netcdf Neckar_VCS_v1_COSMO_1_6313411200502705837 {
dimensions:
time = 32 ;
bnds = 2 ;
rlon = 230 ;
rlat = 254 ;
srlon = 230 ;
srlat = 254 ;
level1 = 51 ;
level = 50 ;
height_2m = 1 ;
height_10m = 1 ;
soil1 = 8 ;
variables:
double time(time) ;
time:standard_name = "time" ;
time:long_name = "time" ;
time:bounds = "time_bnds" ;
time:units = "seconds since 2007-01-01 00:00:00" ;
time:calendar = "proleptic_gregorian" ;
time:axis = "T" ;
double time_bnds(time, bnds) ;
float lon(rlat, rlon) ;
lon:standard_name = "longitude" ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
lon:_CoordinateAxisType = "Lon" ;
float lat(rlat, rlon) ;
lat:standard_name = "latitude" ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
lat:_CoordinateAxisType = "Lat" ;
float slonu(rlat, srlon) ;
slonu:standard_name = "longitude" ;
slonu:long_name = "staggered U-wind longitude" ;
slonu:units = "degrees_east" ;
slonu:_CoordinateAxisType = "Lon" ;
float slatu(rlat, srlon) ;
slatu:standard_name = "latitude" ;
slatu:long_name = "staggered U-wind latitude" ;
slatu:units = "degrees_north" ;
slatu:_CoordinateAxisType = "Lat" ;
float slonv(srlat, rlon) ;
slonv:standard_name = "longitude" ;
slonv:long_name = "staggered V-wind longitude" ;
slonv:units = "degrees_east" ;
slonv:_CoordinateAxisType = "Lon" ;
float slatv(srlat, rlon) ;
slatv:standard_name = "latitude" ;
slatv:long_name = "staggered V-wind latitude" ;
slatv:units = "degrees_north" ;
slatv:_CoordinateAxisType = "Lat" ;
float rlon(rlon) ;
rlon:standard_name = "grid_longitude" ;
rlon:long_name = "rotated longitude" ;
rlon:units = "degrees" ;
rlon:axis = "X" ;
float rlat(rlat) ;
rlat:standard_name = "grid_latitude" ;
rlat:long_name = "rotated latitude" ;
rlat:units = "degrees" ;
rlat:axis = "Y" ;
int rotated_pole ;
rotated_pole:long_name = "coordinates of the rotated North Pole" ;
rotated_pole:grid_mapping_name = "rotated_latitude_longitude" ;
rotated_pole:grid_north_pole_latitude = 41.5f ;
rotated_pole:grid_north_pole_longitude = -171.f ;
float srlon(srlon) ;
srlon:standard_name = "grid_longitude" ;
srlon:long_name = "staggered rotated longitude" ;
srlon:units = "degrees" ;
srlon:axis = "X" ;
float srlat(srlat) ;
srlat:standard_name = "grid_latitude" ;
srlat:long_name = "staggered rotated latitude" ;
srlat:units = "degrees" ;
srlat:axis = "Y" ;
float height_2m(height_2m) ;
height_2m:standard_name = "height" ;
height_2m:long_name = "height above the surface" ;
height_2m:units = "m" ;
height_2m:positive = "up" ;
height_2m:axis = "Z" ;
float height_10m(height_10m) ;
height_10m:standard_name = "height" ;
height_10m:long_name = "height above the surface" ;
height_10m:units = "m" ;
height_10m:positive = "up" ;
height_10m:axis = "Z" ;
float soil1(soil1) ;
soil1:standard_name = "depth" ;
soil1:long_name = "depth of soil layers" ;
soil1:units = "m" ;
soil1:positive = "down" ;
soil1:axis = "Z" ;
soil1:bounds = "soil1_bnds" ;
float soil1_bnds(soil1, bnds) ;
float vcoord(level1) ;
vcoord:long_name = "Height-based hybrid Gal-Chen coordinate" ;
vcoord:units = "Pa" ;
vcoord:ivctype = 2 ;
vcoord:irefatm = 1 ;
vcoord:p0sl = 100000. ;
vcoord:t0sl = 288.14990234375 ;
vcoord:dt0lp = 42. ;
vcoord:vcflat = 11357. ;
float PS(time, rlat, rlon) ;
