CAM6-Nor standard set-up output

zlon_bnds = “zlon bounds”
gw = “latitude weights”
hyam = “hybrid A coefficient at layer midpoints”
hybm = “hybrid B coefficient at layer midpoints”
P0 = “reference pressure”
hyai = “hybrid A coefficient at layer interfaces”
hybi = “hybrid B coefficient at layer interfaces”
date = “current date (YYYYMMDD)”
datesec = “current seconds of current date”
time_bnds = “time interval endpoints”
date_written
time_written
ndbase = “base day”
nsbase = “seconds of base day”
nbdate = “base date (YYYYMMDD)”
nbsec = “seconds of base date”
mdt = “timestep”
ndcur = “current day (from base day)”
nscur = “current seconds of current day”
co2vmr = “co2 volume mixing ratio”
ch4vmr = “ch4 volume mixing ratio”
n2ovmr = “n2o volume mixing ratio”
f11vmr = “f11 volume mixing ratio”
f12vmr = “f12 volume mixing ratio”
sol_tsi = “total solar irradiance”
nsteph = “current timestep”

ABSVIS = “Aerosol absorptive optical depth at 0.442-0.625um”
ABSVVOLC = “CMIP6 volcanic aerosol absorptive optical depth at 0.442-0.625um”
ACTNI = “Average Cloud Top ice number”
ACTNL = “Average Cloud Top droplet number”
ACTNL_B = “Average Cloud Top droplet number (Bennartz)”
ACTREI = “Average Cloud Top ice effective radius”
ACTREL = “Average Cloud Top droplet effective radius”
ADRAIN = “Average rain effective Diameter”
ADSNOW = “Average snow effective Diameter”
AEROD_v = “Total Aerosol Optical Depth in visible band”
ANRAIN = “Average rain number conc”
ANSNOW = “Average snow number conc”
AODVVOLC = “CMIP6 volcanic aerosol optical depth at 0.442-0.625um”
AOD_VIS = “Aerosol optical depth at 0.442-0.625um”
AQRAIN = “Average rain mixing ratio”
AQSNOW = “Average snow mixing ratio”
AREI = “Average ice effective radius”
AREL = “Average droplet effective radius”
ASYMMVIS = “Aerosol assymetry factor in visible wavelength band”
AWNC = “Average cloud water number conc”
AWNI = “Average cloud ice number conc”

BC_A = “BC_A concentration”
BC_AC = “BC_AC concentration”
BC_AC_OCW = “BC_AC_OCW in cloud water”
BC_AC_SRF = “BC_AC in bottom layer”
BC_AI = “BC_AI concentration”
BC_AI_OCW = “BC_AI_OCW in cloud water”
BC_AI_SRF = “BC_AI in bottom layer”
BC_AX = “BC_AX concentration”
BC_AX_CLXF = “vertically integrated external forcing for BC_AX”
BC_AX_CMXF = “vertically integrated external forcing for BC_AX”
BC_AX_SRF = “BC_AX in bottom layer”
BC_A_OCW = “BC_A_OCW in cloud water”
BC_A_SRF = “BC_A in bottom layer”
BC_N = “BC_N concentration”
BC_NI = “BC_NI concentration”
BC_NI_CLXF = “vertically integrated external forcing for BC_NI”
BC_NI_CMXF = “vertically integrated external forcing for BC_NI”
BC_NI_OCW = “BC_NI_OCW in cloud water”
BC_NI_SRF = “BC_NI in bottom layer”
BC_N_CLXF = “vertically integrated external forcing for BC_N”
BC_N_CMXF = “vertically integrated external forcing for BC_N”
BC_N_OCW = “BC_N_OCW in cloud water”
BC_N_SRF = “BC_N in bottom layer”
BVISVOLC = “CMIP6 volcanic aerosol extinction at 0.442-0.625um”

