Changeset 2991 for LMDZ5/trunk/DefLists/CMIP6_ping_atmos.xml

Timestamp:

Sep 21, 2017, 11:27:18 AM (7 years ago)

Author:

Laurent Fairhead

Message:

Modifications following first try of LMDZ ping file in a "real" context

1. Caubel

File:

• LMDZ5/trunk/DefLists/CMIP6_ping_atmos.xml (modified) (9 diffs)

LMDZ5/trunk/DefLists/CMIP6_ping_atmos.xml

@@ -97 +97 @@
    <field id="CMIP6_dtauc"         field_ref="dummy_XYA"        /> <!-- P3 (1.0) atmosphere_optical_thickness_due_to_convective_cloud : This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell -->
    <field id="CMIP6_dtaus"         field_ref="dummy_XYA"        /> <!-- P3 (1.0) atmosphere_optical_thickness_due_to_stratiform_cloud : This is the in-cloud optical depth obtained by considering only the cloudy portion of the grid cell. -->
-   <field id="CMIP6_edt"           field_ref="Kz"               /> <!-- P1 (m2 s-1) atmosphere_heat_diffusivity : Vertical diffusion coefficient for temperature due to parametrised eddies -->
+   <field id="CMIP6_edt"           field_ref="kz"               /> <!-- P1 (m2 s-1) atmosphere_heat_diffusivity : Vertical diffusion coefficient for temperature due to parametrised eddies -->
    <field id="CMIP6_epfy"          field_ref="dummy_XYA"        /> <!-- P1 (m3 s-2) northward_eliassen_palm_flux_in_air : Transformed Eulerian Mean Diagnostics Meridional component Fy of Eliassen-Palm (EP) flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available). Please use the definitions given by equation 3.5.3a of Andrews, Holton and Leovy text book, but scaled by density to have units m3 s-2. -->
    <field id="CMIP6_epfz"          field_ref="dummy_XYA"        /> <!-- P1 (m3 s-2) upward_eliassen_palm_flux_in_air : Transformed Eulerian Mean Diagnostics Meridional component Fz of the Eliassen-Palm (EP) flux (Fy, Fz) derived from 6hr or higher frequency fields (use daily fields or 12 hr fields if the 6 hr are not available). Please use the definitions given by equation 3.5.3b of Andrews, Holton and Leovy text book, but scaled by density to have units m3 s-2. -->
@@ -116 +116 @@
    <field id="CMIP6_hfsbl"         field_ref="dummy_XY"         /> <!-- P1 (W m-2) surface_snow_and_ice_sublimation_heat_flux : Energy consumed or released during vapor/solid phase changes. -->
    <field id="CMIP6_hfss"          field_ref="sens"             /> <!-- P1 (W m-2) surface_upward_sensible_heat_flux : Surface Upward Sensible Heat Flux -->
-   <field id="CMIP6_hur"           field_ref="hur"              /> <!-- P1 (%) relative_humidity : The relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C. -->
+   <field id="CMIP6_hur"           field_ref="rhum"              /> <!-- P1 (%) relative_humidity : The relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C. -->
    <field id="CMIP6_hurs"          field_ref="rh2m"             /> <!-- P1 (%) relative_humidity : The relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C. -->
    <field id="CMIP6_hursmax"       field_ref="CMIP6_hurs" freq_op="1d"  operation="maximum"> @this </field>   <!-- P1 (%) relative_humidity : Daily Maximum Near-Surface Relative Humidity -->
    <field id="CMIP6_hursmin"       field_ref="dummy_XY"         /> <!-- P1 (%) relative_humidity : Daily Minimum Near-Surface Relative Humidity -->
    <field id="CMIP6_hursminCrop"   field_ref="dummy_XY"         /> <!-- P1 (%) relative_humidity : minimum near-surface (usually, 2 meter) relative humidity (add cell_method attribute "time: min") -->
-   <field id="CMIP6_hus"           field_ref="hus"              /> <!-- P1 (1.0) specific_humidity : Specific Humidity -->
+   <field id="CMIP6_hus"           field_ref="ovap"             /> <!-- P1 (1.0) specific_humidity : Specific Humidity -->
    <field id="CMIP6_huss"          field_ref="q2m"              /> <!-- P1 (1.0) specific_humidity : Near-surface (usually, 2 meter) specific humidity. -->
    <field id="CMIP6_iareafl"       field_ref="dummy_0d"         /> <!-- P3 (m2) floating_ice_shelf_area : Total area of the floating ice shelves (the component of ice sheet that flows over ocean) -->
@@ -248 +248 @@
    <field id="CMIP6_rsut4co2"      field_ref="rsut4co2"         /> <!-- P1 (W m-2) toa_outgoing_shortwave_flux : TOA Outgoing Shortwave Radiation calculated using carbon dioxide concentrations increased fourfold -->
