netcdf MACRO-2018_YSU_RhineNeckar_1_9830173155791844718 {
dimensions:
Time = 24 ;
z = 41 ;
y = 155 ;
x = 120 ;
soil_layers_stag = 4 ;
variables:
float CO2_AREA(Time, z, y, x) ;
CO2_AREA:FieldType = 104 ;
CO2_AREA:units = "ppm" ;
CO2_AREA:stagger = "" ;
CO2_AREA:long_name = "CO2 concentration from area sources (without traffic; TNO GHGco v4.1)" ;
CO2_AREA:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_AREA:comments = "CO2 concentration from anthropogenic area sources only." ;
CO2_AREA:coordinates = "XLAT XLONG Time" ;
float CO2_BCK(Time, z, y, x) ;
CO2_BCK:FieldType = 104 ;
CO2_BCK:units = "ppm" ;
CO2_BCK:stagger = "" ;
CO2_BCK:long_name = "Background CO2 concentration" ;
CO2_BCK:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_BCK:comments = "Background CO2 concentration from CAMS (gqpe - CY43R1)." ;
CO2_BCK:coordinates = "XLAT XLONG Time" ;
float CO2_POINT(Time, z, y, x) ;
CO2_POINT:FieldType = 104 ;
CO2_POINT:units = "ppm" ;
CO2_POINT:stagger = "" ;
CO2_POINT:long_name = "CO2 concentration from point sources (without traffic; TNO GHGco v4.1)" ;
CO2_POINT:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_POINT:comments = "CO2 concentration from anthropogenic point sources only." ;
CO2_POINT:coordinates = "XLAT XLONG Time" ;
float CO_ANT(Time, z, y, x) ;
CO_ANT:FieldType = 104 ;
CO_ANT:units = "ppm" ;
CO_ANT:stagger = "" ;
CO_ANT:long_name = "Anthropogenic CO concentration (TNO GHGco v4.1)" ;
CO_ANT:standard_name = "mole_fraction_of_carbon_monoxide_in_air" ;
CO_ANT:comments = "CO concentration from anthropogenic emissions only, including area and point sources." ;
CO_ANT:coordinates = "XLAT XLONG Time" ;
float CO_BCK(Time, z, y, x) ;
CO_BCK:FieldType = 104 ;
CO_BCK:units = "ppm" ;
CO_BCK:stagger = "" ;
CO_BCK:long_name = "Background CO concentration" ;
CO_BCK:standard_name = "mole_fraction_of_carbon_monoxide_in_air" ;
CO_BCK:comments = "Background CO concentration from CAMS (gqpe - CY43R1)." ;
CO_BCK:coordinates = "XLAT XLONG Time" ;
float CO2_VPRM(Time, z, y, x) ;
CO2_VPRM:FieldType = 104 ;
CO2_VPRM:units = "ppm" ;
CO2_VPRM:stagger = "" ;
CO2_VPRM:long_name = "CO2 concentration from VPRM biogenic fluxes" ;
CO2_VPRM:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_VPRM:comments = "CO2 concentration from VPRM (v1) biogenic fluxes only." ;
CO2_VPRM:coordinates = "XLAT XLONG Time" ;
float CO2_VPRM_V2(Time, z, y, x) ;
CO2_VPRM_V2:FieldType = 104 ;
CO2_VPRM_V2:units = "ppm" ;
CO2_VPRM_V2:stagger = "" ;
CO2_VPRM_V2:long_name = "CO2 concentration from VPRM_V2 biogenic fluxes" ;
