#------------------------------------------------------------------------------ # Harmonized Emissions Component (HEMCO) ! #------------------------------------------------------------------------------ #BOP # # !MODULE: HEMCO_Config.rc # # !DESCRIPTION: Contains configuration information for HEMCO. Define the # emissions inventories and corresponding file paths here. Entire # configuration files can be inserted into this configuration file with # an '>>>include' statement, e.g. '>>>include HEMCO\_Config\_test.rc' # The settings of include-files will be ignored. #\\ #\\ # !REMARKS: # This file has been customized for the CH4 simulation. # See The HEMCO User's Guide for file details: # http://wiki.geos-chem.org/The_HEMCO_User%27s_Guide # # !REVISION HISTORY: # See https://github.com/geoschem/geos-chem for complete history #EOP #------------------------------------------------------------------------------ #BOC ############################################################################### ### BEGIN SECTION SETTINGS ############################################################################### ROOT: /n/holyscratch01/external_repos/GEOS-CHEM/gcgrid/gcdata/ExtData/HEMCO METDIR: /n/holyscratch01/external_repos/GEOS-CHEM/gcgrid/gcdata/ExtData/GEOS_0.5x0.625/MERRA2 GCAPSCENARIO: not_used Logfile: * DiagnFile: HEMCO_Diagn.rc DiagnPrefix: ./OutputDir/HEMCO_diagnostics DiagnFreq: Daily Wildcard: * Separator: / Unit tolerance: 1 Negative values: 2 Only unitless scale factors: false Verbose: 0 Warnings: 1 ### END SECTION SETTINGS ### ############################################################################### ### BEGIN SECTION EXTENSION SWITCHES ############################################################################### # ExtNr ExtName on/off Species Years avail. 0 Base : on * # ----- MAIN SWITCHES --------------------------------------------------------- --> EMISSIONS : true --> METEOROLOGY : true # 1980-2021 --> CHEMISTRY_INPUT : true # ----- RESTART FIELDS -------------------------------------------------------- --> GC_RESTART : true # ----- NESTED GRID FIELDS ---------------------------------------------------- --> GC_BCs : true # ----- REGIONAL INVENTORIES -------------------------------------------------- --> GEPA : true # 2012 --> Scarpelli_Canada : true # 2018 --> Scarpelli_Mexico : true # 2015 # ----- GLOBAL INVENTORIES ---------------------------------------------------- --> GFEIv2 : true # 2019 --> EDGARv6 : true # 2000-2018 --> QFED2 : false # 2009-2015 --> UPDATED_GFED4 : true # 2009-2019 --> JPL_WETCHARTS : true # 2009-2017 --> SEEPS : true # 2012 --> LAKES : false # 2009-2015 --> FUNG_TERMITES : true # 1985 --> FUNG_SOIL_ABSORPTION : false # 2009-2015 --> MeMo_SOIL_ABSORPTION : true # 1990-2009 or clim. # ----- FUTURE EMISSIONS ------------------------------------------------------ --> RCP_3PD : false # 2005-2100 --> RCP_45 : false # 2005-2100 --> RCP_60 : false # 2005-2100 --> RCP_85 : false # 2005-2100 # ----- CMIP6 ANTHRO EMISSIONS ------------------------------------------------ # Set GCAPSCENARIO (e.g., HIST, SSP585) above in SECTION SETTINGS --> CMIP6_SFC_LAND_ANTHRO : false # 1850-2100 --> CMIP6_SHIP : false # 1850-2100 --> BB4MIPS : false # 1850-2100 # ----- NON-EMISSIONS DATA ---------------------------------------------------- --> GMI_CH4_LOSS : true # 1985 --> GLOBAL_OH : true # 2010-2019 --> GLOBAL_CL : true # 2010-2019 --> OLSON_LANDMAP : true # 1985 --> YUAN_MODIS_LAI : true # 2000-2020 --> AnalyticalInv : false --> Emis_ScaleFactor : false --> OH_ScaleFactor : false # ----------------------------------------------------------------------------- 111 GFED : off CH4 --> GFED4 : true --> GFED_daily : true --> GFED_3hourly : false --> Scaling_CO : 1.05 --> Scaling_NAP : 2.75e-4 --> hydrophilic BC : 0.2 --> hydrophilic OC : 0.5 --> fraction POG1 : 0.49 114 FINN : off CH4 --> FINN_daily : true --> Scaling_CO : 1.0 --> hydrophilic BC : 0.2 --> hydrophilic OC : 0.5 ### END SECTION EXTENSION SWITCHES ### ############################################################################### ### BEGIN SECTION BASE EMISSIONS ############################################################################### # ExtNr Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Species ScalIDs Cat Hier (((EMISSIONS #============================================================================== # --- Gridded EPA (Maasakkers et al., Environ. Sci. Technol., 2016) --- # # NOTES: # - Use Hier=100 to add to Canada and Mexico regional inventories # - Do not use GEPA forest fire emissions. Use QFED or GFED instead. # - Apply seasonal scale factors to manure and rice emissions #============================================================================== (((GEPA ### Oil ### 0 GEPA_OIL $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2a_Petroleum 2012/1/1/0 C xy molec/cm2/s CH4 1008 1 100 ### Gas ### 0 GEPA_GAS_PRODUCTION $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Production 2012/1/1/0 C xy molec/cm2/s CH4 1008 2 100 0 GEPA_GAS_PROCESSING $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Processing 2012/1/1/0 C xy molec/cm2/s CH4 1008 2 100 0 GEPA_GAS_TRANSMISSION $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Transmission 2012/1/1/0 C xy molec/cm2/s CH4 1008 2 100 0 GEPA_GAS_DISTRIBUTION $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Distribution 2012/1/1/0 C xy molec/cm2/s CH4 1008 2 100 ### Coal ### 0 GEPA_COAL_UNDERGROUND $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Coal_Mining_Underground 2012/1/1/0 C xy molec/cm2/s CH4 1008 3 100 0 GEPA_COAL_SURFACE $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Coal_Mining_Surface 2012/1/1/0 C xy molec/cm2/s CH4 1008 3 100 0 GEPA_COAL_ABANDONED $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Abandoned_Coal 2012/1/1/0 C xy molec/cm2/s CH4 1008 3 100 ### Livestock ### 0 GEPA_LIVESTOCK__4A $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4A_Enteric_Fermentation 2012/1/1/0 C xy molec/cm2/s CH4 1008 4 100 0 GEPA_LIVESTOCK__4B $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4B_Manure_Management 2012/1/1/0 C xy molec/cm2/s CH4 10/1008 4 100 ### Landfills ### 0 GEPA_LANDFILLS_MUNI $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6A_Landfills_Municipal 2012/1/1/0 C xy molec/cm2/s CH4 1008 5 100 0 GEPA_LANDFILLS_INDU $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6A_Landfills_Industrial 2012/1/1/0 C xy molec/cm2/s CH4 1008 5 100 ### Wastewater ### 0 GEPA_WASTEWATER_DOME $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6B_Wastewater_Treatment_Domestic 2012/1/1/0 C xy molec/cm2/s CH4 1008 6 100 0 GEPA_WASTEWATER_INDU $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6B_Wastewater_Treatment_Industrial 2012/1/1/0 C xy molec/cm2/s CH4 1008 6 100 ### Rice ### 0 GEPA_RICE $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4C_Rice_Cultivation 