CABSVIS = “Clear air aerosol absorptive optical depth”
CAODVIS = “Clear air aerosol optical depth”
CCN_B = “Average Cloud Top liquid CCN (Bennartz)”
CDNUMC = “Vertically-integrated droplet concentration”
CLDFREE = “Cloud free fraction wrt CAODVIS and CABSVIS”
CLDHGH = “Vertically-integrated high cloud”
CLDICE = “Grid box averaged cloud ice amount”
CLDLIQ = “Grid box averaged cloud liquid amount”
CLDLOW = “Vertically-integrated low cloud”
CLDMED = “Vertically-integrated mid-level cloud”
CLDTOT = “Vertically-integrated total cloud”
CLOUD = “Cloud fraction”
CLOUDCOVER_CLUBB = “Cloud Cover”
CLOUDFRAC_CLUBB = “Cloud Fraction”
CO2 = “CO2”
CO2_FFF = “CO2_FFF”
CO2_LND = “CO2_LND”
CO2_OCN = “CO2_OCN”
CONCLD = “Convective cloud cover”

DAYFOC = “Daylight fraction”
DCQ = “Q tendency due to moist processes”
DF_H2O2 = “dry deposition flux”
DF_H2SO4 = “dry deposition flux”
DF_SO2 = “dry deposition flux”
DMS = “DMS concentration”
DMS_SRF = “DMS in bottom layer”
DST_A2 = “DST_A2 concentration”
DST_A2_OCW = “DST_A2_OCW in cloud water”
DST_A2_SRF = “DST_A2 in bottom layer”
DST_A3 = “DST_A3 concentration”
DST_A3_OCW = “DST_A3_OCW in cloud water”
DST_A3_SRF = “DST_A3 in bottom layer”
DTCOND = “T tendency - moist processes”
DTV = “T vertical diffusion”
DTWR_H2O2 = “wet removal Neu scheme tendency”
DTWR_H2SO4 = “wet removal Neu scheme tendency”
DTWR_SO2 = “wet removal Neu scheme tendency”

EXTVIS = “Aerosol extinction”

FCTI = “Fractional occurrence of cloud top ice”
FCTL = “Fractional occurrence of cloud top liquid”
FCTL_B = “Fractional occurrence of cloud top liquid (Bennartz)”
FICE = “Fractional ice content within cloud”
FLDS = “Downwelling longwave flux at surface”
FLNS = “Net longwave flux at surface”
FLNSC = “Clearsky net longwave flux at surface”
FLNT = “Net longwave flux at top of model”
FLNTC = “Clearsky net longwave flux at top of model”
FLNTCLR = “Clearsky ONLY points net longwave flux at top of model”
FLUS = “LW surface upwelling flux”
FLUT = “Upwelling longwave flux at top of model”
FLUTC = “Clearsky upwelling longwave flux at top of model”
FREQCLR = “Frequency of Occurrence of Clearsky”
FREQI = “Fractional occurrence of ice”
FREQL = “Fractional occurrence of liquid”
FREQR = “Fractional occurrence of rain”
FREQS = “Fractional occurrence of snow”
FSDS = “Downwelling solar flux at surface”
FSDSC = “Clearsky downwelling solar flux at surface”
FSDSCDRF = “SW downwelling clear sky flux at surface”
FSDS_DRF = “SW downelling flux at surface”
FSNS = “Net solar flux at surface”
FSNSC = “Clearsky net solar flux at surface”
FSNT = “Net solar flux at top of model”
FSNTC = “Clearsky net solar flux at top of model”
FSNTOA = “Net solar flux at top of atmosphere”
FSNTOAC = “Clearsky net solar flux at top of atmosphere”
FSUS_DRF = “SW upwelling flux at surface”
FSUTADRF = “SW upwelling flux at TOA”
FSUTOA = “Upwelling solar flux at top of atmosphere”

H2O = “water vapor concentration”
H2O2 = “H2O2 concentration”
H2O2_SRF = “H2O2 in bottom layer”
H2O_CLXF = “vertically integrated external forcing for H2O”
H2O_CMXF = “vertically integrated external forcing for H2O”
H2O_SRF = “water vapor in bottom layer”
H2SO4 = “H2SO4 concentration”
H2SO4_SRF = “H2SO4 in bottom layer”
HO2_aft = “HO2 invariants after adding diurnal variations”
HO2_bef = “HO2 invariants before adding diurnal variations”

