#------------------------------------------------------------------------------ # 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 Hg 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: /net/geoschem/data/gcgrid/data/ExtData/HEMCO METDIR: /net/geoschem/data/gcgrid/data/ExtData/GEOS_2x2.5/MERRA2 Logfile: HEMCO.log DiagnFile: HEMCO_Diagn.rc DiagnPrefix: ./OutputDir/HEMCO_diagnostics DiagnFreq: Monthly Wildcard: * Separator: / Unit tolerance: 1 Negative values: 0 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 : false # ----- REGIONAL INVENTORIES -------------------------------------------------- --> ZHAOZHANG : false # 2010 --> CHAKRABORTY : false # 2010 --> EMISS_CONTROLS : false # 2010 # ----- GLOBAL INVENTORIES ---------------------------------------------------- --> AMAP_COMB : false # 2010 --> AMAP_INDS : false # 2010 --> AMAP_INTW : false # 2010 --> GMA_ASGM : true # 2015 --> GMA_POWERGEN : true # 2015 --> GMA_INDS : true # 2015 --> GMA_INTW : true # 2015 --> WHET : false # 2010 --> STREETS : false # 2015 --> ARTISANAL : false # 1985 --> NATURAL : true # 1985 --> SOILDIST : true # 1985 --> QFED2 : false # 2000-2020 --> EDGAR_TOT : false # 1970-2012 --> EDGAR_CEM : false # 1970-2012 --> EDGAR_CHLOR : false # 1970-2012 --> EDGAR_COMB_A : false # 1970-2012 --> EDGAR_COMB_B : false # 1970-2012 --> EDGAR_GLASS : false # 1970-2012 --> EDGAR_GOLDA : false # 1970-2012 --> EDGAR_GOLDB : false # 1970-2012 --> EDGAR_IRO : false # 1970-2012 --> EDGAR_NFEOTH : false # 1970-2012 --> EDGAR_SHIP : false # 1970-2012 --> EDGAR_TRO : false # 1970-2012 --> EDGAR_WASTE : false # 1970-2012 # ----- NON-EMISSIONS DATA ---------------------------------------------------- --> OXIDANT_FIELDS : true # 2010-2019 --> BrOx_GC : true # 2010-2019 --> JBrO : true # 2010-2019 --> LRED_JNO2 : true # 2005 --> AERO_HG2_PARTITION : true # 2010-2019 --> OCEAN_Hg : true # 1985,2003,2009 --> TOMS_SBUV_O3 : true # 1971-2010 --> LHALOGENCHEM : true --> LHGAQCHEM : true --> LOHO3CHEM : false --> LRED_INPLUME : false --> OLSON_LANDMAP : true # 1985 --> YUAN_MODIS_LAI : true # 2000-2020 # ----------------------------------------------------------------------------- # NOTE: Changing these options will require a change in reduction rate in order # to maintain agreement with observations. Please see wiki for details # http://wiki.seas.harvard.edu/geos-chem/index.php/Mercury # ----------------------------------------------------------------------------- 111 GFED : on Hg0 --> GFED4 : true --> GFED_daily : false --> 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 Hg0 --> FINN_daily : false --> Scaling_CO : 1.0 --> hydrophilic BC : 0.2 --> hydrophilic OC : 0.5 --> Scaling_Hg0 : 7.16e-7 ### END SECTION EXTENSION SWITCHES ### ############################################################################### ### BEGIN SECTION BASE EMISSIONS ############################################################################### # ExtNr Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Species ScalIDs Cat Hier (((EMISSIONS #============================================================================== # NOTE: HgP emissions must be added as Hg2 emissions under the Species column #============================================================================== #============================================================================== # --- GMA 2018 emissions --- # # NOTE: HgP emissions are added to Hg2 emissions! #============================================================================== (((GMA_ASGM 0 GMA_ASGM_HG0 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_0_asgm 2015/1/1/0 C xy kg/m2/s Hg0 - 8 1 0 GMA_ASGM_HG2 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_2_asgm 2015/1/1/0 C xy * HgCl2 - 8 1 0 GMA_ASGM_HGP GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_p_asgm 2015/1/1/0 C xy * Hg2ClP - 8 1 )))GMA_ASGM (((GMA_INDS 0 GMA_IND_HG0 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_0_inds 2015/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 GMA_IND_HG2 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_2_inds 2015/1/1/0 C xy * HgCl2 - 1 1 0 GMA_IND_HGP GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_p_inds 2015/1/1/0 C xy * Hg2ClP - 1 1 )))GMA_INDS (((GMA_INTW 0 GMA_INTW_HG0 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_0_intw 2015/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 GMA_INTW_HG2 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_2_intw 2015/1/1/0 C xy * HgCl2 - 1 1 0 GMA_INTW_HGP GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_p_intw 2015/1/1/0 C xy * Hg2ClP - 1 1 )))GMA_INTW (((GMA_POWERGEN 0 GMA_POWERGEN_HG0 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_0_pg 2015/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 GMA_POWERGEN_HG2 GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_2_pg 2015/1/1/0 C xy * HgCl2 - 1 1 0 GMA_POWERGEN_HGP GMA_emissions_Hg.0.25x0.25.2015.nc emi_hg_p_pg 2015/1/1/0 C xy * Hg2ClP - 1 1 )))GMA_POWERGEN #============================================================================== #============================================================================== # --- AMAP/UNEP emissions --- #============================================================================== (((AMAP_COMB 0 AMAP_COMB_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 AMAP_COMB_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 - 1 1 0 AMAP_COMB_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP - 1 1 )))AMAP_COMB (((AMAP_INDS 0 AMAP_INDS_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 AMAP_INDS_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 - 1 1 0 AMAP_INDS_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP - 1 1 )))AMAP_INDS (((AMAP_INTW 0 AMAP_INTW_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 