CO2_VPRM_V2:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_VPRM_V2:comments = "CO2 concentration from VPRM_V2 biogenic fluxes only." ;
CO2_VPRM_V2:coordinates = "XLAT XLONG Time" ;
float CO2_TRAFFIC(Time, z, y, x) ;
CO2_TRAFFIC:FieldType = 104 ;
CO2_TRAFFIC:units = "ppm" ;
CO2_TRAFFIC:stagger = "" ;
CO2_TRAFFIC:long_name = "CO2 concentration from traffic sources (area and point; TNO GHGco v4.1)" ;
CO2_TRAFFIC:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_TRAFFIC:comments = "CO2 concentration from anthropogenic traffic sources only." ;
CO2_TRAFFIC:coordinates = "XLAT XLONG Time" ;
float CO2_BF(Time, z, y, x) ;
CO2_BF:FieldType = 104 ;
CO2_BF:units = "ppm" ;
CO2_BF:stagger = "" ;
CO2_BF:long_name = "CO2 concentration from biogenic fluxes (TNO GHGco v4.1)" ;
CO2_BF:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_BF:comments = "CO2 concentration from anthropogenic biogenic fluxes only." ;
CO2_BF:coordinates = "XLAT XLONG Time" ;
float LU_INDEX(y, x) ;
LU_INDEX:FieldType = 104 ;
LU_INDEX:units = "1" ;
LU_INDEX:stagger = "" ;
LU_INDEX:long_name = "Land use category" ;
LU_INDEX:coordinates = "XLAT XLONG" ;
float W(Time, z, y, x) ;
W:FieldType = 104 ;
W:units = "m s-1" ;
W:standard_name = "upward_air_velocity" ;
W:long_name = "Vertical velocity" ;
W:coordinates = "XLAT XLONG Time" ;
float Q2(Time, y, x) ;
Q2:FieldType = 104 ;
Q2:units = "kg kg-1" ;
Q2:stagger = "" ;
Q2:standard_name = "humidity_mixing_ratio" ;
Q2:long_name = "Specific humidity at 2 meters" ;
Q2:coordinates = "XLAT XLONG Time" ;
float T2(Time, y, x) ;
T2:FieldType = 104 ;
T2:description = "TEMP at 2 M" ;
T2:units = "K" ;
T2:stagger = "" ;
T2:standard_name = "air_temperature" ;
T2:long_name = "air_temperature_at_2m_agl" ;
T2:coordinates = "XLAT XLONG Time" ;
float TH2(Time, y, x) ;
TH2:FieldType = 104 ;
TH2:description = "POT TEMP at 2 M" ;
TH2:units = "K" ;
TH2:stagger = "" ;
TH2:standard_name = "air_potential_temperature" ;
TH2:long_name = "air_potential_temperature_at_2m_agl" ;
TH2:coordinates = "XLAT XLONG Time" ;
float QVAPOR(Time, z, y, x) ;
QVAPOR:FieldType = 104 ;
QVAPOR:units = "1" ;
QVAPOR:stagger = "" ;
QVAPOR:standard_name = "mole_fraction_of_water_vapor_in_air" ;
QVAPOR:scale_factor = 0.621859855022437 ;
QVAPOR:long_name = "Water vapor mole fraction" ;
QVAPOR:comments = "Calculated from water vapor mixing ratio assuming dry air molar mass of Md=28.97 g/mol and water molar mass of Mw=18.01528 g/mol. x = r * (Mw/Md)" ;
QVAPOR:coordinates = "XLAT XLONG Time" ;
int IVGTYP(y, x) ;
IVGTYP:FieldType = 106 ;
IVGTYP:units = "1" ;
