Field name |
Units |
NLEV |
Time avg |
Long name |
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 |
AREA |
m2 |
1 |
A |
area of grid box |
ASDIF |
1 |
1 |
A |
albedo: shortwave, diffuse |
ASDIR |
1 |
1 |
A |
albedo: shortwave, direct |
AST |
fraction |
26 |
A |
Stratus cloud fraction |
ATMEINT |
J/m2 |
1 |
A |
Vertically integrated total atmospheric energy |
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 |
BROX |
mol/mol |
26 |
A |
brox volume mixing ratio |
BROY |
mol/mol |
26 |
A |
total inorganic bromine (Br+BrO+HOBr+BrONO2+HBr+BrCl) |
CAPE |
J/kg |
1 |
A |
Convectively available potential energy |
CBMF |
kg/m2/s |
1 |
A |
Cloud base mass flux |
CGIC |
RATIO |
1 |
I |
ratio of cloud-ground/intracloud discharges |
CGS |
s/m2 |
27 |
A |
Counter-gradient coeff on surface kinematic fluxes |
CH2O |
mol/mol |
26 |
A |
CH2O concentration |
CH2O&IC |
kg/kg |
26 |
I |
CH2O |
CH2O_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
CH2O_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
CH2O_SRF |
mol/mol |
1 |
A |
CH2O in bottom layer |
CH3O2 |
mol/mol |
26 |
A |
CH3O2 concentration |
CH3O2&IC |
kg/kg |
26 |
I |
CH3O2 |
CH3O2_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
CH3O2_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
CH3O2_SRF |
mol/mol |
1 |
A |
CH3O2 in bottom layer |
CH3OOH |
mol/mol |
26 |
A |
CH3OOH concentration |
CH3OOH&IC |
kg/kg |
26 |
I |
CH3OOH |
CH3OOH_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
CH3OOH_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
CH3OOH_SRF |
mol/mol |
1 |
A |
CH3OOH in bottom layer |
CH4 |
mol/mol |
26 |
I |
prescribed tracer constituent |
CH4_dens |
molecules/cm3 |
26 |
A |
invariant density |
CH4_vmr |
mole/mole |
26 |
A |
invariant density |
CIN |
J/kg |
1 |
A |
Convective inhibition |
CLDBOT |
1 |
1 |
I |
Vertical index of cloud base |
CLDHGH |
fraction |
1 |
A |
Vertically-integrated high cloud |
CLDHGT |
KM |
1 |
I |
cloud top height |
CLDICE |
kg/kg |
26 |
A |
Grid box averaged cloud ice amount |
CLDICE&IC |
kg/kg |
26 |
I |
Grid box averaged cloud ice amount |
CLDICEAP |
kg/kg |
26 |
A |
CLDICE after physics |
CLDICEBP |
kg/kg |
26 |
A |
CLDICE before physics |
CLDICECON |
kg/kg |
26 |
A |
Convective CLDICE |
CLDICESTR |
kg/kg |
26 |
A |
Stratiform CLDICE |
CLDLIQ |
kg/kg |
26 |
A |
Grid box averaged cloud liquid amount |
CLDLIQ&IC |
kg/kg |
26 |
I |
Grid box averaged cloud liquid amount |
CLDLIQAP |
kg/kg |
26 |
A |
CLDLIQ after physics |
CLDLIQBP |
kg/kg |
26 |
A |
CLDLIQ before physics |
CLDLIQCON |
kg/kg |
26 |
A |
Convective CLDLIQ |
CLDLIQSTR |
kg/kg |
26 |
A |
Stratiform CLDLIQ |
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 |
CLOUD |
fraction |
26 |
A |
Cloud fraction |
CLOUD&IC |
fraction |
26 |
I |
Cloud fraction |
CLOX |
mol/mol |
26 |
A |
clox volume mixing ratio |
CLOY |
mol/mol |
26 |
A |
total inorganic chlorine (Cl+ClO+2Cl2+2Cl2O2+OClO+HOCl+ClONO2+HCl+BrCl) |
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 |
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 |
CO |
mol/mol |
26 |
A |
CO concentration |
CO&IC |
kg/kg |
26 |
I |
CO |
CONCLD |
fraction |
26 |
A |
Convective cloud cover |
CONCLD&IC |
fraction |
26 |
I |
Convective cloud fraction |
CO_Aircraft |
molec/cm3/s |
26 |
A |
aircraft CO source |
CO_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
CO_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
CO_SRF |
mol/mol |
1 |
A |
CO in bottom layer |
CPAIR |
J/K/kg |
26 |
I |
specific heat cap air |
CPH1 |
K/s |
26 |
I |
O + O3 -> 2*O2 + 93.46 kcal/mol chem pot heating rate |
CPH10 |
K/s |
26 |
I |
HO2 + HO2 -> H2O2 + O2 + 39.08 kcal/mol chem pot heating rate |
CPH11 |
K/s |
26 |
I |
OH + O3 -> HO2 + O2 + 39.49 kcal/mol chem pot heating rate |
CPH12 |
K/s |
26 |
I |
NO + O3 -> NO2 + O2 + 47.55 kcal/mol chem pot heating rate |
CPH13 |
K/s |
26 |
I |
NO2 + O -> NO + O2 + 45.91 kcal/mol chem pot heating rate |
CPH14 |
K/s |
26 |
I |
OH + HO2 -> H2O + O2 + 69.99 kcal/mol chem pot heating rate |
CPH15 |
K/s |
26 |
I |
H + HO2 -> H2 + O2 + 55.4 kcal/mol chem pot heating rate |
CPH16 |
K/s |
26 |
I |
O1D + O2 -> O + O2_1S + 7.63 kcal/mol chem pot heating rate |
CPH17 |
K/s |
26 |
I |
O1D + N2 -> O + N2 + 45.14 kcal/mol chem pot heating rate |
