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Data headers for 'C2_NCEP_M_bellingsha_B'
Record


Generation date
2019-08-02
Method
ncdump -h
Header
netcdf C2_NCEP_M_bellingsha_B_1_1787446738438484117 {
dimensions:
time = UNLIMITED ; // (3 currently)
lat = 1 ;
lon = 1 ;
bnds = 2 ;
height_2m = 1 ;
height_10m = 1 ;
soil_depth = 4 ;
cld_height = 4 ;
level = 64 ;
variables:
double time(time) ;
time:units = "hours since 2007-01-01 00:00:00" ;
time:long_name = "time" ;
time:standard_name = "time" ;
time:bounds = "time_bnds" ;
float lat(lat) ;
lat:units = "degrees_north" ;
lat:long_name = "Horizontal coordinate variable" ;
lat:standard_name = "latitude" ;
lat:axis = "Y" ;
float lon(lon) ;
lon:units = "degrees_east" ;
lon:long_name = "Horizontal coordinate variable" ;
lon:standard_name = "longitude" ;
lon:axis = "X" ;
float ELEV(lat, lon) ;
ELEV:long_name = "Model altitude" ;
ELEV:units = "m" ;
ELEV:standard_name = "altitude" ;
ELEV:missing_value = 3.4e+38f ;
ELEV:_FillValue = 3.4e+38f ;
double time_bnds(time, bnds) ;
time_bnds:units = "hours since 2007-01-01 00:00:00" ;
time_bnds:long_name = "time bounds" ;
int VEG_TYPE(lat, lon) ;
VEG_TYPE:long_name = "Vegetation type" ;
VEG_TYPE:units = "1" ;
VEG_TYPE:standard_name = "surface_cover" ;
VEG_TYPE:flag_values = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 25 ;
VEG_TYPE:flag_meanings = "Ocean Evergreen_broadleaf_trees Broadleaf_deciduous_trees Deciduous_and_evergreen_trees Evergreen_needle_leaf_trees Deciduous_needle_leaf_trees Ground_cover_with_trees_and_shrubs Ground_cover_only Broadleaf_shrubs_with_parennial_ground_cover Broadleaf_shrubs_with_bare_soil Ground_cover_with_dwarf_trees_and_thrubs Bare_soil Agriculture_or_C3_grassland Ice_cap_and_glacier" ;
VEG_TYPE:missing_value = -999 ;
VEG_TYPE:_FillValue = -999 ;
int SOIL_TYPE(lat, lon) ;
SOIL_TYPE:long_name = "soil_type" ;
SOIL_TYPE:units = "1" ;
SOIL_TYPE:standard_name = "soil_type" ;
SOIL_TYPE:flag_values = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ;
SOIL_TYPE:flag_meanings = "Sea_point Loamy_sand(course) Silty_clay_loam(medium) Light_clay(fine) Sandy_loam(course_medium) Sandy_clay(coarse_fine) Clay_loam(medium_fine) Sandy_clay_loam(coarse_med_fine) Loam(organic) Ice(use_loamy_sand_property)" ;
SOIL_TYPE:missing_value = -999 ;
SOIL_TYPE:_FillValue = -999 ;
float height_2m(height_2m) ;
height_2m:units = "m" ;
height_2m:long_name = "height above the surface" ;
height_2m:standard_name = "altitude" ;
height_2m:positive = "up" ;
float height_10m(height_10m) ;
height_10m:units = "m" ;
height_10m:long_name = "height above the surface" ;
height_10m:standard_name = "altitude" ;
height_10m:positive = "up" ;
float soil_depth(soil_depth) ;
soil_depth:units = "m" ;
soil_depth:long_name = "depth of soil layers" ;
soil_depth:standard_name = "depth" ;
soil_depth:axis = "Z" ;
soil_depth:positive = "down" ;