2012/1/1/0 C xy molec/cm2/s CH4 11/1008 7 100 ### Other Anthro ### 0 GEPA_OTHER__1A_M $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1A_Combustion_Mobile 2012/1/1/0 C xy molec/cm2/s CH4 1008 8 100 0 GEPA_OTHER__1A_S $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1A_Combustion_Stationary 2012/1/1/0 C xy molec/cm2/s CH4 1008 8 100 0 GEPA_OTHER__2B5 $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_2B5_Petrochemical_Production 2012/1/1/0 C xy molec/cm2/s CH4 1008 8 100 0 GEPA_OTHER__2C2 $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_2C2_Ferroalloy_Production 2012/1/1/0 C xy molec/cm2/s CH4 1008 8 100 0 GEPA_OTHER__4F $ROOT/CH4/v2022-11/GEPA/GEPA_Monthly.nc emissions_4F_Field_Burning 2012/1-12/1/0 C xy molec/cm2/s CH4 1008 8 100 #0 GEPA_OTHER__5 $ROOT/CH4/v2022-11/GEPA_Daily.nc emissions_5_Forest_Fires 2012/1/1/0 C xy molec/cm2/s CH4 1008 9 100 0 GEPA_OTHER__6D $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6D_Composting 2012/1/1/0 C xy molec/cm2/s CH4 1008 8 100 ### Make sure to include offshore/coastal emissions (Hier=1 to add to EDGAR, Hier=5 to add to GFEI) ### 0 GEPA_COAST_OIL $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2a_Petroleum 2012/1/1/0 C xy molec/cm2/s CH4 1009 1 5 0 GEPA_COAST_GAS_PR $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Production 2012/1/1/0 C xy molec/cm2/s CH4 1009 2 5 0 GEPA_COAST_GAS_PC $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Processing 2012/1/1/0 C xy molec/cm2/s CH4 1009 2 5 0 GEPA_COAST_GAS_TR $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Transmission 2012/1/1/0 C xy molec/cm2/s CH4 1009 2 5 0 GEPA_COAST_GAS_DS $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B2b_Natural_Gas_Distribution 2012/1/1/0 C xy molec/cm2/s CH4 1009 2 5 0 GEPA_COAST_COAL_U $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Coal_Mining_Underground 2012/1/1/0 C xy molec/cm2/s CH4 1009 3 5 0 GEPA_COAST_COAL_S $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Coal_Mining_Surface 2012/1/1/0 C xy molec/cm2/s CH4 1009 3 5 0 GEPA_COAST_COAL_A $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1B1a_Abandoned_Coal 2012/1/1/0 C xy molec/cm2/s CH4 1009 3 5 0 GEPA_COAST_LVSTK_F $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4A_Enteric_Fermentation 2012/1/1/0 C xy molec/cm2/s CH4 1009 4 1 0 GEPA_COAST_LVSTK_M $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4B_Manure_Management 2012/1/1/0 C xy molec/cm2/s CH4 10/1009 4 1 0 GEPA_COAST_LDF_M $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6A_Landfills_Municipal 2012/1/1/0 C xy molec/cm2/s CH4 1009 5 1 0 GEPA_COAST_LDF_I $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6A_Landfills_Industrial 2012/1/1/0 C xy molec/cm2/s CH4 1009 5 1 0 GEPA_COAST_WSTW_D $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6B_Wastewater_Treatment_Domestic 2012/1/1/0 C xy molec/cm2/s CH4 1009 6 1 0 GEPA_COAST_WSTW_I $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6B_Wastewater_Treatment_Industrial 2012/1/1/0 C xy molec/cm2/s CH4 1009 6 1 0 GEPA_COAST_RICE $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_4C_Rice_Cultivation 2012/1/1/0 C xy molec/cm2/s CH4 11/1009 7 1 0 GEPA_COAST_OTH_1AM $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1A_Combustion_Mobile 2012/1/1/0 C xy molec/cm2/s CH4 1009 8 1 0 GEPA_COAST_OTH_1AS $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_1A_Combustion_Stationary 2012/1/1/0 C xy molec/cm2/s CH4 1009 8 1 0 GEPA_COAST_OTH_2B5 $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_2B5_Petrochemical_Production 2012/1/1/0 C xy molec/cm2/s CH4 1009 8 1 0 GEPA_COAST_OTH_2C2 $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_2C2_Ferroalloy_Production 2012/1/1/0 C xy molec/cm2/s CH4 1009 8 1 0 GEPA_COAST_OTH_4F $ROOT/CH4/v2022-11/GEPA/GEPA_Monthly.nc emissions_4F_Field_Burning 2012/1-12/1/0 C xy molec/cm2/s CH4 1009 8 1 #0 GEPA_COAST_OTH_5 $ROOT/CH4/v2022-11/GEPA_Daily.nc emissions_5_Forest_Fires 2012/1/1/0 C xy molec/cm2/s CH4 1009 9 1 0 GEPA_COAST_OTH_6D $ROOT/CH4/v2022-11/GEPA/GEPA_Annual.nc emissions_6D_Composting 2012/1/1/0 C xy molec/cm2/s CH4 1009 8 1 )))GEPA #============================================================================== # --- Mexico emissions (Scarpelli et. al, Environ. Res. Lett., 2020) --- # # NOTES: # - Use Hier=100 to add to Canada and USA regional inventories #============================================================================== (((Scarpelli_Mexico 0 MEX_OIL $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_oil_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 1 100 0 MEX_GAS $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_gas_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 2 100 0 MEX_COAL $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_coal_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 3 100 0 MEX_LIVESTOCK_A $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_livestock_A_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 4 100 0 MEX_LIVESTOCK_B $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_livestock_B_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 10/1001 4 100 0 MEX_LANDFILLS $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_landfill_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 5 100 0 MEX_WASTEWATER $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_waste_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 6 100 0 MEX_RICE $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_rice_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 11/1001 7 100 0 MEX_OTHER $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_other_anthro_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1001 8 100 ### Make sure to include offshore/coastal emissions (Hier=1 to add to EDGAR, Hier=5 to add to GFEI) ### 0 MEX_OIL_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_oil_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 1 5 0 MEX_GAS_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_gas_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 2 5 0 MEX_COAL_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_coal_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 3 5 0 MEX_LIVESTOCK_A_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_livestock_A_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 4 1 0 MEX_LIVESTOCK_B_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_livestock_B_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 10/1010 4 1 0 MEX_LANDFILLS_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_landfill_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 5 1 0 MEX_WASTEWATER_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_waste_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 6 1 0 MEX_RICE_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_rice_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 11/1010 