CPH18 |
K/s |
26 |
I |
O2_1S + O -> O2_1D + O + 14.97 kcal/mol chem pot heating rate |
CPH19 |
K/s |
26 |
I |
O2_1S + O2 -> O2_1D + O2 + 14.97 kcal/mol chem pot heating rate |
CPH2 |
K/s |
26 |
I |
O + O + M -> O2 + M + 119.12 kcal/mol chem pot heating rate |
CPH20 |
K/s |
26 |
I |
O2_1S + N2 -> O2_1D + N2 + 14.97 kcal/mol chem pot heating rate |
CPH21 |
K/s |
26 |
I |
O2_1S + O3 -> O2_1D + O3 + 14.97 kcal/mol chem pot heating rate |
CPH22 |
K/s |
26 |
I |
O2_1D + O -> O2 + O + 22.54 kcal/mol chem pot heating rate |
CPH23 |
K/s |
26 |
I |
O2_1D + O2 -> 2*O2 + 22.54 kcal/mol chem pot heating rate |
CPH24 |
K/s |
26 |
I |
O2_1D + N2 -> O2 + N2 + 22.54 kcal/mol chem pot heating rate |
CPH25 |
K/s |
26 |
I |
N2D + O2 -> NO + O1D + 42.43 kcal/mol chem pot heating rate |
CPH26 |
K/s |
26 |
I |
N2D + O -> N + O + 54.88 kcal/mol chem pot heating rate |
CPH27 |
K/s |
26 |
I |
N + O2 -> NO + O + 32.28 kcal/mol chem pot heating rate |
CPH28 |
K/s |
26 |
I |
N + NO -> N2 + O + 61.8 kcal/mol chem pot heating rate |
CPH29 |
K/s |
26 |
I |
O1D + O2 -> O + O2 + 45.14 kcal/mol chem pot heating rate |
CPH3 |
K/s |
26 |
I |
O + OH -> H + O2 + 16.35 kcal/mol chem pot heating rate |
CPH30 |
K/s |
26 |
I |
Op + O2 -> O2p + O + 35.878 kcal/mol chem pot heating rate |
CPH31 |
K/s |
26 |
I |
Op + N2 -> NOp + N + 25.105 kcal/mol chem pot heating rate |
CPH32 |
K/s |
26 |
I |
N2p + O -> NOp + N2D + 16.140 kcal/mol chem pot heating rate |
CPH33 |
K/s |
26 |
I |
O2p + N -> NOp + O + 97.073 kcal/mol chem pot heating rate |
CPH34 |
K/s |
26 |
I |
O2p + NO -> NOp + O2 + 64.862 kcal/mol chem pot heating rate |
CPH35 |
K/s |
26 |
I |
Np + O2 -> O2p + N + 57.322 kcal/mol chem pot heating rate |
CPH36 |
K/s |
26 |
I |
Np + O2 -> NOp + O + 154.46 kcal/mol chem pot heating rate |
CPH37 |
K/s |
26 |
I |
Np + O -> Op + N + 22.597 kcal/mol chem pot heating rate |
CPH38 |
K/s |
26 |
I |
N2p + O2 -> O2p + N2 + 81.164 kcal/mol chem pot heating rate |
CPH39 |
K/s |
26 |
I |
NOp + e -> 19.691 kcal/mol chem pot heating rate |
CPH4 |
K/s |
26 |
I |
O + HO2 -> OH + O2 + 53.97 kcal/mol chem pot heating rate |
CPH40 |
K/s |
26 |
I |
O2p + e -> 121.65 kcal/mol chem pot heating rate |
CPH41 |
K/s |
26 |
I |
N2p + e -> 84.807 kcal/mol chem pot heating rate |
CPH5 |
K/s |
26 |
I |
H + O2 + M -> HO2 + M + 48.8 kcal/mol chem pot heating rate |
CPH6 |
K/s |
26 |
I |
O + O2 + M -> O3 + M + 25.66 kcal/mol chem pot heating rate |
CPH7 |
K/s |
26 |
I |
H + O3 -> OH + O2 + 46.27 kcal/mol chem pot heating rate |
CPH8 |
K/s |
26 |
I |
HO2 + NO -> NO2 + OH + 8.06 kcal/mol chem pot heating rate |
CPH9 |
K/s |
26 |
I |
HO2 + O3 -> 2*O2 + OH + 28.31 kcal/mol chem pot heating rate |
CT_CH2O |
kg/kg/s |
26 |
A |
CH2O source/sink |
CT_CH3O2 |
kg/kg/s |
26 |
A |
CH3O2 source/sink |
CT_CH3OOH |
kg/kg/s |
26 |
A |
CH3OOH source/sink |
CT_CO |
kg/kg/s |
26 |
A |
CO source/sink |
CT_DMS |
kg/kg/s |
26 |
A |
DMS source/sink |
CT_H2O2 |
kg/kg/s |
26 |
A |
H2O2 source/sink |
CT_H2O_GHG |
kg/kg/s |
26 |
A |
ghg-chem h2o source/sink |
CT_HNO3 |
kg/kg/s |
26 |
A |
HNO3 source/sink |
CT_HO2 |
kg/kg/s |
26 |
A |
HO2 source/sink |
CT_ISOP |
kg/kg/s |
26 |
A |
ISOP source/sink |
CT_NO |
kg/kg/s |
26 |
A |
NO source/sink |
CT_NO2 |
kg/kg/s |
26 |
A |
NO2 source/sink |
CT_O3 |
kg/kg/s |
26 |
A |
O3 source/sink |
CT_OH |
kg/kg/s |
26 |
A |
OH source/sink |
CT_SO2 |
kg/kg/s |
26 |
A |
SO2 source/sink |
CT_SO4 |
kg/kg/s |
26 |
A |
SO4 source/sink |
CUSH&IC |
m |
1 |
I |
Convective Scale Height |
DCH2OCHM |
kg/s |
26 |
A |
net tendency from chem |
DCH3O2CHM |
kg/s |
26 |
A |
net tendency from chem |
DCH3OOHCHM |
kg/s |
26 |
A |
net tendency from chem |
DCHGZONE |
KM |
1 |
I |
depth of discharge zone |
DCOCHM |
kg/s |
26 |
A |
net tendency from chem |
DCQ |
kg/kg/s |
26 |
A |
Q tendency due to moist processes |
DDMSCHM |
kg/s |
26 |
A |
net tendency from chem |
DF_CH2O |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_CH3O2 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_CH3OOH |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_CO |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_DMS |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_H2O2 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_HNO3 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_HO2 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_ISOP |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_NHX |
