CAM History Fields

History File 1

  Number of fields:                116
  Write frequency:                 MONTHLY
  Filename specifier:              %c.cam2.h%t.%y-%m.nc
  History buffer precision:        double
  Output precision:                single
  Number of time samples per file: 1

Field name	Units	NLEV	Time avg	Long name
AEROD_v	1	1	A	Total Aerosol Optical Depth in visible band
CLDHGH	fraction	1	A	Vertically-integrated high cloud
CLDICE	kg/kg	26	A	Grid box averaged cloud ice amount
CLDLIQ	kg/kg	26	A	Grid box averaged cloud liquid amount
CLDLOW	fraction	1	A	Vertically-integrated low cloud
CLDMED	fraction	1	A	Vertically-integrated mid-level cloud
CLDTOT	fraction	1	A	Vertically-integrated total cloud
CLOUD	fraction	26	A	Cloud fraction
CMFDQ	kg/kg/s	26	A	QV tendency - shallow convection
CMFDQR	kg/kg/s	26	A	Q tendency - shallow convection rainout
CMFDT	K/s	26	A	T tendency - shallow convection
CMFMC	kg/m2/s	27	A	Moist shallow convection mass flux
CMFMCDZM	kg/m2/s	27	A	Convection mass flux from ZM deep
CONCLD	fraction	26	A	Convective cloud cover
DCQ	kg/kg/s	26	A	Q tendency due to moist processes
DTCOND	K/s	26	A	T tendency - moist processes
DTV	K/s	26	A	T vertical diffusion
FICE	fraction	26	A	Fractional ice content within cloud
FLDS	W/m2	1	A	Downwelling longwave flux at surface
FLDSC	W/m2	1	A	Clearsky downwelling longwave flux at surface
FLNS	W/m2	1	A	Net longwave flux at surface
FLNSC	W/m2	1	A	Clearsky net longwave flux at surface
FLNT	W/m2	1	A	Net longwave flux at top of model
FLNTC	W/m2	1	A	Clearsky net longwave flux at top of model
FLUT	W/m2	1	A	Upwelling longwave flux at top of model
FLUTC	W/m2	1	A	Clearsky upwelling longwave flux at top of model
FREQSH	fraction	1	A	Fractional occurance of shallow convection
FREQZM	fraction	1	A	Fractional occurance of ZM convection
FSDS	W/m2	1	A	Downwelling solar flux at surface
FSDSC	W/m2	1	A	Clearsky downwelling solar flux at surface
FSDTOA	W/m2	1	A	Downwelling solar flux at top of atmosphere
FSNS	W/m2	1	A	Net solar flux at surface
FSNSC	W/m2	1	A	Clearsky net solar flux at surface
FSNT	W/m2	1	A	Net solar flux at top of model
FSNTC	W/m2	1	A	Clearsky net solar flux at top of model
FSNTOA	W/m2	1	A	Net solar flux at top of atmosphere
FSNTOAC	W/m2	1	A	Clearsky net solar flux at top of atmosphere
FSUTOA	W/m2	1	A	Upwelling solar flux at top of atmosphere
GCLDLWP	gram/m2	26	A	Grid-box cloud water path
ICEFRAC	fraction	1	A	Fraction of sfc area covered by sea-ice
ICIMR	kg/kg	26	A	Prognostic in-cloud ice mixing ratio
ICLDIWP	gram/m2	26	A	In-cloud ice water path
ICLDTWP	gram/m2	26	A	In-cloud cloud total water path (liquid and ice)
ICWMR	kg/kg	26	A	Prognostic in-cloud water mixing ratio
LANDFRAC	fraction	1	A	Fraction of sfc area covered by land
LHFLX	W/m2	1	A	Surface latent heat flux
LWCF	W/m2	1	A	Longwave cloud forcing
OCNFRAC	fraction	1	A	Fraction of sfc area covered by ocean
ODV_SSLTA	1	1	A	SSLTA optical depth in visible band
ODV_SSLTC	1	1	A	SSLTC optical depth in visible band
ODV_bcar1	1	1	A	bcar1 optical depth in visible band
ODV_bcar2	1	1	A	bcar2 optical depth in visible band
ODV_dust1	1	1	A	dust1 optical depth in visible band
ODV_dust2	1	1	A	dust2 optical depth in visible band
ODV_dust3	1	1	A	dust3 optical depth in visible band
ODV_dust4	1	1	A	dust4 optical depth in visible band
ODV_ocar1	1	1	A	ocar1 optical depth in visible band
ODV_ocar2	1	1	A	ocar2 optical depth in visible band
ODV_sulf	1	1	A	sulf optical depth in visible band
OMEGA	Pa/s	26	A	Vertical velocity (pressure)
OMEGAT	K Pa/s	26	A	Vertical heat flux
PBLH	m	1	A	PBL height
PCONVB	Pa	1	A	convection base pressure
PCONVT	Pa	1	A	convection top pressure
PHIS	m2/s2	1	I	Surface geopotential
PRECC	m/s	1	A	Convective precipitation rate (liq + ice)
PRECCDZM	m/s	1	A	Convective precipitation rate from ZM deep
PRECL	m/s	1	A	Large-scale (stable) precipitation rate (liq + ice)
PRECSC	m/s	1	A	Convective snow rate (water equivalent)
PRECSH	m/s	1	A	Shallow Convection precipitation rate
PRECSL	m/s	1	A	Large-scale (stable) snow rate (water equivalent)
PRECT	m/s	1	A	Total (convective and large-scale) precipitation rate (liq + ice)
PS	Pa	1	A	Surface pressure
PSL	Pa	1	A	Sea level pressure
Q	kg/kg	26	A	Specific humidity
QC	kg/kg/s	26	A	Q tendency - shallow convection LW export
QFLX	kg/m2/s	1	A	Surface water flux
QREFHT	kg/kg	1	A	Reference height humidity
QRL	K/s	26	A	Longwave heating rate
QRS	K/s	26	A	Solar heating rate
RELHUM	percent	26	A	Relative humidity
RHREFHT	fraction	1	A	Reference height relative humidity
SFCLDICE	kg/m2/s	1	A	CLDICE surface flux
SFCLDLIQ	kg/m2/s	1	A	CLDLIQ surface flux
SHFLX	W/m2	1	A	Surface sensible heat flux
SNOWHICE	m	1	A	Water equivalent snow depth
SNOWHLND	m	1	A	Water equivalent snow depth
SOLIN	W/m2	1	A	Solar insolation
SRFRAD	W/m2	1	A	Net radiative flux at surface
