Changeset 4246 for CONFIG/UNIFORM
- Timestamp:
- 01/25/19 10:45:36 (5 years ago)
- Location:
- CONFIG/UNIFORM/v6
- Files:
-
- 12 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/IPSLCM6/GENERAL/DRIVER/orchidee.driver
r4108 r4246 12 12 DefSuffix=${orchidee_UserChoices_DefSuffix} 13 13 else 14 DefSuffix=C hoi14 DefSuffix=CWRR 15 15 fi 16 16 -
CONFIG/UNIFORM/v6/LMDZOR_v6.2/GENERAL/PARAM/config.def_actuel
r4020 r4246 73 73 # Aerosols stratospheriques utilises par defaut 74 74 flag_aerosol_strat=2 75 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 76 ok_volcan=n 75 77 # 76 78 # COSP 77 79 ok_cosp=_AUTO_ 78 79 -
CONFIG/UNIFORM/v6/LMDZOR_v6.2/GENERAL/PARAM/config.def_annuel
r4020 r4246 74 74 # Aerosols stratospheriques utilises par defaut 75 75 flag_aerosol_strat=2 76 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 77 ok_volcan=n 78 # 76 79 # COSP 77 80 ok_cosp=_AUTO_ -
CONFIG/UNIFORM/v6/LMDZOR_v6.2/GENERAL/PARAM/config.def_preind
r4020 r4246 74 74 # 75 75 flag_aerosol_strat=2 76 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 77 ok_volcan=n 76 78 # 77 79 # COSP -
CONFIG/UNIFORM/v6/LMDZOR_v6.2/GENERAL/PARAM/ping_LMDZ.xml
r3957 r4246 155 155 <field id="CMIP6_loadss" field_ref="loadss" /> <!-- P1 (kg m-2) atmosphere_mass_content_of_seasalt_dry_aerosol : Load of Seasalt --> 156 156 <field id="CMIP6_longitude" field_ref="dummy_not_provided" /> <!-- P1 (degrees_east) longitude : Longitude --> 157 <field id="CMIP6_lwsffluxaero" field_ref=" dummy_not_provided" /> <!-- P2 (W m-2) longwave__flux__due_to_volcanic_aerosols_at_the_surface : downwelling longwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call -->157 <field id="CMIP6_lwsffluxaero" field_ref="toplwad" /> <!-- P2 (W m-2) longwave__flux__due_to_volcanic_aerosols_at_the_surface : downwelling longwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call --> 158 158 <field id="CMIP6_lwsrfasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) surface_instantaneous_longwave_forcing_due_to_dust : All-sky Surface Longwave radiative flux due to Dust --> 159 159 <field id="CMIP6_lwsrfcsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) surface_instantaneous_longwave_forcing_due_to_dust_in_clearsky : Clear-sky Surface Longwave radiative flux due to Dust --> … … 161 161 <field id="CMIP6_lwtoacsaer" field_ref="toplwad0" /> <!-- P1 (W m-2) toa_instantaneous_longwave_forcing : Clear-Sky LW-RF Aerosols at TOA --> 162 162 <field id="CMIP6_lwtoacsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_longwave_forcing_due_to_dust_in_clearsky : Clear-sky TOA Longwave radiative flux due to Dust --> 163 <field id="CMIP6_lwtoafluxaerocs" field_ref=" dummy_not_provided" /> <!-- P1 (W m-2) longwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling longwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call -->163 <field id="CMIP6_lwtoafluxaerocs" field_ref="toplwad0" /> <!-- P1 (W m-2) longwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling longwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call --> 164 164 <field id="CMIP6_mc" field_ref="mc" /> <!-- P1 (kg m-2 s-1) atmosphere_net_upward_convective_mass_flux : The net mass flux should represent the difference between the updraft and downdraft components. The flux is computed as the mass divided by the area of the grid cell. --> 165 165 <field id="CMIP6_mcd" field_ref="dnwd" > (dnwd-dnwd0) > 0 ? (dnwd-dnwd0) : 0 </field> <!-- P2 (kg m-2 s-1) atmosphere_downdraft_convective_mass_flux : Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud). --> … … 281 281 <field id="CMIP6_snwc" field_ref="dummy_not_provided" /> <!-- P1 (kg m-2) canopy_snow_amount : canopy_snow_amount --> 282 282 <field id="CMIP6_solbnd" field_ref="solbnd" /> <!-- P1 (W m-2) solar_irradiance : Top-of-Atmosphere Solar Insolation for each band --> 283 <field id="CMIP6_swsffluxaero" field_ref=" dummy_not_provided" /> <!-- P2 (W m-2) shortwave__flux_due_to_volcanic_aerosols_at__the_surface : downwelling shortwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call -->283 <field id="CMIP6_swsffluxaero" field_ref="topswad" /> <!-- P2 (W m-2) shortwave__flux_due_to_volcanic_aerosols_at__the_surface : downwelling shortwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call --> 284 284 <field id="CMIP6_swsrfasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) tendency_of_all_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles : All-sky Surface Shortwave radiative flux due to Dust --> 285 285 <field id="CMIP6_swsrfcsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) tendency_of_clear_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles : Clear-sky Surface Shortwave radiative flux due to Dust --> 286 286 <field id="CMIP6_swtoaasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : all sky sw-rf dust at toa --> 287 287 <field id="CMIP6_swtoacsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : clear sky sw-rf dust at toa --> 288 <field id="CMIP6_swtoafluxaerocs" field_ref=" dummy_not_provided" /> <!-- P1 (W m-2) shortwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling shortwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call -->288 <field id="CMIP6_swtoafluxaerocs" field_ref="topswad0" /> <!-- P1 (W m-2) shortwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling shortwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call --> 289 289 <field id="CMIP6_sza" field_ref="sza" /> <!-- P1 (degree) solar_zenith_angle : solar zenith angle --> 290 290 <field id="CMIP6_t2" field_ref="temp"> temp*temp </field> <!-- P2 (K2) square_of_air_temperature : square_of_air_temperature --> … … 363 363 <field id="CMIP6_zhalf" field_ref="zhalf" /> <!-- P2 (m) height_above_reference_ellipsoid : This is actual height above mean sea level, not geopotential height. This is actual height above mean sea level, not geopotential height. Includes both the top of the model atmosphere and surface levels. --> 364 364 <field id="CMIP6_zmla" field_ref="s_pblh" /> <!-- P1 (m) atmosphere_boundary_layer_thickness : Height of Boundary Layer --> 365 <field id="CMIP6_zmlwaero" field_ref=" dummy_not_provided" /> <!-- P1 (K s-1) longwave_heating_rate_due_to_volcanic_aerosols : longwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required -->366 <field id="CMIP6_zmswaero" field_ref=" dummy_not_provided" /> <!-- P1 (K s-1) shortwave_heating_rate_due_to_volcanic_aerosols : shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required -->365 <field id="CMIP6_zmlwaero" field_ref="cool_volc" /> <!-- P1 (K s-1) longwave_heating_rate_due_to_volcanic_aerosols : longwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required --> 366 <field id="CMIP6_zmswaero" field_ref="heat_volc" /> <!-- P1 (K s-1) shortwave_heating_rate_due_to_volcanic_aerosols : shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required --> 367 367 <field id="CMIP6_zmtnt" field_ref="dtphy" /> <!-- P1 (K s-1) tendency_of_air_temperature_due_to_diabatic_processes : Zonal Mean Diabatic Heating Rates --> 368 368 <field id="CMIP6_ap" field_ref="Ahyb" /><!-- Ap hybrid coordinate array for level interfaces --> -