kg/m2/s |
1 |
I |
NHx dry deposition flux |
DF_NO |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_NO2 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_NOY |
kg/m2/s |
1 |
I |
NOy dry deposition flux |
DF_O3 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_OH |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_SO2 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_SO4 |
kg/m2/s |
1 |
A |
dry deposition flux |
DF_SOX |
kg/m2/s |
1 |
I |
SOx dry deposition flux |
DH2O2CHM |
kg/s |
26 |
A |
net tendency from chem |
DHNO3CHM |
kg/s |
26 |
A |
net tendency from chem |
DHO2CHM |
kg/s |
26 |
A |
net tendency from chem |
DISED |
kg/kg/s |
26 |
A |
Cloud ice tendency from sedimentation |
DISOPCHM |
kg/s |
26 |
A |
net tendency from chem |
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) |
DMS |
mol/mol |
26 |
A |
DMS concentration |
DMS&IC |
kg/kg |
26 |
I |
DMS |
DMS_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
DMS_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
DMS_SRF |
mol/mol |
1 |
A |
DMS in bottom layer |
DNO2CHM |
kg/s |
26 |
A |
net tendency from chem |
DNOCHM |
kg/s |
26 |
A |
net tendency from chem |
DO3CHM |
kg/s |
26 |
A |
net tendency from chem |
DOHCHM |
kg/s |
26 |
A |
net tendency from chem |
DQP |
kg/kg/s |
26 |
A |
Specific humidity tendency due to precipitation |
DQSED |
kg/kg/s |
26 |
A |
Water vapor tendency from cloud sedimentation |
DSO2CHM |
kg/s |
26 |
A |
net tendency from chem |
DSO4CHM |
kg/s |
26 |
A |
net tendency from chem |
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 |
DTANT |
|
1 |
I |
photolysis diagnostic NH4SO4 OD |
DTCBS |
|
1 |
I |
photolysis diagnostic black carbon OD |
DTCOND |
K/s |
26 |
A |
T tendency - moist processes |
DTCOND_12_COS |
K/s |
26 |
A |
T tendency - moist processes 12hr. cos coeff. |
DTCOND_12_SIN |
K/s |
26 |
A |
T tendency - moist processes 12hr. sin coeff. |
DTCOND_24_COS |
K/s |
26 |
A |
T tendency - moist processes 24hr. cos coeff. |
DTCOND_24_SIN |
K/s |
26 |
A |
T tendency - moist processes 24hr. sin coeff. |
DTCORE |
K/s |
26 |
I |
T tendency due to dynamical core |
DTDUST |
|
1 |
I |
photolysis diagnostic dust OD |
DTOCS |
|
1 |
I |
photolysis diagnostic organic carbon OD |
DTSAL |
|
1 |
I |
photolysis diagnostic salt OD |
DTSO4 |
|
1 |
I |
photolysis diagnostic SO4 OD |
DTSOA |
|
1 |
I |
photolysis diagnostic SOA OD |
DTTOTAL |
|
1 |
I |
photolysis diagnostic total aerosol OD |
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 |
DV_CH2O |
cm/s |
1 |
A |
deposition velocity |
DV_CH3O2 |
cm/s |
1 |
A |
deposition velocity |
DV_CH3OOH |
cm/s |
1 |
A |
deposition velocity |
DV_CO |
cm/s |
1 |
A |
deposition velocity |
DV_DMS |
cm/s |
1 |
A |
deposition velocity |
DV_H2O2 |
cm/s |
1 |
A |
deposition velocity |
DV_HNO3 |
cm/s |
1 |
A |
deposition velocity |
DV_HO2 |
cm/s |
1 |
A |
deposition velocity |
DV_ISOP |
cm/s |
1 |
A |
deposition velocity |
DV_NO |
cm/s |
1 |
A |
deposition velocity |
DV_NO2 |
cm/s |
1 |
A |
deposition velocity |
DV_O3 |
cm/s |
1 |
A |
deposition velocity |
DV_OH |
cm/s |
1 |
A |
deposition velocity |
DV_SO2 |
cm/s |
1 |
A |
deposition velocity |
DV_SO4 |
cm/s |
1 |
A |
deposition velocity |
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 |
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 |
FLASHENGY |
|
1 |
I |
lighting flash rate |
FLASHFRQ |
1/MIN |
1 |
I |
lighting flash rate |
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 |
FRACDAY |
|
1 |
I |
photolysis diagnostic fraction of day |
FRACW |
fraction |
26 |
A |
Relative importance of rain accreting liquid |
FREQSH |
fraction |
1 |
A |
Fractional occurance of shallow convection |
FREQZM |
fraction |
1 |
A |
Fractional occurance of ZM convection |
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 |
H2O2 |
mol/mol |
26 |
A |
H2O2 concentration |
H2O2&IC |
kg/kg |
26 |
I |
H2O2 |
H2O2_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
H2O2_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
H2O2_SRF |
mol/mol |
1 |
A |
H2O2 in bottom layer |
H2O_GAS |
mol/mol |
26 |
I |
gas-phase h2o |
H2O_dens |
molecules/cm3 |