7 1 0 MEX_OTHER_COAST $ROOT/CH4/v2020-09/Scarpelli_Mexico/MEX_Tia2020_other_anthro_2015.nc emis_ch4 2015/1/1/0 C xy molec/cm2/s CH4 1010 8 1 )))Scarpelli_Mexico #============================================================================== # --- Canada emissions (Scarpelli et al., Environ. Res. Lett., 2022) --- # # NOTES: # - Use Hier=100 to add to USA and Mexico regional inventories #============================================================================== (((Scarpelli_Canada 0 CAN_OIL_GAS_COMBUSTION $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_combustion_2018.nc oil_gas_combustion_total 2018/1/1/0 C xy kg/m2/s CH4 1002 1/2 100 0 CAN_OIL_GAS_LEAKAGE $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_leakage_2018.nc oil_gas_leakage_total 2018/1/1/0 C xy kg/m2/s CH4 1002 1/2 100 0 CAN_OIL_GAS_VENT_FLARE $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_vent_flare_2018.nc oil_gas_vent_flare_total 2018/1/1/0 C xy kg/m2/s CH4 1002 1/2 100 0 CAN_COAL $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_coal_2018.nc coal_total 2018/1/1/0 C xy kg/m2/s CH4 1002 3 100 0 CAN_LIVESTOCK $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_livestock_2018.nc livestock_total 2018/1/1/0 C xy kg/m2/s CH4 1002 4 100 0 CAN_SOLID_WASTE $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_solid_waste_2018.nc solid_waste_total 2018/1/1/0 C xy kg/m2/s CH4 1002 5 100 0 CAN_WASTEWATER $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_wastewater_2018.nc wastewater_total 2018/1/1/0 C xy kg/m2/s CH4 1002 6 100 0 CAN_OTHER $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_other_minor_sources_2018.nc other_minor_sources_total 2018/1/1/0 C xy kg/m2/s CH4 1002 8 100 ### Make sure to include offshore/coastal emissions (Hier=1 to add to EDGAR, Hier=5 to add to GFEI) ### 0 CAN_OIL_GAS_COMBUSTION_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_combustion_2018.nc oil_gas_combustion_total 2018/1/1/0 C xy kg/m2/s CH4 1011 1/2 5 0 CAN_OIL_GAS_LEAKAGE_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_leakage_2018.nc oil_gas_leakage_total 2018/1/1/0 C xy kg/m2/s CH4 1011 1/2 5 0 CAN_OIL_GAS_VENT_FLARE_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_oil_gas_vent_flare_2018.nc oil_gas_vent_flare_total 2018/1/1/0 C xy kg/m2/s CH4 1011 1/2 5 0 CAN_COAL_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_coal_2018.nc coal_total 2018/1/1/0 C xy kg/m2/s CH4 1011 3 5 0 CAN_LIVESTOCK_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_livestock_2018.nc livestock_total 2018/1/1/0 C xy kg/m2/s CH4 1011 4 1 0 CAN_SOLID_WASTE_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_solid_waste_2018.nc solid_waste_total 2018/1/1/0 C xy kg/m2/s CH4 1011 5 1 0 CAN_WASTEWATER_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_wastewater_2018.nc wastewater_total 2018/1/1/0 C xy kg/m2/s CH4 1011 6 1 0 CAN_OTHER_COAST $ROOT/CH4/v2022-01/Scarpelli_Canada/can_emis_other_minor_sources_2018.nc other_minor_sources_total 2018/1/1/0 C xy kg/m2/s CH4 1011 8 1 )))Scarpelli_Canada #============================================================================== # --- Global Fuel Exploitation Inventory (GFEI v2, Scarpelli et al., 2021) --- # # This inventory will replace EDGAR (oil, gas, & coal) #============================================================================== (((GFEIv2 0 GFEI_CH4_OIL $ROOT/CH4/v2022-01/GFEIv2/Global_Fuel_Exploitation_Inventory_v2_2019_Oil_All.nc emis_ch4 2019/1/1/0 C xy molec/cm2/s CH4 - 1 5 0 GFEI_CH4_GAS $ROOT/CH4/v2022-01/GFEIv2/Global_Fuel_Exploitation_Inventory_v2_2019_Gas_All.nc emis_ch4 2019/1/1/0 C xy molec/cm2/s CH4 - 2 5 0 GFEI_CH4_COAL $ROOT/CH4/v2022-01/GFEIv2/Global_Fuel_Exploitation_Inventory_v2_2019_Coal.nc emis_ch4 2019/1/1/0 C xy molec/cm2/s CH4 - 3 5 )))GFEIv2 #============================================================================== # --- EDGAR v6.0 emissions, various sectors --- #============================================================================== (((EDGARv6 ### Oil ### 0 CH4_OIL__1B2a $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_PRO_OIL.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 1 1 ### Gas ### 0 CH4_OIL__1B2c $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_PRO_GAS.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 2 1 ### Coal ### 0 CH4_COAL__1B1a $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_PRO_COAL.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 3 1 ### Livestock ### 0 CH4_LIVESTOCK__4A $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_ENF.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 4 1 0 CH4_LIVESTOCK__4B $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_MNM.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 4 1 ### Landfills ### 0 CH4_LANDFILLS__6A_6D $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_SWD_LDF.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 5 1 ### Wastewater ### 0 CH4_WASTEWATER__6B $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_WWT.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 6 1 ### Rice ### 0 CH4_RICE__4C_4D $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_AGS.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 7 1 ### Other Anthro ### 0 CH4_OTHER__1A1_1B1_1B2 $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_REF_TRF.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A1a $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_ENE.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A2 $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_IND.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3a_CDS $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TNR_Aviation_CDS.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3a_CRS $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TNR_Aviation_CRS.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3a_LTO $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TNR_Aviation_LTO.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3b $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TRO_noRES.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3c_1A3e $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TNR_Other.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A3d_1C2 $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_TNR_Ship.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__1A4 $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_RCO.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__2B $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_CHE.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__2C $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_IRO.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__4F $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_AWB.