#************************************************************** # Author: Patrick Brockmann # Contact: Patrick.Brockmann@cea.fr # $Date: 2009/05/14 15:09:35 $ # $Name: ATLAS_608_1_5 $ # $Revision: 1.1.1.2 $ # History: # Modification: #************************************************************** ################################################################################################################## #----------------------------------------------------------------------------------------------------------------- # field | files patterns | files additionnal | operations | title | units | calcul of area #----------------------------------------------------------------------------------------------------------------- # # field = name of the field to monitore # files patterns = pattern of the files used to monitore the field (must be discriminant) # files additionnal = additionnal files accessible by $FER_DATA # operations = operations to calculate the field # title = variable title # units = variable units # calcul of area = expression to use for the weight average # # Notes: # - Comment lines begin by # character. # - Separator between fields is | character. # - Operations must use the ferret syntax, if several files are used precise with the syntax d=x to refer to the x dataset. # They must be enclosed by parenthesis if more than one variable is used. # - files patterns,files additionnal,operations,title,units must be enclosed with character ". # Use "" if empty. # - Fields will be presented through an html page with thumbnails global, north, south, land, ocean. # Use a field name with one of these pattern to display it under the corresponding thumbnail. # ################################################################################################################## color=AECDFF smooth=12 #----------------------------------------------------------------------------------------------------------------- # field | files patterns | files additionnal | operations | title | units | calcul of area #----------------------------------------------------------------------------------------------------------------- bils_global | "bils" | "" | "bils[d=1]" | "Surf. total heat flux (GLOBAL)" | "W/m^2" | "aire[d=1]" nettop_global | "tops topl" | "" | "(tops[d=1]-topl[d=2])" | "TOA. total heat flux (GLOBAL)" | "W/m^2" | "aire[d=1]" nettop0_global | "tops0 topl0" | "" | "(tops0[d=1]-topl0[d=2])" | "TOA. total heat flux ClearSky (GLOBAL)" | "W/m^2" | "aire[d=1]" t2m_global_prio | "t2m" | "" | "(t2m[d=1]-273.15)" | "Temperature at 2 meters (GLOBAL)" | "degrees C" | "aire[d=1]" t2m_land | "t2m pourc_ter pourc_lic" | "" | "(t2m[d=1]-273.15)" | "Temperature at 2 meters (LAND)" | "degrees C" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)" tsol_global | "tsol" | "" | "(tsol[d=1]-273.15)" | "Surface Temperature (GLOBAL)" | "degrees C" | "aire[d=1]" tsol_land | "tsol pourc_ter pourc_lic" | "" | "(tsol[d=1]-273.15)" | "Surface Temperature (LAND)" | "degrees C" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)" precip_global | "precip" | "" | "precip[d=1]*86400" | "Precipitation Totale liq+sol (GLOBAL)" | "mm/d" | "aire[d=1]" precip_land | "precip pourc_ter pourc_lic" | "" | "precip[d=1]*86400" | "Precipitation Totale liq+sol (LAND)" | "mm/d" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)" evap_global | "evap" | "" | "evap[d=1]" | "Evaporation (GLOBAL)" | "kg/(s*m2)" | "aire[d=1]" evap_land | "evap pourc_ter pourc_lic" | "" | "evap[d=1]" | "Evaporation (LAND)" | "kg/(s*m2)" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)" flat_global | "flat" | "" | "flat[d=1]" | "Surf. latent heat flux (GLOBAL)" | "W/m^2" | "aire[d=1]" prw_global | "prw" | "" | "prw[d=1]" | "Precipitable water (GLOBAL)" | "kg/m^2" | "aire[d=1]" ener_global | "nettop precip snow sols soll sens" | "" | "nettop[d=1,x=@ave,y=@ave]+(precip[d=2,x=@ave,y=@ave]-snow[d=3,x=@ave,y=@ave])*2.5008E+6+snow[d=3,x=@ave,y=@ave]*2.8345E+6-sols[d=4,x=@ave,y=@ave]-soll[d=5,x=@ave,y=@ave]-sens[d=6,x=@ave,y=@ave]" | "Destruction d energie par l atmosphere" | "W/m^2" | "1" | bils_corrected_global | "bils precip snow flat" | "" | "bils[d=1,x=@ave,y=@ave]-flat[d=4,x=@ave,y=@ave]-(precip[d=2,x=@ave,y=@ave]-snow[d=3,x=@ave,y=@ave])*2.5008E+6-snow[d=3,x=@ave,y=@ave]*2.8345E+6" | "Corrected energy budget at surface" | "W/m^2" | "1" | vitu_qbo | "vitu" | "" | "vitu[y=-5:5@ave,x=-180:180@ave,z=5000,d=1]" | "vitu at 5000 Pa for QBO +5deg/-5deg" | "m/s" | "1" od550aer_tropo_forcing | "od550aer" | "" | "od550aer[d=1]" | "Total aerosol optical depth at 550nm" | "-" | "aire[d=1]" od550aer_strat_forcing | "od550_STRAT" | "" | "od550_STRAT[d=1]" | "Aerosol optical depth at 550nm" | "-" | "aire[d=1]" od550lt1aer_forcing | "od550lt1aer" | "" | "od550lt1aer[d=1]" | "Fine mode optical depth" | "-" | "aire[d=1]" tro3_strato_forcing_DU | "colO3_strat" | "" | "colO3_strat[x=@ave,y=@ave,d=1]" | "colonne ozone strato" | "DU" | "" tro3_tropo_forcing_DU | "colO3_trop" | "" | "colO3_trop[x=@ave,y=@ave,d=1]" | "colonne ozone trop" | "DU" | "" solaire_forcing | "solaire" | "" | "solaire[d=1]" | "Constante solaire" | "W/m^2" | "1" rsun1_forcing | "rsun1" | "" | "rsun1[d=1]" | "Fraction bande 1" | "-" | "1" co2_ppm_forcing | "co2_ppm" | "" | "co2_ppm[d=1]" | "Concentration du CO2" | "ppm" | "1" CH4_ppb_forcing | "CH4_ppb" | "" | "CH4_ppb[d=1]" | "Concentration du CH4" | "ppb" | "1" N2O_ppb_forcing | "N2O_ppb" | "" | "N2O_ppb[d=1]" | "Concentration du N2O" | "ppb" | "1" CFC11_ppt_forcing | "CFC11_ppt" | "" | "CFC11_ppt[d=1]" | "Concentration du CFC11" | "ppt" | "1" CFC12_ppt_forcing | "CFC12_ppt" | "" | "CFC12_ppt[d=1]" | "Concentration du CFC12" | "ppt" | "1" ## R_ecc_forcing | "R_ecc" | "" | "R_ecc[d=1]" | "Excentricite" | "-" | "1" ## R_peri_forcing | "R_peri" | "" | "R_peri[d=1]" | "Equinoxe" | "-" | "1" ## R_incl_forcing | "R_incl" | "" | "R_incl[d=1]" | "Inclinaison" | "deg" | "1" #-----------------------------------------------------------------------------------------------------------------