PS:standard_name = "surface_air_pressure" ;
PS:long_name = "surface pressure" ;
PS:units = "Pa" ;
PS:grid_mapping = "rotated_pole" ;
PS:coordinates = "lat lon" ;
float P(time, level, rlat, rlon) ;
P:standard_name = "air_pressure" ;
P:long_name = "pressure" ;
P:units = "Pa" ;
P:grid_mapping = "rotated_pole" ;
P:coordinates = "lat lon" ;
float PMSL(time, rlat, rlon) ;
PMSL:standard_name = "air_pressure_at_sea_level" ;
PMSL:long_name = "mean sea level pressure" ;
PMSL:units = "Pa" ;
PMSL:grid_mapping = "rotated_pole" ;
PMSL:coordinates = "lat lon" ;
float T_G(time, rlat, rlon) ;
T_G:standard_name = "surface_temperature" ;
T_G:long_name = "grid mean surface temperature" ;
T_G:units = "K" ;
T_G:grid_mapping = "rotated_pole" ;
T_G:coordinates = "lat lon" ;
float FIS(time, rlat, rlon) ;
FIS:standard_name = "surface_geopotential" ;
FIS:long_name = "surface geopotential" ;
FIS:units = "m2 s-2" ;
FIS:grid_mapping = "rotated_pole" ;
FIS:coordinates = "lat lon" ;
float QV_2M(time, height_2m, rlat, rlon) ;
QV_2M:standard_name = "specific_humidity" ;
QV_2M:long_name = "2m specific humidity" ;
QV_2M:units = "kg kg-1" ;
QV_2M:grid_mapping = "rotated_pole" ;
QV_2M:coordinates = "lat lon" ;
float RELHUM_2M(time, height_2m, rlat, rlon) ;
RELHUM_2M:standard_name = "relative_humidity" ;
RELHUM_2M:long_name = "2m relative humidity" ;
RELHUM_2M:units = "%" ;
RELHUM_2M:grid_mapping = "rotated_pole" ;
RELHUM_2M:coordinates = "lat lon" ;
float T_S(time, rlat, rlon) ;
T_S:long_name = "soil surface temperature" ;
T_S:units = "K" ;
T_S:grid_mapping = "rotated_pole" ;
T_S:coordinates = "lat lon" ;
float T_2M(time, height_2m, rlat, rlon) ;
T_2M:standard_name = "air_temperature" ;
T_2M:long_name = "2m temperature" ;
T_2M:units = "K" ;
T_2M:grid_mapping = "rotated_pole" ;
T_2M:coordinates = "lat lon" ;
float T(time, level, rlat, rlon) ;
T:standard_name = "air_temperature" ;
T:long_name = "temperature" ;
T:units = "K" ;
T:grid_mapping = "rotated_pole" ;
T:coordinates = "lat lon" ;
float TD_2M(time, height_2m, rlat, rlon) ;
TD_2M:standard_name = "dew_point_temperature" ;
TD_2M:long_name = "2m dew point temperature" ;
TD_2M:units = "K" ;
TD_2M:grid_mapping = "rotated_pole" ;
TD_2M:coordinates = "lat lon" ;
float U_10M(time, height_10m, rlat, rlon) ;
U_10M:standard_name = "grid_eastward_wind" ;
U_10M:long_name = "U-component of 10m wind" ;
U_10M:units = "m s-1" ;
U_10M:grid_mapping = "rotated_pole" ;
U_10M:coordinates = "lat lon" ;
float V_10M(time, height_10m, rlat, rlon) ;
V_10M:standard_name = "grid_northward_wind" ;
V_10M:long_name = "V-component of 10m wind" ;
V_10M:units = "m s-1" ;
V_10M:grid_mapping = "rotated_pole" ;
V_10M:coordinates = "lat lon" ;
float U(time, level, rlat, srlon) ;
U:standard_name = "grid_eastward_wind" ;
U:long_name = "U-component of wind" ;
U:units = "m s-1" ;
U:grid_mapping = "rotated_pole" ;
U:coordinates = "slatu slonu" ;
float V(time, level, srlat, rlon) ;
V:standard_name = "grid_northward_wind" ;
V:long_name = "V-component of wind" ;
V:units = "m s-1" ;
V:grid_mapping = "rotated_pole" ;
V:coordinates = "slatv slonv" ;
float OMEGA(time, level, rlat, rlon) ;
OMEGA:standard_name = "lagrangian_tendency_of_air_pressure" ;
OMEGA:long_name = "omega" ;