26 |
A |
invariant density |
H2O_vmr |
mole/mole |
26 |
A |
invariant density |
H2SO4MMR |
kg/kg |
26 |
I |
radiative sulfate aerosol mmr |
H2SO4M_C |
ug/m3 |
26 |
I |
chemical sulfate aerosol mass |
H2SO4M_R |
ug/m3 |
26 |
I |
radiative sulfate aerosol mass |
HCME |
W/kg |
26 |
A |
Heating from cond-evap within the cloud |
HEIGHT |
m |
27 |
A |
geopotential height above surface at interfaces (m) |
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 |
HNO3 |
mol/mol |
26 |
A |
HNO3 concentration |
HNO3&IC |
kg/kg |
26 |
I |
HNO3 |
HNO3_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
HNO3_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
HNO3_GAS |
mol/mol |
26 |
I |
gas-phase hno3 |
HNO3_NAT |
mol/mol |
26 |
I |
NAT condensed HNO3 |
HNO3_SRF |
mol/mol |
1 |
A |
HNO3 in bottom layer |
HNO3_STS |
mol/mol |
26 |
I |
STS condensed HNO3 |
HO2 |
mol/mol |
26 |
A |
HO2 concentration |
HO2&IC |
kg/kg |
26 |
I |
HO2 |
HO2_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
HO2_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
HO2_SRF |
mol/mol |
1 |
A |
HO2 in bottom layer |
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 |
ICE_ICLD_VISTAU |
1 |
26 |
A |
Ice in-cloud visible sw optical depth |
ICIMR |
kg/kg |
26 |
A |
Prognostic in-cloud ice mixing ratio |
ICIMRST |
kg/kg |
26 |
A |
Prognostic in-stratus 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) |
ICWMR |
kg/kg |
26 |
A |
Prognostic 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 |
ISOP |
mol/mol |
26 |
A |
ISOP concentration |
ISOP&IC |
kg/kg |
26 |
I |
ISOP |
ISOP_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
ISOP_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
ISOP_SRF |
mol/mol |
1 |
A |
ISOP in bottom layer |
IWC |
kg/m3 |
26 |
A |
Grid box average ice water content |
JO2_EUV |
/s |
26 |
I |
total jo2 euv photolysis rate |
J_001 |
/s |
26 |
I |
photolysis rate |
J_002 |
/s |
26 |
I |
photolysis rate |
J_003 |
/s |
26 |
I |
photolysis rate |
J_004 |
/s |
26 |
I |
photolysis rate |
J_005 |
/s |
26 |
I |
photolysis rate |
J_006 |
/s |
26 |
I |
photolysis rate |
KTOOP |
K/s |
26 |
A |
(Kappa*T)*(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 |
LINOZ_DO3 |
/s |
26 |
A |
ozone vmr tendency by linearized ozone chemistry |
LINOZ_DO3_PSC |
/s |
26 |
A |
ozone vmr loss by PSCs using Carille et al. (1990) |
LINOZ_O3CLIM |
mol/mol |
26 |
A |
climatology of ozone in LINOZ |
LINOZ_O3COL |
DU |
26 |
A |
ozone column above |
LINOZ_SSO3 |
kg |
26 |
A |
steady state ozone in LINOZ |
LINOZ_SZA |
degrees |
1 |
A |
solar zenith angle in LINOZ |
LIQ2PR |
kg/kg/s |
26 |
A |
Rate of conversion of liq to precip |
LIQCLDF |
fraction |
26 |
A |
Stratus Liquid cloud fraction |
LIQ_ICLD_VISTAU |
1 |
26 |
A |
Liquid in-cloud visible sw optical depth |
LNO_COL_PROD |
TG N/YR |
1 |
I |
lighting column NO source |
LNO_PROD |
/cm3/s |
26 |
I |
lighting insitu NO source |
LPSTEN |
Pa/s |
1 |
A |
Surface pressure tendency |
LS_FLXPRC |
kg/m2/s |
27 |
A |
ls stratiform gbm interface rain+snow flux |
LS_FLXSNW |
kg/m2/s |
27 |
A |
ls stratiform gbm interface snow flux |
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 |
MASS |
kg |
26 |
A |
mass of grid box |
MQ |
kg/m2 |
26 |
A |
Water vapor mass in layer |
M_dens |
molecules/cm3 |
26 |
A |
invariant density |
M_vmr |
mole/mole |
26 |
A |
invariant density |
N2D_SPE |
molec/cm3/s |
26 |
I |
solar proton event N(2S) source |
N2_dens |
molecules/cm3 |
26 |
A |
invariant density |
N2_vmr |
mole/mole |
26 |
A |
invariant density |
N4S_SPE |
molec/cm3/s |
26 |
I |
solar proton event N(4S) source |
NHX_mmr |
kg/kg |
26 |
A |
NHx mass mixing ratio |
NO |
mol/mol |
26 |
A |
NO concentration |
NO&IC |
kg/kg |
26 |
I |
NO |
NO2 |
mol/mol |
26 |
A |
NO2 concentration |
NO2&IC |
kg/kg |
26 |
I |
NO2 |
NO2_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
NO2_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
NO2_CLXF |
molec/cm2/s |
1 |
A |
vertically intergrated external forcing for NO2 |
NO2_SRF |
mol/mol |
1 |
A |
NO2 in bottom layer |
NO2_XFRC |
molec/cm3/s |
26 |
A |
external forcing for NO2 |
NOX |
mol/mol |
26 |
A |
nox volume mixing ratio |
NOY |
mol/mol |
26 |
A |
noy volume mixing ratio |
NOY_mmr |
kg/kg |
26 |
A |
NOy mass mixing ratio |
