1800.f ; vitw:interval_write = 86400.f ; vitw:coordinates = "time_counter presnivs lat lon" ; float pres(time_counter, presnivs, lat, lon) ; pres:units = "Pa" ; pres:standard_name = "Air pressure" ; pres:_FillValue = 9.96921e+36f ; pres:long_name = "Air pressure" ; pres:online_operation = "ave(X)" ; pres:interval_operation = 1800.f ; pres:interval_write = 86400.f ; pres:coordinates = "time_counter presnivs lat lon" ; float paprs(time_counter, presnivs, lat, lon) ; paprs:units = "Pa" ; paprs:standard_name = "Air pressure Inter-Couches" ; paprs:_FillValue = 9.96921e+36f ; paprs:long_name = "Air pressure Inter-Couches" ; paprs:online_operation = "ave(X)" ; paprs:interval_operation = 1800.f ; paprs:interval_write = 86400.f ; paprs:coordinates = "time_counter presnivs lat lon" ; float rneb(time_counter, presnivs, lat, lon) ; rneb:units = "-" ; rneb:standard_name = "Cloud fraction" ; rneb:_FillValue = 9.96921e+36f ; rneb:long_name = "Cloud fraction" ; rneb:online_operation = "ave(X)" ; rneb:interval_operation = 1800.f ; rneb:interval_write = 86400.f ; rneb:coordinates = "time_counter presnivs lat lon" ; float rnebcon(time_counter, presnivs, lat, lon) ; rnebcon:units = "-" ; rnebcon:standard_name = "Convective Cloud Fraction" ; rnebcon:_FillValue = 9.96921e+36f ; rnebcon:long_name = "Convective Cloud Fraction" ; rnebcon:online_operation = "ave(X)" ; rnebcon:interval_operation = 1800.f ; rnebcon:interval_write = 86400.f ; rnebcon:coordinates = "time_counter presnivs lat lon" ; float rhum(time_counter, presnivs, lat, lon) ; rhum:units = "-" ; rhum:standard_name = "Relative humidity" ; rhum:_FillValue = 9.96921e+36f ; rhum:long_name = "Relative humidity" ; rhum:online_operation = "ave(X)" ; rhum:interval_operation = 1800.f ; rhum:interval_write = 86400.f ; rhum:coordinates = "time_counter presnivs lat lon" ; float cldtau(time_counter, presnivs, lat, lon) ; cldtau:units = "1" ; cldtau:standard_name = "Cloud optical thickness" ; cldtau:_FillValue = 9.96921e+36f ; cldtau:long_name = "Cloud optical thickness" ; cldtau:online_operation = "ave(X)" ; cldtau:interval_operation = 1800.f ; cldtau:interval_write = 86400.f ; cldtau:coordinates = "time_counter presnivs lat lon" ; float cldemi(time_counter, presnivs, lat, lon) ; cldemi:units = "1" ; cldemi:standard_name = "Cloud optical emissivity" ; cldemi:_FillValue = 9.96921e+36f ; cldemi:long_name = "Cloud optical emissivity" ; cldemi:online_operation = "ave(X)" ; cldemi:interval_operation = 1800.f ; cldemi:interval_write = 86400.f ; cldemi:coordinates = "time_counter presnivs lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histday.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/DA/v2.historical1_19800101_19800131_1D_histdayNMC.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_histdayNMC { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; plev = 8 ; time_counter = UNLIMITED ; // (31 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float plev(plev) ; plev:axis = "Z" ; plev:standard_name = "model_level_number" ; plev:units = "Pa" ; plev:positive = "down" ; plev:valid_min = 1000.f ; plev:valid_max = 100000.f ; plev:title = "plev" ; plev:long_name = "pressure" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float tnondef(time_counter, plev, lat, lon) ; tnondef:units = "-" ; tnondef:standard_name = "Valeurs non-definies" ; tnondef:_FillValue = 9.96921e+36f ; tnondef:long_name = "Valeurs non-definies" ; tnondef:online_operation = "ave(X)" ; tnondef:interval_operation = 86400.f ; tnondef:interval_write = 86400.f ; tnondef:coordinates = "time_counter plev lat lon" ; float ta(time_counter, plev, lat, lon) ; ta:units = "K" ; ta:standard_name = "Air temperature" ; ta:_FillValue = 9.96921e+36f ; ta:long_name = "Air temperature" ; ta:online_operation = "ave(X)" ; ta:interval_operation = 86400.f ; ta:interval_write = 86400.f ; ta:coordinates = "time_counter plev lat lon" ; float zg(time_counter, plev, lat, lon) ; zg:units = "m" ; zg:standard_name = "Geopotential height" ; zg:_FillValue = 9.96921e+36f ; zg:long_name = "Geopotential height" ; zg:online_operation = "ave(X)" ; zg:interval_operation = 86400.f ; zg:interval_write = 86400.f ; zg:coordinates = "time_counter plev lat lon" ; float hus(time_counter, plev, lat, lon) ; hus:units = "1" ; hus:standard_name = "Specific humidity" ; hus:_FillValue = 9.96921e+36f ; hus:long_name = "Specific humidity" ; hus:online_operation = "ave(X)" ; hus:interval_operation = 86400.f ; hus:interval_write = 86400.f ; hus:coordinates = "time_counter plev lat lon" ; float hur(time_counter, plev, lat, lon) ; hur:units = "%" ; hur:standard_name = "Relative humidity" ; hur:_FillValue = 9.96921e+36f ; hur:long_name = "Relative humidity" ; hur:online_operation = "ave(X)" ; hur:interval_operation = 86400.f ; hur:interval_write = 86400.f ; hur:coordinates = "time_counter plev lat lon" ; float ua(time_counter, plev, lat, lon) ; ua:units = "m s-1" ; ua:standard_name = "Eastward wind" ; ua:_FillValue = 9.96921e+36f ; ua:long_name = "Eastward wind" ; ua:online_operation = "ave(X)" ; ua:interval_operation = 86400.f ; ua:interval_write = 86400.f ; ua:coordinates = "time_counter plev lat lon" ; float va(time_counter, plev, lat, lon) ; va:units = "m s-1" ; va:standard_name = "Northward wind" ; va:_FillValue = 9.96921e+36f ; va:long_name = "Northward wind" ; va:online_operation = "ave(X)" ; va:interval_operation = 86400.f ; va:interval_write = 86400.f ; va:coordinates = "time_counter plev lat lon" ; float wap(time_counter, plev, lat, lon) ; wap:units = "Pa s-1" ; wap:standard_name = "Lagrangian tendency of air pressure" ; wap:_FillValue = 9.96921e+36f ; wap:long_name = "Lagrangian tendency of air pressure" ; wap:online_operation = "ave(X)" ; wap:interval_operation = 86400.f ; wap:interval_write = 86400.f ; wap:coordinates = "time_counter plev lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histdayNMC.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == CPL/Output/DA/v2.historical1_19800101_19800131_1D_cpl_atm.