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CH4_OTHER__6C $ROOT/CH4/v2022-11/EDGARv6/$YYYY/v6.0_CH4_$YYYY_SWD_INC.0.1x0.1.nc emi_ch4 2000-2018/1-12/1/0 C xy kg/m2/s CH4 - 8 1 )))EDGARv6 #============================================================================== # CEDS (historical) or Shared Socioeconomic Pathways (future) #============================================================================== (((CMIP6_SFC_LAND_ANTHRO 0 CMIP6_CH4_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_agr 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 4 1 0 CMIP6_CH4_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_ene 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 2 1 0 CMIP6_CH4_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_ind 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CMIP6_CH4_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_tra 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CMIP6_CH4_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_rco 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 2 1 0 CMIP6_CH4_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_slv 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 8 1 0 CMIP6_CH4_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_wst 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 5 1 )))CMIP6_SFC_LAND_ANTHRO (((CMIP6_SHIP 0 CMIP6_CH4_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_shp 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 8 1 )))CMIP6_SHIP #============================================================================== # BB4MIPs historical / SSP future biomass burning inventories #============================================================================== (((BB4MIPS 0 CMIP6_BB_CH4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH4_bbn 1750-2015/1-12/1/0 C xyL=1:PBL kg/m2/s CH4 75 9 1 )))BB4MIPS #============================================================================== # --- QFED2 biomass burning --- # # Use QFED v2.4r8 for CH4. The data in QFED/v2014-09 are for v2.4r5 and have # been found to be buggy for CH4 (same emissions on each day). #============================================================================== (((QFED2 0 QFED_CH4 $ROOT/CH4/v2017-10/QFED/QFEDv2.4r8.emis_ch4.$YYYY.nc emi_ch4 2009-2015/1-12/1-31/0 C xy molec/cm2/s CH4 - 9 2 )))QFED2 #============================================================================== # --- Updated GFED4 biomass burning --- # # Emissions through 2019 obtained from Yuzhong Zhang #============================================================================== (((UPDATED_GFED4 0 UPDATED_GFED4_CH4 $ROOT/CH4/v2020-09/GFED/GFED4_CH4_FIRE_$YYYY.nc emi_ch4 2009-2019/1-12/1-31/0 C xy molec/cm2/s CH4 - 9 3 )))UPDATED_GFED4 #============================================================================== # --- JPL WetCHARTs v1.0 (Bloom et al., https://doi.org/10.3334/ORNLDAAC/1502) --- #============================================================================== (((JPL_WETCHARTS 0 JPLW_CH4 $ROOT/CH4/v2020-09/JPL_WetCharts/HEensemble/JPL_WetCharts_2010-2019.Ensemble_Mean.0.5x0.5.nc emi_ch4 2010-2019/1-12/1/0 C xy molec/cm2/s CH4 - 10 1 )))JPL_WETCHARTS #============================================================================== # --- Geological Seeps --- #============================================================================== (((SEEPS 0 CH4_SEEPS $ROOT/CH4/v2020-04/Seeps/Etiope_CH4GeologicalEmis_ScaledToHmiel.1x1.nc emi_ch4 2012/1/1/0 C xy kg/m2/s CH4 - 11 1 )))SEEPS #============================================================================== # --- Emissions from Lakes (Maasakkers et al., 2019) --- #============================================================================== (((LAKES 0 CH4_LAKES $ROOT/CH4/v2022-11/Lakes/Maasakkers_Lakes_$YYYY.01x01.nc emi_ch4 $YYYY/1-12/1/0 C xy molec/cm2/s CH4 - 12 1 )))LAKES #============================================================================== # --- Soil absorption & termites from Fung et al, 1991 --- # # NOTES: # - Multiply soil absorption by -1 to get a "negative" flux. # (Only apply the scaling factor when adding to the total CH4 simulation) # - Use updated soil absorption emissions with seasonality applied # - For tagged CH4 simulations soil absorption is treated as a loss and applied # in mixing_mod.F #============================================================================== (((FUNG_TERMITES 0 CH4_TERMITES $ROOT/CH4/v2014-09/4x5/termites.geos.4x5.nc CH4 1985/1/1/0 C xy kg/m2/s CH4 - 13 1 )))FUNG_TERMITES (((FUNG_SOIL_ABSORPTION 0 CH4_SOILABSORB $ROOT/CH4/v2019-10/Fung_SoilAbs/Soil_Absorption_4x5_$YYYY.nc CH4 2009-2015/1-12/1/0 C xy molec/cm2/s CH4 1 14 1 )))FUNG_SOIL_ABSORPTION #============================================================================== # --- # Soil absorption from MeMo model (Murguia-Flores et al. 2018, GMD) --- # # - Multiply soil absorption by -1 to get a "negative" flux #============================================================================== (((MeMo_SOIL_ABSORPTION # Climatology 0 CH4_SOILABSORB $ROOT/CH4/v2019-10/MeMo_SoilAbs/MeMo_CH4uptake_Climatology.nc CH4uptake 2009/1-12/1/0 C xy kg/m2/s CH4 1 14 2 # 1990-2009 #0 CH4_SOILABSORB $ROOT/CH4/v2019-10/MeMo_SoilAbs/MeMo_CH4uptake_1990-2009.nc CH4uptake 1990-2009/1-12/1/0 C xy kg/m2/s CH4 1 14 2 )))MeMo_SOIL_ABSORPTION #============================================================================== # --- RCP future emission scenarios --- #============================================================================== (((RCP_3PD 0 RCP3PD_CH4 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_CH4_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH4 - 1 1 )))RCP_3PD (((RCP_45 0 RCP45_CH4 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_CH4_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH4 - 1 1 )))RCP_45 (((RCP_60 0 RCP60_CH4 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_CH4_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH4 - 1 1 )))RCP_60 (((RCP_85 0 RCP85_CH4 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_CH4_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH4 - 1 1 )))RCP_85 )))EMISSIONS ############################################################################### ### EXTENSION DATA (subsection of BASE EMISSIONS SECTION) ### ### These fields are needed by the extensions listed above. The assigned ExtNr ### must match the ExtNr entry in section 'Extension switches'. These fields ### are only read if the extension is enabled. The fields are imported by the ### extensions by field name. The name given here must match the name used ### in the extension's source code. ############################################################################### (((EMISSIONS #============================================================================== # --- GFED biomass burning emissions (Extension 111) # NOTE: These are the base emissions in kgDM/m2/s. #============================================================================== (((GFED4 111 GFED_TEMP $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_TEMP 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 111 GFED_AGRI $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_AGRI 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 111 GFED_DEFO $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_DEFO 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 111 GFED_BORF $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_BORF 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 111 GFED_PEAT $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_PEAT 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 111 GFED_SAVA $ROOT/GFED4/v2020-02/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_SAVA 1997-2019/1-12/01/0 RF xy kgDM/m2/s * - 1 1 (((GFED_daily 111 GFED_FRAC_DAY $ROOT/GFED4/v2020-02/$YYYY/GFED4_dailyfrac_gen.025x025.