SWCF	W/m2	1	A	Shortwave cloud forcing
T	K	26	A	Temperature
TAUX	N/m2	1	A	Zonal surface stress
TAUY	N/m2	1	A	Meridional surface stress
TGCLDIWP	gram/m2	1	A	Total grid-box cloud ice water path
TGCLDLWP	gram/m2	1	A	Total grid-box cloud liquid water path
TMQ	kg/m2	1	A	Total (vertically integrated) precipitatable water
TREFHT	K	1	A	Reference height temperature
TREFMNAV	K	1	A	Average of TREFHT daily minimum
TREFMXAV	K	1	A	Average of TREFHT daily maximum
TROP_P	Pa	1	A	Tropopause Pressure
TROP_T	K	1	A	Tropopause Temperature
TROP_Z	m	1	A	Tropopause Height
TS	K	1	A	Surface temperature (radiative)
TSMN	K	1	M	Minimum surface temperature over output period
TSMX	K	1	X	Maximum surface temperature over output period
U	m/s	26	A	Zonal wind
US	m/s	26	A	Zonal wind, staggered
UU	m2/s2	26	A	Zonal velocity squared
V	m/s	26	A	Meridional wind
VD01	kg/kg/s	26	A	Vertical diffusion of Q
VQ	m/skg/kg	26	A	Meridional water transport
VS	m/s	26	A	Meridional wind, staggered
VT	K m/s	26	A	Meridional heat transport
VU	m2/s2	26	A	Meridional flux of zonal momentum
VV	m2/s2	26	A	Meridional velocity squared
Z3	m	26	A	Geopotential Height (above sea level)

History File 7

  Number of fields:                15
  Write frequency:                 YEARLY
  Filename specifier:              %c.cam2.i.%y-%m-%d-%s.nc
  History buffer precision:        double
  Output precision:                double
  Number of time samples per file: 1

Field name	Units	NLEV	Time avg	Long name
CLDICE&IC	kg/kg	26	I	Grid box averaged cloud ice amount
CLDLIQ&IC	kg/kg	26	I	Grid box averaged cloud liquid amount
ICEFRAC&IC	fraction	1	I	Fraction of sfc area covered by sea-ice
PS&IC	Pa	1	I	Surface pressure
Q&IC	kg/kg	26	I	Specific humidity
SICTHK&IC	m	1	I	Sea ice thickness
SNOWHICE&IC	m	1	I	Water equivalent snow depth
T&IC	K	26	I	Temperature
TS1&IC	K	1	I	TS1 subsoil temperature
TS2&IC	K	1	I	TS2 subsoil temperature
TS3&IC	K	1	I	TS3 subsoil temperature
TS4&IC	K	1	I	TS4 subsoil temperature
TSICE&IC	K	1	I	Ice temperature
US&IC	m/s	26	I	Zonal wind, staggered
VS&IC	m/s	26	I	Meridional wind, staggered

Master Field List

Field name	Units	NLEV	Time avg	Long name
ACTNI	Micron	1	A	Average Cloud Top ice number
ACTNL	Micron	1	A	Average Cloud Top droplet number
ACTREI	Micron	1	A	Average Cloud Top ice effective radius
ACTREL	Micron	1	A	Average Cloud Top droplet effective radius
AEROD_v	1	1	A	Total Aerosol Optical Depth in visible band
ALDIF	1	1	A	albedo: longwave, diffuse
ALDIR	1	1	A	albedo: longwave, direct
AREI	Micron	26	A	Average ice effective radius
AREL	Micron	26	A	Average droplet effective radius
ASDIF	1	1	A	albedo: shortwave, diffuse
ASDIR	1	1	A	albedo: shortwave, direct
AST	fraction	26	A	Stratus cloud fraction
AWNC	m-3	26	A	Average cloud water number conc
AWNI	m-3	26	A	Average cloud ice number conc
BCDEPWET	kg/m2/sec	1	I	prescribed aero dep
BCPHIDRY	kg/m2/sec	1	I	prescribed aero dep
BCPHODRY	kg/m2/sec	1	I	prescribed aero dep
BERGO	1/s	26	A	Conversion of cloud water to cloud ice from bergeron
BERGSO	1/s	26	A	Conversion of cloud water to snow from bergeron
CAPE	J/kg	1	A	Convectively available potential energy
CBMF	kg/m2/s	1	A	Cloud base mass flux
CDNUMC	#/m2	1	A	Vertically-integrated droplet concentration
CGS	s/m2	27	A	Counter-gradient coeff on surface kinematic fluxes
CIN	J/kg	1	A	Convective inhibition
CLDBOT	1	1	I	Vertical index of cloud base
CLDHGH	fraction	1	A	Vertically-integrated high cloud
CLDICE	kg/kg	26	A	Grid box averaged cloud ice amount
CLDICE&IC	kg/kg	26	I	Grid box averaged cloud ice amount
CLDICEADJ	kg/kg/s	26	A	CLDICE adjustment tendency - Revised macrophysics
CLDICEAP	kg/kg	26	A	CLDICE after physics
CLDICEBP	kg/kg	26	A	CLDICE before physics
CLDICEDET	kg/kg/s	26	A	Detrainment of conv cld ice into envrionment - Revised macrophysics
CLDICELIM	kg/kg/s	26	A	CLDICE limiting tendency - Revised macrophysics
CLDLIQ	kg/kg	26	A	Grid box averaged cloud liquid amount
CLDLIQ&IC	kg/kg	26	I	Grid box averaged cloud liquid amount
CLDLIQADJ	kg/kg/s	26	A	CLDLIQ adjustment tendency - Revised macrophysics
CLDLIQAP	kg/kg	26	A	CLDLIQ after physics
CLDLIQBP	kg/kg	26	A	CLDLIQ before physics
CLDLIQDET	kg/kg/s	26	A	Detrainment of conv cld liq into envrionment - Revised macrophysics
CLDLIQLIM	kg/kg/s	26	A	CLDLIQ limiting tendency - Revised macrophysics
CLDLOW	fraction	1	A	Vertically-integrated low cloud
CLDMED	fraction	1	A	Vertically-integrated mid-level cloud
CLDST	fraction	26	A	Stratus cloud fraction
CLDTOP	1	1	I	Vertical index of cloud top
CLDTOT	fraction	1	A	Vertically-integrated total cloud
CLDVAPADJ	kg/kg/s	26	A	Q tendency associated with liq/ice adjustment - Revised macrophysics
CLOUD	fraction	26	A	Cloud fraction
CLOUD&IC	fraction	26	I	Cloud fraction
CME	kg/kg/s	26	A	Rate of cond-evap within the cloud