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_cpl_atm { dimensions: C = 4 ; time = UNLIMITED ; // (31 currently) Y = 1 ; X = 9216 ; variables: float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double SIICEALW(time, Y, X) ; SIICEALW:long_name = "surface_albedo" ; SIICEALW:units = "1" ; SIICEALW:coordinates = "lon lat" ; float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; double SIICECOV(time, Y, X) ; SIICECOV:long_name = "sea_ice_area_fraction" ; SIICECOV:units = "1" ; SIICECOV:coordinates = "lon lat" ; double SIICTEMW(time, Y, X) ; SIICTEMW:long_name = "surface_temperature" ; SIICTEMW:units = "K" ; SIICTEMW:coordinates = "lon lat" ; double SISUTESW(time, Y, X) ; SISUTESW:long_name = "sea_surface_temperature" ; SISUTESW:units = "K" ; SISUTESW:coordinates = "lon lat" ; double COCALVIN(time, Y, X) ; COCALVIN:long_name = "water_flux_into_ocean_from_ice_sheet" ; COCALVIN:units = "kg m-2 s-1" ; COCALVIN:coordinates = "lon lat" ; double CODFLXDT(time, Y, X) ; CODFLXDT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; CODFLXDT:units = "W m-2" ; CODFLXDT:coordinates = "lon lat" ; double COICEVAP(time, Y, X) ; COICEVAP:long_name = "water_evaporation_flux_where_sea_ice" ; COICEVAP:units = "kg m-2 s-1" ; COICEVAP:coordinates = "lon lat" ; double COLIQRUN(time, Y, X) ; COLIQRUN:long_name = "water_flux_into_ocean_from_rivers" ; COLIQRUN:units = "kg m-2 s-1" ; COLIQRUN:coordinates = "lon lat" ; double CONSFICE(time, Y, X) ; CONSFICE:long_name = "surface_downward_non_shortwave_heat_flux" ; CONSFICE:units = "W m-2" ; CONSFICE:coordinates = "lon lat" ; double COQNSMIX(time, Y, X) ; COQNSMIX:long_name = "surface_downward_non_shortwave_heat_flux" ; COQNSMIX:units = "W m-2" ; COQNSMIX:coordinates = "lon lat" ; double COQSRMIX(time, Y, X) ; COQSRMIX:long_name = "surface_net_downward_shortwave_flux" ; COQSRMIX:units = "W m-2" ; COQSRMIX:coordinates = "lon lat" ; double COSHFICE(time, Y, X) ; COSHFICE:long_name = "surface_net_downward_shortwave_flux" ; COSHFICE:units = "W m-2" ; COSHFICE:coordinates = "lon lat" ; double COTAUXXU(time, Y, X) ; COTAUXXU:long_name = "surface_downward_grid_eastward_stress" ; COTAUXXU:units = "Pa" ; COTAUXXU:coordinates = "lon lat" ; double COTAUXXV(time, Y, X) ; COTAUXXV:long_name = "surface_downward_grid_northward_stress" ; COTAUXXV:units = "Pa" ; COTAUXXV:coordinates = "lon lat" ; double COTAUYYU(time, Y, X) ; COTAUYYU:long_name = "surface_downward_grid_eastward_stress" ; COTAUYYU:units = "Pa" ; COTAUYYU:coordinates = "lon lat" ; double COTAUYYV(time, Y, X) ; COTAUYYV:long_name = "surface_downward_grid_northward_stress" ; COTAUYYV:units = "Pa" ; COTAUYYV:coordinates = "lon lat" ; double COTAUZZU(time, Y, X) ; COTAUZZU:long_name = "surface_downward_grid_eastward_stress" ; COTAUZZU:units = "Pa" ; COTAUZZU:coordinates = "lon lat" ; double COTAUZZV(time, Y, X) ; COTAUZZV:long_name = "surface_downward_grid_northward_stress" ; COTAUZZV:units = "Pa" ; COTAUZZV:coordinates = "lon lat" ; double COTOTEVA(time, Y, X) ; COTOTEVA:long_name = "water_evaporation_flux" ; COTOTEVA:units = "1" ; COTOTEVA:coordinates = "lon lat" ; double COTOTRAI(time, Y, X) ; COTOTRAI:long_name = "surface_precipitation_flux" ; COTOTRAI:units = "kg m-2 s-1" ; COTOTRAI:coordinates = "lon lat" ; double COTOTSNO(time, Y, X) ; COTOTSNO:long_name = "snow_fall_flux" ; COTOTSNO:units = "kg m-2 s-1" ; COTOTSNO:coordinates = "lon lat" ; double COWINDSP(time, Y, X) ; COWINDSP:long_name = "wind_speed_at_10m" ; COWINDSP:units = "m s-1" ; COWINDSP:coordinates = "lon lat" ; double CURRENTX(time, Y, X) ; CURRENTX:long_name = "sea_water_speed" ; CURRENTX:units = "m s-1" ; CURRENTX:coordinates = "lon lat" ; double CURRENTY(time, Y, X) ; CURRENTY:long_name = "sea_water_speed" ; CURRENTY:units = "m s-1" ; CURRENTY:coordinates = "lon lat" ; double CURRENTZ(time, Y, X) ; CURRENTZ:long_name = "sea_water_speed" ; CURRENTZ:units = "m s-1" ; CURRENTZ:coordinates = "lon lat" ; // global attributes: :filename = "CURRENTZ_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:20:33 2010: ncks -A CURRENTZ_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:32 2010: ncks -A CURRENTY_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:30 2010: ncks -A CURRENTX_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:29 2010: ncks -A COWINDSP_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:28 2010: ncks -A COTOTSNO_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:27 2010: ncks -A COTOTRAI_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:27 2010: ncks -A COTOTEVA_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:26 2010: ncks -A COTAUZZV_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:25 2010: ncks -A COTAUZZU_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:24 2010: ncks -A COTAUYYV_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:23 2010: ncks -A COTAUYYU_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:23 2010: ncks -A COTAUXXV_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:21 2010: ncks -A COTAUXXU_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:20 2010: ncks -A COSHFICE_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:20 2010: ncks -A COQSRMIX_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:19 2010: ncks -A COQNSMIX_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncks -A CONSFICE_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:18 2010: ncks -A COLIQRUN_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:17 2010: ncks -A COICEVAP_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:17 2010: ncks -A CODFLXDT_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:16 2010: ncks -A COCALVIN_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:15 2010: ncks -A SISUTESW_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncks -A SIICTEMW_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncks -A SIICECOV_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc\n", "Mon Oct 25 01:20:14 2010: ncks -A SIICEALW_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_atm.nc" ; :NCO = "4.0.1" ; } }}} == CPL/Output/DA/v2.historical1_19800101_19800131_1D_cpl_oce.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_cpl_oce { dimensions: C = 4 ; time = UNLIMITED ; // (31 currently) Y = 149 ; X = 182 ; variables: float C(C) ; C:long_name = "global index space for c" ; C:units = "1" ; double OCalving(time, Y, X) ; OCalving:long_name = "water_flux_into_ocean_from_ice_sheet" ; OCalving:units = "kg m-2 s-1" ; OCalving:coordinates = "lon lat" ; float X(X) ; X:long_name = "global index space for x" ; X:units = "1" ; float Y(Y) ; Y:long_name = "global index space for y" ; Y:units = "1" ; float bounds_lat(Y, X, C) ; bounds_lat:long_name = "corner latitudes" ; bounds_lat:units = "degrees_north" ; float bounds_lon(Y, X, C) ; bounds_lon:long_name = "corner longitudes" ; bounds_lon:units = "degrees_east" ; float lat(Y, X) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:bounds = "bounds_lat" ; float lon(Y, X) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:bounds = "bounds_lon" ; double time(time) ; time:long_name = "Time" ; time:units = "second since 1980-01-01 00:00:00" ; double