netcdf PRIMAVERA_scen_atm_m02_1_6016689953606417910 {
dimensions:
time = UNLIMITED ; // (12 currently)
lat = 192 ;
lon = 384 ;
variables:
float aclcov(time, lat, lon) ;
aclcov:long_name = "total cloud cover (mean)" ;
aclcov:code = 164 ;
aclcov:table = 128 ;
aclcov:CDI_grid_type = "gaussian" ;
aclcov:CDI_grid_num_LPE = 96 ;
aclcov:cell_methods = "time: mean" ;
aclcov:standard_name = "cloud_area_fraction" ;
aclcov:units = "1" ;
float ahfl(time, lat, lon) ;
ahfl:long_name = "latent heat flux" ;
ahfl:units = "W m-2" ;
ahfl:code = 147 ;
ahfl:table = 128 ;
ahfl:CDI_grid_type = "gaussian" ;
ahfl:CDI_grid_num_LPE = 96 ;
ahfl:cell_methods = "time: mean" ;
ahfl:standard_name = "surface_downward_latent_heat_flux" ;
float ahfs(time, lat, lon) ;
ahfs:long_name = "sensible heat flux" ;
ahfs:units = "W m-2" ;
ahfs:code = 146 ;
ahfs:table = 128 ;
ahfs:CDI_grid_type = "gaussian" ;
ahfs:CDI_grid_num_LPE = 96 ;
ahfs:cell_methods = "time: mean" ;
ahfs:standard_name = "surface_downward_sensible_heat_flux" ;
float aprc(time, lat, lon) ;
aprc:long_name = "convective precipitation" ;
aprc:units = "kg m-2 s-1" ;
aprc:code = 143 ;
aprc:table = 128 ;
aprc:CDI_grid_type = "gaussian" ;
aprc:CDI_grid_num_LPE = 96 ;
aprc:cell_methods = "time: mean" ;
aprc:standard_name = "convective_precipitation_flux" ;
float aprl(time, lat, lon) ;
aprl:long_name = "large scale precipitation" ;
aprl:units = "kg m-2 s-1" ;
aprl:code = 142 ;
aprl:table = 128 ;
aprl:CDI_grid_type = "gaussian" ;
aprl:CDI_grid_num_LPE = 96 ;
aprl:cell_methods = "time: mean" ;
aprl:standard_name = "stratiform_precipitation_flux" ;
float aprs(time, lat, lon) ;
aprs:long_name = "snow fall" ;
aprs:units = "kg m-2 s-1" ;
aprs:code = 144 ;
aprs:table = 128 ;
aprs:CDI_grid_type = "gaussian" ;
aprs:CDI_grid_num_LPE = 96 ;
aprs:cell_methods = "time: mean" ;
aprs:standard_name = "snowfall_flux" ;
float aps(time, lat, lon) ;
aps:long_name = "surface pressure" ;
aps:units = "Pa" ;
aps:code = 134 ;
aps:table = 128 ;
aps:CDI_grid_type = "gaussian" ;
aps:CDI_grid_num_LPE = 96 ;
aps:cell_methods = "time: mean" ;
aps:standard_name = "surface_air_pressure" ;
float dew2(time, lat, lon) ;
dew2:long_name = "2m dew point temperature" ;
dew2:units = "K" ;
dew2:code = 168 ;
dew2:table = 128 ;
dew2:CDI_grid_type = "gaussian" ;
dew2:CDI_grid_num_LPE = 96 ;
dew2:cell_methods = "time: mean" ;
dew2:standard_name = "dew_point_temperature" ;
float evap(time, lat, lon) ;
evap:long_name = "evaporation" ;
evap:units = "kg m-2 s-1" ;
evap:code = 182 ;
evap:table = 181 ;
evap:CDI_grid_type = "gaussian" ;
evap:CDI_grid_num_LPE = 96 ;
evap:cell_methods = "time: mean" ;
evap:standard_name = "water_evaporation_flux" ;
double lat(lat) ;
lat:standard_name = "latitude" ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
