CMIP variable definition:https://github.com/PCMDI/cmip5-cmor-tables/blob/master/Tables_csv/Lmon.csv
Based on meetings with land group, more cmorized variables are desired for supporting ilamb analysis. An CLM2 to CMIP conversion table was available (provided by Daniel Ricciuto): /home/ac.ricciuto/models/ilamb_processing/alm2ilamb_wkflow/clm_to_mip.
- A 5 year sample of the CMIP6 ocean data has been setup on NERSC under /global/homes/s/sbaldwin/scratch/cmip_sample/CMIP6/CMIP/E3SM-Project/E3SM-1-0/piControl/r1i1p1f1/
CMIP6 name | Units | E3SM variable(s) | conversion formula | CMOR handler complete | Conversion Formula Verified by Scientist (scientist name) | Notes | Scientist Assigned to Perform Final Quality Control on CMORized files | Date Verified | Data & Metadata Correct (yes/no) | Notes if CMORized files are not correct | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | mrsos | kg m-2 | SOILWATER_10CM | mrsos = SOILWATER_10CM | yes | Tian Zhou | yes | mean Mean monthly comparison shows same spatial patterns and magnitudes in general. Differences may Differences between the raw data and CMIP6 data may be caused by the different remapping method used between ne30 grid and methods I was using to convert ne30 resolution (raw data) to 1-deg lat -lon gridlong (CMIP6). | |||||
2 | mrso | kg m-2 | SOILICE, SOILLIQ | mrso = verticalSum(SOILICE + SOILLIQ, capped_at=5000) | yes | summed over the z-axis, max value capped at 5000 | Tian Zhou | yes | mrsos.png | ||||
3 | mrfso | kg m-2 | SOILICE | mrfso = verticalSum(SOILICE, capped_at=5000) | yes | Tian Zhou | yes | mrso.png | |||||
4 | mrros | kg m-2 s-1 | QOVER | mrros = QOVER (note the unit of mrros is kg/m2/s, and QOVER is mm/s, which are considered equivalent for water with density = 1000 kg/m3) | yes | Tian Zhou | yes | mrfso.png | |||||
5 | mrro | kg m-2 s-1 | QRUNOFF | mrro = QRUNOFF | Tian Zhou | yes | mrros.png | ||||||
6 | prveg | kg m-2 s-1 | QINTR | prveg = QINTR | yes | Tian Zhou | yes | prveg.png | |||||
7 | evspsblveg | kg m-2 s-1 | QVEGE | evspsblveg = QVEGE | yes | Tian Zhou | yes | evspsblveg.png | |||||
8 | evspsblsoi | kg m-2 s-1 | QSOIL | evspsblsoi = QSOIL | yes | Qing Zhu |
| yes | GroundEvap.eps | ||||
9 | tran | kg m-2 s-1 | QSOIL, QVEGT | tran = QSOIL + QVEGT | yes | Qing Zhu | yes | Transp.eps | |||||
10 | tsl | K | TSOI | tsl = TSOI | yes | Qing Zhu | yes | Soil T.eps | |||||
11 | lai | 1 | LAISHA, LAISUN | lai = LAISHA + LAISUN | yes | Qing Zhu | yes | ||||||
12 | cLitter | kg m-2 | TOTLITC, CWDC | cLitter = (TOTLITC + CWDC)/1000 | Qing Zhu | ||||||||
13 | cProduct | kg m-2 | TOTPRODC | cProduct = TOTPRODC/1000 | Qing Zhu | yes | cProduct.jpg | ||||||
14 | cSoil | TOTSOMC | cSoil = TOTSOMCcSoilFast | kg m-2 | SOIL1C | cSoilFast = SOIL1C/1000 | Qing Zhu | ||||||
15 | cSoilMedium | kg m-2 | SOIL2C | cSoilMedium = SOIL2C/1000 | |||||||||
16 | cSoilSlow | kg m-2 | SOIL3C | cSoilSlow = SOIL3C/1000 | |||||||||
17 | fFire | kg m-2 s-1 | COL_FIRE_CLOSS | fFire = COL_FIRE_CLOSS/1000 | Qing Zhu | 16yes | fFire.jpg | ||||||
18 | fHarvest | kg m-2 s-1 | WOOD_HARVESTC | fHarvest = WOOD_HARVESTC/1000 | Xiaojuan Yang | ||||||||
1719 | fVegLitter | kg m-2 s-1 | LITFALL, gap_mortality_c_to_cwdc_col, fire_mortality_c_to_cwdc_col, harvest_c_to_cwdc_col, dwt_livecrootc_to_cwdc_col, dwt_deadcrootc_to_cwdc_col | fVegLitter = (LITFALL + fVegCWDC)/1000 | fVegCWDC = gap_mortality_c_to_cwdc_col + fire_mortality_c_to_cwdc_col + harvest_c_to_cwdc_col + dwt_livecrootc_to_cwdc_col + dwt_deadcrootc_to_cwdc_col | Xiaojuan Yang | |||||||