IVGTYP:stagger = "" ;
IVGTYP:long_name = "Vegetation type" ;
IVGTYP:coordinates = "XLAT XLONG" ;
float VEGFRA(y, x) ;
VEGFRA:FieldType = 104 ;
VEGFRA:units = "1" ;
VEGFRA:stagger = "" ;
VEGFRA:standard_name = "vegetation_area_fraction" ;
VEGFRA:long_name = "Vegetation fraction" ;
VEGFRA:coordinates = "XLAT XLONG" ;
float GRDFLX(Time, y, x) ;
GRDFLX:FieldType = 104 ;
GRDFLX:units = "W m-2" ;
GRDFLX:stagger = "" ;
GRDFLX:long_name = "Ground heat flux" ;
GRDFLX:coordinates = "XLAT XLONG Time" ;
GRDFLX:standard_name = "downward_heat_flux_at_ground_level_in_soil" ;
float HGT(y, x) ;
HGT:FieldType = 104 ;
HGT:units = "m" ;
HGT:stagger = "" ;
HGT:standard_name = "height_above_mean_sea_level" ;
HGT:long_name = "Height of the terrain above mean sea level" ;
HGT:coordinates = "XLAT XLONG" ;
float TSK(Time, y, x) ;
TSK:FieldType = 104 ;
TSK:units = "K" ;
TSK:stagger = "" ;
TSK:long_name = "Skin temperature" ;
TSK:coordinates = "XLAT XLONG Time" ;
float CLDFRA(Time, z, y, x) ;
CLDFRA:FieldType = 104 ;
CLDFRA:units = "1" ;
CLDFRA:stagger = "" ;
CLDFRA:standard_name = "cloud_area_fraction" ;
CLDFRA:long_name = "Cloud fraction" ;
CLDFRA:coordinates = "XLAT XLONG Time" ;
float SWDOWN(Time, y, x) ;
SWDOWN:FieldType = 104 ;
SWDOWN:units = "W m-2" ;
SWDOWN:stagger = "" ;
SWDOWN:long_name = "Downward shortwave radiation flux at the surface" ;
SWDOWN:standard_name = "surface_downwelling_shortwave_flux_in_air" ;
SWDOWN:coordinates = "XLAT XLONG Time" ;
float ALBEDO(Time, y, x) ;
ALBEDO:FieldType = 104 ;
ALBEDO:stagger = "" ;
ALBEDO:long_name = "Albedo" ;
ALBEDO:units = "1" ;
ALBEDO:standard_name = "surface_albedo" ;
ALBEDO:coordinates = "XLAT XLONG Time" ;
float UST(Time, y, x) ;
UST:FieldType = 104 ;
UST:units = "m s-1" ;
UST:stagger = "" ;
UST:long_name = "U* in similarity theory" ;
UST:coordinates = "XLAT XLONG Time" ;
float PBLH(Time, y, x) ;
PBLH:FieldType = 104 ;
PBLH:units = "m" ;
PBLH:stagger = "" ;
PBLH:standard_name = "atmosphere_boundary_layer_thickness" ;
PBLH:long_name = "Planetary boundary layer height" ;
PBLH:coordinates = "XLAT XLONG Time" ;
float HFX(Time, y, x) ;
HFX:FieldType = 104 ;
HFX:units = "W m-2" ;
HFX:stagger = "" ;
HFX:standard_name = "surface_upward_sensible_heat_flux" ;
HFX:long_name = "Sensible heat flux" ;
HFX:coordinates = "XLAT XLONG Time" ;
float LANDMASK(y, x) ;
LANDMASK:FieldType = 104 ;
LANDMASK:units = "1" ;
LANDMASK:stagger = "" ;
LANDMASK:long_name = "Land mask" ;
LANDMASK:standard_name = "land_area_fraction" ;
LANDMASK:coordinates = "XLAT XLONG" ;
float LAKEMASK(y, x) ;
LAKEMASK:FieldType = 104 ;