$YYYY$MM.nc GFED_FRACDAY 2003-2019/1-12/1-31/0 RF xy 1 * - 1 1 )))GFED_daily (((GFED_3hourly 111 GFED_FRAC_3HOUR $ROOT/GFED4/v2020-02/$YYYY/GFED4_3hrfrac_gen.025x025.$YYYY$MM.nc GFED_FRAC3HR 2003-2019/1-12/1/0-23 RF xy 1 * - 1 1 )))GFED_3hourly )))GFED4 #============================================================================== # --- FINN v1.5 biomass burning emissions (Extension 114) #============================================================================== (((.not.FINN_daily 114 FINN_VEGTYP1 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype1 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_VEGTYP2 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype2 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_VEGTYP3 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype3 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_VEGTYP4 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype4 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_VEGTYP5 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype5 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_VEGTYP9 $ROOT/FINN/v2015-02/FINN_monthly_$YYYY_0.25x0.25.compressed.nc fire_vegtype9 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 ))).not.FINN_daily (((FINN_daily 114 FINN_DAILY_VEGTYP1 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype1 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_DAILY_VEGTYP2 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype2 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_DAILY_VEGTYP3 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype3 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_DAILY_VEGTYP4 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype4 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_DAILY_VEGTYP5 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype5 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 114 FINN_DAILY_VEGTYP9 $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25.compressed.nc fire_vegtype9 2002-2016/1-12/1/0 RF xy kg/m2/s * - 1 1 )))FINN_daily )))EMISSIONS ############################################################################### ### NON-EMISSIONS DATA (subsection of BASE EMISSIONS SECTION) ### ### Non-emissions data. The following fields are read through HEMCO but do ### not contain emissions data. The extension number is set to wildcard ### character denoting that these fields will not be considered for emission ### calculation. A given entry is only read if the assigned species name is ### an HEMCO species. ############################################################################### #============================================================================== # --- Time zones (offset to UTC) --- #============================================================================== * TIMEZONES $ROOT/TIMEZONES/v2015-02/timezones_voronoi_1x1.nc UTC_OFFSET 2000/1/1/0 C xy count * - 1 1 #============================================================================== # --- Meteorology fields --- #============================================================================== (((METEOROLOGY >>>include HEMCO_Config.rc.gmao_metfields )))METEOROLOGY #============================================================================== # --- GEOS-Chem restart file --- #============================================================================== (((GC_RESTART * SPC_ ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 SpeciesRst_?ALL? $YYYY/$MM/$DD/$HH EFYO xyz 1 * - 1 1 * DELPDRY ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Met_DELPDRY $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 )))GC_RESTART #============================================================================== # --- GEOS-Chem boundary condition file --- #============================================================================== (((GC_BCs * BC_ /n/jacob_lab/Lab/seasasfs02/CH4_inversion/InputData/BoundaryConditions/OutputDir_bias_corrected_dk_2/GEOSChem.BoundaryConditions.$YYYY$MM$DD_0000z.nc4 SpeciesBC_?ADV? 1980-2021/1-12/1-31/* C xyz 1 * - 1 1 )))GC_BCs #============================================================================== # --- Quantities needed for CH4 chemistry --- #============================================================================== (((CHEMISTRY_INPUT (((GMI_CH4_LOSS * CH4_LOSS $ROOT/CH4/v2022-11/4x5/gmi.ch4loss.geos5_47L.4x5.nc CH4loss 1985/1-12/1/0 C xyz s-1 * - 1 1 )))GMI_CH4_LOSS (((GLOBAL_OH * GLOBAL_OH $ROOT/OH/v2014-09/v5-07-08/OH_3Dglobal.geos5.47L.4x5.nc OH 1985/1-12/1/0 C xyz kg/m3 * - 1 1 )))GLOBAL_OH (((GLOBAL_CL * GLOBAL_Cl $ROOT/GCClassic_Output/14.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_Cl 2010-2019/1-12/1/0 C xyz 1 * - 1 1 )))GLOBAL_CL )))CHEMISTRY_INPUT #============================================================================== # --- Olson land map masks --- #============================================================================== (((OLSON_LANDMAP * LANDTYPE00 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE00 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE01 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE01 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE02 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE02 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE03 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE03 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE04 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE04 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE05 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE05 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE06 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE06 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE07 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE07 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE08 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE08 