soil_depth:bounds = "soil_bnds" ;
float soil_bnds(soil_depth, bnds) ;
soil_bnds:units = "m" ;
soil_bnds:long_name = "soil bounds" ;
float cld_height(cld_height) ;
cld_height:units = "hPa" ;
cld_height:long_name = "pbl low, medium, high cloud layers" ;
cld_height:axis = "Z" ;
cld_height:positive = "down" ;
cld_height:bounds = "cld_bnds" ;
float cld_bnds(cld_height, bnds) ;
cld_bnds:units = "hPa" ;
cld_bnds:long_name = "cloud bounds" ;
float level(level) ;
level:long_name = "model level from ground" ;
level:standard_name = "atmosphere_hybrid_sigma_pressure_coordinate" ;
level:axis = "Z" ;
level:positive = "up" ;
level:formula_terms = "ap: ak b: bk ps: PS" ;
float ak(level) ;
ak:long_name = "coeffient of vertical coordinate system" ;
float bk(level) ;
bk:long_name = "coeffient of vertical coordinate system" ;
float FR_LAND(time, lat, lon) ;
FR_LAND:long_name = "sea(0)_land(1)_mask" ;
FR_LAND:units = "1" ;
FR_LAND:standard_name = "land_area_fraction" ;
FR_LAND:missing_value = 3.4e+38f ;
FR_LAND:_FillValue = 3.4e+38f ;
float AUMFL_S(time, lat, lon) ;
AUMFL_S:long_name = "zonal_wind_stress" ;
AUMFL_S:units = "Pa" ;
AUMFL_S:standard_name = "surface_downward_eastward_stress" ;
AUMFL_S:cell_methods = "time: mean" ;
AUMFL_S:missing_value = 3.4e+38f ;
AUMFL_S:_FillValue = 3.4e+38f ;
float AVMFL_S(time, lat, lon) ;
AVMFL_S:long_name = "meridional_wind_stress" ;
AVMFL_S:units = "Pa" ;
AVMFL_S:standard_name = "surface_downward_northward_stress" ;
AVMFL_S:cell_methods = "time: mean" ;
AVMFL_S:missing_value = 3.4e+38f ;
AVMFL_S:_FillValue = 3.4e+38f ;
float ASHFL_S(time, lat, lon) ;
ASHFL_S:long_name = "sensible_heat_flux" ;
ASHFL_S:units = "w m-2" ;
ASHFL_S:standard_name = "surface_upward_sensible_heat_flux" ;
ASHFL_S:cell_methods = "time: mean" ;
ASHFL_S:missing_value = 3.4e+38f ;
ASHFL_S:_FillValue = 3.4e+38f ;
float ALHFL_S(time, lat, lon) ;
ALHFL_S:long_name = "latent_heat_flux" ;
ALHFL_S:units = "w m-2" ;
ALHFL_S:standard_name = "surface_upward_latent_heat_flux" ;
ALHFL_S:cell_methods = "time: mean" ;
ALHFL_S:missing_value = 3.4e+38f ;
ALHFL_S:_FillValue = 3.4e+38f ;
float T_G(time, lat, lon) ;
T_G:long_name = "surface_temperature" ;
T_G:units = "k" ;
T_G:standard_name = "surface_temperature" ;
T_G:missing_value = 3.4e+38f ;
T_G:_FillValue = 3.4e+38f ;
float SNOW_S(time, lat, lon) ;
SNOW_S:long_name = "snow_water_equivalent" ;
SNOW_S:units = "kg m-2" ;
SNOW_S:standard_name = "surface_snow_amount" ;
SNOW_S:missing_value = 3.4e+38f ;
SNOW_S:_FillValue = 3.4e+38f ;
float ATHDW_S(time, lat, lon) ;
ATHDW_S:long_name = "longwave_downward_flux_at_surface" ;
ATHDW_S:units = "w m-2" ;
ATHDW_S:standard_name = "surface_downwelling_longwave_flux_in_air" ;
ATHDW_S:cell_methods = "time: mean" ;
ATHDW_S:missing_value = 3.4e+38f ;
ATHDW_S:_FillValue = 3.4e+38f ;
float ATHUP_S(time, lat, lon) ;
ATHUP_S:long_name = "longwave_upward_flux_at_surface" ;