AMAP_INTW_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 - 1 1 0 AMAP_INTW_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP - 1 1 )))AMAP_INTW #============================================================================== # --- Yanxu Zhang et al. 2015 and Zhao et al. 2015 China emissions totals --- #============================================================================== (((ZHAOZHANG (((AMAP_COMB 0 AMAP_COMB_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 3/1006 1 3 0 AMAP_COMB_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 4/1006 1 3 0 AMAP_COMB_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 5/1006 1 3 )))AMAP_COMB (((AMAP_INDS 0 AMAP_INDS_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 3/1006 1 3 0 AMAP_INDS_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 4/1006 1 3 0 AMAP_INDS_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 5/1006 1 3 )))AMAP_INDS (((AMAP_INTW 0 AMAP_INTW_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 3/1006 1 3 0 AMAP_INTW_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 4/1006 1 3 0 AMAP_INTW_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 5/1006 1 3 )))AMAP_INTW )))ZHAOZHANG #============================================================================== # --- Chakraborty et al. 2013 India emissions totals --- #============================================================================== (((CHAKRABORTY (((AMAP_COMB 0 AMAP_COMB_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 6/1007 1 3 0 AMAP_COMB_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 7/1007 1 3 0 AMAP_COMB_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 8/1007 1 3 )))AMAP_COMB (((AMAP_INDS 0 AMAP_INDS_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 6/1007 1 3 0 AMAP_INDS_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 7/1007 1 3 0 AMAP_INDS_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 8/1007 1 3 )))AMAP_INDS (((AMAP_INTW 0 AMAP_INTW_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 6/1007 1 3 0 AMAP_INTW_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 7/1007 1 3 0 AMAP_INTW_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 8/1007 1 3 )))AMAP_INTW )))CHAKRABORTY #============================================================================== # WHET emissions inventory #============================================================================== (((WHET 0 WHET_HG0 $ROOT/MERCURY/v2018-04/WHET_Hg0.geos.1x1.2010_final.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 WHET_HG2 $ROOT/MERCURY/v2018-04/WHET_Hg2.geos.1x1.2010_final.nc Hg2 2010/1/1/0 C xy * HgCl2 - 1 1 0 WHET_HGP $ROOT/MERCURY/v2018-04/WHET_HgP.geos.1x1.2010_final.nc HgP 2010/1/1/0 C xy * Hg2ClP - 1 1 )))WHET #============================================================================== # Streets et al. 2019 emissions inventory #============================================================================== (((STREETS 0 STREETS_HG0 $ROOT/MERCURY/v2021-09/Streets/Streets2019_Hg.nc Hg0 2015/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 STREETS_HG2 $ROOT/MERCURY/v2021-09/Streets/Streets2019_Hg.nc Hg2 2015/1/1/0 C xy * HgCl2 - 1 1 0 STREETS_HGP $ROOT/MERCURY/v2021-09/Streets/Streets2019_Hg.nc HgP 2015/1/1/0 C xy * Hg2ClP - 1 1 )))STREETS #============================================================================== # EDGAR emissions inventory # Either use total (all sectors) or individual sectors, but not both #============================================================================== (((EDGAR_TOT 0 EDGAR_TOT_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_totals_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 EDGAR_TOT_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_totals_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_TOT_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_totals_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_TOT (((EDGAR_CEM 0 EDGAR_CEM_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_cement_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 EDGAR_CEM_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_cement_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_CEM_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_cement_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_CEM (((EDGAR_CHLOR 0 EDGAR_CHLOR_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_chlor_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 EDGAR_CHLOR_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_chlor_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 )))EDGAR_CHLOR (((EDGAR_COMB_A 0 EDGAR_COMB_A_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_power_ind_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 EDGAR_COMB_A_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_power_ind_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_COMB_A_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_power_ind_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_COMB_A (((EDGAR_COMB_B 0 EDGAR_COMB_B_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_res_oth_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy kg/m2/s Hg0 - 1 1 0 EDGAR_COMB_B_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_res_oth_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_COMB_B_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_comb_res_oth_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_COMB_B (((EDGAR_GLASS 0 EDGAR_GLASS_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_glass_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_GLASS_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_glass_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_GLASS_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_glass_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_GLASS (((EDGAR_GOLDA 