OIceEvap(time, Y, X) ; OIceEvap:long_name = "water_evaporation_flux_where_sea_ice" ; OIceEvap:units = "kg m-2 s-1" ; OIceEvap:coordinates = "lon lat" ; double OIceFrac(time, Y, X) ; OIceFrac:long_name = "sea_ice_area_fraction" ; OIceFrac:units = "1" ; OIceFrac:coordinates = "lon lat" ; double OTotEvap(time, Y, X) ; OTotEvap:long_name = "water_evaporation_flux" ; OTotEvap:units = "1" ; OTotEvap:coordinates = "lon lat" ; double OTotRain(time, Y, X) ; OTotRain:long_name = "surface_precipitation_flux" ; OTotRain:units = "kg m-2 s-1" ; OTotRain:coordinates = "lon lat" ; double OTotSnow(time, Y, X) ; OTotSnow:long_name = "snow_fall_flux" ; OTotSnow:units = "kg m-2 s-1" ; OTotSnow:coordinates = "lon lat" ; double O_AlbIce(time, Y, X) ; O_AlbIce:long_name = "surface_albedo" ; O_AlbIce:units = "1" ; O_AlbIce:coordinates = "lon lat" ; double O_OCurx1(time, Y, X) ; O_OCurx1:long_name = "sea_water_speed" ; O_OCurx1:units = "m s-1" ; O_OCurx1:coordinates = "lon lat" ; double O_OCury1(time, Y, X) ; O_OCury1:long_name = "sea_water_speed" ; O_OCury1:units = "m s-1" ; O_OCury1:coordinates = "lon lat" ; double O_OCurz1(time, Y, X) ; O_OCurz1:long_name = "sea_water_speed" ; O_OCurz1:units = "m s-1" ; O_OCurz1:coordinates = "lon lat" ; double O_OTaux1(time, Y, X) ; O_OTaux1:long_name = "surface_downward_grid_eastward_stress" ; O_OTaux1:units = "Pa" ; O_OTaux1:coordinates = "lon lat" ; double O_OTaux2(time, Y, X) ; O_OTaux2:long_name = "surface_downward_grid_northward_stress" ; O_OTaux2:units = "Pa" ; O_OTaux2:coordinates = "lon lat" ; double O_OTauy1(time, Y, X) ; O_OTauy1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauy1:units = "Pa" ; O_OTauy1:coordinates = "lon lat" ; double O_OTauy2(time, Y, X) ; O_OTauy2:long_name = "surface_downward_grid_northward_stress" ; O_OTauy2:units = "Pa" ; O_OTauy2:coordinates = "lon lat" ; double O_OTauz1(time, Y, X) ; O_OTauz1:long_name = "surface_downward_grid_eastward_stress" ; O_OTauz1:units = "Pa" ; O_OTauz1:coordinates = "lon lat" ; double O_OTauz2(time, Y, X) ; O_OTauz2:long_name = "surface_downward_grid_northward_stress" ; O_OTauz2:units = "Pa" ; O_OTauz2:coordinates = "lon lat" ; double O_QnsIce(time, Y, X) ; O_QnsIce:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsIce:units = "W m-2" ; O_QnsIce:coordinates = "lon lat" ; double O_QnsMix(time, Y, X) ; O_QnsMix:long_name = "surface_downward_non_shortwave_heat_flux" ; O_QnsMix:units = "W m-2" ; O_QnsMix:coordinates = "lon lat" ; double O_QsrIce(time, Y, X) ; O_QsrIce:long_name = "surface_net_downward_shortwave_flux" ; O_QsrIce:units = "W m-2" ; O_QsrIce:coordinates = "lon lat" ; double O_QsrMix(time, Y, X) ; O_QsrMix:long_name = "surface_net_downward_shortwave_flux" ; O_QsrMix:units = "W m-2" ; O_QsrMix:coordinates = "lon lat" ; double O_Runoff(time, Y, X) ; O_Runoff:long_name = "water_flux_into_ocean_from_rivers" ; O_Runoff:units = "kg m-2 s-1" ; O_Runoff:coordinates = "lon lat" ; double O_SSTSST(time, Y, X) ; O_SSTSST:long_name = "sea_surface_temperature" ; O_SSTSST:units = "K" ; O_SSTSST:coordinates = "lon lat" ; double O_TepIce(time, Y, X) ; O_TepIce:long_name = "surface_temperature" ; O_TepIce:units = "K" ; O_TepIce:coordinates = "lon lat" ; double O_Wind10(time, Y, X) ; O_Wind10:long_name = "wind_speed_at_10m" ; O_Wind10:units = "m s-1" ; O_Wind10:coordinates = "lon lat" ; double O_dQnsdT(time, Y, X) ; O_dQnsdT:long_name = "surface_downward_non_shortwave_heat_flux_derivative" ; O_dQnsdT:units = "W m-2" ; O_dQnsdT:coordinates = "lon lat" ; // global attributes: :filename = "O_dQnsdT_out.1980-01-01T00:00:00.nc" ; :MPP_IO_VERSION = "$Id: mpp_io_mod.F90,v 1.1.1.1 2005/03/23 16:01:11 adm Exp $" ; :Conventions = "CF-1.0" ; :history = "Mon Oct 25 01:21:13 2010: ncks -A O_dQnsdT_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:21:10 2010: ncks -A O_Wind10_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:21:08 2010: ncks -A O_TepIce_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:21:04 2010: ncks -A O_SSTSST_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:21:02 2010: ncks -A O_Runoff_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:59 2010: ncks -A O_QsrMix_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:57 2010: ncks -A O_QsrIce_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:55 2010: ncks -A O_QnsMix_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:53 2010: ncks -A O_QnsIce_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:52 2010: ncks -A O_OTauz2_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:50 2010: ncks -A O_OTauz1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:49 2010: ncks -A O_OTauy2_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:47 2010: ncks -A O_OTauy1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:46 2010: ncks -A O_OTaux2_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:45 2010: ncks -A O_OTaux1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:43 2010: ncks -A O_OCurz1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:42 2010: ncks -A O_OCury1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:41 2010: ncks -A O_OCurx1_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:39 2010: ncks -A O_AlbIce_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:38 2010: ncks -A OTotSnow_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:37 2010: ncks -A OTotRain_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:36 2010: ncks -A OTotEvap_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:35 2010: ncks -A OIceFrac_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:35 2010: ncks -A OIceEvap_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc\n", "Mon Oct 25 01:20:34 2010: ncks -A OCalving_out.1980-01-01T00:00:00.nc TEMPO_1D_cpl_oce.nc" ; :NCO = "4.0.1" ; } }}} == ICE/Output/DA/v2.historical1_19800101_19800131_1D_icemod.