netcdf laf2015070100 { dimensions: rlon = 330 ; rlat = 320 ; srlon = 330 ; srlat = 320 ; level = 60 ; level1 = 61 ; soil1 = 8 ; bnds = 2 ; time = UNLIMITED ; // (1 currently) variables: char rotated_pole ; rotated_pole:grid_mapping_name = "rotated_latitude_longitude" ; rotated_pole:grid_north_pole_latitude = 45.f ; rotated_pole:grid_north_pole_longitude = -172.f ; float rlon(rlon) ; rlon:axis = "X" ; rlon:standard_name = "grid_longitude" ; rlon:long_name = "rotated longitude" ; rlon:units = "degrees" ; float rlat(rlat) ; rlat:axis = "Y" ; 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 srlon(srlon) ; srlon:axis = "X" ; srlon:standard_name = "grid_longitude" ; srlon:long_name = "rotated longitude" ; srlon:units = "degrees" ; float srlat(srlat) ; srlat:axis = "Y" ; srlat:standard_name = "grid_latitude" ; srlat:long_name = "rotated latitude" ; srlat:units = "degrees" ; float slonu(rlat, srlon) ; slonu:standard_name = "longitude" ; slonu:long_name = "staggered U-wind longitude" ; slonu:units = "degrees_east" ; float slatu(rlat, srlon) ; slatu:standard_name = "latitude" ; slatu:long_name = "staggered U-wind latitude" ; slatu:units = "degrees_north" ; float slonv(srlat, rlon) ; slonv:standard_name = "longitude" ; slonv:long_name = "staggered V-wind longitude" ; slonv:units = "degrees_east" ; float slatv(srlat, rlon) ; slatv:standard_name = "latitude" ; slatv:long_name = "staggered V-wind latitude" ; slatv:units = "degrees_north" ; float vcoord(level1) ; vcoord:long_name = "Reference atmosphere: Height-based hybrid Gal-Chen coordinate" ; vcoord:ivctype = 2 ; vcoord:irefatm = 2 ; vcoord:p0sl = 100000. ; vcoord:t0sl = 288.15 ; vcoord:dt0lp = 42. ; vcoord:vcflat = 11357. ; vcoord:delta_t = 100. ; vcoord:h_scal = 10000. ; float soil1(soil1) ; soil1:standard_name = "depth" ; soil1:long_name = "depth of soil layers" ; soil1:units = "m" ; soil1:positive = "down" ; float soil1_bnds(soil1, bnds) ; soil1_bnds:long_name = "depth of soil layer bounds" ; soil1_bnds:units = "m" ; soil1_bnds:positive = "down" ; double time(time) ; time:long_name = "time" ; time:units = "seconds since 2015-07-01 00:00:00" ; time:calendar = "standard" ; time:bounds = "time_bnds" ; double time_bnds(time, bnds) ; float HSURF(time, rlat, rlon) ; HSURF:standard_name = "surface_altitude" ; HSURF:long_name = "surface height" ; HSURF:units = "m" ; HSURF:grid_mapping = "rotated_pole" ; HSURF:coordinates = "lon lat" ; float FR_LAND(time, rlat, rlon) ; FR_LAND:standard_name = "land_area_fraction" ; FR_LAND:long_name = "land-sea fraction" ; FR_LAND:units = "1" ; FR_LAND:grid_mapping = "rotated_pole" ; FR_LAND:coordinates = "lon lat" ; float Z0(time, rlat, rlon) ; Z0:standard_name = "surface_roughness_length" ; Z0:long_name = "surface roughness length" ; Z0:units = "m" ; Z0:grid_mapping = "rotated_pole" ; Z0:coordinates = "lon lat" ; Z0:_FillValue = -1.e+20f ; float SOILTYP(time, rlat, rlon) ; SOILTYP:standard_name = "soil_type" ; SOILTYP:long_name = "soil type" ; SOILTYP:units = "1" ; SOILTYP:grid_mapping = "rotated_pole" ; SOILTYP:coordinates = "lon lat" ; SOILTYP:flag_values = 1.f, 2.f, 3.f, 4.f, 5.f, 6.f, 7.f, 8.f, 9.f, 0.f ; SOILTYP:flag_meanings = "ice rock sand sandy_loam loam clay_loam clay peat sea_water sea_ice" ; float PLCOV(time, rlat, rlon) ; PLCOV:standard_name = "vegetation_area_fraction" ; PLCOV:long_name = "vegetation area fraction" ; PLCOV:units = "1" ; PLCOV:grid_mapping = "rotated_pole" ; PLCOV:coordinates = "lon lat" ; PLCOV:_FillValue = -1.e+20f ; float LAI(time, rlat, rlon) ; LAI:standard_name = "leaf_area_index" ; LAI:long_name = "leaf area index" ; LAI:units = "m2 m-2" ; LAI:grid_mapping = "rotated_pole" ; LAI:coordinates = "lon lat" ; LAI:_FillValue = -1.e+20f ; float ROOTDP(time, rlat, rlon) ; ROOTDP:standard_name = "root_depth" ; ROOTDP:long_name = "root depth" ; ROOTDP:units = "m" ; ROOTDP:grid_mapping = "rotated_pole" ; ROOTDP:coordinates = "lon lat" ; ROOTDP:_FillValue = -1.e+20f ; float VIO3(time, rlat, rlon) ; VIO3:standard_name = "equivalent_pressure_of_atmosphere_ozone_content" ; VIO3:long_name = "vertical integrated ozone amount" ; VIO3:units = "Pa" ; VIO3:grid_mapping = "rotated_pole" ; VIO3:coordinates = "lon