LAKEMASK:units = "1" ;
LAKEMASK:stagger = "" ;
LAKEMASK:long_name = "Lake mask" ;
LAKEMASK:coordinates = "XLAT XLONG" ;
float air_potential_temperature(Time, z, y, x) ;
air_potential_temperature:units = "K" ;
air_potential_temperature:standard_name = "air_potential_temperature" ;
air_potential_temperature:long_name = "Air potential temperature" ;
air_potential_temperature:coordinates = "XLAT XLONG Time" ;
float air_pressure(Time, z, y, x) ;
air_pressure:units = "Pa" ;
air_pressure:standard_name = "air_pressure" ;
air_pressure:long_name = "Air pressure" ;
air_pressure:coordinates = "XLAT XLONG Time" ;
float geopotential_height(Time, z, y, x) ;
geopotential_height:units = "m" ;
geopotential_height:standard_name = "geopotential_height" ;
geopotential_height:long_name = "Geopotential height" ;
geopotential_height:coordinates = "XLAT XLONG Time" ;
float wind_east(Time, z, y, x) ;
wind_east:standard_name = "eastward_wind" ;
wind_east:units = "m s-1" ;
wind_east:long_name = "Eastward wind field" ;
wind_east:coordinates = "XLAT XLONG Time" ;
float wind_north(Time, z, y, x) ;
wind_north:standard_name = "northward_wind" ;
wind_north:units = "m s-1" ;
wind_north:long_name = "Northward wind field" ;
wind_north:coordinates = "XLAT XLONG Time" ;
float wind_east_10(Time, y, x) ;
wind_east_10:units = "m s-1" ;
wind_east_10:long_name = "Eastward wind at 10 meters" ;
wind_east_10:standard_name = "eastward_wind" ;
wind_east_10:comments = "Eastward wind component at 10 meters above ground." ;
wind_east_10:coordinates = "XLAT XLONG Time" ;
float wind_north_10(Time, y, x) ;
wind_north_10:units = "m s-1" ;
wind_north_10:long_name = "Northward wind at 10 meters" ;
wind_north_10:standard_name = "northward_wind" ;
wind_north_10:comments = "Northward wind component at 10 meters above ground." ;
wind_north_10:coordinates = "XLAT XLONG Time" ;
float XLAT(y, x) ;
XLAT:_FillValue = NaNf ;
XLAT:FieldType = 104 ;
XLAT:units = "degrees_north" ;
XLAT:stagger = "" ;
XLAT:long_name = "Latitude" ;
XLAT:standard_name = "latitude" ;
XLAT:coordinates = "XLONG XLAT" ;
float XLONG(y, x) ;
XLONG:_FillValue = NaNf ;
XLONG:FieldType = 104 ;
XLONG:units = "degrees_east" ;
XLONG:stagger = "" ;
XLONG:long_name = "Longitude" ;
XLONG:standard_name = "longitude" ;
XLONG:coordinates = "XLONG XLAT" ;
float z(z) ;
z:_FillValue = NaNf ;
z:FieldType = 104 ;
z:units = "1" ;
z:stagger = "" ;
z:axis = "Z" ;
z:positive = "down" ;
z:long_name = "WRF hybrid sigma-pressure vertical coordinate" ;
double Time(Time) ;
Time:_FillValue = NaN ;
Time:long_name = "Time" ;