lat:axis = "Y" ;
double lon(lon) ;
lon:standard_name = "longitude" ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
lon:axis = "X" ;
float qvi(time, lat, lon) ;
qvi:long_name = "vertically integrated water vapor" ;
qvi:units = "kg m-2" ;
qvi:code = 230 ;
qvi:table = 128 ;
qvi:CDI_grid_type = "gaussian" ;
qvi:CDI_grid_num_LPE = 96 ;
qvi:cell_methods = "time: mean" ;
float slp(time, lat, lon) ;
slp:long_name = "mean sea level pressure" ;
slp:units = "Pa" ;
slp:code = 151 ;
slp:table = 128 ;
slp:CDI_grid_type = "gaussian" ;
slp:CDI_grid_num_LPE = 96 ;
slp:cell_methods = "time: mean" ;
slp:standard_name = "air_pressure_at_mean_sea_level" ;
float srad0d(time, lat, lon) ;
srad0d:long_name = "top incoming solar radiation" ;
srad0d:units = "W m-2" ;
srad0d:code = 184 ;
srad0d:table = 128 ;
srad0d:CDI_grid_type = "gaussian" ;
srad0d:CDI_grid_num_LPE = 96 ;
srad0d:cell_methods = "time: mean" ;
srad0d:standard_name = "toa_incoming_shortwave_flux" ;
float srad0u(time, lat, lon) ;
srad0u:long_name = "top solar radiation upward" ;
srad0u:units = "W m-2" ;
srad0u:code = 203 ;
srad0u:table = 128 ;
srad0u:CDI_grid_type = "gaussian" ;
srad0u:CDI_grid_num_LPE = 96 ;
srad0u:cell_methods = "time: mean" ;
srad0u:standard_name = "minus_one_times_toa_outgoing_shortwave_flux" ;
float srads(time, lat, lon) ;
srads:long_name = "net surface solar radiation" ;
srads:units = "W m-2" ;
srads:code = 176 ;
srads:table = 128 ;
srads:CDI_grid_type = "gaussian" ;
srads:CDI_grid_num_LPE = 96 ;
srads:cell_methods = "time: mean" ;
srads:standard_name = "surface_net_downward_shortwave_flux" ;
float sradsu(time, lat, lon) ;
sradsu:long_name = "surface solar radiation upward" ;
sradsu:units = "W m-2" ;
sradsu:code = 204 ;
sradsu:table = 128 ;
sradsu:CDI_grid_type = "gaussian" ;
sradsu:CDI_grid_num_LPE = 96 ;
sradsu:cell_methods = "time: mean" ;
sradsu:standard_name = "minus_one_times_surface_upwelling_shortwave_flux_in_air" ;
float sraf0(time, lat, lon) ;
sraf0:long_name = "net top solar radiation (clear sky)" ;
sraf0:units = "W m-2" ;
sraf0:code = 187 ;
sraf0:table = 128 ;
sraf0:CDI_grid_type = "gaussian" ;
sraf0:CDI_grid_num_LPE = 96 ;
sraf0:cell_methods = "time: mean" ;
sraf0:standard_name = "toa_net_downward_shortwave_flux_assuming_clear_sky" ;
float srafs(time, lat, lon) ;
srafs:long_name = "net surf. solar radiation (clear sky)" ;
srafs:units = "W m-2" ;
srafs:code = 185 ;
srafs:table = 128 ;
srafs:CDI_grid_type = "gaussian" ;
srafs:CDI_grid_num_LPE = 96 ;
srafs:cell_methods = "time: mean" ;
srafs:standard_name = "surface_net_downward_shortwave_flux_assuming_clear_sky" ;
float temp2(time, lat, lon) ;
temp2:long_name = "2m temperature" ;
temp2:units = "K" ;
temp2:code = 167 ;
temp2:table = 128 ;
temp2:CDI_grid_type = "gaussian" ;