CMEICE	kg/kg/s	26	A	Rate of cond-evap of ice within the cloud
CMEIOUT	kg/kg/s	26	A	Rate of deposition/sublimation of cloud ice
CMELIQ	kg/kg/s	26	A	Rate of cond-evap of liq within the cloud
CMFDICE	kg/kg/s	26	A	Cloud ice tendency - shallow convection
CMFDLIQ	kg/kg/s	26	A	Cloud liq tendency - shallow convection
CMFDQ	kg/kg/s	26	A	QV tendency - shallow convection
CMFDQR	kg/kg/s	26	A	Q tendency - shallow convection rainout
CMFDT	K/s	26	A	T tendency - shallow convection
CMFLQ	W/m2	27	A	Moist shallow convection total water flux
CMFMC	kg/m2/s	27	A	Moist shallow convection mass flux
CMFMCDZM	kg/m2/s	27	A	Convection mass flux from ZM deep
CMFSL	W/m2	27	A	Moist shallow convection liquid water static energy flux
CNVCLD	fraction	1	A	Vertically integrated convective cloud amount
CONCLD	fraction	26	A	Convective cloud cover
CONCLD&IC	fraction	26	I	Convective cloud fraction
CUSH&IC	m	1	I	Convective Scale Height
DCQ	kg/kg/s	26	A	Q tendency due to moist processes
DISED	kg/kg/s	26	A	Cloud ice tendency from sedimentation
DLSED	kg/kg/s	26	A	Cloud liquid tendency from sedimentation
DMECLDICE	kg/kg/s	26	A	CLDICE dme adjustment tendency (FV)
DMECLDLIQ	kg/kg/s	26	A	CLDLIQ dme adjustment tendency (FV)
DMEQ	kg/kg/s	26	A	Q dme adjustment tendency (FV)
DPDLFICE	kg/kg/s	26	A	Detrained ice from deep convection
DPDLFLIQ	kg/kg/s	26	A	Detrained liquid water from deep convection
DPDLFT	K/s	26	A	T-tendency due to deep convective detrainment
DP_CLD	fraction	26	A	Deep convective cloud cover
DQP	kg/kg/s	26	A	Specific humidity tendency due to precipitation
DQSED	kg/kg/s	26	A	Water vapor tendency from cloud sedimentation
DSTX01DD	kg/m2/sec	1	I	prescribed aero dep
DSTX01WD	kg/m2/sec	1	I	prescribed aero dep
DSTX02DD	kg/m2/sec	1	I	prescribed aero dep
DSTX02WD	kg/m2/sec	1	I	prescribed aero dep
DSTX03DD	kg/m2/sec	1	I	prescribed aero dep
DSTX03WD	kg/m2/sec	1	I	prescribed aero dep
DSTX04DD	kg/m2/sec	1	I	prescribed aero dep
DSTX04WD	kg/m2/sec	1	I	prescribed aero dep
DTCOND	K/s	26	A	T tendency - moist processes
DTCORE	K/s	26	I	T tendency due to dynamical core
DTV	K/s	26	A	T vertical diffusion
DTVKE	K/s	26	A	dT/dt vertical diffusion KE dissipation
DUH	K/s	26	A	U horizontal diffusive heating
DUV	m/s2	26	A	U vertical diffusion
DVH	K/s	26	A	V horizontal diffusive heating
DVV	m/s2	26	A	V vertical diffusion
EFFCLD	fraction	26	A	Effective cloud fraction
EFFICE	Micron	26	A	Prognostic ice effective radius
EFFLIQ	Micron	26	A	Prognostic droplet effective radius
EFFLIQ_IND	Micron	26	A	Prognostic droplet effective radius (indirect effect)
EMIS	1	26	A	cloud emissivity
ENGYCORR	W/m2	26	A	Energy correction for over-all conservation
EVAPPREC	kg/kg/s	26	A	Rate of evaporation of falling precip
EVAPQCM	kg/kg/s	26	A	Q tendency - Evaporation from Hack convection
EVAPQZM	kg/kg/s	26	A	Q tendency - Evaporation from Zhang-McFarlane moist convection
EVAPSNOW	kg/kg/s	26	A	Rate of evaporation of falling snow
EVAPTCM	K/s	26	A	T tendency - Evaporation/snow prod from Hack convection
EVAPTZM	K/s	26	A	T tendency - Evaporation/snow prod from Zhang convection
EVSNTCM	K/s	26	A	T tendency - Snow to rain prod from Hack convection
EVSNTZM	K/s	26	A	T tendency - Snow to rain prod from Zhang convection
FCTI	fraction	1	A	Fractional occurance of cloud top ice
FCTL	fraction	1	A	Fractional occurance of cloud top liquid
FDL	W/m2	27	I	Longwave downward flux
FDLC	W/m2	27	I	Longwave clear-sky downward flux
FDS	W/m2	27	I	Shortwave downward flux
FDSC	W/m2	27	I	Shortwave clear-sky downward flux
FICE	fraction	26	A	Fractional ice content within cloud
FLDS	W/m2	1	A	Downwelling longwave flux at surface
FLDSC	W/m2	1	A	Clearsky downwelling longwave flux at surface
FLN200	W/m2	1	A	Net longwave flux at 200 mb
FLN200C	W/m2	1	A	Clearsky net longwave flux at 200 mb
FLNS	W/m2	1	A	Net longwave flux at surface
FLNSC	W/m2	1	A	Clearsky net longwave flux at surface
FLNT	W/m2	1	A	Net longwave flux at top of model
FLNTC	W/m2	1	A	Clearsky net longwave flux at top of model
FLUT	W/m2	1	A	Upwelling longwave flux at top of model
FLUTC	W/m2	1	A	Clearsky upwelling longwave flux at top of model
FRACW	fraction	26	A	Relative importance of rain accreting liquid
FREQI	fraction	26	A	Fractional occurance of ice
FREQL	fraction	26	A	Fractional occurance of liquid
FREQSH	fraction	1	A	Fractional occurance of shallow convection
FREQZM	fraction	1	A	Fractional occurance of ZM convection
FRZRDT	W/kg	26	A	Latent heating rate due to homogeneous freezing of rain
FSACI	fraction	26	A	Relative importance of snow accreting ice
FSACW	fraction	26	A	Relative importance of snow accreting liquid
FSAUT	fraction	26	A	Relative importance of ice autoconversion
FSDS	W/m2	1	A	Downwelling solar flux at surface
FSDSC	W/m2	1	A	Clearsky downwelling solar flux at surface
FSDTOA	W/m2	1	A	Downwelling solar flux at top of atmosphere
