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Tables/era5-cmor-tables/ERA5_CV.json
View file @ 8d0535cd
......@@ -60,13 +60,13 @@
"observations",
],
"realm":[
"aerosol",
"atmos atmosChem",
"atmos",
"atmosChem",
"land",
"landIce land",
"landIce",
"ocean",
"ocnBgchem",
"seaIce ocean",
"seaIce"
],
"region":[
......@@ -102,9 +102,9 @@
"source_type":"reanalysis",
"source_version_number":"1.0"
},
"ERA-5Land":{
"ERA-5-Land":{
"region":"global",
"source":"ECMWF-ERA-5Land 1.0 (2019): ECMWF - ERA5Land (European ReAnalysis)",
"source":"ECMWF-ERA-5-Land 1.0 (2019): ECMWF - ERA5Land (European ReAnalysis)",
"source_type":"reanalysis",
"source_version_number":"1.0"
},
......
Tables/era5-cmor-tables/ERA5_realm.json
View file @ 8d0535cd
{
"realm":[
"aerosol",
"atmos atmosChem",
"atmos",
"atmosChem",
"land",
"landIce land",
"landIce",
"ocean",
"ocnBgchem",
"seaIce ocean",
"seaIce"
]
}
\ No newline at end of file
Tables/era5-cmor-tables/ERA5_source_id.json
View file @ 8d0535cd
......@@ -26,16 +26,16 @@
],
"source_version_number":"1.0"
},
"ERA-5Land":{
"ERA-5-Land":{
"institution_id":"ECMWF",
"region":[
"global"
],
"release_year":"2019",
"source_description":"ECMWF - ERA5Land (European ReAnalysis)",
"source_id":"ERA-5Land",
"source_label":"ECMWF-ERA-5Land",
"source_name":"ECMWF ERA-5Land",
"source_id":"ERA-5-Land",
"source_label":"ECMWF-ERA-5-Land",
"source_name":"ECMWF ERA-5-Land",
"source_type":"reanalysis",
"citation":"Muñoz Sabater, J. (2019): ERA5-Land hourly data from 1950 to present. Copernicus Climate Change Service (C3S) Climate Data Store (CDS). DOI: 10.24381/cds.e2161bac (Accessed on DD-MMM-YYYY). Data distribution by the German Climate Computing Center (DKRZ).",
"family":"EL",
......
Tables/era5-cmor-tables/Tables/ERA5Land_day_sfc.json
View file @ 8d0535cd
......@@ -10,7 +10,7 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos land landIce landIce land",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5Land_day_sfc"
},
"variable_entry": {
......@@ -41,14 +41,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"asn": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Snow Albedo",
"modeling_realm": "landIce",
......@@ -71,14 +71,14 @@
"level_type": "sfc_an_land",
"conversion": "100",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "ECMWF"
},
"rsn": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Snow Density",
"modeling_realm": "landIce",
......@@ -101,14 +101,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CF"
},
"swvl1": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=1)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Volumetric Soil Water Layer 1",
"modeling_realm": "land",
......@@ -131,14 +131,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CF"
},
"swvl2": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=2)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Volumetric Soil Water Layer 2",
"modeling_realm": "land",
......@@ -161,14 +161,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CF"
},
"swvl3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=3)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Volumetric Soil Water Layer 3",
"modeling_realm": "land",
......@@ -191,14 +191,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CF"
},
"swvl4": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=4)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Volumetric Soil Water Layer 4",
"modeling_realm": "land",
......@@ -221,7 +221,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CF"
},
"esn": {
......@@ -251,7 +251,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"snm": {
......@@ -281,7 +281,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"ps": {
......@@ -311,14 +311,14 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
},
"tsl1": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 1",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Temperature of Soil 1",
"modeling_realm": "land",
......@@ -341,7 +341,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CMIP6"
},
"snd": {
......@@ -371,7 +371,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"prsn": {
......@@ -401,7 +401,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"hfss": {
......@@ -431,7 +431,7 @@
"level_type": "sfc_fc_land",
"conversion": "-0.0002777777777777778",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"hfls": {
......@@ -461,7 +461,7 @@
"level_type": "sfc_fc_land",
"conversion": "-0.0002777777777777778",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"uas": {
......@@ -491,7 +491,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"vas": {
......@@ -521,7 +521,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"tas": {
......@@ -551,7 +551,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"tdps": {
......@@ -581,7 +581,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"rsds": {
......@@ -611,14 +611,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"tsl2": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 2",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Temperature of Soil 2",
"modeling_realm": "land",
......@@ -641,7 +641,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CMIP6"
},
"rlds": {
......@@ -671,7 +671,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"rss": {
......@@ -701,7 +701,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"rls": {
......@@ -731,7 +731,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"evspsbl": {
......@@ -761,14 +761,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"tsl3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 3",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Temperature of Soil 3",
"modeling_realm": "land",
......@@ -791,14 +791,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CMIP6"
},
"src": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Skin Reservoir Content",
"modeling_realm": "atmos",
......@@ -821,7 +821,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"mrro": {
......@@ -851,7 +851,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"pr": {
......@@ -881,14 +881,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"skt": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Skin Temperature",
"modeling_realm": "atmos",
......@@ -911,14 +911,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"tsl4": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 4",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Temperature of Soil 4",
"modeling_realm": "land",
......@@ -941,7 +941,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Lday",
"mapping": "CMIP6"
},
"tsn": {
......@@ -971,14 +971,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"fal": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "day",
"long_name": "Forecast Albedo",
"modeling_realm": "atmos",
......@@ -1001,7 +1001,7 @@
"level_type": "sfc_fc_land",
"conversion": "100",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"evspsblpot": {