temp2:CDI_grid_num_LPE = 96 ;
temp2:cell_methods = "time: mean" ;
temp2:standard_name = "air_temperature" ;
double time(time) ;
time:standard_name = "time" ;
time:units = "day as %Y%m%d.%f" ;
time:calendar = "proleptic_gregorian" ;
time:axis = "T" ;
time:cell_methods = "time: mean" ;
float topmax(time, lat, lon) ;
topmax:long_name = "maximum height of convective cloud tops" ;
topmax:units = "Pa" ;
topmax:code = 217 ;
topmax:table = 128 ;
topmax:CDI_grid_type = "gaussian" ;
topmax:CDI_grid_num_LPE = 96 ;
topmax:cell_methods = "time: mean" ;
float trad0(time, lat, lon) ;
trad0:long_name = "top thermal radiation (OLR)" ;
trad0:units = "W m-2" ;
trad0:code = 179 ;
trad0:table = 128 ;
trad0:CDI_grid_type = "gaussian" ;
trad0:CDI_grid_num_LPE = 96 ;
trad0:cell_methods = "time: mean" ;
trad0:standard_name = "toa_net_downward_longwave_flux" ;
float trads(time, lat, lon) ;
trads:long_name = "net surface thermal radiation" ;
trads:units = "W m-2" ;
trads:code = 177 ;
trads:table = 128 ;
trads:CDI_grid_type = "gaussian" ;
trads:CDI_grid_num_LPE = 96 ;
trads:cell_methods = "time: mean" ;
trads:standard_name = "surface_net_downward_longwave_flux" ;
float tradsu(time, lat, lon) ;
tradsu:long_name = "surface thermal radiation upward" ;
tradsu:units = "W m-2" ;
tradsu:code = 205 ;
tradsu:table = 128 ;
tradsu:CDI_grid_type = "gaussian" ;
tradsu:CDI_grid_num_LPE = 96 ;
tradsu:cell_methods = "time: mean" ;
tradsu:standard_name = "minus_one_times_surface_upwelling_longwave_flux_in_air" ;
float traf0(time, lat, lon) ;
traf0:long_name = "net top thermal radiation (clear sky)" ;
traf0:units = "W m-2" ;
traf0:code = 188 ;
traf0:table = 128 ;
traf0:CDI_grid_type = "gaussian" ;
traf0:CDI_grid_num_LPE = 96 ;
traf0:cell_methods = "time: mean" ;
traf0:standard_name = "toa_net_downward_longwave_flux_assuming_clear_sky" ;
float trafs(time, lat, lon) ;
trafs:long_name = "net surf. thermal radiation (clear sky)" ;
trafs:units = "W m-2" ;
trafs:code = 186 ;
trafs:table = 128 ;
trafs:CDI_grid_type = "gaussian" ;
trafs:CDI_grid_num_LPE = 96 ;
trafs:cell_methods = "time: mean" ;
trafs:standard_name = "surface_net_downward_longwave_flux_assuming_clear_sky" ;
float tsurf(time, lat, lon) ;
tsurf:long_name = "surface temperature" ;
tsurf:units = "K" ;
tsurf:code = 169 ;
tsurf:table = 128 ;
tsurf:CDI_grid_type = "gaussian" ;
tsurf:CDI_grid_num_LPE = 96 ;
tsurf:cell_methods = "time: mean" ;
tsurf:standard_name = "surface_temperature" ;
float u10(time, lat, lon) ;
u10:long_name = "10m u-velocity" ;
u10:units = "m/s" ;
u10:code = 165 ;
u10:table = 128 ;
u10:CDI_grid_type = "gaussian" ;
u10:CDI_grid_num_LPE = 96 ;
u10:cell_methods = "time: mean" ;
u10:standard_name = "eastward_wind" ;
float ustr(time, lat, lon) ;
ustr:long_name = "u-stress" ;
ustr:units = "Pa" ;