FSN200	W/m2	1	A	Net shortwave flux at 200 mb
FSN200C	W/m2	1	A	Clearsky net shortwave flux at 200 mb
FSNIRTOA	W/m2	1	A	Net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere
FSNRTOAC	W/m2	1	A	Clearsky net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere
FSNRTOAS	W/m2	1	A	Net near-infrared flux (>= 0.7 microns) at top of atmosphere
FSNS	W/m2	1	A	Net solar flux at surface
FSNSC	W/m2	1	A	Clearsky net solar flux at surface
FSNT	W/m2	1	A	Net solar flux at top of model
FSNTC	W/m2	1	A	Clearsky net solar flux at top of model
FSNTOA	W/m2	1	A	Net solar flux at top of atmosphere
FSNTOAC	W/m2	1	A	Clearsky net solar flux at top of atmosphere
FSUTOA	W/m2	1	A	Upwelling solar flux at top of atmosphere
FU	m/s2	26	A	Zonal wind forcing term
FUL	W/m2	27	I	Longwave upward flux
FULC	W/m2	27	I	Longwave clear-sky upward flux
FUS	W/m2	27	I	Shortwave upward flux
FUSC	W/m2	27	I	Shortwave clear-sky upward flux
FU_S	m/s2	26	A	Zonal wind forcing term on staggered grid
FV	m/s2	26	A	Meridional wind forcing term
FV_S	m/s2	26	A	Meridional wind forcing term on staggered grid
FWAUT	fraction	26	A	Relative importance of liquid autoconversion
FZSNTCM	K/s	26	A	T tendency - Rain to snow conversion from Hack convection
FZSNTZM	K/s	26	A	T tendency - Rain to snow conversion from Zhang convection
GCLDLWP	gram/m2	26	A	Grid-box cloud water path
HCME	W/kg	26	A	Heating from cond-evap within the cloud
HEVAP	W/kg	26	A	Heating from evaporation of falling precip
HFREEZ	W/kg	26	A	Heating rate due to freezing of precip
HKEIHEAT	W/kg	26	A	Heating by ice and evaporation in HK convection
HKFLXPRC	kg/m2/s	27	A	Flux of precipitation from HK convection
HKFLXSNW	kg/m2/s	27	A	Flux of snow from HK convection
HKNTPRPD	kg/kg/s	26	A	Net precipitation production from HK convection
HKNTSNPD	kg/kg/s	26	A	Net snow production from HK convection
HMELT	W/kg	26	A	Heating from snow melt
HOMOO	1/s	26	A	Homogeneous freezing of cloud water
HPROGCLD	W/kg	26	A	Heating from prognostic clouds
HR	K/s	26	A	Heating rate needed for d(theta)/dt computation
HREPART	W/kg	26	A	Heating from cloud ice/liquid repartitioning
HSED	W/kg	26	A	Heating from cloud sediment evaporation
ICE2PR	kg/kg/s	26	A	Rate of conversion of ice to precip
ICECLDF	fraction	26	A	Stratus ICE cloud fraction
ICEFRAC	fraction	1	A	Fraction of sfc area covered by sea-ice
ICEFRAC&IC	fraction	1	I	Fraction of sfc area covered by sea-ice
ICIMR	kg/kg	26	A	Prognostic in-cloud ice mixing ratio
ICIMRCU	kg/kg	26	A	Convection in-cloud ice mixing ratio
ICIMRST	kg/kg	26	A	Prognostic in-stratus ice mixing ratio
ICIMRTOT	kg/kg	26	A	Total in-cloud ice mixing ratio
ICINC	m-3	26	A	Prognostic in-cloud ice number conc
ICLDIWP	gram/m2	26	A	In-cloud ice water path
ICLDTWP	gram/m2	26	A	In-cloud cloud total water path (liquid and ice)
ICLMRCU	kg/kg	26	A	Convection in-cloud liquid mixing ratio
ICLMRTOT	kg/kg	26	A	Total in-cloud liquid mixing ratio
ICWMR	kg/kg	26	A	Prognostic in-cloud water mixing ratio
ICWMRDP	kg/kg	26	A	Deep Convection in-cloud water mixing ratio
ICWMRSH	kg/kg	26	A	Shallow Convection in-cloud water mixing ratio
ICWMRST	kg/kg	26	A	Prognostic in-stratus water mixing ratio
ICWNC	m-3	26	A	Prognostic in-cloud water number conc
IWC	kg/m3	26	A	Grid box average ice water content
KTOOP	K/s	26	A	(KappaT)(omega/P)
KVH	m2/s	27	A	Vertical diffusion diffusivities (heat/moisture)
KVH&IC	m2/s	27	I	Vertical diffusion diffusivities (heat/moisture)
KVM	m2/s	27	A	Vertical diffusion diffusivities (momentum)
KVM&IC	m2/s	27	I	Vertical diffusion diffusivities (momentum)
LANDFRAC	fraction	1	A	Fraction of sfc area covered by land
LCWAT&IC	kg/kg	26	I	Cloud water (ice + liq
LHFLX	W/m2	1	A	Surface latent heat flux
LIQ2PR	kg/kg/s	26	A	Rate of conversion of liq to precip
LIQCLDF	fraction	26	A	Stratus Liquid cloud fraction
LPSTEN	Pa/s	1	A	Surface pressure tendency
LWC	kg/m3	26	A	Grid box average liquid water content
LWCF	W/m2	1	A	Longwave cloud forcing
LWSH	m	1	A	Liquid water scale height
MACPDICE	kg/kg/s	26	A	CLDICE tendency - Revised macrophysics
MACPDLIQ	kg/kg/s	26	A	CLDLIQ tendency - Revised macrophysics
MACPDQ	kg/kg/s	26	A	Q tendency - Revised macrophysics
MACPDT	W/kg	26	A	Heating tendency - Revised macrophysics
MELTO	1/s	26	A	Melting of cloud ice
MELTSDT	W/kg	26	A	Latent heating rate due to melting of snow
MNUCCCO	1/s	26	A	Immersion freezing of cloud water
MNUCCRO	1/s	26	A	Heterogeneous freezing of rain to snow
MNUCCTO	1/s	26	A	Contact freezing of cloud water
MPDI2P	kg/kg/s	26	A	Ice <--> Precip tendency - Morrison microphysics
MPDI2V	kg/kg/s	26	A	Ice <--> Vapor tendency - Morrison microphysics
MPDI2W	kg/kg/s	26	A	Ice <--> Water tendency - Morrison microphysics
MPDICE	kg/kg/s	26	A	CLDICE tendency - Morrison microphysics
MPDLIQ	kg/kg/s	26	A	CLDLIQ tendency - Morrison microphysics