ATHUP_S:units = "w m-2" ;
ATHUP_S:standard_name = "surface_upwelling_longwave_flux_in_air" ;
ATHUP_S:cell_methods = "time: mean" ;
ATHUP_S:missing_value = 3.4e+38f ;
ATHUP_S:_FillValue = 3.4e+38f ;
float ATHUP_T(time, lat, lon) ;
ATHUP_T:long_name = "longwave_upward_flux_at_toa" ;
ATHUP_T:units = "w m-2" ;
ATHUP_T:standard_name = "toa_outgoing_longwave_flux" ;
ATHUP_T:cell_methods = "time: mean" ;
ATHUP_T:missing_value = 3.4e+38f ;
ATHUP_T:_FillValue = 3.4e+38f ;
float ASOUP_T(time, lat, lon) ;
ASOUP_T:long_name = "shortwave_upward_flux_at_toa" ;
ASOUP_T:units = "w m-2" ;
ASOUP_T:standard_name = "toa_outgoing_shortwave_flux" ;
ASOUP_T:cell_methods = "time: mean" ;
ASOUP_T:missing_value = 3.4e+38f ;
ASOUP_T:_FillValue = 3.4e+38f ;
float ASOUP_S(time, lat, lon) ;
ASOUP_S:long_name = "shortwave_upward_flux_at_surface" ;
ASOUP_S:units = "w m-2" ;
ASOUP_S:standard_name = "surface_upwelling_shortwave_flux_in_air" ;
ASOUP_S:cell_methods = "time: mean" ;
ASOUP_S:missing_value = 3.4e+38f ;
ASOUP_S:_FillValue = 3.4e+38f ;
float ASODW_S(time, lat, lon) ;
ASODW_S:long_name = "shortwave_downward_flux_at_surface" ;
ASODW_S:units = "w m-2" ;
ASODW_S:standard_name = "surface_downwelling_shortwave_flux_in_air" ;
ASODW_S:cell_methods = "time: mean" ;
ASODW_S:missing_value = 3.4e+38f ;
ASODW_S:_FillValue = 3.4e+38f ;
float TOT_PREC(time, lat, lon) ;
TOT_PREC:long_name = "precipitation_amount_in_3_hour" ;
TOT_PREC:units = "kg m-2" ;
TOT_PREC:standard_name = "precipitation_amount" ;
TOT_PREC:cell_methods = "time: sum" ;
TOT_PREC:missing_value = 3.4e+38f ;
TOT_PREC:_FillValue = 3.4e+38f ;
float PREC_CON(time, lat, lon) ;
PREC_CON:long_name = "convective_precipitation_in_3_hour" ;
PREC_CON:units = "kg m-2" ;
PREC_CON:standard_name = "convective_precipitation_amount" ;
PREC_CON:cell_methods = "time: sum" ;
PREC_CON:missing_value = 3.4e+38f ;
PREC_CON:_FillValue = 3.4e+38f ;
float AHFLU_S(time, lat, lon) ;
AHFLU_S:long_name = "upward_ground_heat_flux" ;
AHFLU_S:units = "w m-2" ;
AHFLU_S:standard_name = "upward_heat_flux_at_ground_level_in_soil" ;
AHFLU_S:cell_methods = "time: mean" ;
AHFLU_S:missing_value = 3.4e+38f ;
AHFLU_S:_FillValue = 3.4e+38f ;
float FR_ICE(time, lat, lon) ;
FR_ICE:long_name = "concentration_of_seaice" ;
FR_ICE:units = "1" ;
FR_ICE:standard_name = "sea_ice_area_fraction" ;
FR_ICE:missing_value = 3.4e+38f ;
FR_ICE:_FillValue = 3.4e+38f ;
float PS(time, lat, lon) ;
PS:long_name = "surface_pressure" ;
PS:units = "Pa" ;
PS:standard_name = "surface_air_pressure" ;
PS:missing_value = 3.4e+38f ;
PS:_FillValue = 3.4e+38f ;
float RUNOFF_S(time, lat, lon) ;
RUNOFF_S:long_name = "runoff_amount_in_3_hour" ;
RUNOFF_S:units = "kg m-2" ;
RUNOFF_S:standard_name = "surface_runoff_amount" ;
RUNOFF_S:cell_methods = "time: sum" ;
RUNOFF_S:missing_value = 3.4e+38f ;
RUNOFF_S:_FillValue = 3.4e+38f ;
float AUGRW_S(time, lat, lon) ;
