From f465652814fdcef0d3859164328835da5581edb4 Mon Sep 17 00:00:00 2001 From: mauzey1 Date: Mon, 22 Jul 2019 10:32:36 -0700 Subject: [PATCH] Update to 01.00.31 --- Tables/CMIP6_3hr.json | 4 +- Tables/CMIP6_6hrLev.json | 4 +- Tables/CMIP6_6hrPlev.json | 4 +- Tables/CMIP6_6hrPlevPt.json | 4 +- Tables/CMIP6_AERday.json | 4 +- Tables/CMIP6_AERhr.json | 4 +- Tables/CMIP6_AERmon.json | 4 +- Tables/CMIP6_AERmonZ.json | 12 ++-- Tables/CMIP6_Amon.json | 10 +-- Tables/CMIP6_CF3hr.json | 4 +- Tables/CMIP6_CFday.json | 4 +- Tables/CMIP6_CFmon.json | 4 +- Tables/CMIP6_CFsubhr.json | 10 +-- Tables/CMIP6_E1hr.json | 4 +- Tables/CMIP6_E1hrClimMon.json | 4 +- Tables/CMIP6_E3hr.json | 10 +-- Tables/CMIP6_E3hrPt.json | 4 +- Tables/CMIP6_E6hrZ.json | 4 +- Tables/CMIP6_Eday.json | 4 +- Tables/CMIP6_EdayZ.json | 10 +-- Tables/CMIP6_Efx.json | 4 +- Tables/CMIP6_Emon.json | 112 +++++++++++++++++----------------- Tables/CMIP6_EmonZ.json | 6 +- Tables/CMIP6_Esubhr.json | 4 +- Tables/CMIP6_Eyr.json | 6 +- Tables/CMIP6_IfxAnt.json | 4 +- Tables/CMIP6_IfxGre.json | 4 +- Tables/CMIP6_ImonAnt.json | 4 +- Tables/CMIP6_ImonGre.json | 4 +- Tables/CMIP6_IyrAnt.json | 12 ++-- Tables/CMIP6_IyrGre.json | 12 ++-- Tables/CMIP6_LImon.json | 4 +- Tables/CMIP6_Lmon.json | 30 ++++----- Tables/CMIP6_Oclim.json | 4 +- Tables/CMIP6_Oday.json | 4 +- Tables/CMIP6_Odec.json | 18 +++--- Tables/CMIP6_Ofx.json | 8 +-- Tables/CMIP6_Omon.json | 38 ++++++------ Tables/CMIP6_Oyr.json | 16 ++--- Tables/CMIP6_SIday.json | 4 +- Tables/CMIP6_SImon.json | 4 +- Tables/CMIP6_coordinate.json | 18 +++--- Tables/CMIP6_day.json | 4 +- Tables/CMIP6_fx.json | 4 +- Tables/CMIP6_grids.json | 4 +- 45 files changed, 222 insertions(+), 222 deletions(-) diff --git a/Tables/CMIP6_3hr.json b/Tables/CMIP6_3hr.json index 7f786b62..9fb5f7b1 100644 --- a/Tables/CMIP6_3hr.json +++ b/Tables/CMIP6_3hr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table 3hr", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_6hrLev.json b/Tables/CMIP6_6hrLev.json index d2f429bb..86165299 100644 --- a/Tables/CMIP6_6hrLev.json +++ b/Tables/CMIP6_6hrLev.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table 6hrLev", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_6hrPlev.json b/Tables/CMIP6_6hrPlev.json index a6d903ce..5cd32992 100644 --- a/Tables/CMIP6_6hrPlev.json +++ b/Tables/CMIP6_6hrPlev.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table 6hrPlev", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_6hrPlevPt.json b/Tables/CMIP6_6hrPlevPt.json index 8f46ab6b..7f536355 100644 --- a/Tables/CMIP6_6hrPlevPt.json +++ b/Tables/CMIP6_6hrPlevPt.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table 6hrPlevPt", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_AERday.json b/Tables/CMIP6_AERday.json index 91fb3310..4cedfe61 100644 --- a/Tables/CMIP6_AERday.json +++ b/Tables/CMIP6_AERday.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table AERday", "realm": "aerosol", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_AERhr.json b/Tables/CMIP6_AERhr.json index 6ec3a258..2f22c463 100644 --- a/Tables/CMIP6_AERhr.json +++ b/Tables/CMIP6_AERhr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table AERhr", "realm": "aerosol", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_AERmon.json b/Tables/CMIP6_AERmon.json index 8c9e3a1e..ed35b322 100644 --- a/Tables/CMIP6_AERmon.json +++ b/Tables/CMIP6_AERmon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table AERmon", "realm": "aerosol", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_AERmonZ.json b/Tables/CMIP6_AERmonZ.json index 70231284..817281a8 100644 --- a/Tables/CMIP6_AERmonZ.json +++ b/Tables/CMIP6_AERmonZ.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table AERmonZ", "realm": "aerosol", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -287,12 +287,12 @@ "vt100": { "frequency": "mon", "modeling_realm": "aerosol", - "standard_name": "northward_heat_flux_in_air_due_to_eddy_advection", - "units": "W m-2", + "standard_name": "covariance_over_longitude_of_northward_wind_and_air_temperature", + "units": "K m s-1", "cell_methods": "longitude: mean time: mean", "cell_measures": "", - "long_name": "Northward Heat Flux Due to Eddies", - "comment": "Zonally averaged meridional heat flux at 100hPa as monthly means derived from daily (or higher frequency) fields.", + "long_name": "Northward Eddy Temperature Flux", + "comment": "Zonally averaged eddy temperature flux at 100hPa as monthly means derived from daily (or higher frequency) fields.", "dimensions": "latitude time p100", "out_name": "vt100", "type": "real", diff --git a/Tables/CMIP6_Amon.json b/Tables/CMIP6_Amon.json index aa4c24c5..0c12741a 100644 --- a/Tables/CMIP6_Amon.json +++ b/Tables/CMIP6_Amon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Amon", "realm": "atmos atmosChem", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -399,7 +399,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2", + "long_name": "Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2 [kgC m-2 s-1]", "comment": "This is requested only for the emission-driven coupled carbon climate model runs. Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.", "dimensions": "longitude latitude time", "out_name": "fco2antt", @@ -417,7 +417,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2", + "long_name": "Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2 [kgC m-2 s-1]", "comment": "This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)", "dimensions": "longitude latitude time", "out_name": "fco2fos", @@ -435,7 +435,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean", "cell_measures": "area: areacella", - "long_name": "Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources", + "long_name": "Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources [kgC m-2 s-1]", "comment": "This is what the atmosphere sees (on its own grid). This field should be equivalent to the combined natural fluxes of carbon that account for natural exchanges between the atmosphere and land (nep) or ocean (fgco2) reservoirs.", "dimensions": "longitude latitude time", "out_name": "fco2nat", diff --git a/Tables/CMIP6_CF3hr.json b/Tables/CMIP6_CF3hr.json index f2ccfd7b..87660c3d 100644 --- a/Tables/CMIP6_CF3hr.json +++ b/Tables/CMIP6_CF3hr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table CF3hr", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_CFday.json b/Tables/CMIP6_CFday.json index bbf67d94..48b44e5d 100644 --- a/Tables/CMIP6_CFday.json +++ b/Tables/CMIP6_CFday.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table CFday", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_CFmon.json b/Tables/CMIP6_CFmon.json index 6a419fcc..8c507023 100644 --- a/Tables/CMIP6_CFmon.json +++ b/Tables/CMIP6_CFmon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table CFmon", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_CFsubhr.json b/Tables/CMIP6_CFsubhr.json index 47169d43..9b0e4a21 100644 --- a/Tables/CMIP6_CFsubhr.json +++ b/Tables/CMIP6_CFsubhr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table CFsubhr", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -239,7 +239,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: point time: point", "cell_measures": "", - "long_name": "Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2", + "long_name": "Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2 [kgC m-2 s-1]", "comment": "This is requested only for the emission-driven coupled carbon climate model runs. Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.", "dimensions": "site time1", "out_name": "fco2antt", @@ -257,7 +257,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: point time: point", "cell_measures": "", - "long_name": "Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2", + "long_name": "Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2 [kgC m-2 s-1]", "comment": "This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)", "dimensions": "site time1", "out_name": "fco2fos", @@ -275,7 +275,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: point time: point", "cell_measures": "", - "long_name": "Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources", + "long_name": "Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources [kgC m-2 s-1]", "comment": "This is what the atmosphere sees (on its own grid). This field should be equivalent to the combined natural fluxes of carbon that account for natural exchanges between the atmosphere and land (nep) or ocean (fgco2) reservoirs.", "dimensions": "site time1", "out_name": "fco2nat", diff --git a/Tables/CMIP6_E1hr.json b/Tables/CMIP6_E1hr.json index c0325527..3b4b27a4 100644 --- a/Tables/CMIP6_E1hr.json +++ b/Tables/CMIP6_E1hr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table E1hr", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_E1hrClimMon.json b/Tables/CMIP6_E1hrClimMon.json index 9f82471e..c7bcd103 100644 --- a/Tables/CMIP6_E1hrClimMon.json +++ b/Tables/CMIP6_E1hrClimMon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table E1hrClimMon", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_E3hr.json b/Tables/CMIP6_E3hr.json index 6e18bc72..c4b5a381 100644 --- a/Tables/CMIP6_E3hr.json +++ b/Tables/CMIP6_E3hr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table E3hr", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -57,7 +57,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux out of Atmosphere Due to Gross Primary Production on Land", + "long_name": "Carbon Mass Flux out of Atmosphere Due to Gross Primary Production on Land [kgC m-2 s-1]", "comment": "The rate of synthesis of biomass from inorganic precursors by autotrophs ('producers') expressed as the mass of carbon which it contains. For example, photosynthesis in plants or phytoplankton. The producers also respire some of this biomass and the difference is referred to as the net primary production. ", "dimensions": "longitude latitude time", "out_name": "gpp", @@ -183,7 +183,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land", + "long_name": "Carbon Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to autotrophic respiration on land (respiration by producers) [see rh for heterotrophic production]", "dimensions": "longitude latitude time", "out_name": "ra", @@ -201,7 +201,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Heterotrophic Respiration on Land", + "long_name": "Total Heterotrophic Respiration on Land as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to heterotrophic respiration on land (respiration by consumers)", "dimensions": "longitude latitude time", "out_name": "rh", diff --git a/Tables/CMIP6_E3hrPt.json b/Tables/CMIP6_E3hrPt.json index d3c87ad1..087a6cbe 100644 --- a/Tables/CMIP6_E3hrPt.json +++ b/Tables/CMIP6_E3hrPt.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table E3hrPt", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_E6hrZ.json b/Tables/CMIP6_E6hrZ.json index 8da5fd5c..279f45e7 100644 --- a/Tables/CMIP6_E6hrZ.json +++ b/Tables/CMIP6_E6hrZ.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table E6hrZ", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Eday.json b/Tables/CMIP6_Eday.json index 4f8177da..a45d28a8 100644 --- a/Tables/CMIP6_Eday.json +++ b/Tables/CMIP6_Eday.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Eday", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_EdayZ.json b/Tables/CMIP6_EdayZ.json index 3f0f994b..0c79e73d 100644 --- a/Tables/CMIP6_EdayZ.json +++ b/Tables/CMIP6_EdayZ.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table EdayZ", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -184,7 +184,7 @@ "cell_methods": "longitude: mean time: mean", "cell_measures": "", "long_name": "Tendency of Eastward Wind Due to TEM Northward Advection and Coriolis Term", - "comment": "Tendency of zonally averaged eastward wind, by the residual upward wind advection (on the native model grid). Reference: Andrews et al (1987): Middle Atmospheric Dynamics. Academic Press.", + "comment": "Tendency of zonally averaged eastward wind, by the residual northward wind advection (on the native model grid). Reference: Andrews et al (1987): Middle Atmospheric Dynamics. Academic Press.", "dimensions": "latitude plev39 time", "out_name": "utendvtem", "type": "real", @@ -202,7 +202,7 @@ "cell_methods": "longitude: mean time: mean", "cell_measures": "", "long_name": "Tendency of Eastward Wind Due to TEM Upward Advection", - "comment": "Tendency of zonally averaged eastward wind, by the residual northward wind advection (on the native model grid). Reference: Andrews et al (1987): Middle Atmospheric Dynamics. Academic Press.", + "comment": "Tendency of zonally averaged eastward wind, by the residual upward wind advection (on the native model grid). Reference: Andrews et al (1987): Middle Atmospheric Dynamics. Academic Press.", "dimensions": "latitude plev39 time", "out_name": "utendwtem", "type": "real", @@ -256,7 +256,7 @@ "cell_methods": "longitude: mean time: mean", "cell_measures": "", "long_name": "Transformed Eulerian Mean Upward Wind", - "comment": "Transformed Eulerian Mean Diagnostics w*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m", + "comment": "Transformed Eulerian Mean Diagnostics w*, upward component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m", "dimensions": "latitude plev39 time", "out_name": "wtem", "type": "real", diff --git a/Tables/CMIP6_Efx.json b/Tables/CMIP6_Efx.json index 041f9c41..86867e63 100644 --- a/Tables/CMIP6_Efx.json +++ b/Tables/CMIP6_Efx.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Efx", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Emon.json b/Tables/CMIP6_Emon.json index 7015920e..40c8e392 100644 --- a/Tables/CMIP6_Emon.json +++ b/Tables/CMIP6_Emon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Emon", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -471,7 +471,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Total Carbon Loss from Natural and Managed Fire on Land-Use Tile, Including Deforestation Fires", + "long_name": "Total Carbon Loss from Natural and Managed Fire on Land-Use Tile, Including Deforestation Fires [kgC m-2 s-1]", "comment": "Different from LMON this flux should include all fires occurring on the land use tile, including natural, man-made and deforestation fires", "dimensions": "longitude latitude landUse time", "out_name": "cTotFireLut", @@ -1173,7 +1173,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux from Vegetation, Litter or Soil Pools into the Atmosphere Due to any Human Activity", + "long_name": "Carbon Mass Flux from Vegetation, Litter or Soil Pools into the Atmosphere Due to any Human Activity [kgC m-2 s-1]", "comment": "Anthropogenic flux of carbon as carbon dioxide into the atmosphere. That is, emissions influenced, caused, or created by human activity. Anthropogenic emission of carbon dioxide includes fossil fuel use, cement production, agricultural burning and sources associated with anthropogenic land use change, except forest regrowth.", "dimensions": "longitude latitude time", "out_name": "fAnthDisturb", @@ -1227,7 +1227,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Deforested Biomass That Goes into Atmosphere as a Result of Anthropogenic Land-Use Change", + "long_name": "Deforested Biomass That Goes into Atmosphere as a Result of Anthropogenic Land-Use Change [kgC m-2 s-1]", "comment": "When land use change results in deforestation of natural vegetation (trees or grasslands) then natural biomass is removed. The treatment of deforested biomass differs significantly across models, but it should be straight-forward to compare deforested biomass across models.", "dimensions": "longitude latitude time", "out_name": "fDeforestToAtmos", @@ -1263,7 +1263,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Fire Including All Sources", + "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Fire Including All Sources [kgC m-2 s-1]", "comment": "From all sources, Including natural, anthropogenic and Land-use change. Only total fire emissions can be compared to observations.", "dimensions": "longitude latitude time", "out_name": "fFireAll", @@ -1281,7 +1281,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Natural Fire", + "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Natural Fire [kgC m-2 s-1]", "comment": "CO2 emissions from natural fires", "dimensions": "longitude latitude time", "out_name": "fFireNat", @@ -1299,7 +1299,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Harvested Biomass That Goes Straight into Atmosphere", + "long_name": "Harvested Biomass That Goes Straight into Atmosphere as Carbon Mass Flux [kgC m-2 s-1]", "comment": "any harvested carbon that is assumed to decompose immediately into the atmosphere is reported here", "dimensions": "longitude latitude time", "out_name": "fHarvestToAtmos", @@ -1335,7 +1335,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux from Litter, CWD or any non-Living Pool into