......@@ -1031,7 +1031,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_Eday.json",
"table": "CMIP6_Eday.json",
"table": "Eday",
"mapping": "CMIP6"
},
"snc": {
......@@ -1061,7 +1061,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5Land_fx_sfc.json 0 → 100644
View file @ 8d0535cd
{
"Header": {
"Conventions": "CF-1.7 ODS-2.1",
"approx_interval": "0.0",
"cmor_version": "3.5",
"data_specs_version": "2.1.0",
"generic_levels": "",
"int_missing_value": "-999",
"mip_era": "CMIP6",
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos land",
"table_date": "03 April 2025",
"table_id": "Table ERA5Land_fx_sfc"
},
"variable_entry": {
"areacella": {
"cell_measures": "",
"cell_methods": "area: sum",
"comment": "For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Grid-Cell Area for Atmospheric Grid Variables",
"modeling_realm": "atmos land",
"ok_max_mean_abs": "",
"ok_min_mean_abs": "",
"out_name": "areacella",
"positive": "",
"standard_name": "cell_area",
"type": "real",
"units": "m2",
"valid_max": "",
"valid_min": "",
"grib_paramID": "",
"grib_code": "",
"orig_short_name": "",
"orig_name": "",
"orig_units": "",
"grib_description": "",
"orig_grid": "redGG-N1280",
"level_type": "sfc_an_land",
"conversion": "",
"source_table": "obs4MIPs_fx.json",
"table": "fx",
"mapping": "Obs4MIPs"
}
}
}
\ No newline at end of file
Tables/era5-cmor-tables/Tables/ERA5Land_mon_sfc.json
View file @ 8d0535cd
......@@ -10,7 +10,7 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos land landIce landIce land",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5Land_mon_sfc"
},
"variable_entry": {
......@@ -41,14 +41,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "obs4MIPs_Lmon.json",
"table": "obs4MIPs_Lmon.json",
"table": "Lmon",
"mapping": "obs4MIPs"
},
"asn": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Snow Albedo",
"modeling_realm": "landIce",
......@@ -71,14 +71,14 @@
"level_type": "sfc_an_land",
"conversion": "100",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "ECMWF"
},
"rsn": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Snow Density",
"modeling_realm": "landIce",
......@@ -101,14 +101,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CF"
},
"swvl1": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=1)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Volumetric Soil Water Layer 1",
"modeling_realm": "land",
......@@ -131,14 +131,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CF"
},
"swvl2": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=2)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Volumetric Soil Water Layer 2",
"modeling_realm": "land",
......@@ -161,14 +161,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CF"
},
"swvl3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=3)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Volumetric Soil Water Layer 3",
"modeling_realm": "land",
......@@ -191,14 +191,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CF"
},
"swvl4": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "(vertical coordinate lev=4)",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Volumetric Soil Water Layer 4",
"modeling_realm": "land",
......@@ -221,14 +221,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CF"
},
"esn": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "derived from the hourly accumulated quantity and assuming a constant density of water of 1 kg m-3",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Snow Evaporation",
"modeling_realm": "land",
......@@ -251,7 +251,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CMIP6"
},
"snm": {
......@@ -281,7 +281,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_ImonAnt.json",
"table": "CMIP6_ImonAnt.json",
"table": "ImonAnt",
"mapping": "CMIP6"
},
"ps": {
......@@ -311,14 +311,14 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"tsl1": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 1",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Temperature of Soil 1",
"modeling_realm": "land",
......@@ -341,7 +341,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CMIP6"
},
"snd": {
......@@ -371,7 +371,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "CMIP6_LImon.json",
"table": "CMIP6_LImon.json",
"table": "LImon",
"mapping": "CMIP6"
},
"prsn": {
......@@ -401,7 +401,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"hfss": {
......@@ -431,7 +431,7 @@
"level_type": "sfc_fc_land",
"conversion": "-0.0002777777777777778",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"hfls": {
......@@ -461,7 +461,7 @@
"level_type": "sfc_fc_land",
"conversion": "-0.0002777777777777778",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"uas": {
......@@ -491,7 +491,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"vas": {
......@@ -521,7 +521,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"tas": {
......@@ -551,7 +551,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"tdps": {
......@@ -581,7 +581,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "CMIP6_Emon.json",
"table": "CMIP6_Emon.json",
"table": "Emon",
"mapping": "CMIP6"
},
"rsds": {
......@@ -611,14 +611,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"tsl2": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 2",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Temperature of Soil 2",
"modeling_realm": "land",
......@@ -641,7 +641,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CMIP6"
},
"rlds": {
......@@ -671,7 +671,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"rss": {
......@@ -701,7 +701,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600.0",
"source_table": "CMIP6_Emon.json",
"table": "CMIP6_Emon.json",
"table": "Emon",
"mapping": "CMIP6"
},
"rls": {
......@@ -731,7 +731,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3600",
"source_table": "CMIP6_Emon.json",
"table": "CMIP6_Emon.json",
"table": "Emon",
"mapping": "CMIP6"
},
"evspsbl": {
......@@ -761,14 +761,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"tsl3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 3",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Temperature of Soil 3",
"modeling_realm": "land",
......@@ -791,14 +791,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CMIP6"
},
"src": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Skin Reservoir Content",
"modeling_realm": "atmos",
......@@ -821,7 +821,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"mrro": {
......@@ -851,7 +851,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Lmon.json",
"table": "obs4MIPs_Lmon.json",
"table": "Lmon",
"mapping": "obs4MIPs"
},
"pr": {
......@@ -881,14 +881,14 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"skt": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Skin Temperature",
"modeling_realm": "atmos",
......@@ -911,14 +911,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"tsl4": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "at level 4",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Temperature of Soil 4",
