netcdf TOPOI-CS_COSMO-CLM_5000BP-OUT05_1_4764402256189468256 {
dimensions:
time = UNLIMITED ; // (1 currently)
bnds = 2 ;
rlon = 132 ;
rlat = 129 ;
level = 40 ;
level1 = 41 ;
height_2m = 1 ;
height_10m = 1 ;
height_toa = 1 ;
wbt_13c = 1 ;
soil = 9 ;
soil1 = 10 ;
variables:
double time(time) ;
time:standard_name = "time" ;
time:long_name = "time" ;
time:units = "seconds since 3444-12-31 12:00:00" ;
time:calendar = "proleptic_gregorian" ;
time:bounds = "time_bnds" ;
double time_bnds(time, bnds) ;
time_bnds:long_name = "time bounds" ;
time_bnds:units = "seconds since 3444-12-31 12:00:00" ;
char 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 = 39.25f ;
rotated_pole:grid_north_pole_longitude = -162.f ;
float rlon(rlon) ;
rlon:standard_name = "grid_longitude" ;
rlon:long_name = "rotated longitude" ;
rlon:units = "degrees" ;
float rlat(rlat) ;
rlat:standard_name = "grid_latitude" ;
rlat:long_name = "rotated latitude" ;
rlat:units = "degrees" ;
float lon(rlat, rlon) ;
lon:standard_name = "longitude" ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
float lat(rlat, rlon) ;
lat:standard_name = "latitude" ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
float vcoord(level1) ;
vcoord:long_name = "Height-based hybrid Gal-Chen coordinate" ;
vcoord:units = "Pa" ;
vcoord:ivctype = 2 ;
vcoord:irefatm = 2 ;
vcoord:p0sl = 100000. ;
vcoord:t0sl = 288.149993896484 ;
vcoord:dt0lp = 42. ;
vcoord:vcflat = 11430. ;
vcoord:delta_t = 75. ;
vcoord:h_scal = 10000. ;
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" ;
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" ;
float height_toa(height_toa) ;
height_toa:standard_name = "height" ;
height_toa:long_name = "height of top of model" ;
height_toa:units = "m" ;
height_toa:positive = "up" ;
float wbt_13c(wbt_13c) ;
wbt_13c:long_name = "wet bulb temperature" ;
wbt_13c:units = "Celsius" ;
float soil1(soil1) ;
soil1:standard_name = "depth" ;
soil1:long_name = "depth of soil layers" ;
soil1:units = "m" ;
soil1:positive = "down" ;
soil1:bounds = "soil1_bnds" ;
float soil1_bnds(soil1, bnds) ;
soil1_bnds:long_name = "boundaries of soil layers" ;
float AEVAP_S(time, rlat, rlon) ;
AEVAP_S:standard_name = "water_evaporation_amount" ;
AEVAP_S:long_name = "surface evaporation" ;
AEVAP_S:units = "kg m-2" ;
AEVAP_S:grid_mapping = "rotated_pole" ;
AEVAP_S:coordinates = "lon lat" ;
AEVAP_S:cell_methods = "time: sum" ;
float CLCH(time, rlat, rlon) ;
CLCH:standard_name = "cloud_area_fraction_in_atmosphere_layer" ;
CLCH:long_name = "high cloud cover" ;
CLCH:units = "1" ;
CLCH:grid_mapping = "rotated_pole" ;
CLCH:coordinates = "lon lat" ;
float CLCL(time, rlat, rlon) ;
CLCL:standard_name = "cloud_area_fraction_in_atmosphere_layer" ;
CLCL:long_name = "low cloud cover" ;
CLCL:units = "1" ;
CLCL:grid_mapping = "rotated_pole" ;
CLCL:coordinates = "lon lat" ;
float CLCM(time, rlat, rlon) ;
CLCM:standard_name = "cloud_area_fraction_in_atmosphere_layer" ;
CLCM:long_name = "medium cloud cover" ;
CLCM:units = "1" ;
CLCM:grid_mapping = "rotated_pole" ;
CLCM:coordinates = "lon lat" ;
float H_SNOW(time, rlat, rlon) ;
H_SNOW:standard_name = "surface_snow_thickness" ;