ICEFRAC = “Fraction of sfc area covered by sea-ice”
ICIMR = “Prognostic in-cloud ice mixing ratio”
ICWMR = “Prognostic in-cloud water mixing ratio”
IWC = “Grid box average ice water content”

LANDFRAC = “Fraction of sfc area covered by land”
LHFLX = “Surface latent heat flux”
LWCF = “Longwave cloud forcing”

MEG_isoprene = “isoprene MEGAN emissions flux”
MEG_monoterp = “monoterp MEGAN emissions flux”
MSKtem = “TEM mask”

NO3_aft = “NO3 invariants after adding diurnal variations”
NO3_bef = “NO3 invariants before adding diurnal variations”
NUMICE = “Grid box averaged cloud ice number”
NUMLIQ = “Grid box averaged cloud liquid number”
NUMRAI = “Grid box averaged rain number”
NUMSNO = “Grid box averaged snow number”
N_AER = “Aerosol number concentration”

OCNFRAC = “Fraction of sfc area covered by ocean”
OH_aft = “OH invariants after adding diurnal variations”
OH_bef = “OH invariants before adding diurnal variations”
OMEGA = “Vertical velocity (pressure)”
OMEGAT = “Vertical heat flux”

OM_AC = “OM_AC concentration”
OM_AC_OCW = “OM_AC_OCW in cloud water”
OM_AC_SRF = “OM_AC in bottom layer”
OM_AI = “OM_AI concentration”
OM_AI_OCW = “OM_AI_OCW in cloud water”
OM_AI_SRF = “OM_AI in bottom layer”
OM_NI = “OM_NI concentration”
OM_NI_CLXF = “vertically integrated external forcing for OM_NI”
OM_NI_CMXF = “vertically integrated external forcing for OM_NI”
OM_NI_OCW = “OM_NI_OCW in cloud water”
OM_NI_SRF = “OM_NI in bottom layer”

PBLH = “PBL height”
PHIS = “Surface geopotential”
PRECC = “Convective precipitation rate (liq + ice)”
PRECL = “Large-scale (stable) precipitation rate (liq + ice)”
PRECSC = “Convective snow rate (water equivalent)”
PRECSL = “Large-scale (stable) snow rate (water equivalent)”
PS = “Surface pressure”
PSL = “Sea level pressure”

Q = “Specific humidity”
QFLX = “Surface water flux”
QREFHT = “Reference height humidity”
QRL = “Longwave heating rate”
QRS = “Solar heating rate”
QT = “Total water mixing ratio”
RAINQM = “Grid box averaged rain amount”
RCMINLAYER_CLUBB = “Cloud Water in Layer”
RCMTEND_CLUBB = “Cloud Liquid Water Tendency”
RCM_CLUBB = “Cloud Water Mixing Ratio”
RELHUM = “Relative humidity”
RELVAR = “Relative cloud water variance”
RHO_CLUBB = “Air Density”
RIMTEND_CLUBB = “Cloud Ice Tendency”
RTP2_CLUBB = “Moisture Variance”
RTPTHLP_CLUBB = “Temp. Moist. Covariance”
RVMTEND_CLUBB = “Water vapor tendency”

SFBC_A = “BC_A surface flux”
SFBC_AC = “BC_AC surface flux”
SFBC_AI = “BC_AI surface flux”
SFBC_AX = “BC_AX surface flux”
SFBC_N = “BC_N surface flux”
SFBC_NI = “BC_NI surface flux”
SFCO2 = “CO2 surface flux”
SFCO2_FFF = “CO2_FFF surface flux”
SFCO2_LND = “CO2_LND surface flux”
SFCO2_OCN = “CO2_OCN surface flux”
SFDMS = “DMS surface flux”
SFDST_A2 = “DST_A2 surface flux”
SFDST_A3 = “DST_A3 surface flux”
SFH2O2 = “H2O2 surface flux”
SFH2SO4 = “H2SO4 surface flux”
SFOM_AC = “OM_AC surface flux”
SFOM_AI = “OM_AI surface flux”
SFOM_NI = “OM_NI surface flux”
SFSO2 = “SO2 surface flux”
SFSO4_A1 = “SO4_A1 surface flux”
SFSO4_A2 = “SO4_A2 surface flux”
SFSO4_AC = “SO4_AC surface flux”
SFSO4_NA = “SO4_NA surface flux”
SFSO4_PR = “SO4_PR surface flux”
SFSOA_A1 = “SOA_A1 surface flux”
SFSOA_LV = “SOA_LV surface flux”
SFSOA_NA = “SOA_NA surface flux”
SFSOA_SV = “SOA_SV surface flux”
SFSS_A1 = “SS_A1 surface flux”
SFSS_A2 = “SS_A2 surface flux”
SFSS_A3 = “SS_A3 surface flux”