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_icemod { // format variant: 64bit dimensions: time_counter = UNLIMITED ; // (31 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float iicethic(time_counter, y, x) ; iicethic:units = "m" ; iicethic:standard_name = "sea_ice_thickness" ; iicethic:_FillValue = 9.96921e+36f ; iicethic:long_name = "sea_ice_thickness" ; iicethic:online_operation = "ave(X)" ; iicethic:interval_operation = 28800.f ; iicethic:interval_write = 86400.f ; iicethic:coordinates = "time_counter nav_lat nav_lon" ; float iicevelu(time_counter, y, x) ; iicevelu:units = "m/s" ; iicevelu:standard_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:_FillValue = 9.96921e+36f ; iicevelu:long_name = "Ice velocity along i-axis at I-point (ice presence average)" ; iicevelu:online_operation = "ave(X)" ; iicevelu:interval_operation = 28800.f ; iicevelu:interval_write = 86400.f ; iicevelu:coordinates = "time_counter nav_lat nav_lon" ; float iicevelv(time_counter, y, x) ; iicevelv:units = "m/s" ; iicevelv:standard_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:_FillValue = 9.96921e+36f ; iicevelv:long_name = "Ice velocity along j-axis at I-point (ice presence average)" ; iicevelv:online_operation = "ave(X)" ; iicevelv:interval_operation = 28800.f ; iicevelv:interval_write = 86400.f ; iicevelv:coordinates = "time_counter nav_lat nav_lon" ; float ileadfra(time_counter, y, x) ; ileadfra:units = "1" ; ileadfra:standard_name = "sea_ice_area_fraction" ; ileadfra:_FillValue = 9.96921e+36f ; ileadfra:long_name = "sea_ice_area_fraction" ; ileadfra:online_operation = "ave(X)" ; ileadfra:interval_operation = 28800.f ; ileadfra:interval_write = 86400.f ; ileadfra:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1d_icemod.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/DA/v2.historical1_19800101_19800131_1D_grid_T.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_grid_T { // format variant: 64bit dimensions: deptht = 31 ; time_counter = UNLIMITED ; // (31 currently) y = 149 ; x = 182 ; tbnds = 2 ; variables: float deptht(deptht) ; deptht:axis = "Z" ; deptht:standard_name = "model_level_number" ; deptht:units = "m" ; deptht:positive = "down" ; deptht:valid_min = 4.999938f ; deptht:valid_max = 5250.227f ; deptht:title = "deptht" ; deptht:long_name = "Vertical T levels" ; float omldamax(time_counter, y, x) ; omldamax:units = "m" ; omldamax:standard_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omldamax:_FillValue = 9.96921e+36f ; omldamax:long_name = "ocean_mixed_layer_thickness_defined_by_mixing_scheme" ; omldamax:online_operation = "t_max(X)" ; omldamax:interval_operation = 5760.f ; omldamax:interval_write = 86400.f ; omldamax:coordinates = "time_counter nav_lat nav_lon" ; float sosaline(time_counter, y, x) ; sosaline:units = "psu" ; sosaline:standard_name = "sea_surface_salinity" ; sosaline:_FillValue = 9.96921e+36f ; sosaline:long_name = "sea_surface_salinity" ; sosaline:online_operation = "ave(X)" ; sosaline:interval_operation = 5760.f ; sosaline:interval_write = 86400.f ; sosaline:coordinates = "time_counter nav_lat nav_lon" ; float sossheig(time_counter, y, x) ; sossheig:units = "m" ; sossheig:standard_name = "sea_surface_height_above_geoid" ; sossheig:_FillValue = 9.96921e+36f ; sossheig:long_name = "sea_surface_height_above_geoid" ; sossheig:online_operation = "ave(X)" ; sossheig:interval_operation = 5760.f ; sossheig:interval_write = 86400.f ; sossheig:coordinates = "time_counter nav_lat nav_lon" ; float sosstsst(time_counter, y, x) ; sosstsst:units = "degC" ; sosstsst:standard_name = "sea_surface_temperature" ; sosstsst:_FillValue = 9.96921e+36f ; sosstsst:long_name = "sea_surface_temperature" ; sosstsst:online_operation = "ave(X)" ; sosstsst:interval_operation = 5760.f ; sosstsst:interval_write = 86400.f ; sosstsst:coordinates = "time_counter nav_lat nav_lon" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float tossq(time_counter, y, x) ; tossq:units = "degC2" ; tossq:standard_name = "square_of_sea_surface_temperature" ; tossq:_FillValue = 9.96921e+36f ; tossq:long_name = "square_of_sea_surface_temperature" ; tossq:online_operation = "ave(X)" ; tossq:interval_operation = 5760.f ; tossq:interval_write = 86400.f ; tossq:coordinates = "time_counter nav_lat nav_lon" ; float vosaline(time_counter, deptht, y, x) ; vosaline:units = "psu" ; vosaline:standard_name = "sea_water_salinity" ; vosaline:_FillValue = 9.96921e+36f ; vosaline:long_name = "sea_water_salinity" ; vosaline:online_operation = "ave(X)" ; vosaline:interval_operation = 5760.f ; vosaline:interval_write = 86400.f ; vosaline:coordinates = "time_counter deptht nav_lat nav_lon" ; float votemper(time_counter, deptht, y, x) ; votemper:units = "degC" ; votemper:standard_name = "sea_water_potential_temperature" ; votemper:_FillValue = 9.96921e+36f ; votemper:long_name = "sea_water_potential_temperature" ; votemper:online_operation = "ave(X)" ; votemper:interval_operation = 5760.f ; votemper:interval_write = 86400.f ; votemper:coordinates = "time_counter deptht nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.6139f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7507f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1d_grid_T.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/DA/v2.historical1_19800101_19800131_1D_grid_U.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_grid_U { // format variant: 64bit dimensions: depthu = 31 ; time_counter = UNLIMITED ; // (31 currently) tbnds = 2 ; y = 149 ; x = 182 ; variables: float depthu(depthu) ; depthu:axis = "Z" ; depthu:standard_name = "model_level_number" ; depthu:units = "m" ; depthu:positive = "down" ; depthu:valid_min = 4.999938f ; depthu:valid_max = 5250.227f ; depthu:title = "depthu" ; depthu:long_name = "Vertical U levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float vozocrtx(time_counter, depthu, y, x) ; vozocrtx:units = "m/s" ; vozocrtx:standard_name = "sea_water_x_velocity" ; vozocrtx:_FillValue = 9.96921e+36f ; vozocrtx:long_name = "sea_water_x_velocity" ; vozocrtx:online_operation = "ave(X)" ; vozocrtx:interval_operation = 5760.f ; vozocrtx:interval_write = 86400.f ; vozocrtx:coordinates = "time_counter depthu nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -78.19058f ; nav_lat:valid_max = 89.97588f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -179.7534f ; nav_lon:valid_max = 179.4187f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1d_grid_U.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} == OCE/Output/DA/v2.historical1_19800101_19800131_1D_grid_V.nc == {{{ netcdf v2.historical1_19800101_19800131_1D_grid_V { // format variant: 64bit dimensions: depthv = 31 ; time_counter = UNLIMITED ; // (31 currently) tbnds = 2 ; y = 149 ; x = 182 ; variables: float depthv(depthv) ; depthv:axis = "Z" ; depthv:standard_name = "model_level_number" ; depthv:units = "m" ; depthv:positive = "down" ; depthv:valid_min = 4.999938f ; depthv:valid_max = 5250.227f ; depthv:title = "depthv" ; depthv:long_name = "Vertical V levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; time_counter_bnds:_FillValue = 9.96920996838687e+36 ; float vomecrty(time_counter, depthv, y, x) ; vomecrty:units = "m/s" ; vomecrty:standard_name = "sea_water_y_velocity" ; vomecrty:_FillValue = 9.96921e+36f ; vomecrty:long_name = "sea_water_y_velocity" ; vomecrty:online_operation = "ave(X)" ; vomecrty:interval_operation = 5760.f ; vomecrty:interval_write = 86400.f ; vomecrty:coordinates = "time_counter depthv nav_lat nav_lon" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:units = "degrees_north" ; nav_lat:valid_min = -77.98417f ; nav_lat:valid_max = 89.4608f ; nav_lat:long_name = "Latitude" ; nav_lat:nav_model = "Default grid" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:units = "degrees_east" ; nav_lon:valid_min = -180.f ; nav_lon:valid_max = 180.f ; nav_lon:long_name = "Longitude" ; nav_lon:nav_model = "Default grid" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "ORCA2_1d_grid_V.