Atmosphere Due to CO2 Emission from All Fire", + "long_name": "Carbon Mass Flux from Litter, CWD or any non-Living Pool into Atmosphere Due to CO2 Emission from All Fire [kgC m-2 s-1]", "comment": "Required for unambiguous separation of vegetation and soil + litter turnover times, since total fire flux draws from both sources", "dimensions": "longitude latitude time", "out_name": "fLitterFire", @@ -1353,7 +1353,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Carbon Mass Flux into Atmosphere Due to Land-Use Change", + "long_name": "Net Carbon Mass Flux into Atmosphere Due to Land-Use Change [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to human changes to land (excluding forest regrowth) accounting possibly for different time-scales related to fate of the wood, for example.", "dimensions": "longitude latitude time", "out_name": "fLuc", @@ -1371,7 +1371,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Carbon Transferred Directly to Atmosphere Due to any Land-Use or Land-Cover Change Activities", + "long_name": "Carbon Transferred Directly to Atmosphere Due to any Land-Use or Land-Cover Change Activities [kgC m-2 s-1]", "comment": "This annual mean flux refers to the transfer of carbon directly to the atmosphere due to any land-use or land-cover change activities. Include carbon transferred due to deforestation or agricultural directly into atmosphere, and emissions form anthropogenic pools into atmosphere", "dimensions": "longitude latitude landUse time", "out_name": "fLulccAtmLut", @@ -1731,7 +1731,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Decomposition out of Product Pools to CO2 in Atmosphere", + "long_name": "Decomposition out of Product Pools to CO2 in Atmosphere as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Flux of CO2 from product pools into the atmosphere. Examples of 'forestry and agricultural products' are paper, cardboard, furniture, timber for construction, biofuels and food for both humans and livestock. Models that simulate land use changes have one or more pools of carbon that represent these products in order to conserve carbon and allow its eventual release into the atmosphere, for example, when the products decompose in landfill sites.", "dimensions": "longitude latitude time", "out_name": "fProductDecomp", @@ -1749,7 +1749,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Flux from Wood and Agricultural Product Pools on Land Use Tile into Atmosphere", + "long_name": "Net Carbon Mass Flux from Wood and Agricultural Product Pools on Land Use Tile into Atmosphere [kgC m-2 s-1]", "comment": "Flux of CO2 from product pools into the atmosphere. Examples of 'forestry and agricultural products' are paper, cardboard, furniture, timber for construction, biofuels and food for both humans and livestock. Models that simulate land use changes have one or more pools of carbon that represent these products in order to conserve carbon and allow its eventual release into the atmosphere, for example, when the products decompose in landfill sites. Produce this variable i a model has explicit anthropogenic product pools by land use tile", "dimensions": "longitude latitude landUse time", "out_name": "fProductDecompLut", @@ -1767,7 +1767,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux from Vegetation into Atmosphere Due to CO2 Emission from All Fire", + "long_name": "Carbon Mass Flux from Vegetation into Atmosphere Due to CO2 Emission from All Fire [kgC m-2 s-1]", "comment": "Required for unambiguous separation of vegetation and soil + litter turnover times, since total fire flux draws from both sources", "dimensions": "longitude latitude time", "out_name": "fVegFire", @@ -1875,7 +1875,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Total Surface Downward Flux of 14CO2 into Ocean", + "long_name": "Surface Downward Mass Flux of Carbon-14 as 14CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of carbon-14 as CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fg14co2", @@ -1947,7 +1947,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where natural_grasses (comment: mask=grassFrac)", "cell_measures": "area: areacella", - "long_name": "Gross Primary Production on Grass Tiles", + "long_name": "Gross Primary Production on Grass Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total GPP of grass in the grid cell", "dimensions": "longitude latitude time", "out_name": "gppGrass", @@ -1965,7 +1965,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Gross Primary Productivity on Land-Use Tile", + "long_name": "Gross Primary Production on Land-Use Tile as Carbon Mass Flux [kgC m-2 s-1]", "comment": "The rate of synthesis of biomass from inorganic precursors by autotrophs ('producers') expressed as the mass of carbon which it contains. For example, photosynthesis in plants or phytoplankton. The producers also respire some of this biomass and the difference is referred to as the net primary production. Reported on land-use tiles.", "dimensions": "longitude latitude landUse time", "out_name": "gppLut", @@ -1983,7 +1983,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where shrubs (comment: mask=shrubFrac)", "cell_measures": "area: areacella", - "long_name": "Gross Primary Production on Shrub Tiles", + "long_name": "Gross Primary Production on Shrub Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total GPP of shrubs in the grid cell", "dimensions": "longitude latitude time", "out_name": "gppShrub", @@ -2001,7 +2001,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where trees (comment: mask=treeFrac)", "cell_measures": "area: areacella", - "long_name": "Gross Primary Production on Tree Tiles", + "long_name": "Gross Primary Production on Tree Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total GPP of trees in the grid cell", "dimensions": "longitude latitude time", "out_name": "gppTree", @@ -2019,7 +2019,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 13C out of Atmosphere Due to Gross Primary Production on Land", + "long_name": "Carbon-13 Mass Flux out of Atmosphere Due to Gross Primary Production on Land [kgC m-2 s-1]", "comment": "The rate of synthesis of carbon-13 in biomass from inorganic precursors by autotrophs ('producers') expressed as the mass of carbon which it contains. For example, photosynthesis in plants or phytoplankton. The producers also respire some of this biomass and the difference is referred to as the net primary production. ", "dimensions": "longitude latitude time", "out_name": "gppc13", @@ -2037,7 +2037,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 14C out of Atmosphere Due to Gross Primary Production on Land", + "long_name": "Carbon-14 Mass Flux out of Atmosphere Due to Gross Primary Production on Land [kgC m-2 s-1]", "comment": "The rate of synthesis of carbon-14 in biomass from inorganic precursors by autotrophs ('producers') expressed as the mass of carbon which it contains. For example, photosynthesis in plants or phytoplankton. The producers also respire some of this biomass and the difference is referred to as the net primary production. ", "dimensions": "longitude latitude time", "out_name": "gppc14", @@ -2055,8 +2055,8 @@ "units": "%", "cell_methods": "area: mean where land over all_area_types time: mean", "cell_measures": "area: areacella", - "long_name": "C3 Grass Area Percentage", - "comment": "Percentage of entire grid cell covered by C3 grass.", + "long_name": "C3 Natural Grass Area Percentage", + "comment": "Percentage of entire grid cell covered by C3 natural grass.", "dimensions": "longitude latitude time typec3natg", "out_name": "grassFracC3", "type": "real", @@ -2073,8 +2073,8 @@ "units": "%", "cell_methods": "area: mean where land over all_area_types time: mean", "cell_measures": "area: areacella", - "long_name": "C4 Grass Area Percentage", - "comment": "Percentage of entire grid cell covered by C4 grass.", + "long_name": "C4 Natural Grass Area Percentage", + "comment": "Percentage of entire grid cell covered by C4 natural grass.", "dimensions": "longitude latitude time typec4natg", "out_name": "grassFracC4", "type": "real", @@ -2955,7 +2955,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Net Rate of Carbon Accumulation (or Loss) on Land-Use Tile", + "long_name": "Net Carbon Mass Flux into Land-Use Tile [kgC m-2 s-1]", "comment": "Computed as npp minus heterotrophic respiration minus fire minus C leaching minus harvesting/clearing. Positive rate is into the land, negative rate is from the