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE09 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE09 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE10 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE10 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE11 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE11 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE12 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE12 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE13 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE13 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE14 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE14 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE15 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE15 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE16 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE16 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE17 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE17 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE18 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE18 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE19 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE19 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE20 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE20 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE21 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE21 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE22 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE22 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE23 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE23 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE24 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE24 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE25 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE25 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE26 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE26 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE27 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE27 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE28 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE28 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE29 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE29 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE30 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE30 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE31 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE31 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE32 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE32 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE33 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE33 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE34 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE34 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE35 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE35 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE36 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE36 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE37 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE37 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE38 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE38 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE39 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE39 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE40 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE40 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE41 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE41 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE42 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE42 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE43 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE43 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE44 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE44 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE45 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE45 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE46 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE46 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE47 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE47 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE48 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE48 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE49 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE49 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE50 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE50 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE51 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE51 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE52 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE52 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE53 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE53 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE54 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE54 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE55 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE55 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE56 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE56 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE57 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE57 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE58 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE58 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE59 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE59 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE60 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE60 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE61 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE61 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE62 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE62 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE63 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE63 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE64 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE64 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE65 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE65 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE66 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE66 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE67 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE67 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE68 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE68 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE69 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE69 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE70 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE70 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE71 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE71 1985/1/1/0 C xy 1 * - 1 1 * LANDTYPE72 $ROOT/OLSON_MAP/v2019-02/Olson_2001_Land_Type_Masks.025x025.generic.nc LANDTYPE72 1985/1/1/0 C xy 1 * - 1 1 )))OLSON_LANDMAP #============================================================================== # --- Yuan processed MODIS leaf area index data --- # # Source: Yuan et al 2011, doi:10.1016/j.rse.2011.01.001 # http://globalchange.bnu.edu.cn/research/lai # # NOTES: # (1) LAI data corresponding to each Olson land type is stored in # separate netCDF variables (XLAI00, XLAI01, ... XLAI72). # The "XLAI" denotes that the files are prepared in this way. # (2) Units are "cm2 leaf/cm2 grid box". # (3) Data is timestamped every 8 days, starting from the 2nd of the month. #============================================================================== (((YUAN_MODIS_LAI * XLAI00 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI00 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI01 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI01 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI02 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI02 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI03 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI03 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI04 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI04 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI05 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI05 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI06 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI06 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI07 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI07 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI08 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI08 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI09 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI09 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI10 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI10 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI11 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI11 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI12 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI12 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI13 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI13 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI14 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI14 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI15 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI15 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI16 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI16 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI17 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI17 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI18 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI18 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI19 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI19 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI20 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI20 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI21 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI21 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI22 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI22 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI23 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI23 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI24 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI24 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI25 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI25 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI26 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI26 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI27 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI27 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI28 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI28 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI29 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI29 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI30 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI30 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI31 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI31 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI32 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI32 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI33 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI33 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI34 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI34 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI35 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI35 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI36 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI36 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI37 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI37 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI38 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI38 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI39 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI39 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI40 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI40 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI41 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI41 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI42 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI42 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI43 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI43 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI44 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI44 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI45 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI45 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI46 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI46 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI47 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI47 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI48 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI48 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI49 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI49 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI50 