"modeling_realm": "land",
......@@ -941,7 +941,7 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Lmon",
"mapping": "CMIP6"
},
"tsn": {
......@@ -971,14 +971,14 @@
"level_type": "sfc_an_land",
"conversion": "1",
"source_table": "CMIP6_ImonAnt.json",
"table": "CMIP6_ImonAnt.json",
"table": "ImonAnt",
"mapping": "CMIP6"
},
"fal": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude time",
"frequency": "mon",
"long_name": "Forecast Albedo",
"modeling_realm": "atmos",
......@@ -1001,7 +1001,7 @@
"level_type": "sfc_fc_land",
"conversion": "100",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"evspsblpot": {
......@@ -1031,7 +1031,7 @@
"level_type": "sfc_fc_land",
"conversion": "1.0/3.6",
"source_table": "CMIP6_Emon.json",
"table": "CMIP6_Emon.json",
"table": "Emon",
"mapping": "CMIP6"
},
"snc": {
......@@ -1061,7 +1061,7 @@
"level_type": "sfc_fc_land",
"conversion": "1",
"source_table": "CMIP6_ImonAnt.json",
"table": "CMIP6_ImonAnt.json",
"table": "ImonAnt",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_1hr_ml.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_1hr_ml"
},
"variable_entry": {
"crcw": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Specific Rain Water Content",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"cswc": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Specific Snow Water Content",
"modeling_realm": "atmos",
......@@ -71,14 +71,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"etadot": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Eta-coordinate Vertical Velocity",
"modeling_realm": "atmos",
......@@ -101,14 +101,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -131,14 +131,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"zg": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface.. derived from Geopotential (z)",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "ml_an",
"conversion": "1.0/9.80665",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"ta": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Air Temperature",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Air Temperature",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"ua": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Zonal wind (positive in a eastward direction).",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Eastward Wind",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"va": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Meridional wind (positive in a northward direction).",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Northward Wind",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"hus": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Specific humidity is the mass fraction of water vapor in (moist) air.",
"dimensions": "longitude latitude alevel time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Specific Humidity",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E3hrPt.json",
"table": "CMIP6_E3hrPt.json",
"table": "E3hrPt",
"mapping": "CMIP6"
},
"wap": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Omega (vertical velocity in pressure coordinates, positive downwards)",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "omega (=dp/dt)",
"modeling_realm": "atmos",
......@@ -311,14 +311,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"rv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Relative Vorticity",
"modeling_realm": "atmos",
......@@ -341,14 +341,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"lnsp": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Logarithm of Surface Pressure",
"modeling_realm": "atmos",
......@@ -371,14 +371,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"d": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Divergence",
"modeling_realm": "atmos",
......@@ -401,14 +401,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"o3": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.",
"dimensions": "longitude latitude alevel time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Ozone Mass Mixing Ratio",
"modeling_realm": "atmos",
......@@ -431,14 +431,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_E3hrPt.json",
"table": "CMIP6_E3hrPt.json",
"mapping": "CF"
"table": "E3hrPt",
"mapping": "CMIP6"
},
"clw": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Mass Fraction of Cloud Liquid Water",
"modeling_realm": "atmos",
......@@ -461,14 +461,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"cli": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Mass Fraction of Cloud Ice",
"modeling_realm": "atmos",
......@@ -491,14 +491,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"cl": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Percentage cloud cover, including both large-scale and convective cloud.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude alevel137 time",
"frequency": "1hr",
"long_name": "Percentage Cloud Cover",
"modeling_realm": "atmos",
......@@ -521,7 +521,7 @@
"level_type": "ml_an",
"conversion": "100",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_1hr_pl.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_1hr_pl"
},
"variable_entry": {
"pv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Potential Vorticity",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"crcw": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Specific Rain Water Content",
"modeling_realm": "atmos",
......@@ -71,14 +71,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"cswc": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Specific Snow Water Content",
"modeling_realm": "atmos",
......@@ -101,14 +101,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -131,14 +131,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"zg": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface.. derived from Geopotential (z)",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "pl_an",
"conversion": "1.0/9.80665",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"ta": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Air Temperature",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Air Temperature",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"ua": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Zonal wind (positive in a eastward direction).",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Eastward Wind",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"va": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Meridional wind (positive in a northward direction).",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Northward Wind",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"hus": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Specific humidity is the mass fraction of water vapor in (moist) air.",