land. Do not include fluxes from anthropogenic product pools to atmosphere", "dimensions": "longitude latitude landUse time", "out_name": "necbLut", @@ -2973,7 +2973,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Carbon Mass Flux out of Atmosphere Due to Net Ecosystem Productivity on Land", + "long_name": "Net Carbon Mass Flux out of Atmosphere due to Net Ecosystem Productivity on Land [kgC m-2 s-1]", "comment": "Natural flux of CO2 (expressed as a mass flux of carbon) from the atmosphere to the land calculated as the difference between uptake associated will photosynthesis and the release of CO2 from the sum of plant and soil respiration and fire. Positive flux is into the land. Emissions from natural fires and human ignition fires as calculated by the fire module of the dynamic vegetation model, but excluding any CO2 flux from fire included in fLuc (CO2 Flux to Atmosphere from Land Use Change).", "dimensions": "longitude latitude time", "out_name": "nep", @@ -2991,7 +2991,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Mass Flux of 13C Between Atmosphere and Land (Positive into Land) as a Result of All Processes", + "long_name": "Net Mass Flux of 13C Between Atmosphere and Land (Positive into Land) as a Result of All Processes [kgC m-2 s-1]", "comment": "Flux of carbon 31as carbon dioxide into the land. This flux should be reproducible by differencing the sum of all carbon pools (cVeg, cLitter, cSoil, and cProducts or equivalently cLand) from one time step to the next, except in the case of lateral transfer of carbon due to harvest, riverine transport of dissolved organic and/or inorganic carbon, or any other process (in which case the lateral_carbon_transfer_over_land term, see below, will be zero data).-", "dimensions": "longitude latitude time", "out_name": "netAtmosLandC13Flux", @@ -3009,7 +3009,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Mass Flux of 14C Between Atmosphere and Land (Positive into Land) as a Result of All Processes", + "long_name": "Net Mass Flux of 14C Between Atmosphere and Land (Positive into Land) as a Result of All Processes [kgC m-2 s-1]", "comment": "Flux of carbon-14 as carbon dioxide into the land. This flux should be reproducible by differencing the sum of all carbon pools (cVeg, cLitter, cSoil, and cProducts or equivalently cLand) from one time step to the next, except in the case of lateral transfer of carbon due to harvest, riverine transport of dissolved organic and/or inorganic carbon, or any other process (in which case the lateral_carbon_transfer_over_land term, see below, will be zero data).", "dimensions": "longitude latitude time", "out_name": "netAtmosLandC14Flux", @@ -3027,7 +3027,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Flux of CO2 Between Atmosphere and Land (Positive into Land) as a Result of All Processes", + "long_name": "Net Flux of CO2 Between Atmosphere and Land (Positive into Land) as a Result of All Processes [kgC m-2 s-1]", "comment": "Flux of carbon as carbon dioxide into the land. This flux should be reproducible by differencing the sum of all carbon pools (cVeg, cLitter, cSoil, and cProducts or equivalently cLand) from one time step to the next, except in the case of lateral transfer of carbon due to harvest, riverine transport of dissolved organic and/or inorganic carbon, or any other process (in which case the lateral_carbon_transfer_over_land term, see below, will be zero data).", "dimensions": "longitude latitude time", "out_name": "netAtmosLandCO2Flux", @@ -3045,7 +3045,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where natural_grasses (comment: mask=grassFrac)", "cell_measures": "area: areacella", - "long_name": "Net Primary Production on Grass Tiles", + "long_name": "Net Primary Production on Grass Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total NPP of grass in the grid cell", "dimensions": "longitude latitude time", "out_name": "nppGrass", @@ -3063,7 +3063,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Net Primary Productivity on Land-Use Tile", + "long_name": "Net Primary Production on Land-Use Tile as Carbon Mass Flux [kgC m-2 s-1]", "comment": "'Production of carbon' means the production of biomass expressed as the mass of carbon which it contains. Net primary production is the excess of gross primary production (rate of synthesis of biomass from inorganic precursors) by autotrophs ('producers'), for example, photosynthesis in plants or phytoplankton, over the rate at which the autotrophs themselves respire some of this biomass. 'Productivity' means production per unit area. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A.", "dimensions": "longitude latitude landUse time", "out_name": "nppLut", @@ -3081,7 +3081,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Primary Production Allocated to Other Pools (not Leaves Stem or Roots)", + "long_name": "Net Primary Production Allocated to Other Pools (not Leaves Stem or Roots) as Carbon Mass Flux [kgC m-2 s-1]", "comment": "added for completeness with npp_root", "dimensions": "longitude latitude time", "out_name": "nppOther", @@ -3099,7 +3099,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where shrubs (comment: mask=shrubFrac)", "cell_measures": "area: areacella", - "long_name": "Net Primary Production on Shrub Tiles", + "long_name": "Net Primary Production on Shrub Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total NPP of shrubs in the grid cell", "dimensions": "longitude latitude time", "out_name": "nppShrub", @@ -3117,7 +3117,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Net Primary Production Allocated to Stem", + "long_name": "Net Primary Production Allocated to Stem as Carbon Mass Flux [kgC m-2 s-1]", "comment": "added for completeness with npp_root", "dimensions": "longitude latitude time", "out_name": "nppStem", @@ -3135,7 +3135,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where trees (comment: mask=treeFrac)", "cell_measures": "area: areacella", - "long_name": "Net Primary Production on Tree Tiles", + "long_name": "Net Primary Production on Tree Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total NPP of trees in the grid cell", "dimensions": "longitude latitude time", "out_name": "nppTree", @@ -4053,7 +4053,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where natural_grasses (comment: mask=grassFrac)", "cell_measures": "area: areacella", - "long_name": "Autotrophic Respiration on Grass Tiles", + "long_name": "Autotrophic Respiration on Grass Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RA of grass in the grid cell", "dimensions": "longitude latitude time", "out_name": "raGrass", @@ -4071,7 +4071,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Total Respiration from Leaves", + "long_name": "Total Respiration from Leaves as Carbon Mass Flux [kgC m-2 s-1]", "comment": "added for completeness with Ra_root", "dimensions": "longitude latitude time", "out_name": "raLeaf", @@ -4089,7 +4089,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Plant Respiration on Land-Use Tile", + "long_name": "Autotrophic Respiration on Land-Use Tile as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to autotrophic respiration on land (respiration by producers) [see rh for heterotrophic production]. Calculated on land-use tiles.", "dimensions": "longitude latitude landUse time", "out_name": "raLut", @@ -4107,7 +4107,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Total Respiration from Other Pools (not Leaves Stem or Roots)", + "long_name": "Total Respiration from Other Pools (not Leaves Stem or Roots) as Carbon Mass Flux [kgC m-2 s-1]", "comment": "added for completeness with Ra_root", "dimensions": "longitude latitude time", "out_name": "raOther", @@ -4125,7 +4125,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Total Respiration from Roots", + "long_name": "Total Respiration from Roots as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total autotrophic respiration from all belowground plant parts. This has benchmarking value because the sum of Rh and root respiration can be compared to observations of total soil respiration.", "dimensions": "longitude latitude time", "out_name": "raRoot", @@ -4143,7 +4143,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where shrubs (comment: mask=shrubFrac)", "cell_measures": "area: areacella", - "long_name": "Autotrophic Respiration on Shrub Tiles", + "long_name": "Autotrophic Respiration on Shrub Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RA