    <field id="CMIP6_rsutcs"        field_ref="SWupTOAclr"       /> <!-- P1 (W m-2) toa_outgoing_shortwave_flux_assuming_clear_sky : Calculated in the absence of clouds. -->
-   <field id="CMIP6_rsutcs4co2"    field_ref="rsutcs4co2"         /> <!-- P1 (W m-2) toa_outgoing_shortwave_flux_assuming_clear_sky : TOA Outgoing Clear-Sky Shortwave Radiation calculated using carbon dioxide concentrations increased fourfold -->
+   <field id="CMIP6_rsutcs4co2"    field_ref="rsutcs4co2"       /> <!-- P1 (W m-2) toa_outgoing_shortwave_flux_assuming_clear_sky : TOA Outgoing Clear-Sky Shortwave Radiation calculated using carbon dioxide concentrations increased fourfold -->
    <field id="CMIP6_rsutcsafbnd"   field_ref="dummy_XY"         /> <!-- P1 (W m-2) band_toa_outgoing_shortwave_flux_assuming_clean_clear_sky : Calculated in the absence of aerosols and clouds, following Ghan (2013, ACP). This requires a double-call in the radiation code with precisely the same meteorology. -->
    <field id="CMIP6_rsutcsbnd"     field_ref="dummy_XY"         /> <!-- P1 (W m-2) toa_outgoing_shortwave_flux_assuming_clear_sky : Calculated with aerosols but without clouds. This is a standard clear-sky calculation -->
@@ -276 +276 @@
    <field id="CMIP6_swtoaasdust"   field_ref="dummy_XY"         /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol -->
    <field id="CMIP6_swtoacsdust"   field_ref="dummy_XY"         /> <!-- P1 (W m-2) toa_instantaneous_shortwave_forcing : proposed name: toa_instantaneous_shortwave_forcing_due_to_dust_ambient_aerosol_assuming_clear_sky -->
-   <field id="CMIP6_swtoafluxaerocs" field_ref="dummy_XY"         /> <!-- 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 -->
+   <field id="CMIP6_swtoafluxaerocs" field_ref="dummy_XY"       /> <!-- 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 -->
    <field id="CMIP6_sza"           field_ref="dummy_XY"         /> <!-- P1 (degree) solar_zenith_angle : The angle between the line of sight to the sun and the local vertical -->
    <field id="CMIP6_t2"            field_ref="dummy_XYA"        /> <!-- P2 (K2) square_of_air_temperature : Air temperature squared -->
-   <field id="CMIP6_ta"            field_ref="ta"               /> <!-- P3 (K) air_temperature : Air Temperature -->
+   <field id="CMIP6_ta"            field_ref="temp"             /> <!-- P3 (K) air_temperature : Air Temperature -->
    <field id="CMIP6_tas"           field_ref="t2m"              /> <!-- P1 (K) air_temperature : near-surface (usually, 2 meter) air temperature -->
    <field id="CMIP6_tasmax"        field_ref="CMIP6_tas" freq_op="1d"  operation="maximum"> @this </field>   <!-- P1 (K) air_temperature : maximum near-surface (usually, 2 meter) air temperature (add cell_method attribute "time: max") -->
@@ -296 +296 @@
    <field id="CMIP6_tnhus"         field_ref="tnhus"            /> <!-- P1 (s-1) tendency_of_specific_humidity : Tendency of Specific Humidity -->
    <field id="CMIP6_tnhusa"        field_ref="dqdyn"            /> <!-- P1 (s-1) tendency_of_specific_humidity_due_to_advection : Tendency of Specific Humidity due to Advection -->
-   <field id="CMIP6_tnhusc"        field_ref="rnhusc"           /> <!-- P1 (s-1) tendency_of_specific_humidity_due_to_convection : Tendencies from cumulus convection scheme. -->
+   <field id="CMIP6_tnhusc"        field_ref="tnhusc"           /> <!-- P1 (s-1) tendency_of_specific_humidity_due_to_convection : Tendencies from cumulus convection scheme. -->
    <field id="CMIP6_tnhusd"        field_ref="dqvdf"            /> <!-- P1 (s-1) tendency_of_specific_humidity_due_to_diffusion : Tendency of specific humidity due to numerical diffusion.This includes any horizontal or vertical numerical moisture diffusion not associated with the parametrized moist physics or the resolved dynamics.  For example, any vertical diffusion which is part of the boundary layer mixing scheme should be excluded, as should any diffusion which is included in the terms from the resolved dynamics.   This term is required to check the closure of the moisture budget. -->