AUGRW_S:long_name = "zonal_stress_due_to_gravity_wave_drag" ;
AUGRW_S:units = "Pa" ;
AUGRW_S:standard_name = "atmosphere_eastward_stress_due_to_gravity_wave_drag" ;
AUGRW_S:cell_methods = "time: mean" ;
AUGRW_S:missing_value = 3.4e+38f ;
AUGRW_S:_FillValue = 3.4e+38f ;
float AVGRW_S(time, lat, lon) ;
AVGRW_S:long_name = "meridional_stress_due_to_gravity_wave_dg" ;
AVGRW_S:units = "Pa" ;
AVGRW_S:standard_name = "atmosphere_northward_stress_due_to_gravity_wave_drag" ;
AVGRW_S:cell_methods = "time: mean" ;
AVGRW_S:missing_value = 3.4e+38f ;
AVGRW_S:_FillValue = 3.4e+38f ;
float DZ_PBL(time, lat, lon) ;
DZ_PBL:long_name = "planetary_boundary_layer" ;
DZ_PBL:units = "m" ;
DZ_PBL:standard_name = "atmosphere_boundary_layer_thickness" ;
DZ_PBL:missing_value = 3.4e+38f ;
DZ_PBL:_FillValue = 3.4e+38f ;
float IWV(time, lat, lon) ;
IWV:long_name = "precicipitable_water" ;
IWV:units = "kg m-2" ;
IWV:standard_name = "atmosphere_water_vapor_content" ;
IWV:missing_value = 3.4e+38f ;
IWV:_FillValue = 3.4e+38f ;
float ALB(time, lat, lon) ;
ALB:long_name = "surface_albedo" ;
ALB:units = "1" ;
ALB:standard_name = "surface_albedo" ;
ALB:cell_methods = "time: mean" ;
ALB:missing_value = 3.4e+38f ;
ALB:_FillValue = 3.4e+38f ;
float CLCT(time, lat, lon) ;
CLCT:long_name = "cloud_area_fraction_atmospheric_column" ;
CLCT:units = "1" ;
CLCT:standard_name = "cloud_area_fraction" ;
CLCT:cell_methods = "time: mean" ;
CLCT:missing_value = 3.4e+38f ;
CLCT:_FillValue = 3.4e+38f ;
float SEA_ICE(time, lat, lon) ;
SEA_ICE:long_name = "sea_ice_thickness" ;
SEA_ICE:units = "m" ;
SEA_ICE:standard_name = "sea_ice_thickness" ;
SEA_ICE:missing_value = 3.4e+38f ;
SEA_ICE:_FillValue = 3.4e+38f ;
float SNOW_DEPTH(time, lat, lon) ;
SNOW_DEPTH:long_name = "snow_depth" ;
SNOW_DEPTH:units = "m" ;
SNOW_DEPTH:standard_name = "surface_snow_thickness" ;
SNOW_DEPTH:missing_value = 3.4e+38f ;
SNOW_DEPTH:_FillValue = 3.4e+38f ;
float W_I(time, lat, lon) ;
W_I:long_name = "canopy_water_content" ;
W_I:units = "kg m-2" ;
W_I:standard_name = "canopy_water_amount" ;
W_I:missing_value = 3.4e+38f ;
W_I:_FillValue = 3.4e+38f ;
float FR_VEG(time, lat, lon) ;
FR_VEG:long_name = "vegetation_area_fraction" ;
FR_VEG:units = "1" ;
FR_VEG:standard_name = "vegetation_area_fraction" ;
FR_VEG:missing_value = 3.4e+38f ;
FR_VEG:_FillValue = 3.4e+38f ;
float PREC_TYPE(time, lat, lon) ;
PREC_TYPE:long_name = "precipitation_type_snow(0)_rain(1)" ;
PREC_TYPE:units = "1" ;
PREC_TYPE:standard_name = "" ;
PREC_TYPE:missing_value = 3.4e+38f ;
PREC_TYPE:_FillValue = 3.4e+38f ;
float SFEXC(time, lat, lon) ;
SFEXC:long_name = "surface_exchange_coefficient" ;
SFEXC:units = "kg m-3 m/s" ;
SFEXC:standard_name = "" ;
SFEXC:missing_value = 3.4e+38f ;
SFEXC:_FillValue = 3.4e+38f ;
float ACOND(time, lat, lon) ;
ACOND:long_name = "surface_aerodynamic_conductance" ;
ACOND:units = "m s-1" ;
ACOND:standard_name = "" ;