of shrubs in the grid cell", "dimensions": "longitude latitude time", "out_name": "raShrub", @@ -4161,7 +4161,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Total Respiration from Stem", + "long_name": "Total Respiration from Stem as Carbon Mass Flux [kgC m-2 s-1]", "comment": "added for completeness with Ra_root", "dimensions": "longitude latitude time", "out_name": "raStem", @@ -4179,7 +4179,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where trees (comment: mask=treeFrac)", "cell_measures": "area: areacella", - "long_name": "Autotrophic Respiration on Tree Tiles", + "long_name": "Autotrophic Respiration on Tree Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RA of trees in the grid cell", "dimensions": "longitude latitude time", "out_name": "raTree", @@ -4197,7 +4197,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 13C into Atmosphere Due to Autotrophic (Plant) Respiration on Land", + "long_name": "Carbon-13 Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land [kgC m-2 s-1]", "comment": "Flux of carbon-13 into the atmosphere due to plant respiration. Plant respiration is the sum of respiration by parts of plants both above and below the soil. It is assumed that all the respired carbon dioxide is emitted to the atmosphere. ", "dimensions": "longitude latitude time", "out_name": "rac13", @@ -4215,7 +4215,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 14C into Atmosphere Due to Autotrophic (Plant) Respiration on Land", + "long_name": "Carbon-14 Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land [kgC m-2 s-1]", "comment": "Flux of carbon-14 into the atmosphere due to plant respiration. Plant respiration is the sum of respiration by parts of plants both above and below the soil. It is assumed that all the respired carbon dioxide is emitted to the atmosphere. ", "dimensions": "longitude latitude time", "out_name": "rac14", @@ -4323,7 +4323,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where natural_grasses (comment: mask=grassFrac)", "cell_measures": "area: areacella", - "long_name": "Heterotrophic Respiration on Grass Tiles", + "long_name": "Heterotrophic Respiration on Grass Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RH of grass in the grid cell", "dimensions": "longitude latitude time", "out_name": "rhGrass", @@ -4359,7 +4359,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where sector", "cell_measures": "area: areacella", - "long_name": "Soil Heterotrophic Respiration on Land-Use Tile", + "long_name": "Heterotrophic Respiration on Land-Use Tile as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to heterotrophic respiration on land (respiration by consumers), calculated on land-use tiles.", "dimensions": "longitude latitude landUse time", "out_name": "rhLut", @@ -4377,7 +4377,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where shrubs (comment: mask=shrubFrac)", "cell_measures": "area: areacella", - "long_name": "Heterotrophic Respiration on Shrub Tiles", + "long_name": "Heterotrophic Respiration on Shrub Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RH of shrubs in the grid cell", "dimensions": "longitude latitude time", "out_name": "rhShrub", @@ -4413,7 +4413,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: time: mean where trees (comment: mask=treeFrac)", "cell_measures": "area: areacella", - "long_name": "Heterotrophic Respiration on Tree Tiles", + "long_name": "Heterotrophic Respiration on Tree Tiles as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Total RH of trees in the grid cell", "dimensions": "longitude latitude time", "out_name": "rhTree", @@ -4431,7 +4431,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 13C into Atmosphere Due to Heterotrophic Respiration on Land", + "long_name": "Carbon-13 Mass Flux into Atmosphere Due to Heterotrophic Respiration on Land [kgC m-2 s-1]", "comment": "Heterotrophic respiration is respiration by heterotrophs ('consumers'), which are organisms (including animals and decomposers) that consume other organisms or dead organic material, rather than synthesising organic material from inorganic precursors using energy from the environment (especially sunlight) as autotrophs ('producers') do. Heterotrophic respiration goes on within both the soil and litter pools.", "dimensions": "longitude latitude time", "out_name": "rhc13", @@ -4449,7 +4449,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Mass Flux of 14C into Atmosphere Due to Heterotrophic Respiration on Land", + "long_name": "Carbon-14 Mass Flux into Atmosphere Due to Heterotrophic Respiration on Land [kgC m-2 s-1]", "comment": "Heterotrophic respiration is respiration by heterotrophs ('consumers'), which are organisms (including animals and decomposers) that consume other organisms or dead organic material, rather than synthesising organic material from inorganic precursors using energy from the environment (especially sunlight) as autotrophs ('producers') do. Heterotrophic respiration goes on within both the soil and litter pools.", "dimensions": "longitude latitude time", "out_name": "rhc14", @@ -4732,13 +4732,13 @@ }, "sw18O": { "frequency": "mon", - "modeling_realm": "atmos", + "modeling_realm": "ocean", "standard_name": "isotope_ratio_of_18O_to_16O_in_sea_water_excluding_solutes_and_solids", "units": "1", "cell_methods": "area: time: mean", "cell_measures": "area: areacella", - "long_name": "Mass of Water Containing Oxygen-18 (H2 18O) in Layer", - "comment": "Water vapor path for water molecules that contain oxygen-18 (H2 18O)", + "long_name": "Isotopic Ratio of Oxygen-18 in Sea Water", + "comment": "Ratio of abundance of oxygen-18 (18O) atoms to oxygen-16 (16O) atoms in sea water", "dimensions": "longitude latitude alevel time", "out_name": "sw18O", "type": "real", @@ -5584,7 +5584,7 @@ "cell_methods": "area: mean where land over all_area_types time: mean", "cell_measures": "area: areacella", "long_name": "Total Vegetated Percentage Cover", - "comment": "Percentage of grid cell that is covered by vegetation.This SHOULD be the sum of tree, grass, crop and shrub fractions.", + "comment": "Percentage of grid cell that is covered by vegetation.This SHOULD be the sum of tree, grass (natural and pasture), crop and shrub fractions.", "dimensions": "longitude latitude time typeveg", "out_name": "vegFrac", "type": "real", diff --git a/Tables/CMIP6_EmonZ.json b/Tables/CMIP6_EmonZ.json index 52d26e60..41679fe3 100644 --- a/Tables/CMIP6_EmonZ.json +++ b/Tables/CMIP6_EmonZ.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table EmonZ", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -400,7 +400,7 @@ "cell_methods": "longitude: mean time: mean", "cell_measures": "", "long_name": "Transformed Eulerian Mean Upward Wind", - "comment": "Transformed Eulerian Mean Diagnostics w*, meridional component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m", + "comment": "Transformed Eulerian Mean Diagnostics w*, upward component of the residual meridional circulation (v*, w*) derived from 6 hr or higher frequency data fields (use instantaneous daily fields or 12 hr fields if the 6 hr data are not available). Scale height: 6950 m", "dimensions": "latitude plev39 time", "out_name": "wtem", "type": "real", diff --git a/Tables/CMIP6_Esubhr.json b/Tables/CMIP6_Esubhr.json index 4bcd81ca..87a8f8b4 100644 --- a/Tables/CMIP6_Esubhr.json +++ b/Tables/CMIP6_Esubhr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Esubhr", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Eyr.json b/Tables/CMIP6_Eyr.json index 8ae0f364..61ab17fb 100644 --- a/Tables/CMIP6_Eyr.json +++ b/Tables/CMIP6_Eyr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Eyr", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -328,7 +328,7 @@ "cell_methods": "area: mean where land over all_area_types time: mean", "cell_measures": "area: areacella", "long_name": "Total Vegetated Percentage Cover", - "comment": "Percentage of grid cell that is covered by vegetation.This SHOULD be the sum of tree, grass, crop and shrub fractions.", + "comment": "Percentage of grid cell that is covered by vegetation.This SHOULD be the sum of tree, grass (natural and pasture), crop and shrub fractions.", "dimensions": "longitude latitude time typeveg", "out_name": "vegFrac", "type": "real", diff --git a/Tables/CMIP6_IfxAnt.json b/Tables/CMIP6_IfxAnt.json index 70c5e48b..613c71bf 100644 --- a/Tables/CMIP6_IfxAnt.json +++ b/Tables/CMIP6_IfxAnt.