CONFIG/UNIFORM/v6/LMDZOR_v6.2/GENERAL/PARAM/ping_orchidee.xml
r3772 r4246 7 7 <!-- field_ref="dummy" means that the corresponding output variable in ORCHIDEE has not yet been identified or coded. --> 8 8 <!-- --> 9 <!-- $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/t runk/ORCHIDEE/src_xml/CMIP6_ping_land.xml $-->10 <!-- $Date: 2018- 03-13 17:38:36 +0100 (Tue, 13 Mar 2018) $-->11 <!-- $Revision: 5 091$ -->9 <!-- $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/tags/ORCHIDEE_2_0/ORCHIDEE/src_xml/CMIP6_ping_land.xml $ --> 10 <!-- $Date: 2018-11-27 12:15:46 +0100 (Tue, 27 Nov 2018) $ --> 11 <!-- $Revision: 5625 $ --> 12 12 <!-- ==================================================================================================================== --> 13 13 14 <!-- Ping files generated by dr2xml 0.27 using Data Request 01.00.21 --> 14 <!-- Ping files generated by dr2xml 1.16 using Data Request 01.00.28 --> 15 <!-- Note that comments are not updated since ping files were generated by dr2xml 0.27 using Data Request 01.00.21 --> 15 16 <!-- lrealms= ['land'] --> 16 17 <!-- exact= False --> … … 28 29 grid_policy : native 29 30 path_special_defs : None 30 mips : {'LR': set(['C ORDEX', 'GMMIP', 'RFMIP', 'VolMIP', 'CMIP6', 'ScenarioMIP', 'GeoMIP', 'C4MIP', 'PDRMIP', 'CMIP', 'DECK', 'LUMIP', 'CMIP5', 'CFMIP', 'OMIP', 'DAMIP', 'CCMI', 'SolarMIP', 'VIACSAB', 'SIMIP', 'DCPP', 'ISMIP6', 'AerChemMIP', 'PMIP', 'FAFMIP', 'DynVar', 'LS3MIP', 'SPECS', 'HighResMIP'])}31 mips : {'LR': set(['CDRMIP', 'CORDEX', 'GMMIP', 'RFMIP', 'VolMIP', 'CMIP6', 'ScenarioMIP', 'GeoMIP', 'C4MIP', 'PDRMIP', 'CMIP', 'DECK', 'LUMIP', 'CMIP5', 'CFMIP', 'OMIP', 'DAMIP', 'CCMI', 'SolarMIP', 'VIACSAB', 'SIMIP', 'DCPP', 'ISMIP6', 'AerChemMIP', 'PMIP', 'FAFMIP', 'DynVar', 'LS3MIP', 'SPECS', 'HighResMIP'])} 31 32 excluded_vars : [] 32 33 orphan_variables : {} … … 76 77 <field id="CMIP6_cSoil" field_ref="cSoil" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon Mass in Soil Pool --> 77 78 <field id="CMIP6_cSoilAbove1m" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon mass in soil pool above 1m depth --> 78 <field id="CMIP6_cSoilBelow1m" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon Mass in Soil Pool below 1m Depth -->79 79 <field id="CMIP6_cSoilFast" field_ref="cSoilFast" /> <!-- P1 (kg m-2) fast_soil_pool_carbon_content : fast is meant as lifetime of less than 10 years for reference climate conditions (20 C, no water limitations). --> 80 80 <field id="CMIP6_cSoilGrass" field_ref="cSoilGrass" /> <!-- P2 (kg m-2) soil_carbon_content : Carbon mass in soil on grass tiles --> … … 101 101 <field id="CMIP6_cw" field_ref="qsintveg_tot" /> <!-- P1 (kg m-2) canopy_water_amount : canopy_water_amount --> 102 102 <field id="CMIP6_dcw" field_ref="delintercept" /> <!-- P1 (kg m-2) change_over_time_in_canopy_water_amount : change_over_time_in_canopy_water_amount --> 103 <field id="CMIP6_dfr" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_frozen_soil : depth_of_frozen_soil -->104 103 <field id="CMIP6_dgw" field_ref="delslowr" /> <!-- P1 (kg m-2) change_over_time_in_groundwater : change_over_time_in_groundwater Warning: It can be either undef or delslowr. We take the second option for the moment. --> 105 104 <field id="CMIP6_dmlt" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_subsurface_melting : depth_of_subsurface_melting --> … … 114 113 <field id="CMIP6_es" field_ref="vevapnu" /> <!-- P1 (kg m-2 s-1) liquid_water_evaporation_flux_from_soil : liquid_water_evaporation_flux_from_soil --> 115 114 <field id="CMIP6_esn" field_ref="vevapsno" /> <!-- P1 (kg m-2 s-1) liquid_water_evaporation_flux_from_surface_snow : liquid_water_evaporation_flux_from_surface_snow --> 116 <field id="CMIP6_e t"field_ref="vevapp" /> <!-- P1 (kg m-2 s-1) surface_evapotranspiration : surface_evapotranspiration -->115 <field id="CMIP6_evspsbl" field_ref="vevapp" /> <!-- P1 (kg m-2 s-1) surface_evapotranspiration : surface_evapotranspiration --> 117 116 <field id="CMIP6_evspsblpot" field_ref="evapot" /> <!-- P1 (kg m-2 s-1) water_potential_evaporation_flux : Potential Evapotranspiration --> 118 117 <field id="CMIP6_evspsblsoi" field_ref="evspsblsoi" /> <!-- P1 (kg m-2 s-1) water_evaporation_flux_from_soil : includes sublimation. --> … … 163 162 <field id="CMIP6_fVegSoilSenescence" field_ref="dummy_XY_not_provided" /> <!-- P2 (kg m-2 s-1) senescence_vegtosoil_carbon_flux : Total Carbon Mass Flux from Vegetation to Soil as a result of leaf, branch, and root senescence --> 164 163 <field id="CMIP6_fahLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_heat_flux_due_to_anthropogenic_energy_consumption : Anthropogenic heat flux generated from non-renewable human primary energy consumption, including energy use by vehicles, commercial and residential buildings, industry, and power plants. Primary energy refers to energy in natural resources, fossil and nonfossil, before conversion into other forms, such as electricity. --> 165 <field id="CMIP6_fldcapacity" field_ref="fldcapacity" /> <!-- P1 (%) : Field Capacity Warning: Defined as wilt/saturation, may still evolve (AD)-->164 <field id="CMIP6_fldcapacity" field_ref="fldcapacity" /> <!-- P1 (%) volume_fraction_of_condensed_water_in_soil_at_field_capacity : Field Capacity --> 166 165 <field id="CMIP6_fracInLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (%) area_fraction : annual gross fraction that was transferred into this tile from other land use tiles --> 167 166 <field id="CMIP6_fracLut" field_ref="fraclut" /> <!-- P1 (%) area_fraction : fraction of grid cell for each land use tile --> … … 178 177 <field id="CMIP6_grassFracC4" field_ref="grassFracC4" /> <!-- P1 (%) area_fraction : C4 grass Area Percentage --> 179 178 <field id="CMIP6_hfdsn" field_ref="snowflxtot" /> <!-- P1 (W m-2) surface_downward_heat_flux_in_snow : the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; reported as missing for snow-free land regions or where the land fraction is 0. --> 179 <field id="CMIP6_hfls" field_ref="fluxlat" /> <!