MPDQ	kg/kg/s	26	A	Q tendency - Morrison microphysics
MPDT	W/kg	26	A	Heating tendency - Morrison microphysics
MPDW2I	kg/kg/s	26	A	Water <--> Ice tendency - Morrison microphysics
MPDW2P	kg/kg/s	26	A	Water <--> Precip tendency - Morrison microphysics
MPDW2V	kg/kg/s	26	A	Water <--> Vapor tendency - Morrison microphysics
MQ	kg/m2	26	A	Water vapor mass in layer
MSACWIO	1/s	26	A	Conversion of cloud water from rime-splintering
NSTEP	timestep	1	A	Model timestep
OCDEPWET	kg/m2/sec	1	I	prescribed aero dep
OCNFRAC	fraction	1	A	Fraction of sfc area covered by ocean
OCPHIDRY	kg/m2/sec	1	I	prescribed aero dep
OCPHODRY	kg/m2/sec	1	I	prescribed aero dep
ODV_SSLTA	1	1	A	SSLTA optical depth in visible band
ODV_SSLTC	1	1	A	SSLTC optical depth in visible band
ODV_bcar1	1	1	A	bcar1 optical depth in visible band
ODV_bcar2	1	1	A	bcar2 optical depth in visible band
ODV_dust1	1	1	A	dust1 optical depth in visible band
ODV_dust2	1	1	A	dust2 optical depth in visible band
ODV_dust3	1	1	A	dust3 optical depth in visible band
ODV_dust4	1	1	A	dust4 optical depth in visible band
ODV_ocar1	1	1	A	ocar1 optical depth in visible band
ODV_ocar2	1	1	A	ocar2 optical depth in visible band
ODV_sulf	1	1	A	sulf optical depth in visible band
OMEGA	Pa/s	26	A	Vertical velocity (pressure)
OMEGA500	Pa/s	1	A	Vertical velocity at 500 mbar pressure surface
OMEGA850	Pa/s	1	A	Vertical velocity at 850 mbar pressure surface
OMEGAQ	kgPa/kgs	26	A	Vertical water transport
OMEGAT	K Pa/s	26	A	Vertical heat flux
OMEGAU	m Pa/s2	26	A	Vertical flux of zonal momentum
OMEGAV	m Pa/s2	26	A	Vertical flux of meridional momentum
OMGAOMGA	Pa2/s2	26	A	Vertical flux of vertical momentum
PBLH	m	1	A	PBL height
PBLH&IC	m	1	I	PBL height
PCLDBOT	1	1	A	Pressure of cloud base
PCLDTOP	1	1	A	Pressure of cloud top
PCONVB	Pa	1	A	convection base pressure
PCONVT	Pa	1	A	convection top pressure
PCSNOW	m/s	1	A	Snow fall from prognostic clouds
PDELDRY	Pa	26	A	Dry pressure difference between levels
PHIS	m2/s2	1	I	Surface geopotential
PRACSO	1/s	26	A	Accretion of rain by snow
PRAIO	1/s	26	A	Accretion of cloud ice by rain
PRAO	1/s	26	A	Accretion of cloud water by rain
PRCIO	1/s	26	A	Autoconversion of cloud ice
PRCO	1/s	26	A	Autoconversion of cloud water
PRECC	m/s	1	A	Convective precipitation rate (liq + ice)
PRECCDZM	m/s	1	A	Convective precipitation rate from ZM deep
PRECCav	m/s	1	A	Average large-scale precipitation (liq + ice)
PRECL	m/s	1	A	Large-scale (stable) precipitation rate (liq + ice)
PRECLav	m/s	1	A	Average convective precipitation (liq + ice)
PRECSC	m/s	1	A	Convective snow rate (water equivalent)
PRECSED	m/s	1	A	Precipitation from cloud sedimentation
PRECSH	m/s	1	A	Shallow Convection precipitation rate
PRECSL	m/s	1	A	Large-scale (stable) snow rate (water equivalent)
PRECT	m/s	1	A	Total (convective and large-scale) precipitation rate (liq + ice)
PRECTMX	m/s	1	X	Maximum (convective and large-scale) precipitation rate (liq+ice)
PRECZ	m/s	1	A	total precipitation from ZM convection
PRODPREC	kg/kg/s	26	A	Rate of conversion of condensate to precip
PS	Pa	1	A	Surface pressure
PS&IC	Pa	1	I	Surface pressure
PSACWSO	1/s	26	A	Accretion of cloud water by snow
PSDRY	Pa	1	A	Surface pressure
PSL	Pa	1	A	Sea level pressure
PTECLDICE	kg/kg/s	26	A	CLDICE total physics tendency
PTECLDLIQ	kg/kg/s	26	A	CLDLIQ total physics tendency
PTEQ	kg/kg/s	26	A	Q total physics tendency
PTTEND	K/s	26	A	T total physics tendency
PTTEND_RESID	K/s	26	A	T-tendency due to BAB kluge at end of tphysac (diagnostic not part of T-budget)
Q	kg/kg	26	A	Specific humidity
Q&IC	kg/kg	26	I	Specific humidity
Q200	kg/kg	1	A	Specific Humidity at 700 mbar pressure surface
Q850	kg/kg	1	A	Specific Humidity at 850 mbar pressure surface
QAP	kg/kg	26	A	Specific humidity (after physics)
QBOT	kg/kg	1	A	Lowest model level water vapor mixing ratio
QBP	kg/kg	26	A	Specific humidity (before physics)
QC	kg/kg/s	26	A	Q tendency - shallow convection LW export
QCRESO	1/s	26	A	Residual condensation term for cloud water
QCSEDTEN	kg/kg/s	26	A	Cloud water mixing ratio tendency from sedimentation
QCSEVAP	kg/kg/s	26	A	Rate of evaporation of falling cloud water
QCWAT&IC	kg/kg	26	I	q associated with cloud water
QFLX	kg/m2/s	1	A	Surface water flux
QIRESO	1/s	26	A	Residual deposition term for cloud ice
QISEDTEN	kg/kg/s	26	A	Cloud ice mixing ratio tendency from sedimentation
QISEVAP	kg/kg/s	26	A	Rate of sublimation of falling cloud ice
QPERT	kg/kg	1	A	Perturbation specific humidity (eddies in PBL)
QPERT&IC	kg/kg	1	I	Perturbation specific humidity (eddies in PBL)
QQ	kg2/kg2	26	A	Eddy moisture variance
QREFHT	kg/kg	1	A	Reference height humidity
QRL	K/s	26	A	Longwave heating rate
QRLC	K/s	26	A	Clearsky longwave heating rate
QRS	K/s	26	A	Solar heating rate
QRSC	K/s	26	A	Clearsky solar heating rate
QT	kg/kg	26	A	Total water mixing ratio