OMEGA:units = "Pa s-1" ;
OMEGA:grid_mapping = "rotated_pole" ;
OMEGA:coordinates = "lat lon" ;
float W(time, level1, rlat, rlon) ;
W:standard_name = "upward_air_velocity" ;
W:long_name = "vertical wind velocity" ;
W:units = "m s-1" ;
W:grid_mapping = "rotated_pole" ;
W:coordinates = "lat lon" ;
float TCM(time, rlat, rlon) ;
TCM:standard_name = "surface_drag_coefficient_for_momentum_in_air" ;
TCM:long_name = "drag coefficient of momentum" ;
TCM:units = "1" ;
TCM:grid_mapping = "rotated_pole" ;
TCM:coordinates = "lat lon" ;
float TCH(time, rlat, rlon) ;
TCH:standard_name = "surface_drag_coefficient_for_heat_in_air" ;
TCH:long_name = "drag coefficient of heat" ;
TCH:units = "1" ;
TCH:grid_mapping = "rotated_pole" ;
TCH:coordinates = "lat lon" ;
float QV(time, level, rlat, rlon) ;
QV:standard_name = "specific_humidity" ;
QV:long_name = "specific humidity" ;
QV:units = "kg kg-1" ;
QV:grid_mapping = "rotated_pole" ;
QV:coordinates = "lat lon" ;
float QV_S(time, rlat, rlon) ;
QV_S:standard_name = "surface_specific_humidity" ;
QV_S:long_name = "surface specific humidity" ;
QV_S:units = "kg kg-1" ;
QV_S:grid_mapping = "rotated_pole" ;
QV_S:coordinates = "lat lon" ;
float QC(time, level, rlat, rlon) ;
QC:standard_name = "mass_fraction_of_cloud_liquid_water_in_air" ;
QC:long_name = "specific cloud liquid water content" ;
QC:units = "kg kg-1" ;
QC:grid_mapping = "rotated_pole" ;
QC:coordinates = "lat lon" ;
float QI(time, level, rlat, rlon) ;
QI:standard_name = "mass_fraction_of_cloud_ice_in_air" ;
QI:long_name = "specific cloud ice content" ;
QI:units = "kg kg-1" ;
QI:grid_mapping = "rotated_pole" ;
QI:coordinates = "lat lon" ;
float QR(time, level, rlat, rlon) ;
QR:standard_name = "mass_fraction_of_rain_in_air" ;
QR:long_name = "specific rain content" ;
QR:units = "kg kg-1" ;
QR:grid_mapping = "rotated_pole" ;
QR:coordinates = "lat lon" ;
float QS(time, level, rlat, rlon) ;
QS:standard_name = "mass_fraction_of_snow_in_air" ;
QS:long_name = "specific snow content" ;
QS:units = "kg kg-1" ;
QS:grid_mapping = "rotated_pole" ;
QS:coordinates = "lat lon" ;
float QG(time, level, rlat, rlon) ;
QG:standard_name = "mass_fraction_of_graupel_in_air" ;
QG:long_name = "specific graupel content" ;
QG:units = "kg kg-1" ;
QG:grid_mapping = "rotated_pole" ;
QG:coordinates = "lat lon" ;
float RELHUM(time, level, rlat, rlon) ;
RELHUM:standard_name = "relative_humidity" ;
RELHUM:long_name = "relative humidity" ;
RELHUM:units = "%" ;
RELHUM:grid_mapping = "rotated_pole" ;
RELHUM:coordinates = "lat lon" ;
float TKVM(time, level1, rlat, rlon) ;
TKVM:standard_name = "atmosphere_momentum_diffusivity" ;
TKVM:long_name = "diffusion coefficient of momentum" ;
TKVM:units = "m2 s-1" ;
TKVM:grid_mapping = "rotated_pole" ;
TKVM:coordinates = "lat lon" ;
float TKVH(time, level1, rlat, rlon) ;
TKVH:standard_name = "atmosphere_heat_diffusivity" ;
TKVH:long_name = "diffusion coefficient of heat" ;
TKVH:units = "m2 s-1" ;
TKVH:grid_mapping = "rotated_pole" ;
TKVH:coordinates = "lat lon" ;
float ALB_RAD(time, rlat, rlon) ;
ALB_RAD:standard_name = "surface_albedo" ;
ALB_RAD:long_name = "surface albedo" ;
ALB_RAD:units = "1" ;
ALB_RAD:grid_mapping = "rotated_pole" ;