"dimensions": "longitude latitude alevel time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Specific Humidity",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E3hrPt.json",
"table": "CMIP6_E3hrPt.json",
"table": "E3hrPt",
"mapping": "CMIP6"
},
"wap": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Omega (vertical velocity in pressure coordinates, positive downwards)",
"dimensions": "longitude latitude plev3 time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "omega (=dp/dt)",
"modeling_realm": "atmos",
......@@ -311,14 +311,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E1hr.json",
"table": "CMIP6_E1hr.json",
"table": "E1hr",
"mapping": "CMIP6"
},
"rv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Relative Vorticity",
"modeling_realm": "atmos",
......@@ -341,14 +341,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"d": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Divergence",
"modeling_realm": "atmos",
......@@ -371,14 +371,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "1hr",
"table": "A1hr",
"mapping": "CF"
},
"hur": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "The relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Relative Humidity",
"modeling_realm": "atmos",
......@@ -401,14 +401,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"o3": {
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: point",
"comment": "Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.",
"dimensions": "longitude latitude alevel time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Ozone Mass Mixing Ratio",
"modeling_realm": "atmos",
......@@ -431,14 +431,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_E3hrPt.json",
"table": "CMIP6_E3hrPt.json",
"mapping": "CF"
"table": "E3hrPt",
"mapping": "CMIP6"
},
"clw": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Mass Fraction of Cloud Liquid Water",
"modeling_realm": "atmos",
......@@ -461,14 +461,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"cli": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Mass Fraction of Cloud Ice",
"modeling_realm": "atmos",
......@@ -491,14 +491,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
},
"cl": {
"cell_measures": "",
"cell_measures": "area: areacella",
"cell_methods": "area: point time: point",
"comment": "Percentage cloud cover, including both large-scale and convective cloud.",
"dimensions": "alevel site time1",
"dimensions": "longitude latitude plev37 time",
"frequency": "1hr",
"long_name": "Percentage Cloud Cover",
"modeling_realm": "atmos",
......@@ -521,7 +521,7 @@
"level_type": "pl_an",
"conversion": "100",
"source_table": "CMIP6_CFsubhr.json",
"table": "CMIP6_CFsubhr.json",
"table": "CFsubhr",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_day_ml.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_day_ml"
},
"variable_entry": {
"crcw": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Specific Rain Water Content",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"cswc": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Specific Snow Water Content",
"modeling_realm": "atmos",
......@@ -71,14 +71,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"etadot": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Eta-coordinate Vertical Velocity",
"modeling_realm": "atmos",
......@@ -101,14 +101,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -131,14 +131,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"zg": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface.. derived from Geopotential (z)",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "ml_an",
"conversion": "1.0/9.80665",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"ta": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Air Temperature",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Air Temperature",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"ua": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Zonal wind (positive in a eastward direction).",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Eastward Wind",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"va": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Meridional wind (positive in a northward direction).",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Northward Wind",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"hus": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Specific humidity is the mass fraction of water vapor in (moist) air.",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Specific Humidity",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"wap": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Omega (vertical velocity in pressure coordinates, positive downwards)",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "omega (=dp/dt)",
"modeling_realm": "atmos",
......@@ -311,14 +311,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"rv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Relative Vorticity",
"modeling_realm": "atmos",
......@@ -341,14 +341,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"lnsp": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Logarithm of Surface Pressure",
"modeling_realm": "atmos",
......@@ -371,14 +371,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"d": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Divergence",
"modeling_realm": "atmos",
......@@ -401,14 +401,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"o3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Ozone Mass Mixing Ratio",
"modeling_realm": "atmos",
......@@ -431,14 +431,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "day",
"mapping": "CF"
"table": "Aday",
"mapping": "CMIP6"
},
"clw": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Mass Fraction of Cloud Liquid Water",
"modeling_realm": "atmos",
......@@ -461,14 +461,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
},
"cli": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Mass Fraction of Cloud Ice",
"modeling_realm": "atmos",
......@@ -491,14 +491,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
},
"cl": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Percentage cloud cover, including both large-scale and convective cloud.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "day",
"long_name": "Percentage Cloud Cover",
"modeling_realm": "atmos",
......@@ -521,7 +521,7 @@
"level_type": "ml_an",
"conversion": "100",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_day_pl.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_day_pl"
},
"variable_entry": {
"pv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Potential Vorticity",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"crcw": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Specific Rain Water Content",
"modeling_realm": "atmos",
......@@ -71,14 +71,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"cswc": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Specific Snow Water Content",