QTFLX	W/m2	27	A	Total water flux
QVRES	kg/kg/s	26	A	Rate of residual condensation term
RAINSED	m/s	1	A	Rain from cloud liquid sedimentation
REI	micron	26	A	effective ice particle radius
REL	micron	26	A	effective liquid drop radius
RELHUM	percent	26	A	Relative humidity
REPARTICE	kg/kg/s	26	A	Cloud ice tendency from cloud ice/liquid repartitioning
REPARTLIQ	kg/kg/s	26	A	Cloud liq tendency from cloud ice/liquid repartitioning
RHI	percent	26	A	Relative humidity with respect to ice
RHREFHT	fraction	1	A	Reference height relative humidity
RHW	percent	26	A	Relative humidity with respect to liquid
SETLWP	gram/m2	26	A	Prescribed liquid water path
SFCLDICE	kg/m2/s	1	A	CLDICE surface flux
SFCLDLIQ	kg/m2/s	1	A	CLDLIQ surface flux
SGH	m	1	I	Standard deviation of orography
SGH30	m	1	I	Standard deviation of 30s orography
SHDLFICE	kg/kg/s	26	A	Detrained ice from shallow convection
SHDLFLIQ	kg/kg/s	26	A	Detrained liquid water from shallow convection
SHDLFT	K/s	26	A	T-tendency due to shallow convective detrainment
SHFLX	W/m2	1	A	Surface sensible heat flux
SH_CLD	fraction	26	A	Shallow convective cloud cover
SICTHK	m	1	A	Sea ice thickness
SICTHK&IC	m	1	I	Sea ice thickness
SL	J/kg	26	A	Liquid water static energy
SLFLX	W/m2	27	A	Liquid static energy flux
SLV	J/kg	26	A	Liq wat virtual static energy
SNOWHICE	m	1	A	Water equivalent snow depth
SNOWHICE&IC	m	1	I	Water equivalent snow depth
SNOWHLND	m	1	A	Water equivalent snow depth
SNOWSED	m/s	1	A	Snow from cloud ice sedimentation
SOLIN	W/m2	1	A	Solar insolation
SOLL	W/m2	1	A	Solar downward near infrared direct to surface
SOLLD	W/m2	1	A	Solar downward near infrared diffuse to surface
SOLS	W/m2	1	A	Solar downward visible direct to surface
SOLSD	W/m2	1	A	Solar downward visible diffuse to surface
SRFRAD	W/m2	1	A	Net radiative flux at surface
SSLTA	kg/kg	26	A	sea salt
SSLTC	kg/kg	26	A	sea salt
SST	K	1	A	sea surface temperature
SWCF	W/m2	1	A	Shortwave cloud forcing
T	K	26	A	Temperature
T&IC	K	26	I	Temperature
T200	K	1	A	Temperature at 200 mbar pressure surface
T300	K	1	A	Temperature at 300 mbar pressure surface
T500	K	1	A	Temperature at 500 mbar pressure surface
T850	K	1	A	Temperature at 850 mbar pressure surface
TACLDICE	kg/kg/s	26	A	CLDICE horz + vert + fixer tendency
TACLDLIQ	kg/kg/s	26	A	CLDLIQ horz + vert + fixer tendency
TAP	K	26	A	Temperature (after physics)
TAQ	kg/kg/s	26	A	Q horz + vert + fixer tendency
TAUGWX	N/m2	1	A	Zonal gravity wave surface stress
TAUGWY	N/m2	1	A	Meridional gravity wave surface stress
TAUX	N/m2	1	A	Zonal surface stress
TAUY	N/m2	1	A	Meridional surface stress
TBOT	K	1	A	Lowest model level temperature
TBOT&IC	K	1	I	Lowest model level temperature
TBP	K	26	A	Temperature (before physics)
TCWAT&IC	kg/kg	26	I	T associated with cloud water
TEFIX	W/m2	1	A	Total energy after fixer
TEINP	W/m2	1	A	Total energy of physics input
TEOUT	W/m2	1	A	Total energy of physics output
TFIX	K/s	1	A	T fixer (T equivalent of Energy correction)
TGCLDCWP	gram/m2	1	A	Total grid-box cloud water path (liquid and ice)
TGCLDIWP	gram/m2	1	A	Total grid-box cloud ice water path
TGCLDLWP	gram/m2	1	A	Total grid-box cloud liquid water path
TKE	m2/s2	27	A	Turbulent Kinetic Energy
TKE&IC	m2/s2	27	I	Turbulent Kinetic Energy
TMCLDICE	kg/m2	1	A	CLDICE column burden
TMCLDLIQ	kg/m2	1	A	CLDLIQ column burden
TMQ	kg/m2	1	A	Total (vertically integrated) precipitatable water
TPERT	K	1	A	Perturbation temperature (eddies in PBL)
TPERT&IC	K	1	I	Perturbation temperature (eddies in PBL)
TREFHT	K	1	A	Reference height temperature
TREFHTMN	K	1	M	Minimum reference height temperature over output period
TREFHTMX	K	1	X	Maximum reference height temperature over output period
TREFMNAV	K	1	A	Average of TREFHT daily minimum
TREFMXAV	K	1	A	Average of TREFHT daily maximum
TROPP_FD	probability	1	A	Tropopause Found (primary)
TROPP_P	Pa	1	A	Tropopause Pressure (primary)
TROPP_PD	probability	26	A	Tropopause Distribution (primary)
TROPP_T	K	1	A	Tropopause Temperature (primary)
TROPP_Z	m	1	A	Tropopause Height (primary)
TROP_FD	probability	1	A	Tropopause Found
TROP_P	Pa	1	A	Tropopause Pressure
TROP_PD	probability	26	A	Tropopause Probabilty
TROP_T	K	1	A	Tropopause Temperature
TROP_Z	m	1	A	Tropopause Height
TS	K	1	A	Surface temperature (radiative)
TS1	K	1	A	TS1 subsoil temperature
TS1&IC	K	1	I	TS1 subsoil temperature
TS2	K	1	A	TS2 subsoil temperature
TS2&IC	K	1	I	TS2 subsoil temperature
TS3	K	1	A	TS3 subsoil temperature
TS3&IC	K	1	I	TS3 subsoil temperature
TS4	K	1	A	TS4 subsoil temperature
TS4&IC	K	1	I	TS4 subsoil temperature
TSICE	K	1	A	Ice temperature
TSICE&IC	K	1	I	Ice temperature
TSICERAD&IC	K	1	I	Radiatively equivalent ice temperature
TSMN	K	1	M	Minimum surface temperature over output period
TSMX	K	1	X	Maximum surface temperature over output period
TT	K2	26	A	Eddy temperature variance