SFisoprene = “isoprene surface flux”
SFmonoterp = “monoterp surface flux”

SHFLX = “Surface sensible heat flux”
SL = “Liquid water static energy”

SNOWHICE = “Snow depth over ice”
SNOWHLND = “Water equivalent snow depth”
SNOWQM = “Grid box averaged snow amount”

SO2 = “SO2 concentration”
SO2_CLXF = “vertically integrated external forcing for SO2”
SO2_CMXF = “vertically integrated external forcing for SO2”
SO2_SRF = “SO2 in bottom layer”

SO4_A1 = “SO4_A1 concentration”
SO4_A1_OCW = “SO4_A1_OCW in cloud water”
SO4_A1_SRF = “SO4_A1 in bottom layer”
SO4_A2 = “SO4_A2 concentration”
SO4_A2_OCW = “SO4_A2_OCW in cloud water”
SO4_A2_SRF = “SO4_A2 in bottom layer”
SO4_AC = “SO4_AC concentration”
SO4_AC_OCW = “SO4_AC_OCW in cloud water”
SO4_AC_SRF = “SO4_AC in bottom layer”
SO4_NA = “SO4_NA concentration”
SO4_NA_OCW = “SO4_NA_OCW in cloud water”
SO4_NA_SRF = “SO4_NA in bottom layer”
SO4_PR = “SO4_PR concentration”
SO4_PR_CLXF = “vertically integrated external forcing for SO4_PR”
SO4_PR_CMXF = “vertically integrated external forcing for SO4_PR”
SO4_PR_OCW = “SO4_PR_OCW in cloud water”
SO4_PR_SRF = “SO4_PR in bottom layer”
SOA_A1 = “SOA_A1 concentration”
SOA_A1_OCW = “SOA_A1_OCW in cloud water”
SOA_A1_SRF = “SOA_A1 in bottom layer”
SOA_LV = “SOA_LV concentration”
SOA_LV_SRF = “SOA_LV in bottom layer”
SOA_NA = “SOA_NA concentration”
SOA_NA_OCW = “SOA_NA_OCW in cloud water”
SOA_NA_SRF = “SOA_NA in bottom layer”
SOA_SV = “SOA_SV concentration”
SOA_SV_SRF = “SOA_SV in bottom layer”

SOLIN = “Solar insolation”
SSAVIS = “Aerosol single scattering albedo in visible wavelength band”

SS_A1 = “SS_A1 concentration”
SS_A1_OCW = “SS_A1_OCW in cloud water”
SS_A1_SRF = “SS_A1 in bottom layer”
SS_A2 = “SS_A2 concentration”
SS_A2_OCW = “SS_A2_OCW in cloud water”
SS_A2_SRF = “SS_A2 in bottom layer”
SS_A3 = “SS_A3 concentration”
SS_A3_OCW = “SS_A3_OCW in cloud water”
SS_A3_SRF = “SS_A3 in bottom layer”

STEND_CLUBB = “Temperature tendency”
SWCF = “Shortwave cloud forcing”