"modeling_realm": "atmos",
......@@ -101,14 +101,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -131,14 +131,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"zg": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface.. derived from Geopotential (z)",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "pl_an",
"conversion": "1.0/9.80665",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"ta": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Air Temperature",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Air Temperature",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"ua": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Zonal wind (positive in a eastward direction).",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Eastward Wind",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"va": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Meridional wind (positive in a northward direction).",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Northward Wind",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"hus": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Specific humidity is the mass fraction of water vapor in (moist) air.",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Specific Humidity",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"wap": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Omega (vertical velocity in pressure coordinates, positive downwards)",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "omega (=dp/dt)",
"modeling_realm": "atmos",
......@@ -311,14 +311,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"rv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Relative Vorticity",
"modeling_realm": "atmos",
......@@ -341,14 +341,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"d": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Divergence",
"modeling_realm": "atmos",
......@@ -371,14 +371,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"table": "Aday",
"mapping": "CF"
},
"hur": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "The relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",
"dimensions": "longitude latitude plev8 time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Relative Humidity",
"modeling_realm": "atmos",
......@@ -401,14 +401,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "obs4MIPs_Aday.json",
"table": "obs4MIPs_Aday.json",
"table": "Aday",
"mapping": "obs4MIPs"
},
"o3": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Ozone Mass Mixing Ratio",
"modeling_realm": "atmos",
......@@ -431,14 +431,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "day",
"mapping": "CF"
"table": "Aday",
"mapping": "CMIP6"
},
"clw": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Mass Fraction of Cloud Liquid Water",
"modeling_realm": "atmos",
......@@ -461,14 +461,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
},
"cli": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Mass Fraction of Cloud Ice",
"modeling_realm": "atmos",
......@@ -491,14 +491,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
},
"cl": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Percentage cloud cover, including both large-scale and convective cloud.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude plev37 time",
"frequency": "day",
"long_name": "Percentage Cloud Cover",
"modeling_realm": "atmos",
......@@ -521,7 +521,7 @@
"level_type": "pl_an",
"conversion": "100",
"source_table": "CMIP6_CFday.json",
"table": "CMIP6_CFday.json",
"table": "CFday",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_fx_ml.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_fx_ml"
},
"variable_entry": {
"z": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude alevel137",
"frequency": "fx",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CF"
},
"zg": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "derived from Geopotential (z)",
"dimensions": "lat lon",
"dimensions": "longitude latitude alevel137",
"frequency": "fx",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -71,7 +71,7 @@
"level_type": "ml_an",
"conversion": "1.0/9.80665",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_fx_pl.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_fx_pl"
},
"variable_entry": {
"z": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude plev37",
"frequency": "fx",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "pl_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CF"
},
"zg": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "derived from Geopotential (z)",
"dimensions": "lat lon",
"dimensions": "longitude latitude plev37",
"frequency": "fx",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -71,7 +71,7 @@
"level_type": "pl_an",
"conversion": "1.0/9.80665",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CMIP6"
}
}
......
Tables/era5-cmor-tables/Tables/ERA5_fx_sfc.json
View file @ 8d0535cd
......@@ -9,16 +9,16 @@
"mip_era": "CMIP6",
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos land",
"table_date": "02 April 2025",
"realm": "atmos atmos land land",
"table_date": "03 April 2025",
"table_id": "Table ERA5_fx_sfc"
},
"variable_entry": {
"cvl": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Low Vegetation Cover",
"modeling_realm": "land",
......@@ -41,14 +41,14 @@
"level_type": "sfc_an",
"conversion": "100",
"source_table": "",
"table": "fx",
"table": "Lfx",
"mapping": "ECMWF"
},
"cvh": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "High Vegetation Cover",
"modeling_realm": "land",
......@@ -71,14 +71,14 @@
"level_type": "sfc_an",
"conversion": "100",
"source_table": "",
"table": "fx",
"table": "Lfx",
"mapping": "ECMWF"
},
"tvl": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Type of Low Vegetation",
"modeling_realm": "land",
......@@ -101,14 +101,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Lfx",
"mapping": "ECMWF"
},
"tvh": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean where land time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Type of High Vegetation",
"modeling_realm": "land",
......@@ -131,14 +131,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Lfx",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CF"
},
"zg": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "derived from Geopotential (z)",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "sfc_an",
"conversion": "1.0/9.80665",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "CMIP6"
},
"sdor": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Standard Deviation of Orography",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "ECMWF"
},
"isor": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Anisotropy of Sub-gridscale Orography",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "ECMWF"
},
"anor": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Angle of Sub-gridscale Orography",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "ECMWF"