ACOND:missing_value = 3.4e+38f ;
ACOND:_FillValue = 3.4e+38f ;
float SSRUN(time, lat, lon) ;
SSRUN:long_name = "storm_surface_runoff_amount_in_3_hour" ;
SSRUN:units = "kg m-2" ;
SSRUN:standard_name = "" ;
SSRUN:cell_methods = "time: sum" ;
SSRUN:missing_value = 3.4e+38f ;
SSRUN:_FillValue = 3.4e+38f ;
float EVBS(time, lat, lon) ;
EVBS:long_name = "direct_evaporation_from_bare_soil" ;
EVBS:units = "w m-2" ;
EVBS:standard_name = "" ;
EVBS:cell_methods = "time: mean" ;
EVBS:missing_value = 3.4e+38f ;
EVBS:_FillValue = 3.4e+38f ;
float EVCW(time, lat, lon) ;
EVCW:long_name = "canopy_water_evaporation" ;
EVCW:units = "w m-2" ;
EVCW:standard_name = "" ;
EVCW:cell_methods = "time: mean" ;
EVCW:missing_value = 3.4e+38f ;
EVCW:_FillValue = 3.4e+38f ;
float TRANS(time, lat, lon) ;
TRANS:long_name = "plant_canopy_transpiration" ;
TRANS:units = "w m-2" ;
TRANS:standard_name = "" ;
TRANS:cell_methods = "time: mean" ;
TRANS:missing_value = 3.4e+38f ;
TRANS:_FillValue = 3.4e+38f ;
float ASSHFL(time, lat, lon) ;
ASSHFL:long_name = "surface_snow_sublimation_heat_flux" ;
ASSHFL:units = "w m-2" ;
ASSHFL:standard_name = "surface_snow_sublimation_heat_flux" ;
ASSHFL:cell_methods = "time: mean" ;
ASSHFL:missing_value = 3.4e+38f ;
ASSHFL:_FillValue = 3.4e+38f ;
float FR_SNOW(time, lat, lon) ;
FR_SNOW:long_name = "surface_snow_area_fraction" ;
FR_SNOW:units = "1" ;
FR_SNOW:standard_name = "surface_snow_area_fraction" ;
FR_SNOW:cell_methods = "time: mean" ;
FR_SNOW:missing_value = 3.4e+38f ;
FR_SNOW:_FillValue = 3.4e+38f ;
float QV_S(time, lat, lon) ;
QV_S:long_name = "soil_moisture_content_200cm_below_sfc" ;
QV_S:units = "kg m-2" ;
QV_S:standard_name = "soil_moisture_content" ;
QV_S:missing_value = 3.4e+38f ;
QV_S:_FillValue = 3.4e+38f ;
float PREC_GSP(time, lat, lon) ;
PREC_GSP:long_name = "large_scale_precipitation_in_3_hour" ;
PREC_GSP:units = "kg m-2" ;
PREC_GSP:standard_name = "large_scale_precipitation_amount [NEW]" ;
PREC_GSP:cell_methods = "time: sum" ;
PREC_GSP:missing_value = 3.4e+38f ;
PREC_GSP:_FillValue = 3.4e+38f ;
float TMAX_2M(time, height_2m, lat, lon) ;
TMAX_2M:long_name = "maximum_air_temperature_2m_above_ground" ;
TMAX_2M:units = "k" ;
TMAX_2M:standard_name = "air_temperature" ;
TMAX_2M:cell_methods = "time: maximum" ;
TMAX_2M:missing_value = 3.4e+38f ;
TMAX_2M:_FillValue = 3.4e+38f ;
float TMIN_2M(time, height_2m, lat, lon) ;
TMIN_2M:long_name = "minimum_air_temperature_2m_above_ground" ;
TMIN_2M:units = "k" ;
TMIN_2M:standard_name = "air_temperature" ;
TMIN_2M:cell_methods = "time: minimum" ;
TMIN_2M:missing_value = 3.4e+38f ;
TMIN_2M:_FillValue = 3.4e+38f ;
float T_2M(time, height_2m, lat, lon) ;
T_2M:long_name = "air_temperature_at_2m_above_ground" ;
T_2M:units = "k" ;
T_2M:standard_name = "air_temperature" ;
T_2M:missing_value = 3.4e+38f ;
T_2M:_FillValue = 3.4e+38f ;
float QV_2M(time, height_2m, lat, lon) ;