lat" ; float HMO3(time, rlat, rlon) ; HMO3:standard_name = "air_pressure" ; HMO3:long_name = "air pressure at ozone maximum" ; HMO3:units = "Pa" ; HMO3:grid_mapping = "rotated_pole" ; HMO3:coordinates = "lon lat" ; HMO3:cell_methods = "mole_fraction_of_ozone_in_air: maximum" ; 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 = "slonu slatu" ; 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 = "slonv slatv" ; 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 = "lon lat" ; 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 = "lon lat" ; float QC(time, level, rlat, rlon) ; QC:standard_name = "mass_fraction_of_cloud_liquid_water_in_air" ; QC:long_name = "cloud liquid water content" ; QC:units = "kg kg-1" ; QC:grid_mapping = "rotated_pole" ; QC:coordinates = "lon lat" ; float PP(time, level, rlat, rlon) ; PP:standard_name = "difference_of_air_pressure_from_model_reference" ; PP:long_name = "deviation from reference pressure" ; PP:units = "Pa" ; PP:grid_mapping = "rotated_pole" ; PP:coordinates = "lon lat" ; float T_SNOW(time, rlat, rlon) ; T_SNOW:standard_name = "surface_temperature_where_snow" ; T_SNOW:long_name = "snow temperature" ; T_SNOW:units = "K" ; T_SNOW:grid_mapping = "rotated_pole" ; T_SNOW:coordinates = "lon lat" ; T_SNOW:_FillValue = -1.e+20f ; 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 = "lon lat" ; float W_I(time, rlat, rlon) ; W_I:standard_name = "lwe_thickness_of_canopy_water_amount" ; W_I:long_name = "canopy water amount" ; W_I:units = "m" ; W_I:grid_mapping = "rotated_pole" ; W_I:coordinates = "lon lat" ; W_I:_FillValue = -1.e+20f ; 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 ; float FOR_E(time, rlat, rlon) ; FOR_E:long_name = "ground fraction covered by evergreen forest" ; FOR_E:units = "1" ; FOR_E:grid_mapping = "rotated_pole" ; FOR_E:coordinates = "lon lat" ; FOR_E:_FillValue = -1.e+20f ; float FOR_D(time, rlat, rlon) ; FOR_D:long_name = "ground fraction covered by deciduous forest" ; FOR_D:units = "1" ; FOR_D:grid_mapping = "rotated_pole" ; FOR_D:coordinates = "lon lat" ; FOR_D:_FillValue = -1.e+20f ; float ISA(time, rlat, rlon) ; ISA:long_name = "impervious surface area" ; ISA:units = "1" ; ISA:grid_mapping = "rotated_pole" ; ISA:coordinates = "lon lat" ; ISA:_FillValue = -1.e+20f ; float AHF(time, rlat, rlon) ; AHF:long_name = "annual-mean anthropogenic heat flux" ; AHF:units = "1" ; AHF:grid_mapping = "rotated_pole" ; AHF:coordinates = "lon lat" ; AHF:_FillValue = -1.e+20f ; float AER_SO4(time, rlat, rlon) ; AER_SO4:long_name = "aerosol type sulfate drops" ; AER_SO4:units = "1" ; AER_SO4:grid_mapping = "rotated_pole" ; AER_SO4:coordinates = "lon lat" ; float AER_DUST(time, rlat, rlon) ; AER_DUST:long_name = "aerosol type mineral dust" ; AER_DUST:units = "1" ; AER_DUST:grid_mapping = "rotated_pole" ; AER_DUST:coordinates = "lon lat" ; float AER_ORG(time, rlat, rlon) ; AER_ORG:long_name = "aerosol type organic" ; AER_ORG:units = "1" ; AER_ORG:grid_mapping = "rotated_pole" ; AER_ORG:coordinates = "lon lat" ; float AER_BC(time, rlat, rlon) ; AER_BC:long_name = "aerosol type black carbon" ; AER_BC:units = "1" ; AER_BC:grid_mapping = "rotated_pole" ; AER_BC:coordinates = "lon lat" ; float AER_SS(time, rlat, rlon) ; AER_SS:long_name = "aerosol type sea salt" ; AER_SS:units = "1" ; AER_SS:grid_mapping = "rotated_pole" ; AER_SS:coordinates = "lon lat" ; 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 = "lon lat" ; float QI(time, level, rlat, rlon) ; QI:standard_name = "mass_fraction_of_cloud_ice_in_air" ; QI:long_name = "cloud ice content" ; QI:units = "kg kg-1" ; QI:grid_mapping = "rotated_pole" ; QI:coordinates = "lon lat" ; 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 = "lon lat" ; T_SO:_FillValue = -1.e+20f ; 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 ; float FRESHSNW(time, rlat, rlon) ; FRESHSNW:long_name = "weighting function indicating freshness of snow" ; FRESHSNW:units = "1" ; FRESHSNW:grid_mapping = "rotated_pole" ; FRESHSNW:coordinates = "lon lat" ; FRESHSNW:_FillValue = -1.e+20f ; // global attributes: :Conventions = "CF-1.5" ; :conventionsURL = "http://www.cfconventions.org/" ; :creation_date = "2016-06-06 15:24:29" ; }