Time:standard_name = "time" ;
Time:units = "seconds since 1970-01-01" ;
Time:calendar = "standard" ;
double y(y) ;
y:_FillValue = NaN ;
y:units = "m" ;
y:standard_name = "projection_y_coordinate" ;
y:axis = "Y" ;
double x(x) ;
x:_FillValue = NaN ;
x:units = "m" ;
x:standard_name = "projection_x_coordinate" ;
x:axis = "X" ;
float CO2_ANTHRO(Time, z, y, x) ;
CO2_ANTHRO:long_name = "Anthropogenic CO2 concentration" ;
CO2_ANTHRO:units = "ppm" ;
CO2_ANTHRO:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_ANTHRO:comments = "CO2 concentration from anthropogenic emissions only, including area, point, traffic and biogenic fluxes." ;
CO2_ANTHRO:coordinates = "XLAT XLONG Time" ;
float CO_TOTAL(Time, z, y, x) ;
CO_TOTAL:long_name = "Total CO concentration" ;
CO_TOTAL:units = "ppm" ;
CO_TOTAL:standard_name = "mole_fraction_of_carbon_monoxide_in_air" ;
CO_TOTAL:comments = "Total CO concentration including anthropogenic emissions. It uses the background concentration from CAMS (gqpe - CY43R1)." ;
CO_TOTAL:coordinates = "XLAT XLONG Time" ;
float CO2_TOTAL(Time, z, y, x) ;
CO2_TOTAL:long_name = "Total CO2 concentration" ;
CO2_TOTAL:units = "ppm" ;
CO2_TOTAL:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_TOTAL:comments = "Total CO2 concentration including anthropogenic emissions and biogenic fluxes. The background concentration is set to 407 ppm. It uses the VPRM (v1) biogenic fluxes." ;
CO2_TOTAL:coordinates = "XLAT XLONG Time" ;
float CO2_TOTAL_V2(Time, z, y, x) ;
CO2_TOTAL_V2:long_name = "Total CO2 concentration V2" ;
CO2_TOTAL_V2:units = "ppm" ;
CO2_TOTAL_V2:standard_name = "mole_fraction_of_carbon_dioxide_in_air" ;
CO2_TOTAL_V2:comments = "Total CO2 concentration including anthropogenic emissions and biogenic fluxes. The background concentration is set to 407 ppm. V2 uses the VPRM_V2 biogenic fluxes." ;
CO2_TOTAL_V2:coordinates = "XLAT XLONG Time" ;
float SMOIS(Time, soil_layers_stag, y, x) ;
SMOIS:units = "kg m-2" ;
SMOIS:long_name = "Soil moisture" ;
SMOIS:standard_name = "soil_moisture_content" ;
SMOIS:comment = "Calculated as the product of volumetric soil moisture content (m3/m3), water density (1000 kg/m3) and layer depth (DZS, in m), resulting in units of kg/m2. x = smois * 1000 * dzs" ;
SMOIS:coordinates = "XLAT XLONG Time" ;
// global attributes:
:TITLE = " OUTPUT FROM * PROGRAM:WRF-Chem V4.3.3 MODEL" ;
:START_DATE = "2018-01-01_00:00:00" ;
:SIMULATION_START_DATE = "2018-01-01_00:00:00" ;
:WEST-EAST_GRID_DIMENSION = 121 ;
:SOUTH-NORTH_GRID_DIMENSION = 156 ;
:BOTTOM-TOP_GRID_DIMENSION = 42 ;
:DX = 1000.f ;