QV_2M:long_name = "specific_humidity_at_2m_above_ground" ;
QV_2M:units = "kg kg-1" ;
QV_2M:standard_name = "specific_humidity" ;
QV_2M:missing_value = 3.4e+38f ;
QV_2M:_FillValue = 3.4e+38f ;
float U_10M(time, height_10m, lat, lon) ;
U_10M:long_name = "u-component_of_wind_at_10m_above_ground" ;
U_10M:units = "m s-1" ;
U_10M:standard_name = "eastward_wind" ;
U_10M:missing_value = 3.4e+38f ;
U_10M:_FillValue = 3.4e+38f ;
float V_10M(time, height_10m, lat, lon) ;
V_10M:long_name = "v-component_of_wind_at_10m_above_ground" ;
V_10M:units = "m s-1" ;
V_10M:standard_name = "northward_wind" ;
V_10M:missing_value = 3.4e+38f ;
V_10M:_FillValue = 3.4e+38f ;
float W_SO(time, soil_depth, lat, lon) ;
W_SO:long_name = "total_water_content_of_soil_(liquid+ice)" ;
W_SO:units = "kg m-2" ;
W_SO:standard_name = "moisture_content_of_soil_layer" ;
W_SO:missing_value = 3.4e+38f ;
W_SO:_FillValue = 3.4e+38f ;
float W_LIQ(time, soil_depth, lat, lon) ;
W_LIQ:long_name = "total_water_content_of_soil_(liquid)" ;
W_LIQ:units = "kg m-2" ;
W_LIQ:standard_name = "liquid_water_content_of_soil_layer" ;
W_LIQ:missing_value = 3.4e+38f ;
W_LIQ:_FillValue = 3.4e+38f ;
float T_SO(time, soil_depth, lat, lon) ;
T_SO:long_name = "soil_temperature" ;
T_SO:units = "k" ;
T_SO:standard_name = "soil_temperature" ;
T_SO:missing_value = 3.4e+38f ;
T_SO:_FillValue = 3.4e+38f ;
float CLC_PBL(time, lat, lon) ;
CLC_PBL:long_name = "cloud_area_fraction_boundary_layer" ;
CLC_PBL:units = "1" ;
CLC_PBL:standard_name = "cloud_area_fraction" ;
CLC_PBL:cell_methods = "time: mean" ;
CLC_PBL:missing_value = 3.4e+38f ;
CLC_PBL:_FillValue = 3.4e+38f ;
float CLC(time, cld_height, lat, lon) ;
CLC:long_name = "cloud_area_fraction_bdy_low_med_high" ;
CLC:units = "1" ;
CLC:standard_name = "cloud_area_fraction_in_atmosphere_layer" ;
CLC:cell_methods = "cld_height: mean" ;
CLC:missing_value = 3.4e+38f ;
CLC:_FillValue = 3.4e+38f ;
float PTOP(time, cld_height, lat, lon) ;
PTOP:long_name = "cloud_top_pressure_bdy_low_med_high" ;
PTOP:units = "Pa" ;
PTOP:standard_name = "air_pressure_at_cloud_top" ;
PTOP:cell_methods = "cld_height: mean" ;
PTOP:missing_value = 3.4e+38f ;
PTOP:_FillValue = 3.4e+38f ;
float PBAS(time, cld_height, lat, lon) ;
PBAS:long_name = "cloud_bottom_pressure_bdy_low_med_high" ;
PBAS:units = "Pa" ;
PBAS:standard_name = "air_pressure_at_cloud_bottom" ;
PBAS:cell_methods = "cld_height: mean" ;
PBAS:missing_value = 3.4e+38f ;
PBAS:_FillValue = 3.4e+38f ;
float TTOP(time, cld_height, lat, lon) ;
TTOP:long_name = "cloud_temperature_bdy_low_med_high" ;
TTOP:units = "k" ;
TTOP:standard_name = "air_temperature_at_cloud_top" ;
TTOP:cell_methods = "cld_height: mean" ;
TTOP:missing_value = 3.4e+38f ;
TTOP:_FillValue = 3.4e+38f ;
float U(time, level, lat, lon) ;
U:long_name = "u_component_wind_on_model_level" ;
U:units = "m s-1" ;
U:standard_name = "eastward_wind" ;
U:missing_value = 3.4e+38f ;
