netcdf HRMIP_mp120a_prod04.cam.h1.2015-01-01-00000 { dimensions: ncol = 40962 ; time = UNLIMITED ; // (1 currently) nbnd = 2 ; chars = 8 ; lev = 32 ; ilev = 33 ; variables: double lat(ncol) ; lat:_FillValue = -900. ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; double lon(ncol) ; lon:_FillValue = -900. ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; double area(ncol) ; area:_FillValue = -900. ; area:long_name = "MPAS cell areas" ; double lev(lev) ; lev:long_name = "zeta level index at vertical midpoints" ; lev:units = "-" ; double ilev(ilev) ; ilev:long_name = "zeta level index at vertical interfaces" ; ilev:units = "-" ; double time(time) ; time:long_name = "time" ; time:units = "days since 1950-01-01 00:00:00" ; time:calendar = "noleap" ; time:bounds = "time_bnds" ; int date(time) ; date:long_name = "current date (YYYYMMDD)" ; int datesec(time) ; datesec:long_name = "current seconds of current date" ; double time_bnds(time, nbnd) ; time_bnds:long_name = "time interval endpoints" ; char date_written(time, chars) ; char time_written(time, chars) ; int ndbase ; ndbase:long_name = "base day" ; int nsbase ; nsbase:long_name = "seconds of base day" ; int nbdate ; nbdate:long_name = "base date (YYYYMMDD)" ; int nbsec ; nbsec:long_name = "seconds of base date" ; int mdt ; mdt:long_name = "timestep" ; mdt:units = "s" ; int ndcur(time) ; ndcur:long_name = "current day (from base day)" ; int nscur(time) ; nscur:long_name = "current seconds of current day" ; double co2vmr(time) ; co2vmr:long_name = "co2 volume mixing ratio" ; double ch4vmr(time) ; ch4vmr:long_name = "ch4 volume mixing ratio" ; double n2ovmr(time) ; n2ovmr:long_name = "n2o volume mixing ratio" ; double f11vmr(time) ; f11vmr:long_name = "f11 volume mixing ratio" ; double f12vmr(time) ; f12vmr:long_name = "f12 volume mixing ratio" ; double sol_tsi(time) ; sol_tsi:long_name = "total solar irradiance" ; sol_tsi:units = "W/m2" ; int nsteph(time) ; nsteph:long_name = "current timestep" ; float ATENDKE(time, ncol) ; ATENDKE:units = "W/m2" ; ATENDKE:long_name = "Adjustment Tendency of Total (vertically integrated) kinetic energy" ; ATENDKE:cell_methods = "time: mean" ; float ATENDSE(time, ncol) ; ATENDSE:units = "W/m2" ; ATENDSE:long_name = "Adjustment Tendency of Total (vertically integrated) static energy" ; ATENDSE:cell_methods = "time: mean" ; float CLDBOT(time, ncol) ; CLDBOT:units = "1" ; CLDBOT:long_name = "Vertical index of cloud base" ; CLDBOT:cell_methods = "time: mean" ; float CLDICE(time, lev, ncol) ; CLDICE:mdims = 1 ; CLDICE:units = "kg/kg" ; CLDICE:long_name = "Grid box averaged cloud ice amount" ; CLDICE:cell_methods = "time: mean" ; float CLDLIQ(time, lev, ncol) ; CLDLIQ:mdims = 1 ; CLDLIQ:units = "kg/kg" ; CLDLIQ:long_name = "Grid box averaged cloud liquid amount" ; CLDLIQ:cell_methods = "time: mean" ; float CLDTOP(time, ncol) ; CLDTOP:units = "1" ; CLDTOP:long_name = "Vertical index of cloud top" ; CLDTOP:cell_methods = "time: mean" ; float CLDTOT(time, ncol) ; CLDTOT:units = "fraction" ; CLDTOT:long_name = "Vertically-integrated total cloud" ; CLDTOT:cell_methods = "time: mean" ; float CLOUD(time, lev, ncol) ; CLOUD:mdims = 1 ; CLOUD:units = "fraction" ; CLOUD:long_name = "Cloud fraction" ; CLOUD:cell_methods = "time: mean" ; float CMFMC(time, ilev, ncol) ; CMFMC:mdims = 2 ; CMFMC:units = "kg/m2/s" ; CMFMC:long_name = "Moist convection (deep+shallow) mass flux" ; CMFMC:cell_methods = "time: mean" ; float CMFMCDZM(time, ilev, ncol) ; CMFMCDZM:mdims = 2 ; CMFMCDZM:units = "kg/m2/s" ; CMFMCDZM:long_name = "Convection mass flux from ZM deep" ; CMFMCDZM:cell_methods = "time: mean" ; float DTENDKE(time, ncol) ; DTENDKE:units = "W/m2" ; DTENDKE:long_name = "Dynamic Tendency of Total (vertically integrated) kinetic energy" ; DTENDKE:cell_methods = "time: mean" ; float DTENDSE(time, ncol) ; DTENDSE:units = "W/m2" ; DTENDSE:long_name = "Dynamic Tendency of Total (vertically integrated) static energy" ; DTENDSE:cell_methods = "time: mean" ; float DTENDWI(time, ncol) ; DTENDWI:units = "kg/m2/s" ; DTENDWI:long_name = "Dynamic Tendency of Total (vertically integrated) water ice" ; DTENDWI:cell_methods = "time: mean" ; float DTENDWL(time, ncol) ; DTENDWL:units = "kg/m2/s" ; DTENDWL:long_name = "Dynamic Tendency of Total (vertically integrated) water liquid" ; DTENDWL:cell_methods = "time: mean" ; float DTENDWV(time, ncol) ; DTENDWV:units = "kg/m2/s" ; DTENDWV:long_name = "Dynamic Tendency of Total (vertically integrated) water vapor" ; DTENDWV:cell_methods = "time: mean" ; float FLDS(time, ncol) ; FLDS:Sampling_Sequence = "rad_lwsw" ; FLDS:units = "W/m2" ; FLDS:long_name = "Downwelling longwave flux at surface" ; FLDS:cell_methods = "time: mean" ; float FLDSC(time, ncol) ; FLDSC:Sampling_Sequence = "rad_lwsw" ; FLDSC:units = "W/m2" ; FLDSC:long_name = "Clearsky Downwelling longwave flux at surface" ; FLDSC:cell_methods = "time: mean" ; float FLNS(time, ncol) ; FLNS:Sampling_Sequence = "rad_lwsw" ; FLNS:units = "W/m2" ; FLNS:long_name = "Net longwave flux at surface" ; FLNS:cell_methods = "time: mean" ; float FLNSC(time, ncol) ; FLNSC:Sampling_Sequence = "rad_lwsw" ; FLNSC:units = "W/m2" ; FLNSC:long_name = "Clearsky net longwave flux at surface" ; FLNSC:cell_methods = "time: mean" ; float FLNT(time, ncol) ; FLNT:Sampling_Sequence = "rad_lwsw" ; FLNT:units = "W/m2" ; FLNT:long_name = "Net longwave flux at top of model" ; FLNT:cell_methods = "time: mean" ; float FLNTC(time, ncol) ; FLNTC:Sampling_Sequence = "rad_lwsw" ; FLNTC:units = "W/m2" ; FLNTC:long_name = "Clearsky net longwave flux at top of model" ; FLNTC:cell_methods = "time: mean" ; float FLUT(time, ncol) ; FLUT:Sampling_Sequence = "rad_lwsw" ; FLUT:units = "W/m2" ; FLUT:long_name = "Upwelling longwave flux at top of model" ; FLUT:cell_methods = "time: mean" ; float FLUTC(time, ncol) ; FLUTC:Sampling_Sequence = "rad_lwsw" ; FLUTC:units = "W/m2" ; FLUTC:long_name = "Clearsky upwelling longwave flux at top of model" ; FLUTC:cell_methods = "time: mean" ; float FSDS(time, ncol) ; FSDS:Sampling_Sequence = "rad_lwsw" ; FSDS:units = "W/m2" ; FSDS:long_name = "Downwelling solar flux at surface" ; FSDS:cell_methods = "time: mean" ; float FSDSC(time, ncol) ; FSDSC:Sampling_Sequence = "rad_lwsw" ; FSDSC:units = "W/m2" ; FSDSC:long_name = "Clearsky downwelling solar flux at surface" ; FSDSC:cell_methods = "time: mean" ; float FSNS(time, ncol) ; FSNS:Sampling_Sequence = "rad_lwsw" ; FSNS:units = "W/m2" ; FSNS:long_name = "Net solar flux at surface" ; FSNS:cell_methods = "time: mean" ; float FSNSC(time, ncol) ; FSNSC:Sampling_Sequence = "rad_lwsw" ; FSNSC:units = "W/m2" ; FSNSC:long_name = "Clearsky net solar flux at surface" ; FSNSC:cell_methods = "time: mean" ; float FSNT(time, ncol) ; FSNT:Sampling_Sequence = "rad_lwsw" ; FSNT:units = "W/m2" ; FSNT:long_name = "Net solar flux at top of model" ; FSNT:cell_methods = "time: mean" ; float FSNTC(time, ncol) ; FSNTC:Sampling_Sequence = "rad_lwsw" ; FSNTC:units = "W/m2" ; FSNTC:long_name = "Clearsky net solar flux at top of model" ; FSNTC:cell_methods = "time: mean" ; float LHFLX(time, ncol) ; LHFLX:units = "W/m2" ; LHFLX:long_name = "Surface latent heat flux" ; LHFLX:cell_methods = "time: mean" ; float OMEGA(time, lev, ncol) ; OMEGA:mdims = 1 ; OMEGA:units = "Pa/s" ; OMEGA:long_name = "Vertical velocity (pressure)" ; OMEGA:cell_methods = "time: mean" ; float OMEGA500(time, ncol) ; OMEGA500:units = "Pa/s" ; OMEGA500:long_name = "Vertical velocity at 500 mbar pressure surface" ; OMEGA500:cell_methods = "time: mean" ; float PCONVB(time, ncol) ; PCONVB:units = "Pa" ; PCONVB:long_name = "convection base pressure" ; PCONVB:cell_methods = "time: mean" ; float PCONVT(time, ncol) ; PCONVT:units = "Pa" ; PCONVT:long_name = "convection top pressure" ; PCONVT:cell_methods = "time: mean" ; float PRECC(time, ncol) ; PRECC:units = "m/s" ; PRECC:long_name = "Convective precipitation rate (liq + ice)" ; PRECC:cell_methods = "time: mean" ; float PRECSC(time, ncol) ; PRECSC:units = "m/s" ; PRECSC:long_name = "Convective snow rate (water equivalent)" ; PRECSC:cell_methods = "time: mean" ; float PRECSL(time, ncol) ; PRECSL:units = "m/s" ; PRECSL:long_name = "Large-scale (stable) snow rate (water equivalent)" ; PRECSL:cell_methods = "time: mean" ; float PRECT(time, ncol) ; PRECT:units = "m/s" ; PRECT:long_name = "Total (convective and large-scale) precipitation rate (liq + ice)" ; PRECT:cell_methods = "time: mean" ; float PRESSURE(time, lev, ncol) ; PRESSURE:mdims = 1 ; PRESSURE:units = "Pa" ; PRESSURE:long_name = "Pressure" ; PRESSURE:cell_methods = "time: mean" ; float PRESSUREi(time, ilev, ncol) ; PRESSUREi:mdims = 2 ; PRESSUREi:units = "Pa" ; PRESSUREi:long_name = "Pressure" ; PRESSUREi:cell_methods = "time: mean" ; float PS(time, ncol) ; PS:units = "Pa" ; PS:long_name = "Surface pressure" ; PS:cell_methods = "time: mean" ; float PSL(time, ncol) ; PSL:units = "Pa" ; PSL:long_name = "Sea level pressure" ; PSL:cell_methods = "time: mean" ; float Q(time, lev, ncol) ; Q:mdims = 1 ; Q:units = "kg/kg" ; Q:long_name = "Specific humidity" ; Q:cell_methods = "time: mean" ; float QFLX(time, ncol) ; QFLX:units = "kg/m2/s" ; QFLX:long_name = "Surface water flux" ; QFLX:cell_methods = "time: mean" ; float QREFHT(time, ncol) ; QREFHT:units = "kg/kg" ; QREFHT:long_name = "Reference height humidity" ; QREFHT:cell_methods = "time: mean" ; float RELHUM(time, lev, ncol) ; RELHUM:mdims = 1 ; RELHUM:units = "percent" ; RELHUM:long_name = "Relative humidity" ; RELHUM:cell_methods = "time: mean" ; float RHREFHT(time, ncol) ; RHREFHT:units = "fraction" ; RHREFHT:long_name = "Reference height relative humidity" ; RHREFHT:cell_methods = "time: mean" ; float SHFLX(time, ncol) ; SHFLX:units = "W/m2" ; SHFLX:long_name = "Surface sensible heat flux" ; SHFLX:cell_methods = "time: mean" ; float SOLIN(time, ncol) ; SOLIN:Sampling_Sequence = "rad_lwsw" ; SOLIN:units = "W/m2" ; SOLIN:long_name = "Solar insolation" ; SOLIN:cell_methods = "time: mean" ; float T(time, lev, ncol) ; T:mdims = 1 ; T:units = "K" ; T:long_name = "Temperature" ; T:cell_methods = "time: mean" ; float T700(time, ncol) ; T700:units = "K" ; T700:long_name = "Temperature at 700 mbar pressure surface" ; T700:cell_methods = "time: mean" ; float TAUX(time, ncol) ; TAUX:units = "N/m2" ; TAUX:long_name = "Zonal surface stress" ; TAUX:cell_methods = "time: mean" ; float TAUY(time, ncol) ; TAUY:units = "N/m2" ; TAUY:long_name = "Meridional surface stress" ; TAUY:cell_methods = "time: mean" ; float TGCLDIWP(time, ncol) ; TGCLDIWP:units = "kg/m2" ; TGCLDIWP:long_name = "Total grid-box cloud ice water path" ; TGCLDIWP:cell_methods = "time: mean" ; float TGCLDLWP(time, ncol) ; TGCLDLWP:units = "kg/m2" ; TGCLDLWP:long_name = "Total grid-box cloud liquid water path" ; TGCLDLWP:cell_methods = "time: mean" ; float TMKE(time, ncol) ; TMKE:units = "J/m2" ; TMKE:long_name = "Total (vertically integrated) kinetic energy" ; float TMQ(time, ncol) ; TMQ:units = "kg/m2" ; TMQ:long_name = "Total (vertically integrated) precipitable water" ; TMQ:cell_methods = "time: mean" ; float TMSE(time, ncol) ; TMSE:units = "J/m2" ; TMSE:long_name = "Total (vertically integrated) static energy" ; float TMWI(time, ncol) ; TMWI:units = "kg/m2" ; TMWI:long_name = "Total (vertically integrated) water ice" ; float TMWL(time, ncol) ; TMWL:units = "kg/m2" ; TMWL:long_name = "Total (vertically integrated) water liquid" ; float TMWV(time, ncol) ; TMWV:units = "kg/m2" ; TMWV:long_name = "Total (vertically integrated) water vapor" ; float TREFHT(time, ncol) ; TREFHT:units = "K" ; TREFHT:long_name = "Reference height temperature" ; TREFHT:cell_methods = "time: mean" ; float TS(time, ncol) ; TS:units = "K" ; TS:long_name = "Surface temperature (radiative)" ; TS:cell_methods = "time: mean" ; float TSMN(time, ncol) ; TSMN:units = "K" ; TSMN:long_name = "Minimum surface temperature over output period" ; TSMN:cell_methods = "time: mean" ; float TSMX(time, ncol) ; TSMX:units = "K" ; TSMX:long_name = "Maximum surface temperature over output period" ; TSMX:cell_methods = "time: mean" ; float TUH(time, ncol) ; TUH:units = "W/m" ; TUH:long_name = "Total (vertically integrated) zonal moist static energy flux" ; TUH:cell_methods = "time: mean" ; float TUQ(time, ncol) ; TUQ:units = "kg/m2" ; TUQ:long_name = "Total (vertically integrated) zonal water vapor flux" ; TUQ:cell_methods = "time: mean" ; float TVH(time, ncol) ; TVH:units = "W/m" ; TVH:long_name = "Total (vertically integrated) meridional moist static energy flux" ; TVH:cell_methods = "time: mean" ; float TVQ(time, ncol) ; TVQ:units = "kg/m/s" ; TVQ:long_name = "Total (vertically integrated) meridional water vapor flux" ; TVQ:cell_methods = "time: mean" ; float U(time, lev, ncol) ; U:mdims = 1 ; U:units = "m/s" ; U:long_name = "Zonal wind" ; U:cell_methods = "time: mean" ; float U10(time, ncol) ; U10:units = "m/s" ; U10:long_name = "10m wind speed" ; U10:cell_methods = "time: mean" ; float UBOT(time, ncol) ; UBOT:units = "m/s" ; UBOT:long_name = "Lowest model level zonal wind" ; UBOT:cell_methods = "time: mean" ; float V(time, lev, ncol) ; V:mdims = 1 ; V:units = "m/s" ; V:long_name = "Meridional wind" ; V:cell_methods = "time: mean" ; float VBOT(time, ncol) ; VBOT:units = "m/s" ; VBOT:long_name = "Lowest model level meridional wind" ; VBOT:cell_methods = "time: mean" ; float Z3(time, lev, ncol) ; Z3:mdims = 1 ; Z3:units = "m" ; Z3:long_name = "Geopotential Height (above sea level)" ; Z3:cell_methods = "time: mean" ; // global attributes: :nCells = 40962 ; :Conventions = "CF-1.0" ; :source = "CAM" ; :case = "HRMIP_mp120a_prod04" ; :logname = "beharrop" ; :host = "login33" ; :initial_file = "/global/cfs/cdirs/m1867/MPASinput/HighResMIP/init/mp120a/mp120a_HRM-GFMACv2spin01_FC54.cam.r.2001-01-01-00000.nc" ; :topography_file = "/global/cfs/cdirs/m1867/MPASinput/mp120a/mp40962a_topo.nc" ; :model_doi_url = "https://doi.org/10.5065/D67H1H0V" ; :time_period_freq = "day_1" ; }