:DY = 1000.f ;
:AERCU_OPT = 0 ;
:AERCU_FCT = 1.f ;
:IDEAL_CASE = 0 ;
:DIFF_6TH_SLOPEOPT = 0 ;
:AUTO_LEVELS_OPT = 2 ;
:DIFF_6TH_THRESH = 0.1f ;
:DZBOT = 15.f ;
:DZSTRETCH_S = 1.3f ;
:DZSTRETCH_U = 1.1f ;
:SKEBS_ON = 0 ;
:USE_Q_DIABATIC = 0 ;
:GRIDTYPE = "C" ;
:DIFF_OPT = 1 ;
:KM_OPT = 4 ;
:DAMP_OPT = 3 ;
:DAMPCOEF = 0.2f ;
:KHDIF = 0.f ;
:KVDIF = 0.f ;
:MP_PHYSICS = 8 ;
:RA_LW_PHYSICS = 4 ;
:RA_SW_PHYSICS = 4 ;
:SF_SFCLAY_PHYSICS = 1 ;
:SF_SURFACE_PHYSICS = 4 ;
:BL_PBL_PHYSICS = 1 ;
:CU_PHYSICS = 0 ;
:SF_LAKE_PHYSICS = 0 ;
:SURFACE_INPUT_SOURCE = 3 ;
:SST_UPDATE = 0 ;
:GRID_FDDA = 0 ;
:GFDDA_INTERVAL_M = 0 ;
:GFDDA_END_H = 0 ;
:GRID_SFDDA = 0 ;
:SGFDDA_INTERVAL_M = 0 ;
:SGFDDA_END_H = 0 ;
:HYPSOMETRIC_OPT = 2 ;
:USE_THETA_M = 1 ;
:GWD_OPT = 0 ;
:SF_URBAN_PHYSICS = 2 ;
:SF_SURFACE_MOSAIC = 0 ;
:SF_OCEAN_PHYSICS = 0 ;
:SHCU_PHYSICS = 0 ;
:MFSHCONV = 0 ;
:FEEDBACK = 0 ;
:SMOOTH_OPTION = 0 ;
:SWRAD_SCAT = 1.f ;
:W_DAMPING = 1 ;
:DT = 4.8f ;
:RADT = 1.f ;
:BLDT = 0.f ;
:CUDT = 5.f ;
:AER_OPT = 0 ;
:SWINT_OPT = 0 ;
:AER_TYPE = 1 ;
:AER_AOD550_OPT = 1 ;
:AER_ANGEXP_OPT = 1 ;
:AER_SSA_OPT = 1 ;
:AER_ASY_OPT = 1 ;
:AER_AOD550_VAL = 0.12f ;
:AER_ANGEXP_VAL = 1.3f ;
:AER_SSA_VAL = 0.85f ;
:AER_ASY_VAL = 0.9f ;
:MOIST_ADV_OPT = 1 ;
:SCALAR_ADV_OPT = 2 ;
:TKE_ADV_OPT = 1 ;
:DIFF_6TH_OPT = 2 ;
:DIFF_6TH_FACTOR = 0.12f ;
:OBS_NUDGE_OPT = 0 ;
:BUCKET_MM = -1.f ;
:BUCKET_J = -1.f ;
:PREC_ACC_DT = 0.f ;
:ISFTCFLX = 0 ;
:ISHALLOW = 0 ;
:ISFFLX = 1 ;
:ICLOUD = 1 ;
:ICLOUD_CU = 0 ;
:TRACER_PBLMIX = 1 ;
:SCALAR_PBLMIX = 1 ;
:YSU_TOPDOWN_PBLMIX = 1 ;
:GRAV_SETTLING = 0 ;
:OPT_SFC = 1 ;
:DVEG = 4 ;
:OPT_CRS = 1 ;
:OPT_BTR = 1 ;
:OPT_RUN = 3 ;
:OPT_FRZ = 1 ;
:OPT_INF = 1 ;
:OPT_RAD = 3 ;
:OPT_ALB = 2 ;
:OPT_SNF = 1 ;
:OPT_TBOT = 2 ;
:OPT_STC = 1 ;
:OPT_GLA = 1 ;
:OPT_RSF = 1 ;
:OPT_SOIL = 1 ;
:OPT_PEDO = 1 ;
:OPT_CROP = 0 ;
:OPT_IRR = 0 ;
:OPT_IRRM = 0 ;
:DFI_OPT = 0 ;
:NTASKS_X = 12 ;
:NTASKS_Y = 13 ;
:NTASKS_TOTAL = 156 ;
:SIMULATION_INITIALIZATION_TYPE = "REAL-DATA CASE" ;
:WEST-EAST_PATCH_START_UNSTAG = 1 ;
:WEST-EAST_PATCH_END_UNSTAG = 120 ;
:WEST-EAST_PATCH_START_STAG = 1 ;
:WEST-EAST_PATCH_END_STAG = 121 ;
:SOUTH-NORTH_PATCH_START_UNSTAG = 1 ;
:SOUTH-NORTH_PATCH_END_UNSTAG = 155 ;
:SOUTH-NORTH_PATCH_START_STAG = 1 ;
:SOUTH-NORTH_PATCH_END_STAG = 156 ;
:BOTTOM-TOP_PATCH_START_UNSTAG = 1 ;
:BOTTOM-TOP_PATCH_END_UNSTAG = 41 ;
:BOTTOM-TOP_PATCH_START_STAG = 1 ;
:BOTTOM-TOP_PATCH_END_STAG = 42 ;
:GRID_ID = 3 ;
:PARENT_ID = 2 ;
:I_PARENT_START = 87 ;
:J_PARENT_START = 90 ;
:PARENT_GRID_RATIO = 5 ;
:CEN_LAT = 49.57436f ;