ALB_RAD:coordinates = "lat lon" ;
float ASOB_S(time, rlat, rlon) ;
ASOB_S:standard_name = "surface_net_downward_shortwave_flux" ;
ASOB_S:long_name = "averaged surface net downward shortwave radiation" ;
ASOB_S:units = "W m-2" ;
ASOB_S:grid_mapping = "rotated_pole" ;
ASOB_S:coordinates = "lat lon" ;
ASOB_S:cell_methods = "time: mean" ;
float ATHB_S(time, rlat, rlon) ;
ATHB_S:standard_name = "surface_net_downward_longwave_flux" ;
ATHB_S:long_name = "averaged surface net downward longwave radiation" ;
ATHB_S:units = "W m-2" ;
ATHB_S:grid_mapping = "rotated_pole" ;
ATHB_S:coordinates = "lat lon" ;
ATHB_S:cell_methods = "time: mean" ;
float ASHFL_S(time, rlat, rlon) ;
ASHFL_S:standard_name = "surface_downward_sensible_heat_flux" ;
ASHFL_S:long_name = "averaged surface sensible heat flux" ;
ASHFL_S:units = "W m-2" ;
ASHFL_S:grid_mapping = "rotated_pole" ;
ASHFL_S:coordinates = "lat lon" ;
ASHFL_S:cell_methods = "time: mean" ;
float ALHFL_S(time, rlat, rlon) ;
ALHFL_S:standard_name = "surface_downward_latent_heat_flux" ;
ALHFL_S:long_name = "averaged surface latent heat flux" ;
ALHFL_S:units = "W m-2" ;
ALHFL_S:grid_mapping = "rotated_pole" ;
ALHFL_S:coordinates = "lat lon" ;
ALHFL_S:cell_methods = "time: mean" ;
float AVMFL_S(time, srlat, rlon) ;
AVMFL_S:standard_name = "surface_downward_northward_stress" ;
AVMFL_S:long_name = "averaged northward stress" ;
AVMFL_S:units = "Pa" ;
AVMFL_S:grid_mapping = "rotated_pole" ;
AVMFL_S:coordinates = "slatv slonv" ;
AVMFL_S:cell_methods = "time: mean" ;
float AUMFL_S(time, rlat, srlon) ;
AUMFL_S:standard_name = "surface_downward_eastward_stress" ;
AUMFL_S:long_name = "averaged eastward stress" ;
AUMFL_S:units = "Pa" ;
AUMFL_S:grid_mapping = "rotated_pole" ;
AUMFL_S:coordinates = "slatu slonu" ;
AUMFL_S:cell_methods = "time: mean" ;
float T_SO(time, soil1, rlat, rlon) ;
T_SO:standard_name = "soil_temperature" ;
T_SO:long_name = "soil temperature" ;
T_SO:units = "K" ;
T_SO:grid_mapping = "rotated_pole" ;
T_SO:coordinates = "lat lon" ;
T_SO:_FillValue = -1.e+20f ;
T_SO:missing_value = -1.e+20f ;
T_SO:cell_methods = "soil1: mean" ;
float W_SO(time, soil1, rlat, rlon) ;
W_SO:standard_name = "lwe_thickness_of_moisture_content_of_soil_layer" ;
W_SO:long_name = "soil water content" ;
W_SO:units = "m" ;
W_SO:grid_mapping = "rotated_pole" ;
W_SO:coordinates = "lat lon" ;
W_SO:_FillValue = -1.e+20f ;
W_SO:missing_value = -1.e+20f ;
W_SO:cell_methods = "soil1: mean" ;
float TOT_PREC(time, rlat, rlon) ;
TOT_PREC:standard_name = "precipitation_amount" ;
TOT_PREC:long_name = "total precipitation amount" ;
TOT_PREC:units = "kg m-2" ;
TOT_PREC:grid_mapping = "rotated_pole" ;
TOT_PREC:coordinates = "lat lon" ;
TOT_PREC:cell_methods = "time: sum" ;
float CLCT(time, rlat, rlon) ;
CLCT:standard_name = "cloud_area_fraction" ;
CLCT:long_name = "total cloud cover" ;
CLCT:units = "1" ;
CLCT:grid_mapping = "rotated_pole" ;
CLCT:coordinates = "lat lon" ;
float RAIN_GSP(time, rlat, rlon) ;
RAIN_GSP:standard_name = "large_scale_rainfall_amount" ;
RAIN_GSP:long_name = "large scale rainfall" ;
RAIN_GSP:units = "kg m-2" ;
RAIN_GSP:grid_mapping = "rotated_pole" ;
RAIN_GSP:coordinates = "lat lon" ;
RAIN_GSP:cell_methods = "time: sum" ;