U:_FillValue = 3.4e+38f ;
float V(time, level, lat, lon) ;
V:long_name = "v_component_wind_on_model_level" ;
V:units = "m s-1" ;
V:standard_name = "northward_wind" ;
V:missing_value = 3.4e+38f ;
V:_FillValue = 3.4e+38f ;
float T(time, level, lat, lon) ;
T:long_name = "temperature_on_model_level" ;
T:units = "k" ;
T:standard_name = "air_temperature" ;
T:missing_value = 3.4e+38f ;
T:_FillValue = 3.4e+38f ;
float QV(time, level, lat, lon) ;
QV:long_name = "specific_humidity_on_model_level" ;
QV:units = "kg kg-1" ;
QV:standard_name = "specific_humidity" ;
QV:missing_value = 3.4e+38f ;
QV:_FillValue = 3.4e+38f ;
float P(time, level, lat, lon) ;
P:long_name = "pressure_on_model_level" ;
P:units = "Pa" ;
P:standard_name = "air_pressure" ;
P:missing_value = 3.4e+38f ;
P:_FillValue = 3.4e+38f ;
float OMEGA(time, level, lat, lon) ;
OMEGA:long_name = "vertical_air_velocity_expressed_as_tende" ;
OMEGA:units = "Pa s-1" ;
OMEGA:standard_name = "lagrangian_tendency_of_air_pressure" ;
OMEGA:missing_value = 3.4e+38f ;
OMEGA:_FillValue = 3.4e+38f ;
float DTDT_ADV(time, level, lat, lon) ;
DTDT_ADV:long_name = "tendency_of_air_temperature_due_to_advec" ;
DTDT_ADV:units = "k s-1" ;
DTDT_ADV:standard_name = "tendency_of_air_temperature_due_to_advection" ;
DTDT_ADV:missing_value = 3.4e+38f ;
DTDT_ADV:_FillValue = 3.4e+38f ;
float DQVDT_ADV(time, level, lat, lon) ;
DQVDT_ADV:long_name = "tendency_of_specific_humidity_due_to_adv" ;
DQVDT_ADV:units = "kg kg-1 s-1" ;
DQVDT_ADV:standard_name = "tendency_of_specific_humidity_due_to_advection" ;
DQVDT_ADV:missing_value = 3.4e+38f ;
DQVDT_ADV:_FillValue = 3.4e+38f ;
float FR_QWQI(time, level, lat, lon) ;
FR_QWQI:long_name = "total_cloud_condensate_(liq+ice)_on_mode" ;
FR_QWQI:units = "1" ;
FR_QWQI:standard_name = "mass_fraction_of_cloud_condensed_water_in_air" ;
FR_QWQI:missing_value = 3.4e+38f ;
FR_QWQI:_FillValue = 3.4e+38f ;
float DQWDT_ADV(time, level, lat, lon) ;
DQWDT_ADV:long_name = "tendency_of_total_cloud_condensate_(liq+" ;
DQWDT_ADV:units = "kg kg-1 s-1" ;
DQWDT_ADV:standard_name = "tendency_of_mass_fraction_of_cloud_condensed_water_in_air_due_to_advection" ;
DQWDT_ADV:missing_value = 3.4e+38f ;
DQWDT_ADV:_FillValue = 3.4e+38f ;
float CLC_M(time, level, lat, lon) ;
CLC_M:long_name = "cloud_cover_on_model_level" ;
CLC_M:units = "1" ;
CLC_M:standard_name = "cloud_area_fraction_in_atmosphere_layer" ;
CLC_M:missing_value = 3.4e+38f ;
CLC_M:_FillValue = 3.4e+38f ;

// global attributes:
:Title = "netCDF file made by make_fldap_ncdf" ;
:Institution = "" ;
:History = " ./make_ceop_ncdf molts_106.dat" ;
:Source = "NCEP GFS WCOSS version 14-Jan-2015" ;
:Point_name = "Bellingshausen" ;
:Location = "Point(lat,lon) = -62.20 -58.90" ;
:Forecast_initial = "2016-05-01 00:00UTC" ;
:Conventions = "CF-1.0" ;
:compression = "none" ;
:netCDF_version = "\"3.6.3\" of Dec 24 2012 22:01:00 $" ;
}