:CEN_LON = 8.450043f ;
:TRUELAT1 = 48.f ;
:TRUELAT2 = 53.f ;
:MOAD_CEN_LAT = 50.94319f ;
:STAND_LON = 8.5f ;
:POLE_LAT = 90.f ;
:POLE_LON = 0.f ;
:GMT = 0.f ;
:JULYR = 2018 ;
:JULDAY = 1 ;
:MAP_PROJ = 1 ;
:MAP_PROJ_CHAR = "Lambert Conformal" ;
:MMINLU = "USGS" ;
:NUM_LAND_CAT = 41 ;
:ISWATER = 16 ;
:ISLAKE = 28 ;
:ISICE = 24 ;
:ISURBAN = 1 ;
:ISOILWATER = 14 ;
:HYBRID_OPT = 2 ;
:ETAC = 0.2f ;
:wkt_string = "PROJCRS[\"unknown\",BASEGEOGCRS[\"unknown\",DATUM[\"unknown\",ELLIPSOID[\"unknown\",6370000,0,LENGTHUNIT[\"metre\",1,ID[\"EPSG\",9001]]]],PRIMEM[\"Greenwich\",0,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8901]]],CONVERSION[\"unknown\",METHOD[\"Lambert Conic Conformal (2SP)\",ID[\"EPSG\",9802]],PARAMETER[\"Latitude of false origin\",50.9431915283203,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8821]],PARAMETER[\"Longitude of false origin\",8.5,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8822]],PARAMETER[\"Latitude of 1st standard parallel\",48,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8823]],PARAMETER[\"Latitude of 2nd standard parallel\",53,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8824]],PARAMETER[\"Easting at false origin\",0,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8826]],PARAMETER[\"Northing at false origin\",0,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8827]]],CS[Cartesian,2],AXIS[\"(E)\",east,ORDER[1],LENGTHUNIT[\"metre\",1,ID[\"EPSG\",9001]]],AXIS[\"(N)\",north,ORDER[2],LENGTHUNIT[\"metre\",1,ID[\"EPSG\",9001]]]]" ;
:title = "MACRO-2018 dataset, YSU configuration, domain 3" ;
:keywords = "WRF-Chem, CO2, CO, TNO, CAMS, concentrations" ;
:summary = "This dataset contains WRF-Chem model output named MACRO-2018, including CO2 and CO concentrations from TNO GHGco v4.1 and VPRM in two versions. CAMS is used as background." ;
:conventions = "CF-1.10" ;
:source = "WRF v4.3.3 with WRF-Chem" ;
:creator = "Lukas Pilz (0000-0002-0552-8037) and Sanam N. Vardag (0000-0003-4959-9336)" ;
:contributor_name = "Hugo Denier van der Gon (0000-0001-9552-3688), Theo Glauch (0000-0003-1804-4055), Julia Marshall (0000-0003-2648-128X)" ;
:contributor_role = "Emissions data providers" ;
:contact = "Lukas Pilz (0000-0002-0552-8037), Sanam N. Vardag (0000-0003-4959-9336)" ;
:institution = "Institute of Environmental Physics, Heidelberg University, Germany" ;
:creation_date = "2025-01" ;
:history = "2025-09-17_17:52:41: wrfout data postprocessed using wdccmover.py, Units changed to comply with CF conventions: SMOIS (orig: m3 m-3) and QVAPOR (orig: kg kg-1)" ;
}