-- P1 (W m-2) surface_upward_latent_heat_flux : The surface called "surface" means the lower boundary of the atmosphere. "Upward" indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 180 180 <field id="CMIP6_hflsLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_latent_heat_flux : latent heat flux on land use tile --> 181 <field id="CMIP6_hfss" field_ref="fluxsens" /> <!-- P1 (W m-2) surface_upward_sensible_heat_flux : The surface called "surface" means the lower boundary of the atmosphere. "Upward" indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called "turbulent" heat flux, is the exchange of heat between the surface and the air by motion of air. In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies. --> 181 182 <field id="CMIP6_hfssLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_sensible_heat_flux : sensible heat flux on land use tile --> 182 183 <field id="CMIP6_hussLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (1) specific_humidity : near-surface specific humidity on land use tile --> … … 192 193 <field id="CMIP6_mrlso" field_ref="humtot_liquid" /> <!-- P1 (kg m-2) soil_liquid_water_content : Soil Liquid Water Content --> 193 194 <field id="CMIP6_mrro" field_ref="mrro" /> <!-- P1 (kg m-2 s-1) runoff_flux : the total runoff (including "drainage" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval. --> 195 <field id="CMIP6_mrroLi" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2 s-1) land_ice_runoff_flux : Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack --> 194 196 <field id="CMIP6_mrroLut" field_ref="mrro_lut" /> <!-- P1 (kg m-2 s-1) runoff_flux : Total runoff from land use tile --> 195 197 <field id="CMIP6_mrrob" field_ref="drainage" /> <!-- P1 (kg m-2 s-1) subsurface_runoff_flux : subsurface_runoff_flux --> … … 203 205 <field id="CMIP6_mrsos" field_ref="humtot_top" /> <!-- P1 (kg m-2) moisture_content_of_soil_layer : the mass of water in all phases in a thin surface soil layer. --> 204 206 <field id="CMIP6_mrsosLut" field_ref="humtot_top_lut" /> <!-- P1 (kg m-2) moisture_content_of_soil_layer : Moisture in Upper Portion of Soil Column of land use tile --> 205 <field id="CMIP6_mrsow" field_ref=" mrsow" /> <!-- P1 (1) volume_fraction_of_condensed_water_in_soil_at_field_capacity : relative_soil_moisture_content_above_field_capacity Warning: weird mention to field capacity in the description, overlooked.-->207 <field id="CMIP6_mrsow" field_ref="dummy_not_provided" /> <!-- P1 (1) volume_fraction_of_condensed_water_in_soil_at_field_capacity : relative_soil_moisture_content_above_field_capacity Warning: weird mention to field capacity in the description, overlooked. AD: 3 differents definintions, we do not know what to do --> 206 208 <field id="CMIP6_mrtws" field_ref="tws" /> <!-- P1 (kg m-2) total_water_storage : canopy_and_surface_and_subsurface_water_amount --> 207 209 <field id="CMIP6_nLand" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) total_land_nitrogen : Total nitrogen in all terrestrial nitrogen pools --> … … 239 241 <field id="CMIP6_nudgincswe" field_ref="nudgincswe" /> <!-- P1 (kg m-2) nudging_increment_in_surface_snow_and_ice_amount : nudging_increment_in_surface_snow_and_ice_amount --> 240 242 <field id="CMIP6_nwdFracLut" field_ref="nwdFraclut" /> <!-- P1 (%) : fraction of land use tile tile that is non-woody vegetation ( e.g. herbaceous crops) --> 241 <field id="CMIP6_orog _ist"field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : Surface Altitude -->243 <field id="CMIP6_orog" field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : Surface Altitude --> 242 244 <field id="CMIP6_orog_ist" field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : This is needed in case the ice sheet elevation changes in time --> 243 245 <field id="CMIP6_pastureFrac" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by anthropogenic pasture. --> … … 245 247 <field id="CMIP6_pastureFracC4" field_ref="dummy_XY_not_provided" /> <!-- P2 (%) area_fraction : C4 Pasture Area Percentage --> 246 248 <field id="CMIP6_pflw" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) liquid_water_content_of_permafrost_layer : "where land over land", i.e., this is the total mass of liquid water contained within the permafrost layer within the land portion of a grid cell divided by the area of the land portion of the cell. --> 249 <field id="CMIP6_prra" field_ref="precip_rain" /> <!-- P1 (kg m-2 s-1) rainfall_flux : over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 250 <field id="CMIP6_prsn" field_ref="precip_snow" /> <!-- P1 (kg m-2 s-1) snowfall_flux : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 247 251 <field id="CMIP6_prveg" field_ref="prveg" /> <!-- P1 (kg m-2 s-1) precipitation_flux_onto_canopy : the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground. --> 248 252 <field id="CMIP6_qgwr" field_ref="drainage" /> <!-- P1 (kg m-2 s-1) water_flux_from_soil_layer_to_groundwater : water_flux_from_soil_layer_to_groundwater Warning: It can be either undef or drainage. We take the second option for the moment. --> … … 272 276 <field id="CMIP6_rivi" field_ref="dummy_XY_not_provided" /> <!-- P1 (m3 s-1) water_flux_from_upstream : water_flux_to_downstream --> 273 277 <field id="CMIP6_rivo" field_ref="hydrographs" /> <!-- P1 (m3 s-1) water_flux_to_downstream : water_flux_from_upstream --> 278 <field id="CMIP6_rlds" field_ref="lwdown" /> <!-- P1 (W m-2) surface_downwelling_longwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "longwave" means longwave radiation. Downwelling radiation is radiation from above. It does not mean "net downward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 279 <field id="CMIP6_rlus" field_ref="lwdown" > lwdown - lwnet </field> <!-- P1 (W m-2) surface_upwelling_longwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "longwave" means longwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 274 280 <field id="CMIP6_rlusLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upwelling_longwave_flux_in_air : Surface Upwelling Longwave on Land Use Tile --> 275 281 <field id="CMIP6_rootd" field_ref="zmaxh" /> <!-- P1 (m) root_depth : report the maximum soil depth reachable by plant roots (if defined in model), i.e., the maximum soil depth from which they can extract moisture; report as "missing" where the land fraction is 0. --> 276 <field id="CMIP6_rootdsl" field_ref="nroot" /> <!-- P1 (kg m-3) : Root Distribution Warning: It's a relative root density per layer in Orchidee with no dimension. --> 282 <field id="CMIP6_rootdsl" field_ref="dummy_XYSo" /> <!