NO_Aircraft |
molec/cm3/s |
26 |
A |
aircraft NO source |
NO_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
NO_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
NO_Lightning |
molec/cm3/s |
26 |
A |
lightning NO source |
NO_SRF |
mol/mol |
1 |
A |
NO in bottom layer |
NSTEP |
timestep |
1 |
A |
Model timestep |
O2_dens |
molecules/cm3 |
26 |
A |
invariant density |
O2_vmr |
mole/mole |
26 |
A |
invariant density |
O3 |
mol/mol |
26 |
A |
O3 concentration |
O3&IC |
kg/kg |
26 |
I |
O3 |
O3_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
O3_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
O3_SRF |
mol/mol |
1 |
A |
O3 in bottom layer |
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_SO4 |
1 |
1 |
A |
SO4 optical depth in visible band |
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 |
OH |
mol/mol |
26 |
A |
OH concentration |
OH&IC |
kg/kg |
26 |
I |
OH |
OH_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
OH_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
OH_SPE |
molec/cm3/s |
26 |
I |
solar proton event HOx source |
OH_SRF |
mol/mol |
1 |
A |
OH in bottom layer |
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 |
PRACWO |
1/s |
26 |
A |
Accretion of cloud water by rain |
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 |
PSACIO |
1/s |
26 |
A |
Accretion of cloud ice by snow |
PSACWO |
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) |
PmL_clim |
mr/s |
26 |
I |
linoz data |
Q |
kg/kg |
26 |
A |
Specific humidity |
Q&IC |
kg/kg |
26 |
I |
Specific humidity |
Q1000 |
kg/kg |
1 |
A |
Specific Humidity at 1000 mbar pressure surface |
Q200 |
kg/kg |
1 |
A |
Specific Humidity at 700 mbar pressure surface |
Q850 |
kg/kg |
1 |
A |
Specific Humidity at 850 mbar pressure surface |
Q925 |
kg/kg |
1 |
A |
Specific Humidity at 925 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 |
QCP |
K/s |
26 |
I |
chem pot heating rate |
QCWAT&IC |
kg/kg |
26 |
I |
q associated with cloud water |
QDCHEM |
/s |
26 |
I |
water vapor chemistry delta |
QDSAD |
/s |
26 |
I |
water vapor sad delta |
QDSETT |
/s |
26 |
I |
water vapor settling delta |
QFLX |
kg/m2/s |
1 |
A |
Surface water flux |
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 |
QRS_AUR |
K/s |
26 |
I |
total auroral heating rate |
QRS_CO2NIR |
K/s |
26 |
I |
co2 nir heating rate |
QRS_EUV |
K/s |
26 |
I |
total euv heating rate |
QRS_LO2B |
K/s |
26 |
I |
O2 + hv -> 2*O3P solar heating rate > 200nm |
QRS_LO3 |
K/s |
26 |
I |
Total O3 solar heating > 200nm |
QRS_LO3A |
K/s |
26 |
I |
O3 + hv -> O1D + O2_1S solar heating rate > 200nm |
QRS_LO3B |
K/s |
26 |
I |
O3 + hv -> O3P + O2 solar heating rate > 200nm |
QRS_SO2A |
K/s |
26 |
I |
O2 + hv -> O1D + O3P solar heating rate < 200nm |
QRS_SO2B |
K/s |
26 |
I |
O2 + hv -> O3P + O3P solar heating rate < 200nm |
QRS_SO3A |
K/s |
26 |
I |
O3 + hv -> O1D + O2_1S solar heating rate < 200nm |
QRS_SO3B |
K/s |
26 |
I |
O3 + hv -> O3P + O2 solar heating rate < 200nm |
QT |
kg/kg |
26 |
A |
Total water mixing ratio |
QTFLX |
W/m2 |
27 |
A |
Total water flux |
QTHERMAL |
K/s |
26 |
I |
non-euv photolysis heating rate |
RAD_ICE |
cm |
26 |
I |
sad ice |
RAD_LNAT |
cm |
26 |
I |
large nat radius |
RAD_SULFC |
cm |
26 |
I |
chemical sad sulfate |
RAD_SULFR |
cm |
26 |
I |
radiative sad sulfate |
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 |
RHCFMIP |
percent |
26 |
A |
Relative humidity with respect to water above 273 K, ice below 273 K |
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 |
R_001 |
/cm3/s |
26 |
I |
reaction rate |
R_002 |
/cm3/s |
26 |
I |
reaction rate |
R_003 |
/cm3/s |
26 |
I |
reaction rate |
R_004 |
/cm3/s |
26 |
I |
reaction rate |
R_005 |
/cm3/s |
26 |
I |
reaction rate |
R_006 |
/cm3/s |
26 |
I |
reaction rate |
R_007 |
/cm3/s |
26 |
I |
reaction rate |
R_008 |
/cm3/s |
26 |
I |
reaction rate |
R_009 |
/cm3/s |
26 |
I |
reaction rate |
R_010 |
/cm3/s |
26 |
I |
reaction rate |
R_011 |
/cm3/s |
26 |
I |
reaction rate |
R_012 |
/cm3/s |
26 |
I |
reaction rate |
R_013 |
/cm3/s |
26 |
I |
reaction rate |
R_014 |
/cm3/s |
26 |
I |
reaction rate |
R_015 |
/cm3/s |
26 |
I |
reaction rate |
R_016 |
/cm3/s |
26 |
I |
reaction rate |
R_017 |
/cm3/s |
26 |
I |
reaction rate |
R_018 |