1820 | fLitterSoil | kg m-2 s-1 | LITTERC_LOSS, LITTERC_HR, CWDC_HR, M_CWDC_TO_FIRE, M_LITR1C_TO_FIRE, M_LITR2C_TO_FIRE, M_LITR3C_TO_FIRE | fLitterSoil = (LITTERC_LOSS - LITTERC_HR - CWDC_HR - M_LITR1C_TO_FIRE - M_LITR1C_TO_FIRE - M_LITR2C_TO_FIRE - M_LITR3C_TO_FIRE)/1000 | LITTERC_LOSS contain fluxes (1) from litter to soil = fLitterSoil (2) form litter to atmophsere part 1 = heterotrophic respiration (3) from litter to atmophsere part 2 = fire loss; therefore minus respiration and fire loss from LITTERC_LOCC, the rest is fLitterSoil | Xiaojuan Yang | |||||||
1921 | cVeg | kg m-2 | TOTVEGC | cVeg = TOTVEGC/1000 | Xiaojuan Yang | ||||||||
2022 | nbp | kg m-2 s-1 | NBP | nbp = NBP/1000 | Xiaojuan Yang | ||||||||
2123 | gpp | kg m-2 s-1 | GPP | gpp = GPP/1000 | Xiaojuan Yang | ||||||||
2224 | ra | kg m-2 s-1 | AR | ra = AR/1000 | Xiaojuan Yang | ||||||||
2325 | rh | kg m-2 s-1 | HR | rh = HR/1000 | Xiaojuan Yang | ||||||||
26 | cSoil | kg m-2 | SOIL1C,SOIL2C,SOIL3C | for ECA: cSoil=SOIL1C/1000+SOIL2C/1000+SOIL3C/1000 for CTC: cSoil=SOIL1C/1000+SOIL2C/1000+SOIL3C/1000+SOIL4C/1000 | |||||||||
27 | npp | kg m-2 s-1 | GPP,AR | npp = GPP/1000-AR/1000 | |||||||||
28 | burntArea | % | ANN_FAREA_BURNED | ANN_FAREA_BURNED*(100/12) | |||||||||
29 | cCwd | kg m-2 | CWDC | CWDC/1000 | |||||||||
30 | cLeaf | kg m-2 | LEAFC | LEAFC/1000 | |||||||||
31 | cLitter | kg m-2 | TOTLITC | TOTLITC/1000 | Different formula than above | ||||||||
32 | cMisc | kg m-2 | STORVEGC | STORVEGC/1000 | |||||||||
33 | cRoot | kg m-2 | FROOTC, LIVE_ROOTC, DEAD_ROOTC | (FROOTC+LIVE_ROOTC+DEAD_ROOTC)/1000 | |||||||||
34 | cSoil | kg m-2 | TOTSOMC | TOTSOMC/1000 | Different formula than above | ||||||||
35 | cWood | kg m-2 | WOODC | WOODC/1000 | |||||||||
36 | fLitterSoil | kg m-2 s-1 | LITR1C_TO_SOIL1C, LITR1C_TO_SOIL2C, LITR1C_TO_SOIL3C | LITR1C_TO_SOIL1C+LITR2C_TO_SOIL2C+LITR2C_TO_SOIL3C | Different formula than above | ||||||||
37 | fLuc | kg m-2 s-1 | LAND_USE_FLUX | LAND_USE_FLUX/1000 | |||||||||
38 | fVegLitter | kg m-2 s-1 | LITFALL | LITFALL/1000 | Different formula than above | ||||||||
39 | hfdsn | W m-2 | FGR | -FGR | |||||||||
40 | lai | 1 | TLAI | TLAI | Different formula than above | ||||||||
41 | lwsnl | kg m-2 | SNOWLIQ | SNOWLIQ | |||||||||
42 | mrlsl | kg m-2 | SOILLIQ, SOILICE | SOILLIQ+SOILICE | |||||||||
43 | nppLeaf | kg m-2 s-1 | LEAFC_ALLOC | LEAFC_ALLOC/1000 | |||||||||
44 | nppRoot | kg m-2 s-1 | FROOTC_ALLOC | FROOTC_ALLOC/1000 | |||||||||
45 | nppWood | kg m-2 s-1 | WOODC_ALLOC | WOODC_ALLOC/1000 | |||||||||
46 | rGrowth | kg m-2 s-1 | GR | GR/1000 | |||||||||
47 | rMaint | kg m-2 s-1 | MR | MR/1000 | |||||||||
48 | snc | % | FSNO | FSNO*100 | |||||||||
49 | snd | m | SNOWDP | SNOWDP | |||||||||
50 | snm | kg m-2 s-1 | QMELT | QMELT | |||||||||
51 | snw | kg m-2 | H2OSNO | H2OSNO | |||||||||
52 | sootsn | kg m-2 | SNOBCMSL, SNODSTMSL, SNOOCMSL | SNOBCMSL+SNODSTMSL+SNOOCMSL | |||||||||
53 | sfcWind | m s-1 | WIND | WIND |
From variable 28 are added for v3.
From variable 12-27 are BGC specific variables for publication;
fVegLitter and fLitterSoil formula were not confirmed by a domain expert.
cSoil and npp were added March 2021.e3sm_to_cmip handlers were not formulated as of