-- P1 (kg m-2) root_mass_content_of_carbon : Root Distribution --> 283 <field id="CMIP6_rsds" field_ref="swdown" /> <!-- P1 (W m-2) surface_downwelling_shortwave_flux_in_air : surface solar irradiance for UV calculations --> 284 <field id="CMIP6_rsus" field_ref="swdown" > swdown - swnet </field> <!-- P1 (W m-2) surface_upwelling_shortwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "shortwave" means shortwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 277 285 <field id="CMIP6_rsusLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upwelling_shortwave_flux_in_air : Surface Upwelling Shortwave on Land Use Tile --> 278 286 <field id="CMIP6_rzwc" field_ref="humtot" /> <!-- P1 (kg m-2) water_content_of_root_zone : water_content_of_root_zone --> … … 287 295 <field id="CMIP6_snm_land" field_ref="snowmelt" /> <!-- P1 (kg m-2 s-1) surface_snow_melt_flux : surface_snow_and_ice_melt_flux --> 288 296 <field id="CMIP6_snm_ist" field_ref="dummy_XY" /> <!-- P1 (kg m-2 s-1) surface_snow_melt_flux : Surface Snow Melt --> 289 <field id="CMIP6_snw_land" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice. --> 290 <field id="CMIP6_snw_land" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excludes snow on vegetation canopy or on sea ice. --> 297 <field id="CMIP6_snw" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice. --> 291 298 <field id="CMIP6_sootsn" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soot_content_of_surface_snow : the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow. --> 292 299 <field id="CMIP6_sw" field_ref="surfwater" /> <!-- P1 (kg m-2) surface_water_amount_assuming_no_snow : surface_water_amount_assuming_no_snow Warning: includes the fast reservoire --> 293 300 <field id="CMIP6_sweLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (m) : snow water equivalent on land use tile --> 294 301 <field id="CMIP6_tSoilPools" field_ref="tSoilPools"/> <!-- P2 (s-1) soil_carbon_turnover_rate_by_pool : turnover rate of each model soil carbon pool --> 302 <field id="CMIP6_tas" field_ref="dummy_XY" /> <!-- P1 (K) air_temperature : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 295 303 <field id="CMIP6_tasLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (K) air_temperature : near-surface air temperature (2m above displacement height, i.e. t_ref) on land use tile --> 296 304 <field id="CMIP6_tcs" field_ref="dummy_XY_not_provided" /> <!-- P1 (K) canopy_temperature : Vegetation Canopy Temperature --> … … 307 315 <field id="CMIP6_treeFracSecDec" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by secondary deciduous trees. --> 308 316 <field id="CMIP6_treeFracSecEver" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by secondary evergreen trees. --> 317 <field id="CMIP6_ts" field_ref="dummy_XY" /> <!-- P1 (K) surface_temperature : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 309 318 <field id="CMIP6_tsl" field_ref="ptn" /> <!-- P1 (K) soil_temperature : Temperature of single near-surface soil layer. Reported as "missing" for grid cells occupied entirely by "sea". --> 310 319 <field id="CMIP6_tslsi" field_ref="temp_sol_new" /> <!-- P1 (K) surface_temperature : Surface temperature of all surfaces except open ocean. --> 311 320 <field id="CMIP6_tslsiLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (K) surface_temperature : Surface Temperature on Landuse Tile --> 312 <field id="CMIP6_tsn_ ist"field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods -->321 <field id="CMIP6_tsn_land" field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 313 322 <field id="CMIP6_tsn_ist" field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 314 323 <field id="CMIP6_tsn_land" field_ref="dummy_XY_not_provided" /> <!-- P1 (K) temperature_in_surface_snow : This temperature is averaged over all the snow in the grid cell that rests on land or land ice. When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights. Reported as "missing in regions free of snow on land. Warning: Doable but painful with the two different snow schemes. --> 315 <field id="CMIP6_tsnl" field_ref="snowtemp" /> <!-- P1 (K) snow_temperature : Density-weighted average temperature of the snow in layers (for models with 3D snow schemes) Warning: Computed only for the layered scheme on vegetated and bare soil area. -->316 324 <field id="CMIP6_vegFrac" field_ref="vegFrac" /> <!-- P1 (%) area_fraction : Total vegetated fraction --> 317 <field id="CMIP6_vegHeight" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) canopy_height : canopy height --> 325 <field id="CMIP6_vegHeight_land" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell. --> 326 <field id="CMIP6_vegHeight_veg" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) canopy_height : Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell. --> 318 327 <field id="CMIP6_vegHeightCrop" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over the crop fraction of a grid cell. --> 319 328 <field id="CMIP6_vegHeightGrass" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over the grass fraction of a grid cell. --> … … 325 334 <field id="CMIP6_wetlandCH4prod" field_ref="dummy_XY_not_provided" /> <!-- P2 (kg m-2 s-1) wetland_methane_production : Grid averaged methane production (methanogenesis) from wetlands --> 326 335 <field id="CMIP6_wetlandFrac" field_ref="dummy_XY_not_provided" /> <!-- P2 (%) wetland_fraction : Fraction of a grid cell covered by wetland. --> 327 <field id="CMIP6_wilt" field_ref="wilt" /> <!-- P1 (%) : Wilting Point Warning: Defined as wilt/saturation, may still evolve (AD)-->336 <field id="CMIP6_wilt" field_ref="wilt" /> <!-- P1 (%) volume_fraction_of_condensed_water_in_soil_at_wilting_point : Wilting Point --> 328 337 <field id="CMIP6_wtd" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_soil_moisture_saturation : depth_of_soil_moisture_saturation --> 329 338 </field_definition> -
CONFIG/UNIFORM/v6/LMDZOR_v6.3/GENERAL/PARAM/config.def_actuel
r4020 r4246 73 73 # Aerosols stratospheriques utilises par defaut 74 74 flag_aerosol_strat=2 75 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 76 ok_volcan=n 75 77 # 76 78 # COSP 77 79 ok_cosp=_AUTO_ 78 79 -
CONFIG/UNIFORM/v6/LMDZOR_v6.3/GENERAL/PARAM/config.def_annuel
r4020 r4246 74 74 # Aerosols stratospheriques utilises par defaut 75 75 flag_aerosol_strat=2 76 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 77 ok_volcan=n 78 # 76 79 # COSP 77 80 ok_cosp=_AUTO_ -
CONFIG/UNIFORM/v6/LMDZOR_v6.3/GENERAL/PARAM/config.def_preind
r4020 r4246 74 74 # 75 75 flag_aerosol_strat=2 76 # Diag VolMIP to get volcanic aerosols effects instead of tropospheric ones 77 ok_volcan=n 76 78 # 77 79 # COSP -