T = “Temperature”
TAUBLJX = “Zonal integrated drag from Beljaars SGO”
TAUBLJY = “Meridional integrated drag from Beljaars SGO”
TAUGWX = “Zonal gravity wave surface stress”
TAUGWY = “Meridional gravity wave surface stress”
TAUX = “Zonal surface stress”
TAUY = “Meridional surface stress”
TGCLDCWP = “Total grid-box cloud water path (liquid and ice)”
TGCLDIWP = “Total grid-box cloud ice water path”
TGCLDLWP = “Total grid-box cloud liquid water path”
TH = “Potential Temperature”
THLP2_CLUBB = “Temperature Variance”
THzm = “Zonal-Mean potential temp - defined on ilev”
TMCO2 = “CO2 column burden”
TMCO2_FFF = “CO2_FFF column burden”
TMCO2_LND = “CO2_LND column burden”
TMCO2_OCN = “CO2_OCN column burden”
TMQ = “Total (vertically integrated) precipitable water”
TREFHT = “Reference height temperature”
TS = “Surface temperature (radiative)”
TSMN = “Minimum surface temperature over output period”
TSMX = “Maximum surface temperature over output period”

U = “Zonal wind”
U10 = “10m wind speed”
UM_CLUBB = “Zonal Wind”
UP2_CLUBB = “Zonal Velocity Variance”
UPWP_CLUBB = “Zonal Momentum Flux”
UTEND_CLUBB = “U-wind Tendency”
UU = “Zonal velocity squared”
UVzm = “Meridional Flux of Zonal Momentum: 3D zon. mean”
UWzm = “Vertical Flux of Zonal Momentum: 3D zon. mean”
Uzm = “Zonal-Mean zonal wind - defined on ilev”

V = “Meridional wind”
VD01 = “Vertical diffusion of Q”
VM_CLUBB = “Meridional Wind”
VP2_CLUBB = “Meridional Velocity Variance”
VPWP_CLUBB = “Meridional Momentum Flux”
VQ = “Meridional water transport”
VT = “Meridional heat transport”
VTEND_CLUBB = “V-wind Tendency”
VTHzm = “Meridional Heat Flux: 3D zon. mean”
VU = “Meridional flux of zonal momentum”
VV = “Meridional velocity squared”
Vzm = “Zonal-Mean meridional wind - defined on ilev”

WD_A_DMS = “DMS wet deposition”
WD_A_H2O2 = “H2O2 wet deposition”
WD_A_H2SO4 = “H2SO4 wet deposition”
WD_A_SO2 = “SO2 wet deposition”
WD_A_SOA_LV = “SOA_LV wet deposition”
WD_A_SOA_SV = “SOA_SV wet deposition”
WD_A_isoprene = “isoprene wet deposition”
WD_A_monoterp = “monoterp wet deposition”
WD_H2O2 = “vertical integrated wet deposition flux”
WD_H2SO4 = “vertical integrated wet deposition flux”
WD_SO2 = “vertical integrated wet deposition flux”
WP2_CLUBB = “Vertical Velocity Variance”
WP3_CLUBB = “Third Moment Vertical Velocity”
WPRCP_CLUBB = “Liquid Water Flux”
WPRTP_CLUBB = “Moisture Flux”
WPTHLP_CLUBB = “Heat Flux”
WPTHVP_CLUBB = “Buoyancy Flux”
WSUB = “Diagnostic sub-grid vertical velocity”
WTHzm = “Vertical Heat Flux: 3D zon. mean”
Wzm = “Zonal-Mean vertical wind - defined on ilev”

Z3 = “Geopotential Height (above sea level)”
ZM_CLUBB = “Momentum Heights”
ZT_CLUBB = “Thermodynamic Heights”