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:38 GMT-0200" ; :NCO = "4.0.1" ; } }}} = Variables haute fréquence (6H et 3H) = == ATM/Output/HF/v2.historical1_19800101_19800131_3H_histhf3hm.nc == {{{ netcdf v2.historical1_19800101_19800131_3H_histhf3hm { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (248 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float phis(time_counter, lat, lon) ; phis:units = "m2/s2" ; phis:standard_name = "Surface geop.height" ; phis:_FillValue = 9.96921e+36f ; phis:long_name = "Surface geop.height" ; phis:online_operation = "ave(X)" ; phis:interval_operation = 1800.f ; phis:interval_write = 10800.f ; phis:coordinates = "time_counter lat lon" ; float aire(lat, lon) ; aire:units = "-" ; aire:standard_name = "Grid area" ; aire:_FillValue = 9.96921e+36f ; aire:long_name = "Grid area" ; aire:online_operation = "once" ; aire:coordinates = "lat lon" ; float flat(time_counter, lat, lon) ; flat:units = "W/m2" ; flat:standard_name = "Latent heat flux" ; flat:_FillValue = 9.96921e+36f ; flat:long_name = "Latent heat flux" ; flat:online_operation = "ave(X)" ; flat:interval_operation = 1800.f ; flat:interval_write = 10800.f ; flat:coordinates = "time_counter lat lon" ; float precip(time_counter, lat, lon) ; precip:units = "kg/(s*m2)" ; precip:standard_name = "Precip Totale liq+sol" ; precip:_FillValue = 9.96921e+36f ; precip:long_name = "Precip Totale liq+sol" ; precip:online_operation = "ave(X)" ; precip:interval_operation = 1800.f ; precip:interval_write = 10800.f ; precip:coordinates = "time_counter lat lon" ; float pluc(time_counter, lat, lon) ; pluc:units = "kg/(s*m2)" ; pluc:standard_name = "Convective Precip." ; pluc:_FillValue = 9.96921e+36f ; pluc:long_name = "Convective Precip." ; pluc:online_operation = "ave(X)" ; pluc:interval_operation = 1800.f ; pluc:interval_write = 10800.f ; pluc:coordinates = "time_counter lat lon" ; float snow(time_counter, lat, lon) ; snow:units = "kg/(s*m2)" ; snow:standard_name = "Snow fall" ; snow:_FillValue = 9.96921e+36f ; snow:long_name = "Snow fall" ; snow:online_operation = "ave(X)" ; snow:interval_operation = 1800.f ; snow:interval_write = 10800.f ; snow:coordinates = "time_counter lat lon" ; float SWupSFC(time_counter, lat, lon) ; SWupSFC:units = "W/m2" ; SWupSFC:standard_name = "SWup at surface" ; SWupSFC:_FillValue = 9.96921e+36f ; SWupSFC:long_name = "SWup at surface" ; SWupSFC:online_operation = "ave(X)" ; SWupSFC:interval_operation = 1800.f ; SWupSFC:interval_write = 10800.f ; SWupSFC:coordinates = "time_counter lat lon" ; float SWupSFCclr(time_counter, lat, lon) ; SWupSFCclr:units = "W/m2" ; SWupSFCclr:standard_name = "SWup clear sky at surface" ; SWupSFCclr:_FillValue = 9.96921e+36f ; SWupSFCclr:long_name = "SWup clear sky at surface" ; SWupSFCclr:online_operation = "ave(X)" ; SWupSFCclr:interval_operation = 1800.f ; SWupSFCclr:interval_write = 10800.f ; SWupSFCclr:coordinates = "time_counter lat lon" ; float SWdnSFC(time_counter, lat, lon) ; SWdnSFC:units = "W/m2" ; SWdnSFC:standard_name = "SWdn at surface" ; SWdnSFC:_FillValue = 9.96921e+36f ; SWdnSFC:long_name = "SWdn at surface" ; SWdnSFC:online_operation = "ave(X)" ; SWdnSFC:interval_operation = 1800.f ; SWdnSFC:interval_write = 10800.f ; SWdnSFC:coordinates = "time_counter lat lon" ; float SWdnSFCclr(time_counter, lat, lon) ; SWdnSFCclr:units = "W/m2" ; SWdnSFCclr:standard_name = "SWdn clear sky at surface" ; SWdnSFCclr:_FillValue = 9.96921e+36f ; SWdnSFCclr:long_name = "SWdn clear sky at surface" ; SWdnSFCclr:online_operation = "ave(X)" ; SWdnSFCclr:interval_operation = 1800.f ; SWdnSFCclr:interval_write = 10800.f ; SWdnSFCclr:coordinates = "time_counter lat lon" ; float LWupSFC(time_counter, lat, lon) ; LWupSFC:units = "W/m2" ; LWupSFC:standard_name = "Upwd. IR rad. at surface" ; LWupSFC:_FillValue = 9.96921e+36f ; LWupSFC:long_name = "Upwd. IR rad. at surface" ; LWupSFC:online_operation = "ave(X)" ; LWupSFC:interval_operation = 1800.f ; LWupSFC:interval_write = 10800.f ; LWupSFC:coordinates = "time_counter lat lon" ; float LWdnSFC(time_counter, lat, lon) ; LWdnSFC:units = "W/m2" ; LWdnSFC:standard_name = "Down. IR rad. at surface" ; LWdnSFC:_FillValue = 9.96921e+36f ; LWdnSFC:long_name = "Down. IR rad. at surface" ; LWdnSFC:online_operation = "ave(X)" ; LWdnSFC:interval_operation = 1800.f ; LWdnSFC:interval_write = 10800.f ; LWdnSFC:coordinates = "time_counter lat lon" ; float LWupSFCclr(time_counter, lat, lon) ; LWupSFCclr:units = "W/m2" ; LWupSFCclr:standard_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:_FillValue = 9.96921e+36f ; LWupSFCclr:long_name = "CS Upwd. IR rad. at surface" ; LWupSFCclr:online_operation = "ave(X)" ; LWupSFCclr:interval_operation = 1800.f ; LWupSFCclr:interval_write = 10800.f ; LWupSFCclr:coordinates = "time_counter lat lon" ; float LWdnSFCclr(time_counter, lat, lon) ; LWdnSFCclr:units = "W/m2" ; LWdnSFCclr:standard_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:_FillValue = 9.96921e+36f ; LWdnSFCclr:long_name = "Down. CS IR rad. at surface" ; LWdnSFCclr:online_operation = "ave(X)" ; LWdnSFCclr:interval_operation = 1800.f ; LWdnSFCclr:interval_write = 10800.f ; LWdnSFCclr:coordinates = "time_counter lat lon" ; float sens(time_counter, lat, lon) ; sens:units = "W/m2" ; sens:standard_name = "Sensible heat flux" ; sens:_FillValue = 9.96921e+36f ; sens:long_name = "Sensible heat flux" ; sens:online_operation = "ave(X)" ; sens:interval_operation = 1800.f ; sens:interval_write = 10800.f ; sens:coordinates = "time_counter lat lon" ; float cldt(time_counter, lat, lon) ; cldt:units = "-" ; cldt:standard_name = "Total cloudiness" ; cldt:_FillValue = 9.96921e+36f ; cldt:long_name = "Total cloudiness" ; cldt:online_operation = "ave(X)" ; cldt:interval_operation = 1800.f ; cldt:interval_write = 10800.f ; cldt:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histhf3hm.