CONFIG/UNIFORM/v6/LMDZOR_v6.3/GENERAL/PARAM/ping_LMDZ.xml
r3957 r4246 155 155 <field id="CMIP6_loadss" field_ref="loadss" /> <!-- P1 (kg m-2) atmosphere_mass_content_of_seasalt_dry_aerosol : Load of Seasalt --> 156 156 <field id="CMIP6_longitude" field_ref="dummy_not_provided" /> <!-- P1 (degrees_east) longitude : Longitude --> 157 <field id="CMIP6_lwsffluxaero" field_ref=" dummy_not_provided" /> <!-- P2 (W m-2) longwave__flux__due_to_volcanic_aerosols_at_the_surface : downwelling longwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call -->157 <field id="CMIP6_lwsffluxaero" field_ref="toplwad" /> <!-- P2 (W m-2) longwave__flux__due_to_volcanic_aerosols_at_the_surface : downwelling longwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call --> 158 158 <field id="CMIP6_lwsrfasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) surface_instantaneous_longwave_forcing_due_to_dust : All-sky Surface Longwave radiative flux due to Dust --> 159 159 <field id="CMIP6_lwsrfcsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) surface_instantaneous_longwave_forcing_due_to_dust_in_clearsky : Clear-sky Surface Longwave radiative flux due to Dust --> … … 161 161 <field id="CMIP6_lwtoacsaer" field_ref="toplwad0" /> <!-- P1 (W m-2) toa_instantaneous_longwave_forcing : Clear-Sky LW-RF Aerosols at TOA --> 162 162 <field id="CMIP6_lwtoacsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_longwave_forcing_due_to_dust_in_clearsky : Clear-sky TOA Longwave radiative flux due to Dust --> 163 <field id="CMIP6_lwtoafluxaerocs" field_ref=" dummy_not_provided" /> <!-- P1 (W m-2) longwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling longwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call -->163 <field id="CMIP6_lwtoafluxaerocs" field_ref="toplwad0" /> <!-- P1 (W m-2) longwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling longwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call --> 164 164 <field id="CMIP6_mc" field_ref="mc" /> <!-- P1 (kg m-2 s-1) atmosphere_net_upward_convective_mass_flux : The net mass flux should represent the difference between the updraft and downdraft components. The flux is computed as the mass divided by the area of the grid cell. --> 165 165 <field id="CMIP6_mcd" field_ref="dnwd" > (dnwd-dnwd0) > 0 ? (dnwd-dnwd0) : 0 </field> <!-- P2 (kg m-2 s-1) atmosphere_downdraft_convective_mass_flux : Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud). --> … … 281 281 <field id="CMIP6_snwc" field_ref="dummy_not_provided" /> <!-- P1 (kg m-2) canopy_snow_amount : canopy_snow_amount --> 282 282 <field id="CMIP6_solbnd" field_ref="solbnd" /> <!-- P1 (W m-2) solar_irradiance : Top-of-Atmosphere Solar Insolation for each band --> 283 <field id="CMIP6_swsffluxaero" field_ref=" dummy_not_provided" /> <!-- P2 (W m-2) shortwave__flux_due_to_volcanic_aerosols_at__the_surface : downwelling shortwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call -->283 <field id="CMIP6_swsffluxaero" field_ref="topswad" /> <!-- P2 (W m-2) shortwave__flux_due_to_volcanic_aerosols_at__the_surface : downwelling shortwave flux due to volcanic aerosols at the surface to be diagnosed through double radiation call --> 284 284 <field id="CMIP6_swsrfasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) tendency_of_all_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles : All-sky Surface Shortwave radiative flux due to Dust --> 285 285 <field id="CMIP6_swsrfcsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) tendency_of_clear_sky_surface_shortwave_flux_due_to_dust_ambient_aerosol_particles : Clear-sky Surface Shortwave radiative flux due to Dust --> 286 286 <field id="CMIP6_swtoaasdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : all sky sw-rf dust at toa --> 287 287 <field id="CMIP6_swtoacsdust" field_ref="dummy_not_provided" /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : clear sky sw-rf dust at toa --> 288 <field id="CMIP6_swtoafluxaerocs" field_ref=" dummy_not_provided" /> <!-- P1 (W m-2) shortwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling shortwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call -->288 <field id="CMIP6_swtoafluxaerocs" field_ref="topswad0" /> <!-- P1 (W m-2) shortwave_flux_due_to_volcanic_aerosols_at_TOA_under_clear_sky : downwelling shortwave flux due to volcanic aerosols at TOA under clear sky to be diagnosed through double radiation call --> 289 289 <field id="CMIP6_sza" field_ref="sza" /> <!-- P1 (degree) solar_zenith_angle : solar zenith angle --> 290 290 <field id="CMIP6_t2" field_ref="temp"> temp*temp </field> <!-- P2 (K2) square_of_air_temperature : square_of_air_temperature --> … … 363 363 <field id="CMIP6_zhalf" field_ref="zhalf" /> <!-- P2 (m) height_above_reference_ellipsoid : This is actual height above mean sea level, not geopotential height. This is actual height above mean sea level, not geopotential height. Includes both the top of the model atmosphere and surface levels. --> 364 364 <field id="CMIP6_zmla" field_ref="s_pblh" /> <!-- P1 (m) atmosphere_boundary_layer_thickness : Height of Boundary Layer --> 365 <field id="CMIP6_zmlwaero" field_ref=" dummy_not_provided" /> <!-- P1 (K s-1) longwave_heating_rate_due_to_volcanic_aerosols : longwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required -->366 <field id="CMIP6_zmswaero" field_ref=" dummy_not_provided" /> <!-- P1 (K s-1) shortwave_heating_rate_due_to_volcanic_aerosols : shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required -->365 <field id="CMIP6_zmlwaero" field_ref="cool_volc" /> <!-- P1 (K s-1) longwave_heating_rate_due_to_volcanic_aerosols : longwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required --> 366 <field id="CMIP6_zmswaero" field_ref="heat_volc" /> <!-- P1 (K s-1) shortwave_heating_rate_due_to_volcanic_aerosols : shortwave heating rate due to volcanic aerosols to be diagnosed through double radiation call, zonal average values required --> 367 367 <field id="CMIP6_zmtnt" field_ref="dtphy" /> <!-- P1 (K s-1) tendency_of_air_temperature_due_to_diabatic_processes : Zonal Mean Diabatic Heating Rates --> 368 368 <field id="CMIP6_ap" field_ref="Ahyb" /><!-- Ap hybrid coordinate array for level interfaces --> -
CONFIG/UNIFORM/v6/LMDZOR_v6.3/GENERAL/PARAM/ping_orchidee.xml