/cm3/s |
26 |
I |
reaction rate |
R_019 |
/cm3/s |
26 |
I |
reaction rate |
R_020 |
/cm3/s |
26 |
I |
reaction rate |
R_021 |
/cm3/s |
26 |
I |
reaction rate |
R_022 |
/cm3/s |
26 |
I |
reaction rate |
R_023 |
/cm3/s |
26 |
I |
reaction rate |
R_024 |
/cm3/s |
26 |
I |
reaction rate |
SAD |
cm2/cm3 |
26 |
I |
sulfate aerosol SAD |
SAD_ICE |
cm2/cm3 |
26 |
I |
water-ice aerosol SAD |
SAD_LNAT |
cm2/cm3 |
26 |
I |
large-mode NAT aerosol SAD |
SAD_SULFC |
cm2/cm3 |
26 |
I |
chemical sulfate aerosol SAD |
SAD_SULFR |
cm2/cm3 |
26 |
I |
radiative sulfate aerosol SAD |
SETLWP |
gram/m2 |
26 |
A |
Prescribed liquid water path |
SFCH2O |
kg/m2/s |
1 |
A |
CH2O surface flux |
SFCH3O2 |
kg/m2/s |
1 |
A |
CH3O2 surface flux |
SFCH3OOH |
kg/m2/s |
1 |
A |
CH3OOH surface flux |
SFCLDICE |
kg/m2/s |
1 |
A |
CLDICE surface flux |
SFCLDLIQ |
kg/m2/s |
1 |
A |
CLDLIQ surface flux |
SFCO |
kg/m2/s |
1 |
A |
CO surface flux |
SFDMS |
kg/m2/s |
1 |
A |
DMS surface flux |
SFH2O2 |
kg/m2/s |
1 |
A |
H2O2 surface flux |
SFHNO3 |
kg/m2/s |
1 |
A |
HNO3 surface flux |
SFHO2 |
kg/m2/s |
1 |
A |
HO2 surface flux |
SFISOP |
kg/m2/s |
1 |
A |
ISOP surface flux |
SFNO |
kg/m2/s |
1 |
A |
NO surface flux |
SFNO2 |
kg/m2/s |
1 |
A |
NO2 surface flux |
SFO3 |
kg/m2/s |
1 |
A |
O3 surface flux |
SFOH |
kg/m2/s |
1 |
A |
OH surface flux |
SFSO2 |
kg/m2/s |
1 |
A |
SO2 surface flux |
SFSO4 |
kg/m2/s |
1 |
A |
SO4 surface flux |
SGH |
m |
1 |
I |
Standard deviation of orography |
SGH30 |
m |
1 |
I |
Standard deviation of 30s orography |
SHDLF |
kg/kg/s |
26 |
A |
Detrained liquid water from shallow convection |
SHFLX |
W/m2 |
1 |
A |
Surface sensible heat flux |
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 |
SO2 |
mol/mol |
26 |
A |
SO2 concentration |
SO2&IC |
kg/kg |
26 |
I |
SO2 |
SO2_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
SO2_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
SO2_CLXF |
molec/cm2/s |
1 |
A |
vertically intergrated external forcing for SO2 |
SO2_SRF |
mol/mol |
1 |
A |
SO2 in bottom layer |
SO2_XFRC |
molec/cm3/s |
26 |
A |
external forcing for SO2 |
SO4 |
kg/kg |
26 |
A |
SO4 concentration |
SO4&IC |
kg/kg |
26 |
I |
SO4 |
SO4SBC |
kg/kg/s |
26 |
A |
SO4 bc wet deposition |
SO4SBS |
kg/kg/s |
26 |
A |
SO4 bs wet deposition |
SO4SFSBC |
kg/m2/s |
1 |
A |
Wet deposition flux (belowcloud, convective) at surface |
SO4SFSBS |
kg/m2/s |
1 |
A |
Wet deposition flux (belowcloud, stratiform) at surface |
SO4SFSIC |
kg/m2/s |
1 |
A |
Wet deposition flux (incloud, convective) at surface |
SO4SFSIS |
kg/m2/s |
1 |
A |
Wet deposition flux (incloud, stratiform) at surface |
SO4SFWET |
kg/m2/s |
1 |
A |
Wet deposition flux at surface |
SO4SIC |
kg/kg/s |
26 |
A |
SO4 ic wet deposition |
SO4SIS |
kg/kg/s |
26 |
A |
SO4 is wet deposition |
SO4WET |
kg/kg/s |
26 |
A |
wet deposition tendency |
SO4_CHML |
/cm3/s |
26 |
I |
chemical loss rate |
SO4_CHMP |
/cm3/s |
26 |
I |
chemical production rate |
SO4_CLXF |
molec/cm2/s |
1 |
A |
vertically intergrated external forcing for SO4 |
SO4_SRF |
kg/kg |
1 |
A |
SO4 in bottom layer |
SO4_XFRC |
molec/cm3/s |
26 |
A |
external forcing for SO4 |
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 |
SOX_mmr |
kg/kg |
26 |
A |
SOx mass mixing ratio |
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 |
SZA |
degrees |
1 |
I |
solar zenith angle |
T |
K |
26 |
A |
Temperature |
T&IC |
K |
26 |
I |
Temperature |
T1000 |
K |
1 |
A |
Temperature at 1000 mbar pressure surface |
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 |
T700 |
K |
1 |
A |
Temperature at 700 mbar pressure surface |
T7001000 |
K |
1 |
A |
Temperature difference 700 mb - 1000 mb |
T850 |
K |
1 |
A |
Temperature at 850 mbar pressure surface |
T8501000 |
K |
1 |
A |
Temperature difference 850 mb - 1000 mb |
T925 |
K |
1 |
A |
Temperature at 925 mbar pressure surface |
T9251000 |
K |
1 |
A |
Temperature difference 925 mb - 1000 mb |
TACH2O |
kg/kg/s |
26 |
A |
CH2O horz + vert + fixer tendency |
TACH3O2 |
kg/kg/s |
26 |
A |
CH3O2 horz + vert + fixer tendency |
TACH3OOH |
kg/kg/s |
26 |
A |
CH3OOH horz + vert + fixer tendency |
TACLDICE |
kg/kg/s |
26 |
A |
CLDICE horz + vert + fixer tendency |
TACLDLIQ |
kg/kg/s |
26 |
A |
CLDLIQ horz + vert + fixer tendency |