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table IfxAnt", "realm": "landIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_IfxGre.json b/Tables/CMIP6_IfxGre.json index d0fbc496..78b894a4 100644 --- a/Tables/CMIP6_IfxGre.json +++ b/Tables/CMIP6_IfxGre.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table IfxGre", "realm": "landIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_ImonAnt.json b/Tables/CMIP6_ImonAnt.json index e30ba76d..d27ce73d 100644 --- a/Tables/CMIP6_ImonAnt.json +++ b/Tables/CMIP6_ImonAnt.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table ImonAnt", "realm": "landIce land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_ImonGre.json b/Tables/CMIP6_ImonGre.json index 7cd21006..840ad0c4 100644 --- a/Tables/CMIP6_ImonGre.json +++ b/Tables/CMIP6_ImonGre.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table ImonGre", "realm": "landIce land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_IyrAnt.json b/Tables/CMIP6_IyrAnt.json index 9b147daa..1201684b 100644 --- a/Tables/CMIP6_IyrAnt.json +++ b/Tables/CMIP6_IyrAnt.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table IyrAnt", "realm": "landIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -37,11 +37,11 @@ "modeling_realm": "landIce", "standard_name": "upward_geothermal_heat_flux_at_ground_level_in_land_ice", "units": "W m-2", - "cell_methods": "area: mean where grounded_ice_sheet", + "cell_methods": "area: time: mean where grounded_ice_sheet (comment: mask=sfgrlf)", "cell_measures": "area: areacellg", "long_name": "Geothermal Heat Flux Beneath Land Ice", "comment": "Upward geothermal heat flux per unit area beneath land ice", - "dimensions": "xant yant", + "dimensions": "xant yant time", "out_name": "hfgeoubed", "type": "real", "positive": "", @@ -253,11 +253,11 @@ "modeling_realm": "landIce", "standard_name": "land_ice_thickness", "units": "m", - "cell_methods": "area: mean where grounded_ice_sheet", + "cell_methods": "area: time: mean where ice_sheet", "cell_measures": "area: areacellg", "long_name": "Ice Sheet Thickness", "comment": "The thickness of the ice sheet", - "dimensions": "xant yant", + "dimensions": "xant yant time", "out_name": "lithk", "type": "real", "positive": "", diff --git a/Tables/CMIP6_IyrGre.json b/Tables/CMIP6_IyrGre.json index 0b3a0257..179b1056 100644 --- a/Tables/CMIP6_IyrGre.json +++ b/Tables/CMIP6_IyrGre.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table IyrGre", "realm": "landIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -37,11 +37,11 @@ "modeling_realm": "landIce", "standard_name": "upward_geothermal_heat_flux_at_ground_level_in_land_ice", "units": "W m-2", - "cell_methods": "area: mean where grounded_ice_sheet", + "cell_methods": "area: time: mean where grounded_ice_sheet (comment: mask=sfgrlf)", "cell_measures": "area: areacellg", "long_name": "Geothermal Heat Flux Beneath Land Ice", "comment": "Upward geothermal heat flux per unit area beneath land ice", - "dimensions": "xgre ygre", + "dimensions": "xgre ygre time", "out_name": "hfgeoubed", "type": "real", "positive": "", @@ -253,11 +253,11 @@ "modeling_realm": "landIce", "standard_name": "land_ice_thickness", "units": "m", - "cell_methods": "area: mean where grounded_ice_sheet", + "cell_methods": "area: time: mean where ice_sheet", "cell_measures": "area: areacellg", "long_name": "Ice Sheet Thickness", "comment": "The thickness of the ice sheet", - "dimensions": "xgre ygre", + "dimensions": "xgre ygre time", "out_name": "lithk", "type": "real", "positive": "", diff --git a/Tables/CMIP6_LImon.json b/Tables/CMIP6_LImon.json index cc0ed6fc..970b8101 100644 --- a/Tables/CMIP6_LImon.json +++ b/Tables/CMIP6_LImon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table LImon", "realm": "landIce land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Lmon.json b/Tables/CMIP6_Lmon.json index 506e0127..d0075610 100644 --- a/Tables/CMIP6_Lmon.json +++ b/Tables/CMIP6_Lmon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Lmon", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -345,7 +345,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Fire Excluding Land-Use Change", + "long_name": "Carbon Mass Flux into Atmosphere Due to CO2 Emission from Fire Excluding Land-Use Change [kgC m-2 s-1]", "comment": "CO2 emissions (expressed as a carbon mass flux per unit area) from natural fires and human ignition fires as calculated by the fire module of the dynamic vegetation model, but excluding any CO2 flux from fire included in fLuc (CO2 Flux to Atmosphere from Land Use Change).", "dimensions": "longitude latitude time", "out_name": "fFire", @@ -363,7 +363,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Grazing on Land", + "long_name": "Carbon Mass Flux into Atmosphere Due to Grazing on Land [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area due to grazing on land", "dimensions": "longitude latitude time", "out_name": "fGrazing", @@ -381,7 +381,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Crop Harvesting", + "long_name": "Carbon Mass Flux into Atmosphere Due to Crop Harvesting [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area due to crop harvesting", "dimensions": "longitude latitude time", "out_name": "fHarvest", @@ -453,7 +453,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux out of Atmosphere Due to Gross Primary Production on Land", + "long_name": "Carbon Mass Flux out of Atmosphere Due to Gross Primary Production on Land [kgC m-2 s-1]", "comment": "The rate of synthesis of biomass from inorganic precursors by autotrophs ('producers') expressed as the mass of carbon which it contains. For example, photosynthesis in plants or phytoplankton. The producers also respire some of this biomass and the difference is referred to as the net primary production. ", "dimensions": "longitude latitude time", "out_name": "gpp", @@ -615,7 +615,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux out of Atmosphere Due to Net Biospheric Production on Land", + "long_name": "Carbon Mass Flux out of Atmosphere Due to Net Biospheric Production on Land [kgC m-2 s-1]", "comment": "This is the net mass flux of carbon from atmosphere into land, calculated as photosynthesis MINUS the sum of plant and soil respiration, carbon fluxes from fire, harvest, grazing and land use change. Positive flux is into the land.", "dimensions": "longitude latitude time", "out_name": "nbp", @@ -633,7 +633,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux out of Atmosphere Due to Net Primary Production on Land", + "long_name": "Net Primary Production on Land as Carbon Mass Flux [kgC m-2 s-1]", "comment": "'Production of carbon' means the production of biomass expressed as the mass of carbon which it contains. Net primary production is the excess of gross primary production (rate of synthesis of biomass from inorganic precursors) by autotrophs ('producers'), for example, photosynthesis in plants or phytoplankton, over the rate at which the autotrophs themselves respire some of this biomass. 'Productivity' means production per unit area. The phrase 'expressed_as' is used in the construction A_expressed_as_B, where B is a chemical constituent of A. It means that the quantity indicated by the standard name is calculated solely with respect to the B contained in A, neglecting all other chemical constituents of A.", "dimensions": "longitude latitude time", "out_name": "npp", @@ -651,7 +651,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux Due to NPP Allocation to Leaf", + "long_name": "Net Primary Production Allocated to Leaves as Carbon Mass Flux [kgC m-2 s-1]", "comment": "This is the rate of carbon uptake by leaves due to NPP", "dimensions": "longitude latitude time", "out_name": "nppLeaf", @@ -669,7 +669,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux Due to NPP Allocation to Roots", + "long_name": "Net Primary Production Allocated to Roots as Carbon Mass Flux [kgC m-2 s-1]", "comment": "This is the rate of carbon uptake by roots due to NPP", "dimensions": "longitude latitude time", "out_name": "nppRoot", @@ -687,7 +687,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux Due to NPP Allocation to Wood", + "long_name": "Net Primary Production Allocated to Wood as Carbon Mass Flux [kgC m-2 s-1]", "comment": "This is the rate of carbon uptake by wood due to NPP", "dimensions": "longitude latitude time", "out_name": "nppWood", @@ -741,7 +741,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Growth Autotrophic Respiration on