r3772 r4246 7 7 <!-- field_ref="dummy" means that the corresponding output variable in ORCHIDEE has not yet been identified or coded. --> 8 8 <!-- --> 9 <!-- $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/t runk/ORCHIDEE/src_xml/CMIP6_ping_land.xml $-->10 <!-- $Date: 2018- 03-13 17:38:36 +0100 (Tue, 13 Mar 2018) $-->11 <!-- $Revision: 5 091$ -->9 <!-- $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/tags/ORCHIDEE_2_0/ORCHIDEE/src_xml/CMIP6_ping_land.xml $ --> 10 <!-- $Date: 2018-11-27 12:15:46 +0100 (Tue, 27 Nov 2018) $ --> 11 <!-- $Revision: 5625 $ --> 12 12 <!-- ==================================================================================================================== --> 13 13 14 <!-- Ping files generated by dr2xml 0.27 using Data Request 01.00.21 --> 14 <!-- Ping files generated by dr2xml 1.16 using Data Request 01.00.28 --> 15 <!-- Note that comments are not updated since ping files were generated by dr2xml 0.27 using Data Request 01.00.21 --> 15 16 <!-- lrealms= ['land'] --> 16 17 <!-- exact= False --> … … 28 29 grid_policy : native 29 30 path_special_defs : None 30 mips : {'LR': set(['C ORDEX', 'GMMIP', 'RFMIP', 'VolMIP', 'CMIP6', 'ScenarioMIP', 'GeoMIP', 'C4MIP', 'PDRMIP', 'CMIP', 'DECK', 'LUMIP', 'CMIP5', 'CFMIP', 'OMIP', 'DAMIP', 'CCMI', 'SolarMIP', 'VIACSAB', 'SIMIP', 'DCPP', 'ISMIP6', 'AerChemMIP', 'PMIP', 'FAFMIP', 'DynVar', 'LS3MIP', 'SPECS', 'HighResMIP'])}31 mips : {'LR': set(['CDRMIP', 'CORDEX', 'GMMIP', 'RFMIP', 'VolMIP', 'CMIP6', 'ScenarioMIP', 'GeoMIP', 'C4MIP', 'PDRMIP', 'CMIP', 'DECK', 'LUMIP', 'CMIP5', 'CFMIP', 'OMIP', 'DAMIP', 'CCMI', 'SolarMIP', 'VIACSAB', 'SIMIP', 'DCPP', 'ISMIP6', 'AerChemMIP', 'PMIP', 'FAFMIP', 'DynVar', 'LS3MIP', 'SPECS', 'HighResMIP'])} 31 32 excluded_vars : [] 32 33 orphan_variables : {} … … 76 77 <field id="CMIP6_cSoil" field_ref="cSoil" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon Mass in Soil Pool --> 77 78 <field id="CMIP6_cSoilAbove1m" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon mass in soil pool above 1m depth --> 78 <field id="CMIP6_cSoilBelow1m" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soil_carbon_content : Carbon Mass in Soil Pool below 1m Depth -->79 79 <field id="CMIP6_cSoilFast" field_ref="cSoilFast" /> <!-- P1 (kg m-2) fast_soil_pool_carbon_content : fast is meant as lifetime of less than 10 years for reference climate conditions (20 C, no water limitations). --> 80 80 <field id="CMIP6_cSoilGrass" field_ref="cSoilGrass" /> <!-- P2 (kg m-2) soil_carbon_content : Carbon mass in soil on grass tiles --> … … 101 101 <field id="CMIP6_cw" field_ref="qsintveg_tot" /> <!-- P1 (kg m-2) canopy_water_amount : canopy_water_amount --> 102 102 <field id="CMIP6_dcw" field_ref="delintercept" /> <!-- P1 (kg m-2) change_over_time_in_canopy_water_amount : change_over_time_in_canopy_water_amount --> 103 <field id="CMIP6_dfr" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_frozen_soil : depth_of_frozen_soil -->104 103 <field id="CMIP6_dgw" field_ref="delslowr" /> <!-- P1 (kg m-2) change_over_time_in_groundwater : change_over_time_in_groundwater Warning: It can be either undef or delslowr. We take the second option for the moment. --> 105 104 <field id="CMIP6_dmlt" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_subsurface_melting : depth_of_subsurface_melting --> … … 114 113 <field id="CMIP6_es" field_ref="vevapnu" /> <!-- P1 (kg m-2 s-1) liquid_water_evaporation_flux_from_soil : liquid_water_evaporation_flux_from_soil --> 115 114 <field id="CMIP6_esn" field_ref="vevapsno" /> <!-- P1 (kg m-2 s-1) liquid_water_evaporation_flux_from_surface_snow : liquid_water_evaporation_flux_from_surface_snow --> 116 <field id="CMIP6_e t"field_ref="vevapp" /> <!-- P1 (kg m-2 s-1) surface_evapotranspiration : surface_evapotranspiration -->115 <field id="CMIP6_evspsbl" field_ref="vevapp" /> <!-- P1 (kg m-2 s-1) surface_evapotranspiration : surface_evapotranspiration --> 117 116 <field id="CMIP6_evspsblpot" field_ref="evapot" /> <!-- P1 (kg m-2 s-1) water_potential_evaporation_flux : Potential Evapotranspiration --> 118 117 <field id="CMIP6_evspsblsoi" field_ref="evspsblsoi" /> <!-- P1 (kg m-2 s-1) water_evaporation_flux_from_soil : includes sublimation. --> … … 163 162 <field id="CMIP6_fVegSoilSenescence" field_ref="dummy_XY_not_provided" /> <!-- P2 (kg m-2 s-1) senescence_vegtosoil_carbon_flux : Total Carbon Mass Flux from Vegetation to Soil as a result of leaf, branch, and root senescence --> 164 163 <field id="CMIP6_fahLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_heat_flux_due_to_anthropogenic_energy_consumption : Anthropogenic heat flux generated from non-renewable human primary energy consumption, including energy use by vehicles, commercial and residential buildings, industry, and power plants. Primary energy refers to energy in natural resources, fossil and nonfossil, before conversion into other forms, such as electricity. --> 165 <field id="CMIP6_fldcapacity" field_ref="fldcapacity" /> <!-- P1 (%) : Field Capacity Warning: Defined as wilt/saturation, may still evolve (AD)-->164 <field id="CMIP6_fldcapacity" field_ref="fldcapacity" /> <!-- P1 (%) volume_fraction_of_condensed_water_in_soil_at_field_capacity : Field Capacity --> 166 165 <field id="CMIP6_fracInLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (%) area_fraction : annual gross fraction that was transferred into this tile from other land use tiles --> 167 166 <field id="CMIP6_fracLut" field_ref="fraclut" /> <!-- P1 (%) area_fraction : fraction of grid cell for each land use tile --> … … 178 177 <field id="CMIP6_grassFracC4" field_ref="grassFracC4" /> <!-- P1 (%) area_fraction : C4 grass Area Percentage --> 179 178 <field id="CMIP6_hfdsn" field_ref="snowflxtot" /> <!-- P1 (W m-2) surface_downward_heat_flux_in_snow : the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; reported as missing for snow-free land regions or where the land fraction is 0. --> 179 <field id="CMIP6_hfls" field_ref="fluxlat" /> <!-- P1 (W m-2) surface_upward_latent_heat_flux : The surface called "surface" means the lower boundary of the atmosphere. "Upward" indicates a vector component which is positive when directed upward (negative downward). The surface latent heat flux is the exchange of heat between the surface and the air on account of evaporation (including sublimation). In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 180 180 <field id="CMIP6_hflsLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_latent_heat_flux : latent heat flux on land use tile --> 181 <field id="CMIP6_hfss" field_ref="fluxsens" /> <!