TACO |
kg/kg/s |
26 |
A |
CO horz + vert + fixer tendency |
TADMS |
kg/kg/s |
26 |
A |
DMS horz + vert + fixer tendency |
TAH2O2 |
kg/kg/s |
26 |
A |
H2O2 horz + vert + fixer tendency |
TAHNO3 |
kg/kg/s |
26 |
A |
HNO3 horz + vert + fixer tendency |
TAHO2 |
kg/kg/s |
26 |
A |
HO2 horz + vert + fixer tendency |
TAISOP |
kg/kg/s |
26 |
A |
ISOP horz + vert + fixer tendency |
TANO |
kg/kg/s |
26 |
A |
NO horz + vert + fixer tendency |
TANO2 |
kg/kg/s |
26 |
A |
NO2 horz + vert + fixer tendency |
TAO3 |
kg/kg/s |
26 |
A |
O3 horz + vert + fixer tendency |
TAOH |
kg/kg/s |
26 |
A |
OH horz + vert + fixer tendency |
TAP |
K |
26 |
A |
Temperature (after physics) |
TAQ |
kg/kg/s |
26 |
A |
Q horz + vert + fixer tendency |
TASO2 |
kg/kg/s |
26 |
A |
SO2 horz + vert + fixer tendency |
TASO4 |
kg/kg/s |
26 |
A |
SO4 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) |
TCLY |
mol/mol |
26 |
A |
total Cl volume mixing ratio |
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 |
TH7001000 |
K |
1 |
A |
Theta difference 700 mb - 1000 mb |
TH8501000 |
K |
1 |
A |
Theta difference 850 mb - 1000 mb |
TH9251000 |
K |
1 |
A |
Theta difference 925 mb - 1000 mb |
THE7001000 |
K |
1 |
A |
ThetaE difference 700 mb - 1000 mb |
THE8501000 |
K |
1 |
A |
ThetaE difference 850 mb - 1000 mb |
THE9251000 |
K |
1 |
A |
ThetaE difference 925 mb - 1000 mb |
TKE |
m2/s2 |
27 |
A |
Turbulent Kinetic Energy |
TKE&IC |
m2/s2 |
27 |
I |
Turbulent Kinetic Energy |
TMCH2O |
kg/m2 |
1 |
A |
CH2O column burden |
TMCH3O2 |
kg/m2 |
1 |
A |
CH3O2 column burden |
TMCH3OOH |
kg/m2 |
1 |
A |
CH3OOH column burden |
TMCLDICE |
kg/m2 |
1 |
A |
CLDICE column burden |
TMCLDLIQ |
kg/m2 |
1 |
A |
CLDLIQ column burden |
TMCO |
kg/m2 |
1 |
A |
CO column burden |
TMDMS |
kg/m2 |
1 |
A |
DMS column burden |
TMH2O2 |
kg/m2 |
1 |
A |
H2O2 column burden |
TMHNO3 |
kg/m2 |
1 |
A |
HNO3 column burden |
TMHO2 |
kg/m2 |
1 |
A |
HO2 column burden |
TMISOP |
kg/m2 |
1 |
A |
ISOP column burden |
TMNO |
kg/m2 |
1 |
A |
NO column burden |
TMNO2 |
kg/m2 |
1 |
A |
NO2 column burden |
TMO3 |
kg/m2 |
1 |
A |
O3 column burden |
TMOH |
kg/m2 |
1 |
A |
OH column burden |
TMQ |
kg/m2 |
1 |
A |
Total (vertically integrated) precipitatable water |
TMSO2 |
kg/m2 |
1 |
A |
SO2 column burden |
TMSO4 |
kg/m2 |
1 |
A |
SO4 column burden |
TOTH |
mol/mol |
26 |
A |
total H2 volume mixing ratio |
TOT_CLD_VISTAU |
1 |
26 |
A |
Total gbx cloud visible sw optical depth |
TOT_ICLD_VISTAU |
1 |
26 |
A |
Total in-cloud visible sw optical depth |
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 |
Total T tendency (all processes) |
TTEND_TOT |
K/s |
26 |
A |
Total temperature tendency |
TTGWORO |
K/s |
26 |
A |
T tendency - orographic gravity wave drag |
U |
m/s |
26 |
A |
Zonal wind |
U10 |
m/s |
1 |
A |
10m wind speed |
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 |
VDCH2O |
kg/kg/s |
26 |
A |
Vertical diffusion of CH2O |
VDCH3O2 |
kg/kg/s |
26 |
A |
Vertical diffusion of CH3O2 |
VDCH3OOH |
kg/kg/s |
26 |
A |
Vertical diffusion of CH3OOH |
VDCLDICE |
kg/kg/s |
26 |
A |
Vertical diffusion of CLDICE |
VDCLDLIQ |
kg/kg/s |
26 |
A |
Vertical diffusion of CLDLIQ |
VDCO |
kg/kg/s |
26 |
A |
Vertical diffusion of CO |
VDDMS |
kg/kg/s |
26 |
A |
Vertical diffusion of DMS |
VDH2O2 |
kg/kg/s |
26 |
A |
Vertical diffusion of H2O2 |
VDHNO3 |
kg/kg/s |
26 |
A |
Vertical diffusion of HNO3 |
VDHO2 |
kg/kg/s |
26 |
A |
Vertical diffusion of HO2 |
VDISOP |
kg/kg/s |
26 |
A |
Vertical diffusion of ISOP |
VDNO |
kg/kg/s |
26 |
A |
Vertical diffusion of NO |
VDNO2 |
kg/kg/s |
26 |
A |
Vertical diffusion of NO2 |
VDO3 |
kg/kg/s |
26 |
A |
Vertical diffusion of O3 |
VDOH |
kg/kg/s |
26 |
A |
Vertical diffusion of OH |
VDSO2 |
kg/kg/s |
26 |
A |
Vertical diffusion of SO2 |
VDSO4 |
kg/kg/s |
26 |
A |
Vertical diffusion of SO4 |
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 |
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 |
WDR_CH2O |
/s |
26 |
A |
CH2O wet deposition rate |
WDR_CH3O2 |
/s |
26 |
A |
CH3O2 wet deposition rate |
WDR_CH3OOH |
/s |
26 |
A |
CH3OOH wet deposition rate |
WDR_CO |
/s |
26 |
A |
CO wet deposition rate |
WDR_DMS |
/s |
26 |
A |
DMS wet deposition rate |
WDR_H2O2 |
/s |
26 |
A |
H2O2 wet deposition rate |
WDR_HNO3 |