cb_BC = “cb_BC column of aerosol type”
cb_BC_A = “cb_BC_A in column”
cb_BC_AC = “cb_BC_AC in column”
cb_BC_AC_OCW = “cb_BC_AC_OCW column in cloud water”
cb_BC_AI = “cb_BC_AI in column”
cb_BC_AI_OCW = “cb_BC_AI_OCW column in cloud water”
cb_BC_AX = “cb_BC_AX in column”
cb_BC_A_OCW = “cb_BC_A_OCW column in cloud water”
cb_BC_N = “cb_BC_N in column”
cb_BC_NI = “cb_BC_NI in column”
cb_BC_NI_OCW = “cb_BC_NI_OCW column in cloud water”
cb_BC_N_OCW = “cb_BC_N_OCW column in cloud water”
cb_DMS = “cb_DMS in column”
cb_DST_A2 = “cb_DST_A2 in column”
cb_DST_A2_OCW = “cb_DST_A2_OCW column in cloud water”
cb_DST_A3 = “cb_DST_A3 in column”
cb_DST_A3_OCW = “cb_DST_A3_OCW column in cloud water”
cb_DUST = “cb_DUST column of aerosol type”
cb_H2O2 = “cb_H2O2 in column”
cb_H2SO4 = “cb_H2SO4 in column”
cb_OM = “cb_OM column of aerosol type”
cb_OM_AC = “cb_OM_AC in column”
cb_OM_AC_OCW = “cb_OM_AC_OCW column in cloud water”
cb_OM_AI = “cb_OM_AI in column”
cb_OM_AI_OCW = “cb_OM_AI_OCW column in cloud water”
cb_OM_NI = “cb_OM_NI in column”
cb_OM_NI_OCW = “cb_OM_NI_OCW column in cloud water”
cb_SALT = “cb_SALT column of aerosol type”
cb_SO2 = “cb_SO2 in column”
cb_SO4_A1 = “cb_SO4_A1 in column”
cb_SO4_A1_OCW = “cb_SO4_A1_OCW column in cloud water”
cb_SO4_A2 = “cb_SO4_A2 in column”
cb_SO4_A2_OCW = “cb_SO4_A2_OCW column in cloud water”
cb_SO4_AC = “cb_SO4_AC in column”
cb_SO4_AC_OCW = “cb_SO4_AC_OCW column in cloud water”
cb_SO4_NA = “cb_SO4_NA in column”
cb_SO4_NA_OCW = “cb_SO4_NA_OCW column in cloud water”
cb_SO4_PR = “cb_SO4_PR in column”
cb_SO4_PR_OCW = “cb_SO4_PR_OCW column in cloud water”
cb_SOA_A1 = “cb_SOA_A1 in column”
cb_SOA_A1_OCW = “cb_SOA_A1_OCW column in cloud water”
cb_SOA_LV = “cb_SOA_LV in column”
cb_SOA_NA = “cb_SOA_NA in column”
cb_SOA_NA_OCW = “cb_SOA_NA_OCW column in cloud water”
cb_SOA_SV = “cb_SOA_SV in column”
cb_SS_A1 = “cb_SS_A1 in column”
cb_SS_A1_OCW = “cb_SS_A1_OCW column in cloud water”
cb_SS_A2 = “cb_SS_A2 in column”
cb_SS_A2_OCW = “cb_SS_A2_OCW column in cloud water”
cb_SS_A3 = “cb_SS_A3 in column”
cb_SS_A3_OCW = “cb_SS_A3_OCW column in cloud water”
cb_SULFATE = “cb_SULFATE column of aerosol type”
cb_isoprene = “cb_isoprene in column”
cb_monoterp = “cb_monoterp in column”

dU = “U dyn increm”
dUa = “U adv increm”
dUazm = “Zonal-Mean U adv increm - defined on ilev”
dUf = “U fixer incr”
dUfzm = “Zonal-Mean U fixer incr - defined on ilev”
dUzm = “Zonal-Mean U dyn increm - defined on ilev”
dV = “V dyn increm”
dVa = “V adv increm”
dVazm = “Zonal-Mean V adv increm - defined on ilev”
dVzm = “Zonal-Mean V dyn increm - defined on ilev”

isoprene = “isoprene concentration”
isoprene_SRF = “isoprene in bottom layer”

mmr_BC = “mmr_BC mmr of aerosol type”
mmr_DUST = “mmr_DUST mmr of aerosol type”
mmr_OM = “mmr_OM mmr of aerosol type”
mmr_SALT = “mmr_SALT mmr of aerosol type”
mmr_SULFATE = “mmr_SULFATE mmr of aerosol type”
monoterp = “monoterp concentration”
monoterp_SRF = “monoterp in bottom layer”