},
"slor": {
"cell_measures": "",
"cell_methods": "",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "lat lon",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Slope of Sub-gridscale Orography",
"modeling_realm": "atmos",
......@@ -311,7 +311,7 @@
"level_type": "sfc_an",
"conversion": "1",
"source_table": "",
"table": "fx",
"table": "Afx",
"mapping": "ECMWF"
},
"sftlf": {
......@@ -341,8 +341,38 @@
"level_type": "sfc_an",
"conversion": "100",
"source_table": "obs4MIPs_fx.json",
"table": "obs4MIPs_fx.json",
"table": "fx",
"mapping": "obs4MIPs"
},
"areacella": {
"cell_measures": "",
"cell_methods": "area: sum",
"comment": "For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",
"dimensions": "longitude latitude",
"frequency": "fx",
"long_name": "Grid-Cell Area for Atmospheric Grid Variables",
"modeling_realm": "atmos land",
"ok_max_mean_abs": "",
"ok_min_mean_abs": "",
"out_name": "areacella",
"positive": "",
"standard_name": "cell_area",
"type": "real",
"units": "m2",
"valid_max": "",
"valid_min": "",
"grib_paramID": "",
"grib_code": "",
"orig_short_name": "",
"orig_name": "",
"orig_units": "",
"grib_description": "",
"orig_grid": "redGG-N320",
"level_type": "sfc_an",
"conversion": "",
"source_table": "obs4MIPs_fx.json",
"table": "fx",
"mapping": "Obs4MIPs"
}
}
}
\ No newline at end of file
Tables/era5-cmor-tables/Tables/ERA5_mon_ml.json
View file @ 8d0535cd
......@@ -10,15 +10,15 @@
"missing_value": "1e20",
"product": "model-output",
"realm": "atmos atmos atmosChem",
"table_date": "02 April 2025",
"table_date": "03 April 2025",
"table_id": "Table ERA5_mon_ml"
},
"variable_entry": {
"crcw": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Specific Rain Water Content",
"modeling_realm": "atmos",
......@@ -41,14 +41,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"cswc": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Specific Snow Water Content",
"modeling_realm": "atmos",
......@@ -71,14 +71,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"etadot": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Eta-coordinate Vertical Velocity",
"modeling_realm": "atmos",
......@@ -101,14 +101,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"z": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Geopotential",
"modeling_realm": "atmos",
......@@ -131,14 +131,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "CF"
},
"zg": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Geopotential is the sum of the specific gravitational potential energy relative to the geoid and the specific centripetal potential energy. Geopotential height is the geopotential divided by the standard acceleration due to gravity. It is numerically similar to the altitude (or geometric height) and not to the quantity with standard name height, which is relative to the surface.. derived from Geopotential (z)",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Geopotential Height",
"modeling_realm": "atmos",
......@@ -161,14 +161,14 @@
"level_type": "ml_an",
"conversion": "1.0/9.80665",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"ta": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Air Temperature",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Air Temperature",
"modeling_realm": "atmos",
......@@ -191,14 +191,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"ua": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Zonal wind (positive in a eastward direction).",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Eastward Wind",
"modeling_realm": "atmos",
......@@ -221,14 +221,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"va": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Meridional wind (positive in a northward direction).",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Northward Wind",
"modeling_realm": "atmos",
......@@ -251,14 +251,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"hus": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Specific humidity is the mass fraction of water vapor in (moist) air.",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Specific Humidity",
"modeling_realm": "atmos",
......@@ -281,14 +281,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"wap": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Omega (vertical velocity in pressure coordinates, positive downwards)",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "omega (=dp/dt)",
"modeling_realm": "atmos",
......@@ -311,14 +311,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"rv": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Relative Vorticity",
"modeling_realm": "atmos",
......@@ -341,14 +341,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "CF"
},
"lnsp": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Logarithm of Surface Pressure",
"modeling_realm": "atmos",
......@@ -371,14 +371,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "ECMWF"
},
"d": {
"cell_measures": "",
"cell_methods": "time: mean",
"cell_measures": "area: areacella",
"cell_methods": "area: mean time: mean",
"comment": "",
"dimensions": "time lat lon",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Divergence",
"modeling_realm": "atmos",
......@@ -401,14 +401,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "",
"table": "mon",
"table": "Amon",
"mapping": "CF"
},
"o3": {
"cell_measures": "area: areacella",
"cell_methods": "time: mean",
"comment": "Mole fraction is used in the construction mole_fraction_of_X_in_Y, where X is a material constituent of Y.",
"dimensions": "longitude latitude plev19 time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Ozone Mass Mixing Ratio",
"modeling_realm": "atmos atmosChem",
......@@ -431,14 +431,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"mapping": "CF"
"table": "Amon",
"mapping": "obs4MIPs"
},
"clw": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Mass Fraction of Cloud Liquid Water",
"modeling_realm": "atmos",
......@@ -461,14 +461,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"cli": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Includes both large-scale and convective cloud. This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Mass Fraction of Cloud Ice",
"modeling_realm": "atmos",
......@@ -491,14 +491,14 @@
"level_type": "ml_an",
"conversion": "1",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
},
"cl": {
"cell_measures": "area: areacella",
"cell_methods": "area: time: mean",
"comment": "Percentage cloud cover, including both large-scale and convective cloud.",
"dimensions": "longitude latitude alevel time",
"dimensions": "longitude latitude alevel137 time",
"frequency": "mon",
"long_name": "Percentage Cloud Cover",
"modeling_realm": "atmos",
......@@ -521,7 +521,7 @@
"level_type": "ml_an",
"conversion": "100",
"source_table": "obs4MIPs_Amon.json",
"table": "obs4MIPs_Amon.json",
"table": "Amon",
"mapping": "obs4MIPs"
}
}
......