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/HF/v2.historical1_19800101_19800131_3H_histhf3h.nc == {{{ netcdf v2.historical1_19800101_19800131_3H_histhf3h { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (248 currently) variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; float phis(time_counter, lat, lon) ; phis:units = "m2/s2" ; phis:standard_name = "Surface geop.height" ; phis:_FillValue = 9.96921e+36f ; phis:long_name = "Surface geop.height" ; phis:online_operation = "inst(X)" ; phis:interval_operation = 10800.f ; phis:interval_write = 10800.f ; phis:coordinates = "time_counter lat lon" ; float tsol(time_counter, lat, lon) ; tsol:units = "K" ; tsol:standard_name = "Surface Temperature" ; tsol:_FillValue = 9.96921e+36f ; tsol:long_name = "Surface Temperature" ; tsol:online_operation = "inst(X)" ; tsol:interval_operation = 10800.f ; tsol:interval_write = 10800.f ; tsol:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "Temperature 2m" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "Temperature 2m" ; t2m:online_operation = "inst(X)" ; t2m:interval_operation = 10800.f ; t2m:interval_write = 10800.f ; t2m:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "kg/kg" ; q2m:standard_name = "Specific humidity 2m" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "Specific humidity 2m" ; q2m:online_operation = "inst(X)" ; q2m:interval_operation = 10800.f ; q2m:interval_write = 10800.f ; q2m:coordinates = "time_counter lat lon" ; float u10m(time_counter, lat, lon) ; u10m:units = "m/s" ; u10m:standard_name = "Vent zonal 10m" ; u10m:_FillValue = 9.96921e+36f ; u10m:long_name = "Vent zonal 10m" ; u10m:online_operation = "inst(X)" ; u10m:interval_operation = 10800.f ; u10m:interval_write = 10800.f ; u10m:coordinates = "time_counter lat lon" ; float v10m(time_counter, lat, lon) ; v10m:units = "m/s" ; v10m:standard_name = "Vent meridien 10m" ; v10m:_FillValue = 9.96921e+36f ; v10m:long_name = "Vent meridien 10m" ; v10m:online_operation = "inst(X)" ; v10m:interval_operation = 10800.f ; v10m:interval_write = 10800.f ; v10m:coordinates = "time_counter lat lon" ; float psol(time_counter, lat, lon) ; psol:units = "Pa" ; psol:standard_name = "Surface Pressure" ; psol:_FillValue = 9.96921e+36f ; psol:long_name = "Surface Pressure" ; psol:online_operation = "inst(X)" ; psol:interval_operation = 10800.f ; psol:interval_write = 10800.f ; psol:coordinates = "time_counter lat lon" ; float topl(time_counter, lat, lon) ; topl:units = "W/m2" ; topl:standard_name = "IR rad. at TOA" ; topl:_FillValue = 9.96921e+36f ; topl:long_name = "IR rad. at TOA" ; topl:online_operation = "inst(X)" ; topl:interval_operation = 10800.f ; topl:interval_write = 10800.f ; topl:coordinates = "time_counter lat lon" ; float bils(time_counter, lat, lon) ; bils:units = "W/m2" ; bils:standard_name = "Surf. total heat flux" ; bils:_FillValue = 9.96921e+36f ; bils:long_name = "Surf. total heat flux" ; bils:online_operation = "inst(X)" ; bils:interval_operation = 10800.f ; bils:interval_write = 10800.f ; bils:coordinates = "time_counter lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histhf3h.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/HF/v2.historical1_19800101_19800131_HF_histhf.nc == {{{ netcdf v2.historical1_19800101_19800131_HF_histhf { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; presnivs = 39 ; Ahyb = 39 ; Bhyb = 39 ; Alt = 39 ; time_counter = UNLIMITED ; // (124 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float presnivs(presnivs) ; presnivs:axis = "Z" ; presnivs:standard_name = "model_level_number" ; presnivs:units = "Pa" ; presnivs:positive = "down" ; presnivs:valid_min = 4.306836f ; presnivs:valid_max = 100896.6f ; presnivs:title = "presnivs" ; presnivs:long_name = "Vertical levels" ; float Ahyb(Ahyb) ; Ahyb:axis = "Z" ; Ahyb:standard_name = "model_level_number" ; Ahyb:units = "Pa" ; Ahyb:valid_min = 4.306836f ; Ahyb:valid_max = 22472.32f ; Ahyb:title = "Ahyb" ; Ahyb:long_name = "Ahyb comp of Hyb Cord" ; float Bhyb(Bhyb) ; Bhyb:axis = "Z" ; Bhyb:standard_name = "model_level_number" ; Bhyb:valid_min = 0.f ; Bhyb:valid_max = 0.9943815f ; Bhyb:title = "Bhyb" ; Bhyb:long_name = "Bhyb comp of Hyb Cord" ; float Alt(Alt) ; Alt:axis = "Z" ; Alt:standard_name = "model_level_number" ; Alt:units = "Km" ; Alt:valid_min = 0.0338988f ; Alt:valid_max = 80.52708f ; Alt:title = "Alt" ; Alt:long_name = "Height approx for scale heigh of 8km at levels" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float contfracATM(lat, lon) ; contfracATM:units = "-" ; contfracATM:standard_name = "% sfce ter+lic" ; contfracATM:_FillValue = 9.96921e+36f ; contfracATM:long_name = "% sfce ter+lic" ; contfracATM:online_operation = "once" ; contfracATM:coordinates = "lat lon" ; float contfracOR(time_counter, lat, lon) ; contfracOR:units = "-" ; contfracOR:standard_name = "% sfce terre OR" ; contfracOR:_FillValue = 9.96921e+36f ; contfracOR:long_name = "% sfce terre OR" ; contfracOR:online_operation = "ave(X)" ; contfracOR:interval_operation = 1800.f ; contfracOR:interval_write = 21600.f ; contfracOR:coordinates = "time_counter lat lon" ; float aireTER(time_counter, lat, lon) ; aireTER:units = "-" ; aireTER:standard_name = "Grid area CONT" ; aireTER:_FillValue = 9.96921e+36f ; aireTER:long_name = "Grid area CONT" ; aireTER:online_operation = "ave(X)" ; aireTER:interval_operation = 1800.f ; aireTER:interval_write = 21600.f ; aireTER:coordinates = "time_counter lat lon" ; float slp(time_counter, lat, lon) ; slp:units = "Pa" ; slp:standard_name = "Sea Level Pressure" ; slp:_FillValue = 9.96921e+36f ; slp:long_name = "Sea Level Pressure" ; slp:online_operation = "ave(X)" ; slp:interval_operation = 1800.f ; slp:interval_write = 21600.f ; slp:coordinates = "time_counter lat lon" ; float tsol(time_counter, lat, lon) ; tsol:units = "K" ; tsol:standard_name = "Surface Temperature" ; tsol:_FillValue = 9.96921e+36f ; tsol:long_name = "Surface Temperature" ; tsol:online_operation = "ave(X)" ; tsol:interval_operation = 1800.f ; tsol:interval_write = 21600.f ; tsol:coordinates = "time_counter lat lon" ; float t2m(time_counter, lat, lon) ; t2m:units = "K" ; t2m:standard_name = "Temperature 2m" ; t2m:_FillValue = 9.96921e+36f ; t2m:long_name = "Temperature 2m" ; t2m:online_operation = "ave(X)" ; t2m:interval_operation = 1800.f ; t2m:interval_write = 21600.f ; t2m:coordinates = "time_counter lat lon" ; float wind10m(time_counter, lat, lon) ; wind10m:units = "m/s" ; wind10m:standard_name = "10-m wind speed" ; wind10m:_FillValue = 9.96921e+36f ; wind10m:long_name = "10-m wind speed" ; wind10m:online_operation = "ave(X)" ; wind10m:interval_operation = 1800.f ; wind10m:interval_write = 21600.f ; wind10m:coordinates = "time_counter lat lon" ; float q2m(time_counter, lat, lon) ; q2m:units = "kg/kg" ; q2m:standard_name = "Specific humidity 2m" ; q2m:_FillValue = 9.96921e+36f ; q2m:long_name = "Specific humidity 2m" ; q2m:online_operation = "ave(X)" ; q2m:interval_operation = 1800.f ; q2m:interval_write = 21600.f ; q2m:coordinates = "time_counter lat lon" ; float u10m(time_counter, lat, lon) ; u10m:units = "m/s" ; u10m:standard_name = "Vent zonal 10m" ; u10m:_FillValue = 9.96921e+36f ; u10m:long_name = "Vent zonal 10m" ; u10m:online_operation = "ave(X)" ; u10m:interval_operation = 1800.f ; u10m:interval_write = 21600.f ; u10m:coordinates = "time_counter lat lon" ; float v10m(time_counter, lat, lon) ; v10m:units = "m/s" ; v10m:standard_name = "Vent meridien 10m" ; v10m:_FillValue = 9.96921e+36f ; v10m:long_name = "Vent meridien 10m" ; v10m:online_operation = "ave(X)" ; v10m:interval_operation = 1800.f ; v10m:interval_write = 21600.f ; v10m:coordinates = "time_counter lat lon" ; float psol(time_counter, lat, lon) ; psol:units = "Pa" ; psol:standard_name = "Surface Pressure" ; psol:_FillValue = 9.96921e+36f ; psol:long_name = "Surface Pressure" ; psol:online_operation = "ave(X)" ; psol:interval_operation = 1800.f ; psol:interval_write = 21600.f ; psol:coordinates = "time_counter lat lon" ; float precip(time_counter, lat, lon) ; precip:units = "kg/(s*m2)" ; precip:standard_name = "Precip Totale liq+sol" ; precip:_FillValue = 9.96921e+36f ; precip:long_name = "Precip Totale liq+sol" ; precip:online_operation = "ave(X)" ; precip:interval_operation = 1800.f ; precip:interval_write = 21600.f ; precip:coordinates = "time_counter lat lon" ; float plul(time_counter, lat, lon) ; plul:units = "kg/(s*m2)" ; plul:standard_name = "Large-scale Precip." ; plul:_FillValue = 9.96921e+36f ; plul:long_name = "Large-scale Precip." ; plul:online_operation = "ave(X)" ; plul:interval_operation = 1800.f ; plul:interval_write = 21600.f ; plul:coordinates = "time_counter lat lon" ; float pluc(time_counter, lat, lon) ; pluc:units = "kg/(s*m2)" ; pluc:standard_name = "Convective Precip." ; pluc:_FillValue = 9.96921e+36f ; pluc:long_name = "Convective Precip." ; pluc:online_operation = "ave(X)" ; pluc:interval_operation = 1800.f ; pluc:interval_write = 21600.f ; pluc:coordinates = "time_counter lat lon" ; float cldt(time_counter, lat, lon) ; cldt:units = "-" ; cldt:standard_name = "Total cloudiness" ; cldt:_FillValue = 9.96921e+36f ; cldt:long_name = "Total cloudiness" ; cldt:online_operation = "ave(X)" ; cldt:interval_operation = 1800.f ; cldt:interval_write = 21600.f ; cldt:coordinates = "time_counter lat lon" ; float SWnetOR(time_counter, lat, lon) ; SWnetOR:units = "W/m2" ; SWnetOR:standard_name = "Sfce net SW radiation OR" ; SWnetOR:_FillValue = 9.96921e+36f ; SWnetOR:long_name = "Sfce net SW radiation OR" ; SWnetOR:online_operation = "ave(X)" ; SWnetOR:interval_operation = 1800.f ; SWnetOR:interval_write = 21600.f ; SWnetOR:coordinates = "time_counter lat lon" ; float SWdownOR(time_counter, lat, lon) ; SWdownOR:units = "W/m2" ; SWdownOR:standard_name = "Sfce incident SW radiation OR" ; SWdownOR:_FillValue = 9.96921e+36f ; SWdownOR:long_name = "Sfce incident SW radiation OR" ; SWdownOR:online_operation = "ave(X)" ; SWdownOR:interval_operation = 1800.f ; SWdownOR:interval_write = 21600.f ; SWdownOR:coordinates = "time_counter lat lon" ; float LWdownOR(time_counter, lat, lon) ; LWdownOR:units = "W/m2" ; LWdownOR:standard_name = "Sfce incident LW radiation OR" ; LWdownOR:_FillValue = 9.96921e+36f ; LWdownOR:long_name = "Sfce incident LW radiation OR" ; LWdownOR:online_operation = "ave(X)" ; LWdownOR:interval_operation = 1800.f ; LWdownOR:interval_write = 21600.f ; LWdownOR:coordinates = "time_counter lat lon" ; float temp(time_counter, presnivs, lat, lon) ; temp:units = "K" ; temp:standard_name = "Air temperature" ; temp:_FillValue = 9.96921e+36f ; temp:long_name = "Air temperature" ; temp:online_operation = "ave(X)" ; temp:interval_operation = 1800.f ; temp:interval_write = 21600.f ; temp:coordinates = "time_counter presnivs lat lon" ; float theta(time_counter, presnivs, lat, lon) ; theta:units = "K" ; theta:standard_name = "Potential air temperature" ; theta:_FillValue = 9.96921e+36f ; theta:long_name = "Potential air temperature" ; theta:online_operation = "ave(X)" ; theta:interval_operation = 1800.f ; theta:interval_write = 21600.f ; theta:coordinates = "time_counter presnivs lat lon" ; float ovap(time_counter, presnivs, lat, lon) ; ovap:units = "kg/kg" ; ovap:standard_name = "Specific humidity" ; ovap:_FillValue = 9.96921e+36f ; ovap:long_name = "Specific humidity" ; ovap:online_operation = "ave(X)" ; ovap:interval_operation = 1800.f ; ovap:interval_write = 21600.f ; ovap:coordinates = "time_counter presnivs lat lon" ; float vitu(time_counter, presnivs, lat, lon) ; vitu:units = "m/s" ; vitu:standard_name = "Zonal wind" ; vitu:_FillValue = 9.96921e+36f ; vitu:long_name = "Zonal wind" ; vitu:online_operation = "ave(X)" ; vitu:interval_operation = 1800.f ; vitu:interval_write = 21600.f ; vitu:coordinates = "time_counter presnivs lat lon" ; float vitv(time_counter, presnivs, lat, lon) ; vitv:units = "m/s" ; vitv:standard_name = "Meridional wind" ; vitv:_FillValue = 9.96921e+36f ; vitv:long_name = "Meridional wind" ; vitv:online_operation = "ave(X)" ; vitv:interval_operation = 1800.f ; vitv:interval_write = 21600.f ; vitv:coordinates = "time_counter presnivs lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histhf.