TTEND	K/s	26	A	T tendency
TTGWORO	K/s	26	A	T tendency - orographic gravity wave drag
U	m/s	26	A	Zonal wind
U200	m/s	1	A	Zonal wind at 200 mbar pressure surface
U250	m/s	1	A	Zonal wind at 250 mbar pressure surface
U850	m/s	1	A	Zonal wind at 850 mbar pressure surface
UAP	m/s	26	A	Zonal wind (after physics)
UBOT	m/s	1	A	Lowest model level zonal wind
UFLX	W/m2	27	A	Zonal momentum flux
US	m/s	26	A	Zonal wind, staggered
US&IC	m/s	26	I	Zonal wind, staggered
USTAR	m/s	1	A	Surface friction velocity
UTEND	m/s2	26	A	U tendency
UTGWORO	m/s2	26	A	U tendency - orographic gravity wave drag
UU	m2/s2	26	A	Zonal velocity squared
V	m/s	26	A	Meridional wind
V200	m/s	1	A	Meridional wind at 200 mbar pressure surface
V250	m/s	1	A	Meridional wind at 250 mbar pressure surface
V850	m/s	1	A	Meridional wind at 850 mbar pressure surface
VAP	m/s	26	A	Meridional wind (after physics)
VAT	K/s	26	A	Vertical advective tendency of T
VBOT	m/s	1	A	Lowest model level meridional wind
VD01	kg/kg/s	26	A	Vertical diffusion of Q
VDCLDICE	kg/kg/s	26	A	Vertical diffusion of CLDICE
VDCLDLIQ	kg/kg/s	26	A	Vertical diffusion of CLDLIQ
VFLX	W/m2	27	A	Meridional momentm flux
VQ	m/skg/kg	26	A	Meridional water transport
VS	m/s	26	A	Meridional wind, staggered
VS&IC	m/s	26	I	Meridional wind, staggered
VT	K m/s	26	A	Meridional heat transport
VTEND	m/s2	26	A	V tendency
VTGWORO	m/s2	26	A	V tendency - orographic gravity wave drag
VTRMC	m/s	26	A	Mass-weighted cloud water fallspeed
VTRMI	m/s	26	A	Mass-weighted cloud ice fallspeed
VU	m2/s2	26	A	Meridional flux of zonal momentum
VV	m2/s2	26	A	Meridional velocity squared
VZ	m2/s	26	A	Meridional transport of geopotential energy
WGUSTD	m/s	1	A	wind gusts from turbulence
WSPEED	m/s	26	X	Horizontal total wind speed
WSUB	m/s	26	A	Diagnostic sub-grid vertical velocity
WSUBI	m/s	26	A	Diagnostic sub-grid vertical velocity for ice
Z050	m	1	A	Geopotential Z at 50 mbar pressure surface
Z100	m	1	A	Geopotential Z at 100 mbar pressure surface
Z200	m	1	A	Geopotential Z at 200 mbar pressure surface
Z3	m	26	A	Geopotential Height (above sea level)
Z300	m	1	A	Geopotential Z at 300 mbar pressure surface
Z500	m	1	A	Geopotential Z at 500 mbar pressure surface
Z700	m	1	A	Geopotential Z at 700 mbar pressure surface
ZBOT	m	1	A	Lowest model level height
ZMDICE	kg/kg/s	26	A	Cloud ice tendency - Zhang-McFarlane convection
ZMDLF	kg/kg/s	26	A	Detrained liquid water from ZM convection
ZMDLIQ	kg/kg/s	26	A	Cloud liq tendency - Zhang-McFarlane convection
ZMDQ	kg/kg/s	26	A	Q tendency - Zhang-McFarlane moist convection
ZMDT	K/s	26	A	T tendency - Zhang-McFarlane moist convection
ZMEIHEAT	W/kg	26	A	Heating by ice and evaporation in ZM convection
ZMFLXPRC	kg/m2/s	27	A	Flux of precipitation from ZM convection
ZMFLXSNW	kg/m2/s	27	A	Flux of snow from ZM convection
ZMICUD	m/s	26	A	ZM in-cloud U downdrafts
ZMICUU	m/s	26	A	ZM in-cloud U updrafts
ZMICVD	m/s	26	A	ZM in-cloud V downdrafts
ZMICVU	m/s	26	A	ZM in-cloud V updrafts
ZMMD	kg/m2/s	26	A	ZM convection downdraft mass flux
ZMMTT	K/s	26	A	T tendency - ZM convective momentum transport
ZMMTU	m/s2	26	A	U tendency - ZM convective momentum transport
ZMMTV	m/s2	26	A	V tendency - ZM convective momentum transport
ZMMU	kg/m2/s	26	A	ZM convection updraft mass flux
ZMNTPRPD	kg/kg/s	26	A	Net precipitation production from ZM convection
ZMNTSNPD	kg/kg/s	26	A	Net snow production from ZM convection
ZMUPGD	m/s2	26	A	zonal force from ZM downdraft pressure gradient term
ZMUPGU	m/s2	26	A	zonal force from ZM updraft pressure gradient term
ZMVPGD	m/s2	26	A	merdional force from ZM downdraft pressure gradient term
ZMVPGU	m/s2	26	A	meridional force from ZM updraft pressure gradient term
ZZ	m2	26	A	Eddy height variance
a2x_BCPHIDRY	kg/m2/s	1	A	drydep of hydrophilic black carbon
a2x_BCPHIWET	kg/m2/s	1	A	wetdep of hydrophilic black carbon
a2x_BCPHODRY	kg/m2/s	1	A	drydep of hydrophobic black carbon
a2x_DSTDRY1	kg/m2/s	1	A	drydep of dust (bin1)
a2x_DSTDRY2	kg/m2/s	1	A	drydep of dust (bin2)
a2x_DSTDRY3	kg/m2/s	1	A	drydep of dust (bin3)
a2x_DSTDRY4	kg/m2/s	1	A	drydep of dust (bin4)
a2x_DSTWET1	kg/m2/s	1	A	wetdep of dust (bin1)
a2x_DSTWET2	kg/m2/s	1	A	wetdep of dust (bin2)
a2x_DSTWET3	kg/m2/s	1	A	wetdep of dust (bin3)
a2x_DSTWET4	kg/m2/s	1	A	wetdep of dust (bin4)
a2x_OCPHIDRY	kg/m2/s	1	A	drydep of hydrophilic organic carbon
a2x_OCPHIWET	kg/m2/s	1	A	wetdep of hydrophilic organic carbon
a2x_OCPHODRY	kg/m2/s	1	A	drydep of hydrophobic organic carbon
bcar1	kg/kg	26	I	prescribed aero
bcar2	kg/kg	26	I	prescribed aero
cb_CFC11_c	kg/m^2	1	A	CFC11 column burden used in climate calculation
cb_CFC12_c	kg/m^2	1	A	CFC12 column burden used in climate calculation
cb_CH4_c	kg/m^2	1	A	CH4 column burden used in climate calculation
cb_CO2_c	kg/m^2	1	A	CO2 column burden used in climate calculation