Tables/original_tables/ct_ecmwf.rc
View file @ 8d0535cd
......@@ -119,7 +119,7 @@ The units of this parameter are geopotential metres. A geopotential metre is app
198|128|198|src|Skin reservoir content|m of water equivalent|This parameter is the amount of water in the vegetation canopy and/or in a thin layer on the soil. It represents the amount of rain intercepted by foliage, and water from dew. The maximum amount of 'skin reservoir content' a grid box can hold depends on the type of vegetation, and may be zero. Water leaves the 'skin reservoir' by evaporation. [ See further information.](https://www.ecmwf.int/sites/default/files/elibrary/2016/17117-part- iv-physical-processes.pdf#subsection.H.6.1) |sfc_an,sfc_an_land|INST|redGG-N320,redGG-N1280|0|src|lwe_thickness_of_canopy_water_amount|||m|1|||Skin Reservoir Content|mon|atmos|gr|sf00
201|128|201|mx2t|Maximum temperature at 2 metres since previous post-processing|K|This parameter is the highest temperature of air at 2m above the surface of land, sea or in-land waters since the parameter was last archived in a particular forecast. 2m temperature is calculated by interpolating between the lowest model level and the Earth's surface, taking account of the atmospheric conditions.[ See further information ](https://www.ecmwf.int/sites/default/files/elibrary/2016/17117-part-iv- physical-processes.pdf#subsection.3.10.3). This parameter has units of kelvin (K). Temperature measured in kelvin can be converted to degrees Celsius (°C) by subtracting 273.15. |sfc_fc|MAX|redGG-N320|6|tasmax|air_temperature||time: max|K|1|||Maximum Near-Surface Air Temperature|Amon|atmos|gr|sf12
202|128|202|mn2t|Minimum temperature at 2 metres since previous post-processing|K|This parameter is the lowest temperature of air at 2m above the surface of land, sea or in-land waters since the parameter was last archived in a particular forecast. 2m temperature is calculated by interpolating between the lowest model level and the Earth's surface, taking account of the atmospheric conditions.[ See further information ](https://www.ecmwf.int/sites/default/files/elibrary/2016/17117-part-iv- physical-processes.pdf#subsection.3.10.3). This parameter has units of kelvin (K). Temperature measured in kelvin can be converted to degrees Celsius (°C) by subtracting 273.15. |sfc_fc|MIN|redGG-N320|6|tasmin|air_temperature||time: min|K|1|||Minimum Near-Surface Air Temperature|Amon|atmos|gr|sf12
203|128|203|o3|Ozone mass mixing ratio|kg kg-1|This parameter is the mass of ozone per kilogram of air. In the ECMWF Integrated Forecasting System (IFS), there is a simplified representation of ozone chemistry (including representation of the chemistry which has caused the ozone hole). Ozone is also transported around in the atmosphere through the motion of air.[ See further documentation](https://www.ecmwf.int/sites/default/files/elibrary/2016/16648-part- iv-physical-processes.pdf#chapter.10). Naturally occurring ozone in the stratosphere helps protect organisms at the surface of the Earth from the harmful effects of ultraviolet (UV) radiation from the Sun. Ozone near the surface, often produced because of pollution, is harmful to organisms. Most of the IFS chemical species are archived as mass mixing ratios [kg kg-1].[ This link](https://confluence.ecmwf.int/pages/viewpage.action?pageId=153391710) explains how to convert to concentration in terms of mass per unit volume. |ml_an,pl_an|INST|redGG-N320,redGG-N320|1|o3|mass_fraction_of_ozone_in_air|||kg kg-1|1|||Ozone Mass Mixing Ratio|mon|atmos|gr|pl00
203|128|203|o3|Ozone mass mixing ratio|kg kg-1|This parameter is the mass of ozone per kilogram of air. In the ECMWF Integrated Forecasting System (IFS), there is a simplified representation of ozone chemistry (including representation of the chemistry which has caused the ozone hole). Ozone is also transported around in the atmosphere through the motion of air.[ See further documentation](https://www.ecmwf.int/sites/default/files/elibrary/2016/16648-part- iv-physical-processes.pdf#chapter.10). Naturally occurring ozone in the stratosphere helps protect organisms at the surface of the Earth from the harmful effects of ultraviolet (UV) radiation from the Sun. Ozone near the surface, often produced because of pollution, is harmful to organisms. Most of the IFS chemical species are archived as mass mixing ratios [kg kg-1].[ This link](https://confluence.ecmwf.int/pages/viewpage.action?pageId=153391710) explains how to convert to concentration in terms of mass per unit volume. |ml_an,pl_an|INST|redGG-N320,redGG-N320|6|o3|mass_fraction_of_ozone_in_air|||kg kg-1|1|||Ozone Mass Mixing Ratio|mon|atmos|gr|pl00