Land", + "long_name": "Total Autotrophic Respiration on Land as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Growth respiration is defined as the additional carbon cost for the synthesis of new growth.", "dimensions": "longitude latitude time", "out_name": "rGrowth", @@ -759,7 +759,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Maintenance Autotrophic Respiration on Land", + "long_name": "Carbon Mass Flux into Atmosphere Due to Maintenance Autotrophic Respiration on Land [kgC m-2 s-1]", "comment": "Maintenance respiration is defined as the carbon cost to support the metabolic activity of existing live tissue.", "dimensions": "longitude latitude time", "out_name": "rMaint", @@ -777,7 +777,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land", + "long_name": "Carbon Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to autotrophic respiration on land (respiration by producers) [see rh for heterotrophic production]", "dimensions": "longitude latitude time", "out_name": "ra", @@ -813,7 +813,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where land time: mean", "cell_measures": "area: areacella", - "long_name": "Carbon Mass Flux into Atmosphere Due to Heterotrophic Respiration on Land", + "long_name": "Total Heterotrophic Respiration on Land as Carbon Mass Flux [kgC m-2 s-1]", "comment": "Carbon mass flux per unit area into atmosphere due to heterotrophic respiration on land (respiration by consumers)", "dimensions": "longitude latitude time", "out_name": "rh", diff --git a/Tables/CMIP6_Oclim.json b/Tables/CMIP6_Oclim.json index fa090a2c..a0d632c1 100644 --- a/Tables/CMIP6_Oclim.json +++ b/Tables/CMIP6_Oclim.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Oclim", "realm": "ocean", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Oday.json b/Tables/CMIP6_Oday.json index 5856aac4..c5fd0f9a 100644 --- a/Tables/CMIP6_Oday.json +++ b/Tables/CMIP6_Oday.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Oday", "realm": "ocnBgchem", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_Odec.json b/Tables/CMIP6_Odec.json index c47f18db..d9da797e 100644 --- a/Tables/CMIP6_Odec.json +++ b/Tables/CMIP6_Odec.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Odec", "realm": "ocean", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -109,7 +109,7 @@ "modeling_realm": "ocean", "standard_name": "sea_water_mass_per_unit_area", "units": "kg m-2", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Mass per Area", "comment": "Tracer grid-cell mass per unit area used for computing tracer budgets. For Boussinesq models with static ocean grid cell thickness, masscello = rhozero*thickcello, where thickcello is static cell thickness and rhozero is constant Boussinesq reference density. More generally, masscello is time dependent and reported as part of Omon.", @@ -323,11 +323,11 @@ "tauuo": { "frequency": "dec", "modeling_realm": "ocean", - "standard_name": "surface_downward_x_stress", + "standard_name": "downward_x_stress_at_sea_water_surface", "units": "N m-2", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward X Stress", + "long_name": "Sea Water Surface Downward X Stress", "comment": "This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.", "dimensions": "longitude latitude time", "out_name": "tauuo", @@ -341,11 +341,11 @@ "tauvo": { "frequency": "dec", "modeling_realm": "ocean", - "standard_name": "surface_downward_y_stress", + "standard_name": "downward_y_stress_at_sea_water_surface", "units": "N m-2", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Y Stress", + "long_name": "Sea Water Surface Downward Y Stress", "comment": "This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.", "dimensions": "longitude latitude time", "out_name": "tauvo", @@ -487,7 +487,7 @@ "modeling_realm": "ocean", "standard_name": "ocean_volume", "units": "m3", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Volume", "comment": "grid-cell volume ca. 2000.", @@ -526,7 +526,7 @@ "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", "long_name": "Water Flux into Sea Water", - "comment": "computed as the water flux into the ocean divided by the area of the ocean portion of the grid cell. This is the sum of the next two variables in this table.", + "comment": "Computed as the water flux into the ocean divided by the area of the ocean portion of the grid cell. This is the sum *wfonocorr* and *wfcorr*.", "dimensions": "longitude latitude time", "out_name": "wfo", "type": "real", diff --git a/Tables/CMIP6_Ofx.json b/Tables/CMIP6_Ofx.json index 54d24750..a6fb1a92 100644 --- a/Tables/CMIP6_Ofx.json +++ b/Tables/CMIP6_Ofx.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Ofx", "realm": "ocean", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -93,7 +93,7 @@ "modeling_realm": "ocean", "standard_name": "sea_water_mass_per_unit_area", "units": "kg m-2", - "cell_methods": "area: mean", + "cell_methods": "area: sum", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Mass per Area", "comment": "Tracer grid-cell mass per unit area used for computing tracer budgets. For Boussinesq models with static ocean grid cell thickness, masscello = rhozero*thickcello, where thickcello is static cell thickness and rhozero is constant Boussinesq reference density. More generally, masscello is time dependent and reported as part of Omon.", @@ -165,7 +165,7 @@ "modeling_realm": "ocean", "standard_name": "ocean_volume", "units": "m3", - "cell_methods": "area: mean", + "cell_methods": "area: sum", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Volume", "comment": "grid-cell volume ca. 2000.", diff --git a/Tables/CMIP6_Omon.json b/Tables/CMIP6_Omon.json index a28fda8e..96779c4a 100644 --- a/Tables/CMIP6_Omon.json +++ b/Tables/CMIP6_Omon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Omon", "realm": "ocnBgchem", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -1461,7 +1461,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of 13CO2", + "long_name": "Surface Downward Mass Flux of Carbon-13 as 13CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of carbon-13 as CO2 (positive into ocean)", "dimensions": "longitude latitude time depth0m", "out_name": "fg13co2", @@ -1479,7 +1479,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Abiotic 14CO2", + "long_name": "Surface Downward Mass Flux of Carbon-14 as Abiotic 14CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of abiotic 14CO2 (positive into ocean)", "dimensions": "longitude latitude time depth0m", "out_name": "fg14co2abio", @@ -1533,7 +1533,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Total CO2", + "long_name": "Surface Downward Mass Flux of Carbon as CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of CO2 (positive into ocean)", "dimensions": "longitude latitude time depth0m", "out_name": "fgco2", @@ -1551,7 +1551,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Abiotic CO2", + "long_name": "Surface Downward Mass Flux of Carbon as Abiotic CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of abiotic CO2 (positive into ocean)", "dimensions": "longitude latitude time depth0m", "out_name": "fgco2abio", @@ -1569,7 +1569,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Natural CO2", + "long_name": "Surface Downward Mass Flux of Carbon as Natural CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of natural CO2 (positive into ocean)", "dimensions": "longitude latitude time depth0m", "out_name": "fgco2nat", @@ -2863,7 +2863,7 @@ "modeling_realm": "ocean", "standard_name": "sea_water_mass_per_unit_area", "units": "kg m-2", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Mass per Area", "comment": "Tracer grid-cell mass per unit area used for computing tracer budgets. For Boussinesq models with static ocean grid cell thickness, masscello = rhozero*thickcello, where thickcello is static cell thickness and rhozero is constant Boussinesq reference density. More generally, masscello is time dependent and reported as part of Omon.", @@ -4481,7 +4481,7 @@ "tauucorr": { "frequency": "mon", "modeling_realm": "ocean", - "standard_name": "surface_downward_x_stress_correction", + "standard_name": "downward_x_stress_correction_at_sea_water_surface", "units": "N m-2", "cell_methods": "time: mean", "cell_measures": "--OPT", @@ -4499,11 +4499,11 @@ "tauuo": { "frequency": "mon", "modeling_realm": "ocean", - "standard_name": "surface_downward_x_stress", + "standard_name": "downward_x_stress_at_sea_water_surface", "units": "N m-2", "cell_methods": "time: mean", "cell_measures": "--OPT", - "long_name": "Surface Downward X Stress", + "long_name": "Sea Water Surface Downward X Stress", "comment": "This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.", "dimensions": "longitude latitude time", "out_name": "tauuo", @@ -4517,7 +4517,7 @@ "tauvcorr": { "frequency": "mon", "modeling_realm": "ocean", - "standard_name": "surface_downward_y_stress_correction", + "standard_name": "downward_y_stress_correction_at_sea_water_surface", "units": "N m-2", "cell_methods": "time: mean", "cell_measures": "--OPT", @@ -4535,11 +4535,11 @@ "tauvo": { "frequency": "mon", "modeling_realm": "ocean", - "standard_name": "surface_downward_y_stress", + "standard_name": "downward_y_stress_at_sea_water_surface", "units": "N m-2", "cell_methods": "time: mean", "cell_measures": "--OPT", - "long_name": "Surface Downward Y Stress", + "long_name": "Sea Water Surface Downward Y Stress", "comment": "This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.", "dimensions": "longitude latitude time", "out_name": "tauvo", @@ -4753,7 +4753,7 @@ "modeling_realm": "ocean", "standard_name": "ocean_volume", "units": "m3", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Volume", "comment": "grid-cell volume ca. 2000.", @@ -4900,7 +4900,7 @@ "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", "long_name": "Water Flux Correction", - "comment": "Positive flux implies correction adds water to ocean.", + "comment": "Computed as the water flux into the ocean due to flux correction divided by the area of the ocean portion of the grid cell.", "dimensions": "longitude latitude time", "out_name": "wfcorr", "type": "real", @@ -4918,7 +4918,7 @@ "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", "long_name": "Water Flux into Sea Water", - "comment": "computed as the water flux into the ocean divided by the area of the ocean portion of the grid cell. This is the sum of the next two variables in this table.", + "comment": "Computed as the water flux into the ocean divided by the area of the ocean portion of the grid cell. This is the sum *wfonocorr* and *wfcorr*.", "dimensions": "longitude latitude time", "out_name": "wfo", "type": "real", @@ -4936,7 +4936,7 @@ "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", "long_name": "Water Flux into Sea Water Without Flux Correction", - "comment": "computed as the water flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.", + "comment": "Computed as the water flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.", "dimensions": "longitude latitude time", "out_name": "wfonocorr", "type": "real", @@ -4951,7 +4951,7 @@ "modeling_realm": "ocean", "standard_name": "upward_ocean_mass_transport", "units": "kg s-1", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Upward Ocean Mass Transport", "comment": "Upward mass transport from resolved and parameterized advective transport.", diff --git a/Tables/CMIP6_Oyr.json b/Tables/CMIP6_Oyr.json index 2edf55bb..a2e860c8 100644 --- a/Tables/CMIP6_Oyr.json +++ b/Tables/CMIP6_Oyr.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table Oyr", "realm": "ocnBgchem", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", @@ -939,7 +939,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of 13CO2", + "long_name": "Surface Downward Mass Flux of Carbon-13 as 13CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of carbon-13 as CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fg13co2", @@ -957,7 +957,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Abiotic 14CO2", + "long_name": "Surface Downward Mass Flux of Carbon-14 as Abiotic 14CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of abiotic 14CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fg14co2abio", @@ -975,7 +975,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Total CO2", + "long_name": "Surface Downward Mass Flux of Carbon as CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fgco2", @@ -993,7 +993,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Abiotic CO2", + "long_name": "Surface Downward Mass Flux of Carbon as Abiotic CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of abiotic CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fgco2abio", @@ -1011,7 +1011,7 @@ "units": "kg m-2 s-1", "cell_methods": "area: mean where sea time: mean", "cell_measures": "area: areacello", - "long_name": "Surface Downward Flux of Natural CO2", + "long_name": "Surface Downward Mass Flux of Carbon as Natural CO2 [kgC m-2 s-1]", "comment": "Gas exchange flux of natural CO2 (positive into ocean)", "dimensions": "longitude latitude time", "out_name": "fgco2nat", @@ -2125,7 +2125,7 @@ "modeling_realm": "ocean", "standard_name": "ocean_volume", "units": "m3", - "cell_methods": "area: mean where sea time: mean", + "cell_methods": "area: sum where sea time: mean", "cell_measures": "area: areacello volume: volcello", "long_name": "Ocean Grid-Cell Volume", "comment": "grid-cell volume ca. 2000.", diff --git a/Tables/CMIP6_SIday.json b/Tables/CMIP6_SIday.json index 9b4b7eb6..39cb7fea 100644 --- a/Tables/CMIP6_SIday.json +++ b/Tables/CMIP6_SIday.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table SIday", "realm": "seaIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_SImon.json b/Tables/CMIP6_SImon.json index 9d6c303c..66619d82 100644 --- a/Tables/CMIP6_SImon.json +++ b/Tables/CMIP6_SImon.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table SImon", "realm": "seaIce", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_coordinate.json b/Tables/CMIP6_coordinate.json index 6fe20767..d3ef51a1 100644 --- a/Tables/CMIP6_coordinate.json +++ b/Tables/CMIP6_coordinate.json @@ -523,13 +523,13 @@ "generic_level_name": "olevhalf" }, "effectRadIc": { - "standard_name": "", + "standard_name": "effective_radius_of_convective_cloud_ice_particle", "units": "micron", "axis": "", "long_name": "Effective Radius [Values to be specified]", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "yes", "out_name": "effectRadIc", "positive": "", "requested": [ @@ -566,13 +566,13 @@ "generic_level_name": "" }, "effectRadLi": { - "standard_name": "", + "standard_name": "effective_radius_of_cloud_liquid_water_particle", "units": "micron", "axis": "", "long_name": "Effective Radius [Values to be specified]", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "yes", "out_name": "effectRadLi", "positive": "", "requested": [ @@ -776,7 +776,7 @@ "long_name": "Radiation Wavelength 550 nanometers", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "no", "out_name": "wavelength", "positive": "", "requested": "", @@ -3252,7 +3252,7 @@ "long_name": "X-coordinate of Antarctic grid", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "no", "out_name": "xant", "positive": "", "requested": "", @@ -3275,7 +3275,7 @@ "long_name": "X-coordinate of Greenland grid", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "no", "out_name": "xgre", "positive": "", "requested": "", @@ -3298,7 +3298,7 @@ "long_name": "Y-coordinate of Antarctic grid", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "no", "out_name": "yant", "positive": "", "requested": "", @@ -3321,7 +3321,7 @@ "long_name": "Y-coordinate of Greenland grid", "climatology": "", "formula": "", - "must_have_bounds": "", + "must_have_bounds": "no", "out_name": "ygre", "positive": "", "requested": "", diff --git a/Tables/CMIP6_day.json b/Tables/CMIP6_day.json index aae33651..6a29fff1 100644 --- a/Tables/CMIP6_day.json +++ b/Tables/CMIP6_day.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table day", "realm": "atmos", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_fx.json b/Tables/CMIP6_fx.json index e10c42d2..01714ad6 100644 --- a/Tables/CMIP6_fx.json +++ b/Tables/CMIP6_fx.json @@ -1,10 +1,10 @@ { "Header": { - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "cmor_version": "3.4", "table_id": "Table fx", "realm": "land", - "table_date": "09 May 2019", + "table_date": "22 July 2019", "missing_value": "1e20", "int_missing_value": "-999", "product": "model-output", diff --git a/Tables/CMIP6_grids.json b/Tables/CMIP6_grids.json index e6d5486e..85adb3f1 100644 --- a/Tables/CMIP6_grids.json +++ b/Tables/CMIP6_grids.json @@ -4,9 +4,9 @@ "cmor_version": "3.4", "Conventions": "CF-1.7 CMIP-6.2", "table_id": "Table grids", - "data_specs_version": "01.00.30", + "data_specs_version": "01.00.31", "missing_value": "1e20", - "table_date": "09 May 2019" + "table_date": "22 July 2019" }, "mapping_entry": { "sample_user_mapping": {