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI50 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI51 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI51 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI52 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI52 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI53 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI53 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI54 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI54 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI55 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI55 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI56 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI56 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI57 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI57 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI58 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI58 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI59 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI59 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI60 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI60 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI61 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI61 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI62 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI62 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI63 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI63 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI64 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI64 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI65 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI65 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI66 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI66 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI67 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI67 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI68 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI68 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI69 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI69 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI70 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI70 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI71 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI71 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 * XLAI72 $ROOT/Yuan_XLAI/v2021-06/Yuan_proc_MODIS_XLAI.025x025.$YYYY.nc XLAI72 2000-2020/1-12/1-31/0 I xy cm2/cm2 * - 1 1 )))YUAN_MODIS_LAI #============================================================================== # --- Files needed for analytical inversion --- # # These fields are are only used if analytical_inversion?' is activated in # geoschem_config.yml. These fields are obtained from HEMCO and applied in # GEOS-Chem/GeosCore/global_ch4_mod.F90. # # Entries below provided for examples only. Add your own here! #============================================================================== (((AnalyticalInv # State vector file * CH4_STATE_VECTOR StateVector.nc StateVector 2009/1/1/0 C xy 1 * - 1 1 )))AnalyticalInv #============================================================================== # --- Scale factors for posterior run --- # # Enable emission scale factors by setting the use_emission_scale_factor or # use_OH_scale_factor options to true in geoschem_config.yml. These fields are # obtained from HEMCO and applied in GEOS-Chem/GeosCore/global_ch4_mod.F90. # # Entries below are provided for examples only. Add your own here! #============================================================================== (((Emis_ScaleFactor * EMIS_SF gridded_posterior.nc ScaleFactor 2000/1/1/0 C xy 1 * - 1 1 )))Emis_ScaleFactor (((OH_ScaleFactor * OH_SF Post_SF_OH.nc SF_OH 2010-2017/1/1/0 E xy 1 * - 1 1 )))OH_ScaleFactor ### END SECTION BASE EMISSIONS ### ############################################################################### ### BEGIN SECTION SCALE FACTORS ############################################################################### # ScalID Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Oper (((EMISSIONS #============================================================================== # --- Soil absorption scale factors --- # # Multiply soil absorption by -1 to get a "negative" flux. #============================================================================== 1 NEGATIVE -1.0 - - - xy 1 1 #============================================================================== # --- Seasonal scaling factors ---- #============================================================================== (((EDGARv6.or.GEPA 10 MANURE_SF $ROOT/CH4/v2017-10/Seasonal_SF/EMICH4_Manure_ScalingFactors.WithClimatology.nc sf_ch4 2008-2016/1-12/1/0 C xy 1 1 11 RICE_SF $ROOT/CH4/v2017-10/Seasonal_SF/EMICH4_Rice_ScalingFactors.SetMissing.nc sf_ch4 2012/1-12/1/0 C xy 1 1 )))EDGARv6.or.GEPA #============================================================================== # --- QFED2 diurnal scale factors --- # # Fire diurnal scaling factors (% per hour) from WRAP Report to Project # No. 178-6, July 2005 #============================================================================== (((QFED2.or.GFAS.or.BB4MIPS 75 QFED2_TOD 0.1392/0.1392/0.1368/0.1368/0.1368/0.1368/0.1368/0.1368/0.1368/0.48/0.96/1.68/2.4/3.12/3.84/4.08/2.88/1.68/0.96/0.1368/0.1368/0.1368/0.1368/0.1368 - - - xy unitless 1 )))QFED2.or.GFAS.or.BB4MIPS )))EMISSIONS ### END SECTION SCALE FACTORS ### ############################################################################### ### BEGIN SECTION MASKS ############################################################################### # ScalID Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Oper Lon1/Lat1/Lon2/Lat2 (((EMISSIONS #============================================================================== # Country/region masks #============================================================================== (((Scarpelli_Mexico 1001 MEXICO_MASK $ROOT/MASKS/v2018-09/Mexico_Mask.001x001.nc MASK 2000/1/1/0 C xy 1 1 -118/17/-95/33 1010 MEX_MASK_MIRROR $ROOT/MASKS/v2018-09/Mexico_Mask_Mirror.001x001.nc MASK 2000/1/1/0 C xy 1 1 -118/17/-95/33 )))Scarpelli_Mexico (((Scarpelli_Canada 1002 CANADA_MASK $ROOT/MASKS/v2018-09/Canada_Mask.001x001.nc MASK 2000/1/1/0 C xy 1 1 -141/40/-52/85 1011 CAN_MASK_MIRROR $ROOT/MASKS/v2018-09/Canada_Mask_Mirror.001x001.nc MASK 2000/1/1/0 C xy 1 1 -141/40/-52/85 )))Scarpelli_Canada (((GEPA 1008 CONUS_MASK $ROOT/MASKS/v2018-09/CONUS_Mask.001x001.nc MASK 2000/1/1/0 C xy 1 1 -140/20/-50/60 1009 CONUS_MIRROR $ROOT/MASKS/v2018-09/CONUS_Mask_Mirror.001x001.nc MASK 2000/1/1/0 C xy 1 1 -140/20/-50/60 )))GEPA )))EMISSIONS ### END SECTION MASKS ### ### END OF HEMCO INPUT FILE ### #EOC