205|128|205|ro|Runoff|m|Some water from rainfall, melting snow, or deep in the soil, stays stored in the soil. Otherwise, the water drains away, either over the surface (surface runoff), or under the ground (sub-surface runoff) and the sum of these two is simply called 'runoff'. This parameter is the total amount of water accumulated over a [particular time period which depends on the data extracted](https://confluence.ecmwf.int/display/CKB/ERA5%3A+data+documentation#ERA5:datadocumentation- Meanrates/fluxesandaccumulations).The units of runoff are depth in metres. This is the depth the water would have if it were spread evenly over the [grid box](https://confluence.ecmwf.int/display/CKB/Model+grid+box+and+time+step). Care should be taken when comparing model parameters with observations, because observations are often local to a particular point rather than averaged over a grid square area. Observations are also often taken in different units, such as mm/day, rather than the accumulated metres produced here. Runoff is a measure of the availability of water in the soil, and can, for example, be used as an indicator of drought or flood. More information about how runoff is calculated is given in the [ IFS Physical Processes documentation](https://www.ecmwf.int/sites/default/files/elibrary/2016/17117-part- iv-physical-processes.pdf#subsection.H.6.3). |sfc_fc,sfc_fc_land|ACC|redGG-N320|6|mrro|runoff_flux|runoff_amount||kg m-2 s-1|1.0/3.6||derived from the hourly accumulated quantity and assuming a constant density of water of 1 kg m-3|Total Runoff|Lmon|land|gr|sf12
206|128|206|tco3|Total column ozone|kg m-2|This parameter is the total amount of ozone in a column of air extending from the surface of the Earth to the top of the atmosphere. This parameter can also be referred to as total ozone, or vertically integrated ozone. The values are dominated by ozone within the stratosphere. In the ECMWF Integrated Forecasting System (IFS), there is a simplified representation of ozone chemistry (including representation of the chemistry which has caused the ozone hole). Ozone is also transported around in the atmosphere through the motion of air.[ See further documentation ](https://www.ecmwf.int/sites/default/files/elibrary/2016/16648-part-iv- physical-processes.pdf#chapter.10). Naturally occurring ozone in the stratosphere helps protect organisms at the surface of the Earth from the harmful effects of ultraviolet (UV) radiation from the Sun. Ozone near the surface, often produced because of pollution, is harmful to organisms. In the IFS, the units for total ozone are kilograms per square metre, but before 12/06/2001 dobson units were used. Dobson units (DU) are still used extensively for total column ozone. 1 DU = 2.1415E-5 kg m-2 |sfc_an|INST|redGG-N320|1|tco3|atmosphere_mass_content_of_ozone|||kg m-2|1|||Total Column Ozone|mon|atmos|gr|sf00
208|128|208|tsrc|Top net solar radiation, clear sky|J m-2|This parameter is the incoming solar radiation (also known as shortwave radiation) minus the outgoing solar radiation at the top of the atmosphere, assuming clear-sky (cloudless) conditions. It is the amount of radiation passing through a horizontal plane. The incoming solar radiation is the amount received from the Sun. The outgoing solar radiation is the amount reflected and scattered by the Earth's atmosphere and surface, assuming clear-sky (cloudless) conditions. [See further documentation](https://www.ecmwf.int/sites/default/files/elibrary/2015/18490-radiation- quantities-ecmwf-model-and-mars.pdf). Clear-sky radiation quantities are computed for exactly the same atmospheric conditions of temperature, humidity, ozone, trace gases and aerosol as the total-sky (clouds included) quantities, but assuming that the clouds are not there. This parameter is [accumulated over a particular time period](https://confluence.ecmwf.int/display/CKB/ERA5%3A+data+documentation#ERA5:datadocumentation- Meanrates/fluxesandaccumulations) which depends on the data extracted. The units are joules per square metre (J m-2). To convert to watts per square metre (W m-2), the accumulated values should be divided by the accumulation period expressed in seconds. The ECMWF convention for vertical fluxes is positive downwards. |sfc_fc|ACC|redGG-N320|1|rstcs|toa_net_downward_shortwave_flux_assuming_clear_sky|||W m-2|1.0/3600|down||TOA Net Downward Shortwave Flux Assuming Clear Sky|mon|atmos|gr|sf12
......

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