-- P1 (W m-2) surface_upward_sensible_heat_flux : The surface called "surface" means the lower boundary of the atmosphere. "Upward" indicates a vector component which is positive when directed upward (negative downward). The surface sensible heat flux, also called "turbulent" heat flux, is the exchange of heat between the surface and the air by motion of air. In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies. --> 181 182 <field id="CMIP6_hfssLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upward_sensible_heat_flux : sensible heat flux on land use tile --> 182 183 <field id="CMIP6_hussLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (1) specific_humidity : near-surface specific humidity on land use tile --> … … 192 193 <field id="CMIP6_mrlso" field_ref="humtot_liquid" /> <!-- P1 (kg m-2) soil_liquid_water_content : Soil Liquid Water Content --> 193 194 <field id="CMIP6_mrro" field_ref="mrro" /> <!-- P1 (kg m-2 s-1) runoff_flux : the total runoff (including "drainage" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval. --> 195 <field id="CMIP6_mrroLi" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2 s-1) land_ice_runoff_flux : Runoff flux over land ice is the difference between any available liquid water in the snowpack less any refreezing. Computed as the sum of rainfall and melt of snow or ice less any refreezing or water retained in the snowpack --> 194 196 <field id="CMIP6_mrroLut" field_ref="mrro_lut" /> <!-- P1 (kg m-2 s-1) runoff_flux : Total runoff from land use tile --> 195 197 <field id="CMIP6_mrrob" field_ref="drainage" /> <!-- P1 (kg m-2 s-1) subsurface_runoff_flux : subsurface_runoff_flux --> … … 203 205 <field id="CMIP6_mrsos" field_ref="humtot_top" /> <!-- P1 (kg m-2) moisture_content_of_soil_layer : the mass of water in all phases in a thin surface soil layer. --> 204 206 <field id="CMIP6_mrsosLut" field_ref="humtot_top_lut" /> <!-- P1 (kg m-2) moisture_content_of_soil_layer : Moisture in Upper Portion of Soil Column of land use tile --> 205 <field id="CMIP6_mrsow" field_ref=" mrsow" /> <!-- P1 (1) volume_fraction_of_condensed_water_in_soil_at_field_capacity : relative_soil_moisture_content_above_field_capacity Warning: weird mention to field capacity in the description, overlooked.-->207 <field id="CMIP6_mrsow" field_ref="dummy_not_provided" /> <!-- P1 (1) volume_fraction_of_condensed_water_in_soil_at_field_capacity : relative_soil_moisture_content_above_field_capacity Warning: weird mention to field capacity in the description, overlooked. AD: 3 differents definintions, we do not know what to do --> 206 208 <field id="CMIP6_mrtws" field_ref="tws" /> <!-- P1 (kg m-2) total_water_storage : canopy_and_surface_and_subsurface_water_amount --> 207 209 <field id="CMIP6_nLand" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) total_land_nitrogen : Total nitrogen in all terrestrial nitrogen pools --> … … 239 241 <field id="CMIP6_nudgincswe" field_ref="nudgincswe" /> <!-- P1 (kg m-2) nudging_increment_in_surface_snow_and_ice_amount : nudging_increment_in_surface_snow_and_ice_amount --> 240 242 <field id="CMIP6_nwdFracLut" field_ref="nwdFraclut" /> <!-- P1 (%) : fraction of land use tile tile that is non-woody vegetation ( e.g. herbaceous crops) --> 241 <field id="CMIP6_orog _ist"field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : Surface Altitude -->243 <field id="CMIP6_orog" field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : Surface Altitude --> 242 244 <field id="CMIP6_orog_ist" field_ref="dummy_XY" /> <!-- P1 (m) surface_altitude : This is needed in case the ice sheet elevation changes in time --> 243 245 <field id="CMIP6_pastureFrac" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by anthropogenic pasture. --> … … 245 247 <field id="CMIP6_pastureFracC4" field_ref="dummy_XY_not_provided" /> <!-- P2 (%) area_fraction : C4 Pasture Area Percentage --> 246 248 <field id="CMIP6_pflw" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) liquid_water_content_of_permafrost_layer : "where land over land", i.e., this is the total mass of liquid water contained within the permafrost layer within the land portion of a grid cell divided by the area of the land portion of the cell. --> 249 <field id="CMIP6_prra" field_ref="precip_rain" /> <!-- P1 (kg m-2 s-1) rainfall_flux : over Land Ice//quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 250 <field id="CMIP6_prsn" field_ref="precip_snow" /> <!-- P1 (kg m-2 s-1) snowfall_flux : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 247 251 <field id="CMIP6_prveg" field_ref="prveg" /> <!-- P1 (kg m-2 s-1) precipitation_flux_onto_canopy : the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground. --> 248 252 <field id="CMIP6_qgwr" field_ref="drainage" /> <!-- P1 (kg m-2 s-1) water_flux_from_soil_layer_to_groundwater : water_flux_from_soil_layer_to_groundwater Warning: It can be either undef or drainage. We take the second option for the moment. --> … … 272 276 <field id="CMIP6_rivi" field_ref="dummy_XY_not_provided" /> <!-- P1 (m3 s-1) water_flux_from_upstream : water_flux_to_downstream --> 273 277 <field id="CMIP6_rivo" field_ref="hydrographs" /> <!-- P1 (m3 s-1) water_flux_to_downstream : water_flux_from_upstream --> 278 <field id="CMIP6_rlds" field_ref="lwdown" /> <!-- P1 (W m-2) surface_downwelling_longwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "longwave" means longwave radiation. Downwelling radiation is radiation from above. It does not mean "net downward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 279 <field id="CMIP6_rlus" field_ref="lwdown" > lwdown - lwnet </field> <!-- P1 (W m-2) surface_upwelling_longwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "longwave" means longwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 274 280 <field id="CMIP6_rlusLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upwelling_longwave_flux_in_air : Surface Upwelling Longwave on Land Use Tile --> 275 281 <field id="CMIP6_rootd" field_ref="zmaxh" /> <!-- P1 (m) root_depth : report the maximum soil depth reachable by plant roots (if defined in model), i.e., the maximum soil depth from which they can extract moisture; report as "missing" where the land fraction is 0. --> 276 <field id="CMIP6_rootdsl" field_ref="nroot" /> <!-- P1 (kg m-3) : Root Distribution Warning: It's a relative root density per layer in Orchidee with no dimension. --> 282 <field id="CMIP6_rootdsl" field_ref="dummy_XYSo" /> <!-- P1 (kg m-2) root_mass_content_of_carbon : Root Distribution --> 283 <field id="CMIP6_rsds" field_ref="swdown" /> <!-- P1 (W m-2) surface_downwelling_shortwave_flux_in_air : surface solar irradiance for UV calculations --> 284 <field id="CMIP6_rsus" field_ref="swdown" > swdown - swnet </field> <!