float SNOW_GSP(time, rlat, rlon) ;
SNOW_GSP:standard_name = "large_scale_snowfall_amount" ;
SNOW_GSP:long_name = "large scale snowfall" ;
SNOW_GSP:units = "kg m-2" ;
SNOW_GSP:grid_mapping = "rotated_pole" ;
SNOW_GSP:coordinates = "lat lon" ;
SNOW_GSP:cell_methods = "time: sum" ;
float HPBL(time, rlat, rlon) ;
HPBL:long_name = "Height of boundary layer" ;
HPBL:units = "m" ;
HPBL:grid_mapping = "rotated_pole" ;
HPBL:coordinates = "lat lon" ;
float CLCT_MOD(time, rlat, rlon) ;
CLCT_MOD:long_name = "modified_total_cloud_cover" ;
CLCT_MOD:units = "1" ;
CLCT_MOD:grid_mapping = "rotated_pole" ;
CLCT_MOD:coordinates = "lat lon" ;
float SOBS_RAD(time, rlat, rlon) ;
SOBS_RAD:standard_name = "surface_net_downward_shortwave_flux" ;
SOBS_RAD:long_name = "surface net downward shortwave radiation" ;
SOBS_RAD:units = "W m-2" ;
SOBS_RAD:grid_mapping = "rotated_pole" ;
SOBS_RAD:coordinates = "lat lon" ;
float THBS_RAD(time, rlat, rlon) ;
THBS_RAD:standard_name = "surface_net_downward_longwave_flux" ;
THBS_RAD:long_name = "surface net downward longwave radiation" ;
THBS_RAD:units = "W m-2" ;
THBS_RAD:grid_mapping = "rotated_pole" ;
THBS_RAD:coordinates = "lat lon" ;
float SHFL_S(time, rlat, rlon) ;
SHFL_S:standard_name = "surface_downward_sensible_heat_flux" ;
SHFL_S:long_name = "surface sensible heat flux" ;
SHFL_S:units = "W m-2" ;
SHFL_S:grid_mapping = "rotated_pole" ;
SHFL_S:coordinates = "lat lon" ;
float LHFL_S(time, rlat, rlon) ;
LHFL_S:standard_name = "surface_downward_latent_heat_flux" ;
LHFL_S:long_name = "surface latent heat flux" ;
LHFL_S:units = "W m-2" ;
LHFL_S:grid_mapping = "rotated_pole" ;
LHFL_S:coordinates = "lat lon" ;
float VMFL_S(time, rlat, rlon) ;
VMFL_S:standard_name = "surface_downward_northward_stress" ;
VMFL_S:long_name = "northward stress" ;
VMFL_S:units = "Pa" ;
VMFL_S:grid_mapping = "rotated_pole" ;
VMFL_S:coordinates = "lat lon" ;
// global attributes:
:CDI = "Climate Data Interface version 1.9.5 (http://mpimet.mpg.de/cdi)" ;
:history = "Thu Jul 18 12:50:44 2019: cdo -mergetime lffd20070102000000.nc lffd20070102001500.nc lffd20070102003000.nc lffd20070102004500.nc lffd20070102010000.nc lffd20070102011500.nc lffd20070102013000.nc lffd20070102014500.nc lffd20070102020000.nc lffd20070102021500.nc lffd20070102023000.nc lffd20070102024500.nc lffd20070102030000.nc lffd20070102031500.nc lffd20070102033000.nc lffd20070102034500.nc lffd20070102040000.nc lffd20070102041500.nc lffd20070102043000.nc lffd20070102044500.nc lffd20070102050000.nc lffd20070102051500.nc lffd20070102053000.nc lffd20070102054500.nc lffd20070102060000.nc lffd20070102061500.nc lffd20070102063000.nc lffd20070102064500.nc lffd20070102070000.nc lffd20070102071500.nc lffd20070102073000.nc lffd20070102074500.nc VR1_COSMO_temp2.nc" ;
:source = "-" ;
:institution = "-" ;
:Conventions = "CF-1.0" ;
:title = "-" ;
:project_id = "-" ;
:experiment_id = "-" ;
:realization = 1 ;
:conventionsURL = "http://www.unidata.ucar.edu/packages/netcdf/conventions.html" ;
:contact = "-" ;
:references = "-" ;
:nccf_version = "2.0" ;
:creation_date = "2016-09-14 13:03:43" ;
:CDO = "Climate Data Operators version 1.9.5 (http://mpimet.mpg.de/cdo)" ;
:_NCProperties = "version=2,netcdf=4.6.3,hdf5=1.10.5" ;
}