    <field id="CMIP6_tnhusmp"       field_ref="dqphy"            /> <!-- P1 (s-1) tendency_of_specific_humidity_due_to_model_physics : Tendency of specific humidity due to model physics. This includes sources and sinks from parametrized moist physics (e.g. convection, boundary layer, stratiform condensation/evaporation, etc.) and excludes sources and sinks from resolved dynamics or from horizontal or vertical numerical diffusion not associated with model physicsl.  For example any diffusive mixing by the boundary layer scheme would be included. -->
@@ -320 +320 @@
    <field id="CMIP6_twap"          field_ref="dummy_XYA"        /> <!-- P2 (K Pa s-1) product_of_omega_and_air_temperature : Product of air temperature and pressure tendency -->
    <field id="CMIP6_u2"            field_ref="dummy_XYA"        /> <!-- P2 (m2 s-2) square_of_eastward_wind : u*u -->
-   <field id="CMIP6_ua"            field_ref="ua"               /> <!-- P1 (m s-1) eastward_wind : Eastward Wind -->
+   <field id="CMIP6_ua"            field_ref="vitu"             /> <!-- P1 (m s-1) eastward_wind : Eastward Wind -->
    <field id="CMIP6_uas"           field_ref="u10m"             /> <!-- P1 (m s-1) eastward_wind : Eastward component of the near-surface (usually, 10 meters)  wind -->
    <field id="CMIP6_uqint"         field_ref="dummy_XY"         /> <!-- P1 (m2 s-1) integral_of_product_of_eastward_wind_and_specific_humidity_wrt_height : Column integrated eastward wind times specific humidity -->
@@ -332 +332 @@
    <field id="CMIP6_uwap"          field_ref="dummy_XYA"        /> <!-- P2 (Pa m s-2) product_of_eastward_wind_and_omega : u*omega -->
    <field id="CMIP6_v2"            field_ref="dummy_XYA"        /> <!-- P2 (m2 s-2) square_of_northward_wind : v*v -->
-   <field id="CMIP6_va"            field_ref="va"               /> <!-- P1 (m s-1) northward_wind : Northward component of the wind at 850hPa -->
+   <field id="CMIP6_va"            field_ref="vitv"             /> <!-- P1 (m s-1) northward_wind : Northward component of the wind at 850hPa -->
    <field id="CMIP6_vas"           field_ref="v10m"             /> <!-- P1 (m s-1) northward_wind : Northward component of the near surface wind -->
    <field id="CMIP6_vortmean"      field_ref="dummy_XY"         /> <!-- P1 (s-1) atmosphere_relative_vorticity : Mean vorticity over 850,700,600 hPa -->
@@ -341 +341 @@
    <field id="CMIP6_vtendogw"      field_ref="dummy_XYA"        /> <!-- P2 (m s-2) tendency_of_northward_wind_due_to_orographic_gravity_wave_drag : Tendency of the northward wind by parameterized orographic gravity waves.  (Note that CF name tables only have a general northward tendency for all gravity waves, and we need it separated by type.) -->
    <field id="CMIP6_vwap"          field_ref="dummy_XYA"        /> <!-- P2 (Pa m s-2) product_of_northward_wind_and_omega : v*omega -->
-   <field id="CMIP6_wap"           field_ref="wap"              /> <!-- P1 (Pa s-1) lagrangian_tendency_of_air_pressure : Omega (vertical velocity in pressure coordinates, positive downwards) -->
+   <field id="CMIP6_wap"           field_ref="vitw"             /> <!-- P1 (Pa s-1) lagrangian_tendency_of_air_pressure : Omega (vertical velocity in pressure coordinates, positive downwards) -->
    <field id="CMIP6_wap2"          field_ref="dummy_XYA"        /> <!-- P2 (Pa2 s-2) square_of_lagrangian_tendency_of_air_pressure : omega*omega -->
    <field id="CMIP6_wbptemp"       field_ref="dummy_XYA"        /> <!-- P1 (K) wet_bulb_potential_temperature : Wet bulb potential temperature -->
@@ -348 +348 @@
    <field id="CMIP6_ygwdparam"     field_ref="dummy_XYA"        /> <!-- P2 (Pa) atmosphere_northward_stress_due_to_gravity_wave_drag : Parameterised y- component of gravity wave drag -->
    <field id="CMIP6_zfull"         field_ref="dummy_XYA"        /> <!-- P2 (m) height_above_reference_ellipsoid : Altitude of Model Full-Levels -->
-   <field id="CMIP6_zg"            field_ref="zg"               /> <!-- P1 (m) geopotential_height : Geopotential height on the 1000 hPa surface -->
+   <field id="CMIP6_zg"            field_ref="geop"             /> <!-- P1 (m) geopotential_height : Geopotential height on the 1000 hPa surface -->
    <field id="CMIP6_zhalf"         field_ref="dummy_XYA"        /> <!-- P2 (m) height_above_reference_ellipsoid : Altitude of Model Half-Levels -->
    <field id="CMIP6_zmla"          field_ref="dummy_XY"         /> <!-- P1 (m) atmosphere_boundary_layer_thickness : Height of Boundary Layer -->