-- P1 (W m-2) surface_upwelling_shortwave_flux_in_air : The surface called "surface" means the lower boundary of the atmosphere. "shortwave" means shortwave radiation. Upwelling radiation is radiation from below. It does not mean "net upward". When thought of as being incident on a surface, a radiative flux is sometimes called "irradiance". In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called "vector irradiance". In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics. --> 277 285 <field id="CMIP6_rsusLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (W m-2) surface_upwelling_shortwave_flux_in_air : Surface Upwelling Shortwave on Land Use Tile --> 278 286 <field id="CMIP6_rzwc" field_ref="humtot" /> <!-- P1 (kg m-2) water_content_of_root_zone : water_content_of_root_zone --> … … 287 295 <field id="CMIP6_snm_land" field_ref="snowmelt" /> <!-- P1 (kg m-2 s-1) surface_snow_melt_flux : surface_snow_and_ice_melt_flux --> 288 296 <field id="CMIP6_snm_ist" field_ref="dummy_XY" /> <!-- P1 (kg m-2 s-1) surface_snow_melt_flux : Surface Snow Melt --> 289 <field id="CMIP6_snw_land" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice. --> 290 <field id="CMIP6_snw_land" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excludes snow on vegetation canopy or on sea ice. --> 297 <field id="CMIP6_snw" field_ref="snow" /> <!-- P1 (kg m-2) surface_snow_amount : Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as missing where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice. --> 291 298 <field id="CMIP6_sootsn" field_ref="dummy_XY_not_provided" /> <!-- P1 (kg m-2) soot_content_of_surface_snow : the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow. --> 292 299 <field id="CMIP6_sw" field_ref="surfwater" /> <!-- P1 (kg m-2) surface_water_amount_assuming_no_snow : surface_water_amount_assuming_no_snow Warning: includes the fast reservoire --> 293 300 <field id="CMIP6_sweLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (m) : snow water equivalent on land use tile --> 294 301 <field id="CMIP6_tSoilPools" field_ref="tSoilPools"/> <!-- P2 (s-1) soil_carbon_turnover_rate_by_pool : turnover rate of each model soil carbon pool --> 302 <field id="CMIP6_tas" field_ref="dummy_XY" /> <!-- P1 (K) air_temperature : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 295 303 <field id="CMIP6_tasLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (K) air_temperature : near-surface air temperature (2m above displacement height, i.e. t_ref) on land use tile --> 296 304 <field id="CMIP6_tcs" field_ref="dummy_XY_not_provided" /> <!-- P1 (K) canopy_temperature : Vegetation Canopy Temperature --> … … 307 315 <field id="CMIP6_treeFracSecDec" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by secondary deciduous trees. --> 308 316 <field id="CMIP6_treeFracSecEver" field_ref="dummy_XY_not_provided" /> <!-- P1 (%) area_fraction : fraction of entire grid cell that is covered by secondary evergreen trees. --> 317 <field id="CMIP6_ts" field_ref="dummy_XY" /> <!-- P1 (K) surface_temperature : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 309 318 <field id="CMIP6_tsl" field_ref="ptn" /> <!-- P1 (K) soil_temperature : Temperature of single near-surface soil layer. Reported as "missing" for grid cells occupied entirely by "sea". --> 310 319 <field id="CMIP6_tslsi" field_ref="temp_sol_new" /> <!-- P1 (K) surface_temperature : Surface temperature of all surfaces except open ocean. --> 311 320 <field id="CMIP6_tslsiLut" field_ref="dummy_XY_landUse_not_provided" /> <!-- P1 (K) surface_temperature : Surface Temperature on Landuse Tile --> 312 <field id="CMIP6_tsn_ ist"field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods -->321 <field id="CMIP6_tsn_land" field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 313 322 <field id="CMIP6_tsn_ist" field_ref="dummy_XY" /> <!-- P1 (K) temperature_in_surface_snow : quantity averaged over ice sheet (grounded ice sheet and floating ice shelf) only. Needed to analyse the impact of downscaling methods --> 314 323 <field id="CMIP6_tsn_land" field_ref="dummy_XY_not_provided" /> <!-- P1 (K) temperature_in_surface_snow : This temperature is averaged over all the snow in the grid cell that rests on land or land ice. When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights. Reported as "missing in regions free of snow on land. Warning: Doable but painful with the two different snow schemes. --> 315 <field id="CMIP6_tsnl" field_ref="snowtemp" /> <!-- P1 (K) snow_temperature : Density-weighted average temperature of the snow in layers (for models with 3D snow schemes) Warning: Computed only for the layered scheme on vegetated and bare soil area. -->316 324 <field id="CMIP6_vegFrac" field_ref="vegFrac" /> <!-- P1 (%) area_fraction : Total vegetated fraction --> 317 <field id="CMIP6_vegHeight" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) canopy_height : canopy height --> 325 <field id="CMIP6_vegHeight_land" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell. --> 326 <field id="CMIP6_vegHeight_veg" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) canopy_height : Vegetation height averaged over all vegetation types and over the vegetated fraction of a grid cell. --> 318 327 <field id="CMIP6_vegHeightCrop" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over the crop fraction of a grid cell. --> 319 328 <field id="CMIP6_vegHeightGrass" field_ref="dummy_XY_not_provided" /> <!-- P2 (m) canopy_height : Vegetation height averaged over the grass fraction of a grid cell. --> … … 325 334 <field id="CMIP6_wetlandCH4prod" field_ref="dummy_XY_not_provided" /> <!-- P2 (kg m-2 s-1) wetland_methane_production : Grid averaged methane production (methanogenesis) from wetlands --> 326 335 <field id="CMIP6_wetlandFrac" field_ref="dummy_XY_not_provided" /> <!-- P2 (%) wetland_fraction : Fraction of a grid cell covered by wetland. --> 327 <field id="CMIP6_wilt" field_ref="wilt" /> <!-- P1 (%) : Wilting Point Warning: Defined as wilt/saturation, may still evolve (AD)-->336 <field id="CMIP6_wilt" field_ref="wilt" /> <!-- P1 (%) volume_fraction_of_condensed_water_in_soil_at_wilting_point : Wilting Point --> 328 337 <field id="CMIP6_wtd" field_ref="dummy_XY_not_provided" /> <!-- P1 (m) depth_of_soil_moisture_saturation : depth_of_soil_moisture_saturation --> 329 338 </field_definition> -
CONFIG/UNIFORM/v6/LMDZOR_v6/GENERAL/DRIVER/orchidee.driver
r4108 r4246 12 12 DefSuffix=${orchidee_UserChoices_DefSuffix} 13 13 else 14 DefSuffix=C hoi14 DefSuffix=CWRR 15 15 fi 16 16
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