H_SNOW:long_name = "thickness of snow" ;
H_SNOW:units = "m" ;
H_SNOW:grid_mapping = "rotated_pole" ;
H_SNOW:coordinates = "lon lat" ;
H_SNOW:_FillValue = -1.e+20f ;
float RUNOFF_G(time, rlat, rlon) ;
RUNOFF_G:standard_name = "subsurface_runoff_amount" ;
RUNOFF_G:long_name = "subsurface runoff" ;
RUNOFF_G:units = "kg m-2" ;
RUNOFF_G:grid_mapping = "rotated_pole" ;
RUNOFF_G:coordinates = "lon lat" ;
RUNOFF_G:_FillValue = -1.e+20f ;
RUNOFF_G:cell_methods = "time: sum" ;
float RUNOFF_S(time, rlat, rlon) ;
RUNOFF_S:standard_name = "surface_runoff_amount" ;
RUNOFF_S:long_name = "surface runoff" ;
RUNOFF_S:units = "kg m-2" ;
RUNOFF_S:grid_mapping = "rotated_pole" ;
RUNOFF_S:coordinates = "lon lat" ;
RUNOFF_S:_FillValue = -1.e+20f ;
RUNOFF_S:cell_methods = "time: sum" ;
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 = "lon lat" ;
float TQC(time, rlat, rlon) ;
TQC:standard_name = "atmosphere_cloud_liquid_water_content" ;
TQC:long_name = "vertical integrated cloud water" ;
TQC:units = "kg m-2" ;
TQC:grid_mapping = "rotated_pole" ;
TQC:coordinates = "lon lat" ;
float TQI(time, rlat, rlon) ;
TQI:standard_name = "atmosphere_cloud_ice_content" ;
TQI:long_name = "vertical integrated cloud ice" ;
TQI:units = "kg m-2" ;
TQI:grid_mapping = "rotated_pole" ;
TQI:coordinates = "lon lat" ;
float TQV(time, rlat, rlon) ;
TQV:standard_name = "atmosphere_water_vapor_content" ;
TQV:long_name = "precipitable water" ;
TQV:units = "kg m-2" ;
TQV:grid_mapping = "rotated_pole" ;
TQV:coordinates = "lon lat" ;
float W_SO_ICE(time, soil1, rlat, rlon) ;
W_SO_ICE:standard_name = "lwe_thickness_of_frozen_water_content_of_soil_layer" ;
W_SO_ICE:long_name = "soil frozen water content" ;
W_SO_ICE:units = "m" ;
W_SO_ICE:grid_mapping = "rotated_pole" ;
W_SO_ICE:coordinates = "lon lat" ;
W_SO_ICE:_FillValue = -1.e+20f ;
W_SO_ICE: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 = "lon lat" ;
W_SO:_FillValue = -1.e+20f ;
W_SO:cell_methods = "soil1: mean" ;
float HPBL(time, rlat, rlon) ;
HPBL:long_name = "Height of boundary layer" ;
HPBL:units = "m" ;
HPBL:grid_mapping = "rotated_pole" ;
HPBL:coordinates = "lon lat" ;
float SNOW_MELT(time, rlat, rlon) ;
SNOW_MELT:standard_name = "snow_melt_amount" ;
SNOW_MELT:long_name = "snow melt" ;
SNOW_MELT:units = "kg m-2" ;
SNOW_MELT:grid_mapping = "rotated_pole" ;
SNOW_MELT:coordinates = "lon lat" ;
SNOW_MELT:_FillValue = -1.e+20f ;
SNOW_MELT:cell_methods = "time: sum" ;
float W_SNOW(time, rlat, rlon) ;
W_SNOW:standard_name = "lwe_thickness_of_surface_snow_amount" ;
W_SNOW:long_name = "surface snow amount" ;
W_SNOW:units = "m" ;
W_SNOW:grid_mapping = "rotated_pole" ;
W_SNOW:coordinates = "lon lat" ;
W_SNOW:_FillValue = -1.e+20f ;
// global attributes:
:title = "Europe 0.44 Starter Package" ;
:institution = "-" ;
:source = "/work/bb0892/cclm_5000_installation/src/cclm/cclm.exe}" ;
:project_id = "-" ;
:experiment_id = "spcclm" ;
:realization = 1 ;
:Conventions = "CF-1.0" ;
:conventionsURL = "http://www.unidata.ucar.edu/packages/netcdf/conventions.html" ;
:contact = "YourAddress" ;
:references = "http://www.clm-community.eu/" ;
:creation_date = "2015-04-09 16:51:22" ;
}