cb_N2O_c	kg/m^2	1	A	N2O column burden used in climate calculation
cb_O2_c	kg/m^2	1	A	O2 column burden used in climate calculation
cb_Q_c	kg/m^2	1	A	Q column burden used in climate calculation
cb_SSLTA_c	kg/m^2	1	A	SSLTA column burden used in climate calculation
cb_SSLTC_c	kg/m^2	1	A	SSLTC column burden used in climate calculation
cb_bcar1_c	kg/m^2	1	A	bcar1 column burden used in climate calculation
cb_bcar2_c	kg/m^2	1	A	bcar2 column burden used in climate calculation
cb_dust1_c	kg/m^2	1	A	dust1 column burden used in climate calculation
cb_dust2_c	kg/m^2	1	A	dust2 column burden used in climate calculation
cb_dust3_c	kg/m^2	1	A	dust3 column burden used in climate calculation
cb_dust4_c	kg/m^2	1	A	dust4 column burden used in climate calculation
cb_ocar1_c	kg/m^2	1	A	ocar1 column burden used in climate calculation
cb_ocar2_c	kg/m^2	1	A	ocar2 column burden used in climate calculation
cb_ozone_c	kg/m^2	1	A	ozone column burden used in climate calculation
cb_sulf_c	kg/m^2	1	A	sulf column burden used in climate calculation
dust1	kg/kg	26	I	prescribed aero
dust2	kg/kg	26	I	prescribed aero
dust3	kg/kg	26	I	prescribed aero
dust4	kg/kg	26	I	prescribed aero
m_CFC11_c	kg/m^2	26	A	CFC11 mass per layer used in climate calculation
m_CFC12_c	kg/m^2	26	A	CFC12 mass per layer used in climate calculation
m_CH4_c	kg/m^2	26	A	CH4 mass per layer used in climate calculation
m_CO2_c	kg/m^2	26	A	CO2 mass per layer used in climate calculation
m_N2O_c	kg/m^2	26	A	N2O mass per layer used in climate calculation
m_O2_c	kg/m^2	26	A	O2 mass per layer used in climate calculation
m_Q_c	kg/m^2	26	A	Q mass per layer used in climate calculation
m_SSLTA_c	kg/m^2	26	A	SSLTA mass per layer used in climate calculation
m_SSLTC_c	kg/m^2	26	A	SSLTC mass per layer used in climate calculation
m_bcar1_c	kg/m^2	26	A	bcar1 mass per layer used in climate calculation
m_bcar2_c	kg/m^2	26	A	bcar2 mass per layer used in climate calculation
m_dust1_c	kg/m^2	26	A	dust1 mass per layer used in climate calculation
m_dust2_c	kg/m^2	26	A	dust2 mass per layer used in climate calculation
m_dust3_c	kg/m^2	26	A	dust3 mass per layer used in climate calculation
m_dust4_c	kg/m^2	26	A	dust4 mass per layer used in climate calculation
m_ocar1_c	kg/m^2	26	A	ocar1 mass per layer used in climate calculation
m_ocar2_c	kg/m^2	26	A	ocar2 mass per layer used in climate calculation
m_ozone_c	kg/m^2	26	A	ozone mass per layer used in climate calculation
m_sulf_c	kg/m^2	26	A	sulf mass per layer used in climate calculation
ocar1	kg/kg	26	I	prescribed aero
ocar2	kg/kg	26	I	prescribed aero
ozone	mol/mol	26	I	prescribed ozone
qi_aft_Cu	kg/kg	26	I	qi_afterCU
qi_aft_PBL	kg/kg	26	A	qi_afterPBL
qi_pre_Cu	kg/kg	26	I	qi_preCU
qi_pre_PBL	kg/kg	26	A	qi_prePBL
qiten_PBL	kg/kg/s	26	A	qi tendency by PBL
ql_aft_Cu	kg/kg	26	I	ql_afterCU
ql_aft_PBL	kg/kg	26	A	ql_afterPBL
ql_pre_Cu	kg/kg	26	I	ql_preCU
ql_pre_PBL	kg/kg	26	A	ql_prePBL
qlten_PBL	kg/kg/s	26	A	ql tendency by PBL
qt_aft_Cu	kg/kg	26	I	qt_afterCU
qt_aft_PBL	kg/kg	26	A	qt_afterPBL
qt_pre_Cu	kg/kg	26	I	qt_preCU
qt_pre_PBL	kg/kg	26	A	qt_prePBL
qtflx_PBL	kg/m2/s	27	A	qt flux by PBL
qtflx_cg_PBL	kg/m2/s	27	A	qt_cg flux by PBL
qtten_PBL	kg/kg/s	26	A	qt tendency by PBL
qv_aft_Cu	kg/kg	26	I	qv_afterCU
qv_aft_PBL	kg/kg	26	A	qv_afterPBL
qv_pre_Cu	kg/kg	26	I	qv_preCU
qv_pre_PBL	kg/kg	26	A	qv_prePBL
qvten_PBL	kg/kg/s	26	A	qv tendency by PBL
rh_aft_Cu	%	26	I	rh_afterCU
rh_aft_PBL	%	26	A	rh_afterPBL
rh_pre_Cu	%	26	I	rh_preCU
rh_pre_PBL	%	26	A	rh_prePBL
rhten_Cu	%/s	26	I	RH tendency by cumumus convection
rhten_PBL	%/s	26	A	RH tendency by PBL
sl_aft_Cu	J/kg	26	I	sl_afterCU
sl_aft_PBL	J/kg	26	A	sl_afterPBL
sl_pre_Cu	J/kg	26	I	sl_preCU
sl_pre_PBL	J/kg	26	A	sl_prePBL
slflx_PBL	J/m2/s	27	A	sl flux by PBL
slflx_cg_PBL	J/m2/s	27	A	sl_cg flux by PBL
slten_PBL	J/kg/s	26	A	sl tendency by PBL
slv_aft_Cu	J/kg	26	I	slv_afterCU
slv_aft_PBL	J/kg	26	A	slv_afterPBL
slv_pre_Cu	J/kg	26	I	slv_preCU
slv_pre_PBL	J/kg	26	A	slv_prePBL
sslt1	kg/kg	26	I	prescribed aero
sslt2	kg/kg	26	I	prescribed aero
sslt3	kg/kg	26	I	prescribed aero
sslt4	kg/kg	26	I	prescribed aero
sulf	kg/kg	26	I	prescribed aero
t_aft_Cu	K	26	I	t_afterCU
t_aft_PBL	K	26	A	t_afterPBL
t_pre_Cu	K	26	I	t_preCU
t_pre_PBL	K	26	A	t_prePBL
tten_Cu	K/s	26	I	Temprtaure tendency by cumulus convection
tten_PBL	K/s	26	A	T tendency by PBL
u_aft_Cu	m/s	26	I	u_afterCU
u_aft_PBL	m/s	26	A	u_afterPBL
u_pre_Cu	m/s	26	I	u_preCU
u_pre_PBL	m/s	26	A	u_prePBL
uflx_PBL	kg/m/s2	27	A	u flux by PBL
uflx_cg_PBL	kg/m/s2	27	A	u_cg flux by PBL
uten_PBL	m/s2	26	A	u tendency by PBL
v_aft_Cu	m/s	26	I	v_afterCU
v_aft_PBL	m/s	26	A	v_afterPBL
v_pre_Cu	m/s	26	I	v_preCU
v_pre_PBL	m/s	26	A	v_prePBL
vflx_PBL	kg/m/s2	27	A	v flux by PBL
vflx_cg_PBL	kg/m/s2	27	A	v_cg flux by PBL
vten_PBL	m/s2	26	A	v tendency by PBL