ustr:code = 180 ;
ustr:table = 128 ;
ustr:CDI_grid_type = "gaussian" ;
ustr:CDI_grid_num_LPE = 96 ;
ustr:cell_methods = "time: mean" ;
ustr:standard_name = "surface_downward_eastward_stress" ;
float v10(time, lat, lon) ;
v10:long_name = "10m v-velocity" ;
v10:units = "m/s" ;
v10:code = 166 ;
v10:table = 128 ;
v10:CDI_grid_type = "gaussian" ;
v10:CDI_grid_num_LPE = 96 ;
v10:cell_methods = "time: mean" ;
v10:standard_name = "northward_wind" ;
float vstr(time, lat, lon) ;
vstr:long_name = "v-stress" ;
vstr:units = "Pa" ;
vstr:code = 181 ;
vstr:table = 128 ;
vstr:CDI_grid_type = "gaussian" ;
vstr:CDI_grid_num_LPE = 96 ;
vstr:cell_methods = "time: mean" ;
vstr:standard_name = "surface_downward_northward_stress" ;
float wind10(time, lat, lon) ;
wind10:long_name = "10m windspeed" ;
wind10:units = "m/s" ;
wind10:code = 171 ;
wind10:table = 128 ;
wind10:CDI_grid_type = "gaussian" ;
wind10:CDI_grid_num_LPE = 96 ;
wind10:cell_methods = "time: mean" ;
wind10:standard_name = "wind_speed" ;
float xivi(time, lat, lon) ;
xivi:long_name = "vertically integrated cloud ice" ;
xivi:units = "kg m-2" ;
xivi:code = 150 ;
xivi:table = 128 ;
xivi:CDI_grid_type = "gaussian" ;
xivi:CDI_grid_num_LPE = 96 ;
xivi:cell_methods = "time: mean" ;
xivi:standard_name = "atmosphere_mass_content_of_cloud_ice" ;
float xlvi(time, lat, lon) ;
xlvi:long_name = "vertically integrated cloud water" ;
xlvi:units = "kg m-2" ;
xlvi:code = 231 ;
xlvi:table = 128 ;
xlvi:CDI_grid_type = "gaussian" ;
xlvi:CDI_grid_num_LPE = 96 ;
xlvi:cell_methods = "time: mean" ;
xlvi:standard_name = "atmosphere_mass_content_of_cloud_liquid_water" ;
// global attributes:
:CDI = "Climate Data Interface version 2.2.4 (https://mpimet.mpg.de/cdi)" ;
:Conventions = "CF-1.4" ;
:source = "MPIESM 1.2.01" ;
:institution = "Max Planck Institute for Meteorology, Hamburg 20146, Germany" ;
:CDO = "Climate Data Operators version 2.2.0 (https://mpimet.mpg.de/cdo)" ;
:activity_id = "HighResMIP" ;
:experiment_id = "SSP5-8.5" ;
:title = "PRIMAVERA: Eddy Rich version of MPI-ESM" ;
:contact = " dian.putrasahan@
nullmpimet.mpg.de
" ;
:nominal_resolution = "100 km" ;
:experiment = "SSP5-8.5 atmospheric run" ;
:source_id = "MPI-ESM1-2-ER" ;
:creation_date = "2024-09-17T11:51:39Z" ;
:frequency = "mon" ;
:grid = "native atmosphere T127 gaussian grid (384x192 lonxlat) with 95 levels and top level 0.01 hPa; native ocean TP6M tri-polar grid (3602x2394 lonxlat) with 40 levels" ;
:realm = "atmosphere (echam6.3)" ;
:source_type = "AOGCM" ;
:realization_index = "2" ;
:institution_id = "MPI-M" ;
:NCO = "netCDF Operators version 5.0.6 (Homepage = http://nco.sf.net, Code = http://github.com/nco/nco)" ;
:history = "2024-10-01T10:02:37Z ; rewrote netcdf files to be compatible with WDCC publication standards" ;
}