/s |
26 |
A |
HNO3 wet deposition rate |
WDR_HO2 |
/s |
26 |
A |
HO2 wet deposition rate |
WDR_ISOP |
/s |
26 |
A |
ISOP wet deposition rate |
WDR_NO |
/s |
26 |
A |
NO wet deposition rate |
WDR_NO2 |
/s |
26 |
A |
NO2 wet deposition rate |
WDR_O3 |
/s |
26 |
A |
O3 wet deposition rate |
WDR_OH |
/s |
26 |
A |
OH wet deposition rate |
WDR_SO2 |
/s |
26 |
A |
SO2 wet deposition rate |
WDR_SO4 |
/s |
26 |
A |
SO4 wet deposition rate |
WD_CH2O |
kg/s |
1 |
A |
CH2O wet deposition |
WD_CH3O2 |
kg/s |
1 |
A |
CH3O2 wet deposition |
WD_CH3OOH |
kg/s |
1 |
A |
CH3OOH wet deposition |
WD_CO |
kg/s |
1 |
A |
CO wet deposition |
WD_DMS |
kg/s |
1 |
A |
DMS wet deposition |
WD_H2O2 |
kg/s |
1 |
A |
H2O2 wet deposition |
WD_HNO3 |
kg/s |
1 |
A |
HNO3 wet deposition |
WD_HO2 |
kg/s |
1 |
A |
HO2 wet deposition |
WD_ISOP |
kg/s |
1 |
A |
ISOP wet deposition |
WD_NHX |
kg/s |
1 |
A |
NHx wet deposition |
WD_NO |
kg/s |
1 |
A |
NO wet deposition |
WD_NO2 |
kg/s |
1 |
A |
NO2 wet deposition |
WD_NOY |
kg/s |
1 |
A |
NOy wet deposition |
WD_O3 |
kg/s |
1 |
A |
O3 wet deposition |
WD_OH |
kg/s |
1 |
A |
OH wet deposition |
WD_SO2 |
kg/s |
1 |
A |
SO2 wet deposition |
WD_SO4 |
kg/s |
1 |
A |
SO4 wet deposition |
WD_SOX |
kg/s |
1 |
A |
SOx wet deposition |
WGUSTD |
m/s |
1 |
A |
wind gusts from turbulence |
WSPEED |
m/s |
26 |
X |
Horizontal total wind speed |
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 |
aq_so2_h2o2 |
/cm3/s |
26 |
I |
reaction rate |
aq_so2_o3 |
/cm3/s |
26 |
I |
reaction rate |
bcar1 |
kg/kg |
26 |
I |
prescribed aero |
bcar2 |
kg/kg |
26 |
I |
prescribed aero |
cariolle_pscs |
/s |
26 |
I |
linoz data |
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_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_O3_c |
kg/m^2 |
1 |
A |
O3 column burden used in climate calculation |
cb_Q_c |
kg/m^2 |
1 |
A |
Q column burden used in climate calculation |
cb_SO4_c |
kg/m^2 |
1 |
A |
SO4 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_prsd_ch4_c |
kg/m^2 |
1 |
A |
prsd_ch4 column burden used in climate calculation |
dPmL_dO3 |
/s |
26 |
I |
linoz data |
dPmL_dO3col |
mr/DU |
26 |
I |
linoz data |
dPmL_dT |
mr/K |
26 |
I |
linoz data |
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 |
extfrc_01 |
|
26 |
I |
ext frcing |
extfrc_02 |
|
26 |
I |
ext frcing |
extfrc_03 |
|
26 |
I |
ext frcing |
extfrc_04 |
|
26 |
I |
ext frcing |
extfrc_05 |
|
26 |
I |
ext frcing |
het_no2_h2o |
/cm3/s |
26 |
I |
reaction rate |
hstobie_linoz |
fraction of mode |
26 |
I |
Lowest possible Linoz level |
hstobie_trop |
fraction of mode |
26 |
I |
Lowest level with stratospheric chemsitry |
hstobie_tropop |
fraction of mode |
26 |
I |
Troposphere boundary calculated in chemistry |
isop_o3 |
/cm3/s |
26 |
I |
reaction rate |
isop_oh |
/cm3/s |
26 |
I |
reaction rate |
jch2o_a |
/s |
26 |
I |
photolysis rate |
jch2o_b |
/s |
26 |
I |
photolysis rate |
jch3ooh |
/s |
26 |
I |
photolysis rate |
jh2o2 |
/s |
26 |
I |
photolysis rate |
jno2 |
/s |
26 |
I |
photolysis rate |
jo1d |
/s |
26 |
I |
photolysis rate |
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_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_O3_c |
kg/m^2 |
26 |
A |
O3 mass per layer used in climate calculation |
m_Q_c |
kg/m^2 |
26 |
A |
Q mass per layer used in climate calculation |
m_SO4_c |
kg/m^2 |
26 |
A |
SO4 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_prsd_ch4_c |
kg/m^2 |
26 |
A |
prsd_ch4 mass per layer used in climate calculation |
o3_clim |
vmr |
26 |
I |
linoz data |
o3col_clim |
Dobson Units |
26 |
I |
linoz data |
ocar1 |
kg/kg |
26 |
I |
prescribed aero |
ocar2 |
kg/kg |
26 |
I |
prescribed aero |
out6 |
/cm3/s |
26 |
I |
reaction rate |
ozone |
mol/mol |
26 |
I |
prescribed ozone |
prsd_ch4 |
kg/kg |
26 |
I |
prescribed ghg |
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_clim |
K |
26 |
I |
linoz data |
t_pre_Cu |
K |
26 |
I |
t_preCU |
t_pre_PBL |
K |
26 |
A |
t_prePBL |
tag_so2_oh_m |
/cm3/s |
26 |
I |
reaction rate |
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 |
usr_HO2_HO2 |
/cm3/s |
26 |
I |
reaction rate |
usr_oh_co |
/cm3/s |
26 |
I |
reaction rate |
usr_oh_dms |
/cm3/s |
26 |
I |
reaction rate |
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 |