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == ATM/Output/HF/v2.historical1_19800101_19800131_HF_histhfNMC.nc == {{{ netcdf v2.historical1_19800101_19800131_HF_histhfNMC { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; plev = 3 ; time_counter = UNLIMITED ; // (124 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float plev(plev) ; plev:axis = "Z" ; plev:standard_name = "model_level_number" ; plev:units = "Pa" ; plev:positive = "down" ; plev:valid_min = 25000.f ; plev:valid_max = 85000.f ; plev:title = "plev" ; plev:long_name = "pressure" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float tnondef(time_counter, plev, lat, lon) ; tnondef:units = "-" ; tnondef:standard_name = "Valeurs non-definies" ; tnondef:_FillValue = 9.96921e+36f ; tnondef:long_name = "Valeurs non-definies" ; tnondef:online_operation = "ave(X)" ; tnondef:interval_operation = 21600.f ; tnondef:interval_write = 21600.f ; tnondef:coordinates = "time_counter plev lat lon" ; float ta(time_counter, plev, lat, lon) ; ta:units = "K" ; ta:standard_name = "Air temperature" ; ta:_FillValue = 9.96921e+36f ; ta:long_name = "Air temperature" ; ta:online_operation = "ave(X)" ; ta:interval_operation = 21600.f ; ta:interval_write = 21600.f ; ta:coordinates = "time_counter plev lat lon" ; float zg(time_counter, plev, lat, lon) ; zg:units = "m" ; zg:standard_name = "Geopotential height" ; zg:_FillValue = 9.96921e+36f ; zg:long_name = "Geopotential height" ; zg:online_operation = "ave(X)" ; zg:interval_operation = 21600.f ; zg:interval_write = 21600.f ; zg:coordinates = "time_counter plev lat lon" ; float hus(time_counter, plev, lat, lon) ; hus:units = "1" ; hus:standard_name = "Specific humidity" ; hus:_FillValue = 9.96921e+36f ; hus:long_name = "Specific humidity" ; hus:online_operation = "ave(X)" ; hus:interval_operation = 21600.f ; hus:interval_write = 21600.f ; hus:coordinates = "time_counter plev lat lon" ; float hur(time_counter, plev, lat, lon) ; hur:units = "%" ; hur:standard_name = "Relative humidity" ; hur:_FillValue = 9.96921e+36f ; hur:long_name = "Relative humidity" ; hur:online_operation = "ave(X)" ; hur:interval_operation = 21600.f ; hur:interval_write = 21600.f ; hur:coordinates = "time_counter plev lat lon" ; float ua(time_counter, plev, lat, lon) ; ua:units = "m s-1" ; ua:standard_name = "Eastward wind" ; ua:_FillValue = 9.96921e+36f ; ua:long_name = "Eastward wind" ; ua:online_operation = "ave(X)" ; ua:interval_operation = 21600.f ; ua:interval_write = 21600.f ; ua:coordinates = "time_counter plev lat lon" ; float va(time_counter, plev, lat, lon) ; va:units = "m s-1" ; va:standard_name = "Northward wind" ; va:_FillValue = 9.96921e+36f ; va:long_name = "Northward wind" ; va:online_operation = "ave(X)" ; va:interval_operation = 21600.f ; va:interval_write = 21600.f ; va:coordinates = "time_counter plev lat lon" ; float wap(time_counter, plev, lat, lon) ; wap:units = "Pa s-1" ; wap:standard_name = "Lagrangian tendency of air pressure" ; wap:_FillValue = 9.96921e+36f ; wap:long_name = "Lagrangian tendency of air pressure" ; wap:online_operation = "ave(X)" ; wap:interval_operation = 21600.f ; wap:interval_write = 21600.f ; wap:coordinates = "time_counter plev lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "histhfNMC.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}} == SRF/Output/HF/v2.historical1_19800101_19800131_HF_sechiba_out_2.nc == {{{ netcdf v2.historical1_19800101_19800131_HF_sechiba_out_2 { // format variant: 64bit dimensions: lon = 96 ; lat = 96 ; veget = 13 ; solth = 7 ; soiltyp = 3 ; nobio = 1 ; albtyp = 2 ; time_counter = UNLIMITED ; // (248 currently) tbnds = 2 ; variables: float lon(lon) ; lon:axis = "X" ; lon:standard_name = "longitude" ; lon:units = "degrees_east" ; lon:valid_min = -180.f ; lon:valid_max = 176.25f ; lon:long_name = "Longitude" ; lon:nav_model = "Default grid" ; float lat(lat) ; lat:axis = "Y" ; lat:standard_name = "latitude" ; lat:units = "degrees_north" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:long_name = "Latitude" ; lat:nav_model = "Default grid" ; float veget(veget) ; veget:axis = "Z" ; veget:standard_name = "model_level_number" ; veget:units = "1" ; veget:valid_min = 1.f ; veget:valid_max = 13.f ; veget:title = "veget" ; veget:long_name = "Vegetation types" ; float solth(solth) ; solth:axis = "Z" ; solth:standard_name = "model_level_number" ; solth:units = "m" ; solth:valid_min = 1.f ; solth:valid_max = 7.f ; solth:title = "solth" ; solth:long_name = "Soil levels" ; float soiltyp(soiltyp) ; soiltyp:axis = "Z" ; soiltyp:standard_name = "model_level_number" ; soiltyp:units = "1" ; soiltyp:valid_min = 1.f ; soiltyp:valid_max = 3.f ; soiltyp:title = "soiltyp" ; soiltyp:long_name = "Soil types" ; float nobio(nobio) ; nobio:axis = "Z" ; nobio:standard_name = "model_level_number" ; nobio:units = "1" ; nobio:valid_min = 1.f ; nobio:valid_max = 1.f ; nobio:title = "nobio" ; nobio:long_name = "Other surface types" ; float albtyp(albtyp) ; albtyp:axis = "Z" ; albtyp:standard_name = "model_level_number" ; albtyp:units = "1" ; albtyp:valid_min = 1.f ; albtyp:valid_max = 2.f ; albtyp:title = "albtyp" ; albtyp:long_name = "Albedo Types" ; double time_counter(time_counter) ; time_counter:axis = "T" ; time_counter:standard_name = "time" ; time_counter:units = "seconds since 1850-01-01 00:00:00" ; time_counter:calendar = "noleap" ; time_counter:title = "Time" ; time_counter:long_name = "Time axis" ; time_counter:time_origin = " 1850-JAN-01 00:00:00" ; time_counter:bounds = "time_counter_bnds" ; double time_counter_bnds(time_counter, tbnds) ; float ptn(time_counter, solth, lat, lon) ; ptn:units = "K" ; ptn:standard_name = "Deep ground temperature" ; ptn:_FillValue = 9.96921e+36f ; ptn:long_name = "Deep ground temperature" ; ptn:online_operation = "ave(scatter(X))" ; ptn:interval_operation = 1800.f ; ptn:interval_write = 10800.f ; ptn:coordinates = "time_counter solth lat lon" ; float mrsos(time_counter, lat, lon) ; mrsos:units = "kg m-2" ; mrsos:standard_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:_FillValue = 9.96921e+36f ; mrsos:long_name = "Moisture in Upper 0.1 m of Soil Column" ; mrsos:online_operation = "ave(scatter(X))" ; mrsos:interval_operation = 1800.f ; mrsos:interval_write = 10800.f ; mrsos:coordinates = "time_counter lat lon" ; float mrro(time_counter, lat, lon) ; mrro:units = "kg m-2 s-1" ; mrro:standard_name = "Total Runoff" ; mrro:_FillValue = 9.96921e+36f ; mrro:long_name = "Total Runoff" ; mrro:online_operation = "ave(scatter(X))" ; mrro:interval_operation = 1800.f ; mrro:interval_write = 10800.f ; mrro:coordinates = "time_counter lat lon" ; float LandPoints(lat, lon) ; LandPoints:units = "1" ; LandPoints:standard_name = "Land Points" ; LandPoints:_FillValue = 9.96921e+36f ; LandPoints:long_name = "Land Points" ; LandPoints:online_operation = "once(scatter(X))" ; LandPoints:coordinates = "lat lon" ; float Areas(lat, lon) ; Areas:units = "m2" ; Areas:standard_name = "Mesh areas" ; Areas:_FillValue = 9.96921e+36f ; Areas:long_name = "Mesh areas" ; Areas:online_operation = "once(scatter(X))" ; Areas:coordinates = "lat lon" ; float Contfrac(lat, lon) ; Contfrac:units = "1" ; Contfrac:standard_name = "Continental fraction" ; Contfrac:_FillValue = 9.96921e+36f ; Contfrac:long_name = "Continental fraction" ; Contfrac:online_operation = "once(scatter(X))" ; Contfrac:coordinates = "lat lon" ; // global attributes: :Conventions = "CF-1.1" ; :file_name = "sechiba_out_2.nc" ; :production = "An IPSL model" ; :TimeStamp = "2010-OCT-23 21:41:42 GMT-0200" ; } }}}