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| CMIP6 name | 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 | SOILWATER_10CM | mrsos = SOILWATER_10CM | yes | Tian Zhou | yes | Mean monthly comparison shows same spatial patterns and magnitudes in general. Differences between the raw data and CMIP6 data may be caused by the different remapping methods I was using to convert ne30 resolution (raw data) to 1-deg lat long (CMIP6). | |||||||
| 2 | mrso | 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 | SOILICE | mrfso = verticalSum(SOILICE, capped_at=5000) | yes | Tian Zhou | yes | mrso.png | |||||||
| 4 | mrros | 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 | QRUNOFF | mrro = QRUNOFF | Tian Zhou | yes | mrros.png | ||||||||
| 6 | prveg | QINTR | prveg = QINTR | yes | Tian Zhou | yes | prveg.png | |||||||
| 7 | evspsblveg | QVEGE | evspsblveg = QVEGE | yes | Tian Zhou | yes | evspsblveg.png | |||||||
| 8 | evspsblsoi | QSOIL | evspsblsoi = QSOIL | yes | Qing Zhu |
| yes | GroundEvap.eps | ||||||
| 9 | tran | QSOIL, QVEGT | tran = QSOIL + QVEGT | yes | Qing Zhu | yes | Transp.eps | |||||||
| 10 | tsl | TSOI | tsl = TSOI | yes | Qing Zhu | yes | Soil T.eps | |||||||
| 11 | lai | LAISHA, LAISUN | lai = LAISHA + LAISUN | yes | Qing Zhu | yes | ||||||||
| 12 | cLitter | TOTLITC, CWDC | cLitter = (TOTLITC + CWDC)/1000 | Qing Zhu | ||||||||||
| 13 | cProduct | TOTPRODC | cProduct = TOTPRODC/1000 | Qing Zhu | yes | cProduct.jpg | ||||||||
| 14 | cSoilFast | SOIL1C | cSoilFast = SOIL1C/1000 | Qing Zhu | ||||||||||
| 15 | cSoilMedium | SOIL2C | cSoilMedium = SOIL2C/1000 | |||||||||||
| 16 | cSoilSlow | SOIL3C | cSoilSlow = SOIL3C/1000 | |||||||||||
| 17 | fFire | COL_FIRE_CLOSS | fFire = COL_FIRE_CLOSS/1000 | Qing Zhu | yes | fFire.jpg | ||||||||
| 18 | fHarvest | WOOD_HARVESTC | fHarvest = WOOD_HARVESTC/1000 | Xiaojuan Yang | ||||||||||
| 19 | fVegLitter | 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 | |||||||||
| 20 | fLitterSoil | 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 | |||||||||
| 21 | cVeg | TOTVEGC | cVeg = TOTVEGC/1000 | Xiaojuan Yang | ||||||||||
| 22 | nbp | NBP | nbp = NBP/1000 | Xiaojuan Yang | ||||||||||
| 23 | gpp | GPP | gpp = GPP/1000 | Xiaojuan Yang | ||||||||||
| 24 | ra | AR | ra = AR/1000 | Xiaojuan Yang | ||||||||||
| 25 | rh | HR | rh = HR/1000 | Xiaojuan Yang | ||||||||||
| 26 | cSoil | 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 | GPP,AR | npp = GPP/1000-AR/1000 | 28 | snw | H2OSNO | snw = H2OSNO |
From variable 12 onward are BGC specific variables for publication
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