This is a working document showing the conversion status for publishing E3SM data to CMIP6. The variables listed are unordered, and pulled from the priority 1 request list as well as scientist input. If you think that an important variable is missing please add it.
...
CMIP6 name | CMIP6 description | E3SM variable(s) | conversion formula | CMOR handler complete | conversion formula verified by |
---|---|---|---|---|---|
tas | Near-Surface Air Temperature | TREFHT | tas = TREFHT, no change | yes | |
ts | Surface Temperature | TS | ts = TS, no change | yes | |
psl | Sea Level Pressure | PSL | psl = PSL, no change | yes | |
ps | Surface Air Pressure | PS | ps = PS, no change | yes | |
sfcWind | Near-Surface Wind Speed | U10 | sfcWind = U10, no change | yes | |
huss | Near-Surface Specific Humidity | QREFHT | huss = QREFHT, no change | yes | |
pr | Precipitation | PRECC , PRECL | pr = (PRECC + PRECL) * 1000 | yes | |
prc | Convective Precipitation | PRECC | prc = PRECC * 1000 | ||
prsn | Snowfall Flux | PRECSC, PRECSL | prsn = (PRECSC + PRECSL) * 1000 | yes | |
evspsbl | Evaporation Including Sublimation and Transpiration | QFLX | evspsbl = QFLX, no change | yes | |
tauu | Surface Downward Eastward Wind Stress | TAUX | tauu = TAUX, no change | yes | |
tauv | Surface Downward Northward Wind Stress | TAUY | tauv = TAUY, no change | yes | |
hfls | Surface Upward Latent Heat Flux | LHFLX | hfls = LHFLX, no change | yes | |
clt | Total Cloud Cover Percentage | CLDTOT | clt = CLDTOT, on change | yes | |
rlds | Surface Downwelling Longwave Radiation | FLDS | rlds = FLDS, no change | yes | |
rlus | Surface Upwelling Longwave Radiation | FLDS, FLNS | rlus = FLDS + FLNS | yes | |
rsds | Surface Downwelling Shortwave Radiation | FSDS | rsds = FSDS | yes | |
rsus | Surface Upwelling Shortwave Radiation | FSDS, FSNS | rsus = FSDS - FSNS | yes | |
hfss | Surface Upward Sensible Heat Flux | SHFLX | hfss = SHFLX | yes | |
Suggested additions if available (Chris Golaz) | |||||
cl | Percentage Cloud Cover | CLOUD | cl = CLOUD on model levels | ||
cli | Mass Fraction of Cloud Ice | CLDICE | cli = CLDICE on model levels | ||
clivi | Ice Water Path | TGCLDIWP | clivi = TGCLDIWP | ||
clw | Mass Fraction of Cloud Liquid Water | CLDLIQ | clw = CLDLIQ on model levels | ||
clwvi | Condensed Water Path | TGCLDCWP | clwvi = TGCLDCWP | ||
hur | Relative Humidity | RELHUM | hur = RELUM interpolated to 19 pressure levels | ||
hus | Specific Humidity | Q | hus = Q interpolated to 19 pressure levels | ||
o3 | Mole Fraction of O3 | O3 | To verify, interpolated to 19 pressure levels | Need input from Philip Cameron-Smith (Unlicensed) | |
pfull | Pressure at Model Full-Levels | P0, PS, hyam, hybm | pfull = P0*hyam + PS*hybm | ||
phalf | Pressure on Model Half-Levels | P0, PS, hyai, hybi | phalf = P0*hyai + PS*hybi | ||
prw | Water Vapor Path | TMQ | prw = TMQ | ||
rldscs | Surface Downwelling Clear-Sky Longwave Radiation | FLDSC | rldscs = FLDSC | Need to check if we can compute from available | |
rlut | TOA Outgoing Longwave Radiation | FLUT | rlut = FLUT | Can we approximate TOA with TOM? NCAR used FSNTOA-FSNT+FLNT | |
rlutcs | TOA Outgoing Clear-Sky Longwave Radiation | FLUTC | rlutcs = FLUTC | Can we approximate TOA with TOM? | |
rsdscs | Surface Downwelling Clear-Sky Shortwave Radiation | FSDSC | rsdscs = FSDSC | ||
rsdt | TOA Incident Shortwave Radiation | SOLIN | rsdt = SOLIN | ||
rsuscs | Surface Upwelling Clear-Sky Shortwave Radiation | FSDSC, FSNSC | rsuscs = FSDSC - FSNSC | ||
rsut | TOA Outgoing Shortwave Radiation | FSUTOA | rsut = FSUTOA | ||
rsutcs | TOA Outgoing Clear-Sky Shortwave Radiation | FSUTOAC | rsutcs = FSUTOAC | ||
rtmt | Net Downward Radiative Flux at Top of Model | FSNT, FLNT | rtmt = FSNT - FLNT | ||
ta | Air Temperature | T | ta = T, interpolated to 19 pressure levels | ||
tasmax | Daily Maximum Near-Surface Air Temperature | We have TSMX, but that's not the right one | |||
tasmin | Daily Minimum Near-Surface Air Temperature | We have TSMN, but that's not the right one | |||
ua | Eastward Wind | U | ua = U, interpolated to 19 pressure levels | ||
va | Northward Wind | V | va = V, interpolated to 19 pressure levels | ||
wap | Omega (=dp/dt) | OMEGA | wap = OMEGA, interpolated to 19 pressure levels | ||
zg | Geopotential Height | Z3 | zg = Z3, interpolated to 19 pressure levels | ||
AODVIS | This belongs in table AERmon |
...
CMIP6 name | E3SM variable(s) | conversion formula | CMOR handler complete | verified |
---|---|---|---|---|
mrsos | SOILWATER_10CM | mrsos = SOILWATER_10CM, no change | yes | |
mrso | SOILICE, SOILLIQ | mrso = sum_over_z(SOILICE + SOILLIQ, capped_at=5000) | yes | |
mrfso | SOILICE | mrfso = sum_over_z(SOILICE, capped_at=5000) | yes | |
mrros | QOVER | mrros = QOVER, no change | yes | |
mrro | QRUNOFF | |||
prveg | QINTR | prveg = QINTR, no change | yes | |
evspsblveg | QVEGE | evspsblveg = QVEGE, no change | yes | |
evspsblsoi | QSOIL | evspsblsoi = QSOIL, no change | yes | |
tran | QSOIL, QVEGT | tran = QSOIL + QVEGT | yes | |
tsl | TSOI | tsl = TSOI, no change | yes | |
lai | LAISHA, LAISUN | lai = LAISHA + LAISUN | yes | |
cLitter | ||||
cProduct | ||||
cSoil | ||||
fFire | ||||
fHarvest | ||||
fVegLitter | ||||
fLitterSoil | ||||
cVeg | ||||
nbp | ||||
gpp | ||||
ra | ||||
rh |
OCN
CMIP6 name | E3SM variable(s) | conversion formula | CMOR handler complete | verified |
---|---|---|---|---|
masso | ||||
sf6 | ||||
cfc11 | ||||
pbo | ||||
cfc12 | ||||
pso | ||||
dissicnatos | ||||
fgsf6 | ||||
volo | ||||
dissicabioos | ||||
fgcfc11 | ||||
zos | ||||
dissi14cabioos | ||||
fgcfc12 | ||||
zossq | ||||
dissi13cos | ||||
zostoga | ||||
masscello |
ICE. – Notz et al. 2016 – https://www.geosci-model-dev.net/9/3427/2016/gmd-9-3427-2016.pdf
...