0 EDGAR_GOLDA_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_gold_A_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 )))EDGAR_GOLDA (((EDGAR_GOLDB 0 EDGAR_GOLDB_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_gold_L_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_GOLDB_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_gold_L_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_GOLDB_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_gold_L_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_GOLDB (((EDGAR_IRO 0 EDGAR_IRO_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_Iro_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_IRO_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_Iro_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_IRO_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_Iro_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_IRO (((EDGAR_NFEOTH 0 EDGAR_NFEOTH_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_nfe_oth_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_NFEOTH_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_nfe_oth_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_NFEOTH_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_nfe_oth_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_NFEOTH (((EDGAR_SHIP 0 EDGAR_SHIP_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_shipping_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_SHIP_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_shipping_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_SHIP_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_shipping_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_SHIP (((EDGAR_TRO 0 EDGAR_TRO_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_tro_roa_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_TRO_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_tro_roa_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_TRO_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_tro_roa_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_TRO (((EDGAR_WASTE 0 EDGAR_WASTE_HG0 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_waste_$YYYY_Hg.nc emi_hg_g 1970-2012/1/1/0 C xy * Hg0 - 1 1 0 EDGAR_WASTE_HG2 $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_waste_$YYYY_Hg.nc emi_hg_d 1970-2012/1/1/0 C xy * HgCl2 - 1 1 0 EDGAR_WASTE_HGP $ROOT/MERCURY/v2020-07/EDGAR/$YYYY/EDGAR_waste_$YYYY_Hg.nc emi_hg_p 1970-2012/1/1/0 C xy * Hg2ClP - 1 1 )))EDGAR_WASTE #============================================================================== # --- Emissions Controls for Coal Fired Power Plants --- # Only applies to US, Canada, EU, and China # NOTE: Should only be used with the AMAP/UNEP 2010 emissions (AMAP_COMB, # AMAP_INDS, AMAP_CONT set to true) # See Yanxu Zhang et al. 2016 for details #============================================================================== (((EMISS_CONTROLS 0 NPRI2011_HG0 $ROOT/MERCURY/v2014-09/NPRI2011/Hg0.NPRI_2011_def_spec.025x03125.nc Hg0 2011/1/1/0 C xy kg/m2/s Hg0 10/1008 1 2 0 NPRI2011_HG2 $ROOT/MERCURY/v2014-09/NPRI2011/Hg2.NPRI_2011_def_spec.025x03125.nc Hg2 2011/1/1/0 C xy * HgCl2 9/1008 1 2 0 NPRI2011_HGP $ROOT/MERCURY/v2014-09/NPRI2011/HgP.NPRI_2011_def_spec.025x03125.nc HgP 2011/1/1/0 C xy * Hg2ClP 1008 1 2 0 EU_CONT_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 11/1009 1 3 0 EU_INDS_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 1009 1 3 0 EU_INTW_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 1009 1 3 0 EU_CONT_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 9/1009 1 3 0 EU_INDS_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 1009 1 3 0 EU_INTW_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 1009 1 3 0 EU_COMB_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1009 1 3 0 EU_INTW_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1009 1 3 0 EU_INDS_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1009 1 3 0 CHN_CONT_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 12/1006 1 4 0 CHN_INDS_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 1006 1 4 0 CHN_INTW_HG0 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 1006 1 4 0 CHN_CONT_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 9/1006 1 4 0 CHN_INDS_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 1006 1 4 0 CHN_INTW_HG2 $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc Hg2 2010/1/1/0 C xy * HgCl2 1006 1 4 0 CHN_COMB_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_comb.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1006 1 4 0 CHN_INDS_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_inds.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1006 1 4 0 CHN_INTW_HGP $ROOT/MERCURY/v2014-09/AMAP/AMAP_intw.0.5x0.5.2010.nc HgP 2010/1/1/0 C xy * Hg2ClP 1006 1 4 0 NEI2011_HG0 $ROOT/MERCURY/v2014-09/NEI2011/US_NEI2011_Hg0.geos5.05x0666.nc Hg0 2010/1/1/0 C xy kg/m2/s Hg0 1005 1 5 0 NEI2011_HG2 $ROOT/MERCURY/v2014-09/NEI2011/US_NEI2011_Hg2.geos5.05x0666.nc Hg2 2010/1/1/0 C xy * HgCl2 1005 1 5 0 NEI2011_HGP $ROOT/MERCURY/v2014-09/NEI2011/US_NEI2011_HgP.geos5.05x0666.nc HgP 2010/1/1/0 C xy * Hg2ClP 1005 1 5 )))EMISS_CONTROLS #============================================================================== # --- Artisanal mining --- #============================================================================== (((ARTISANAL 0 ARTISANAL_HG0 $ROOT/MERCURY/v2014-09/ARTISANAL/artisanal.geos.4x5.nc Hg0 1985/1/1/0 C xy kg/m2/s Hg0 1 8 1 )))ARTISANAL #============================================================================== # --- Natural emissions --- #============================================================================== (((NATURAL 0 NATURAL_HG0 $ROOT/MERCURY/v2014-09/NATURAL/newnatural.geos.4x5.nc Hg0 1985/1/1/0 C xy kg/m2/s Hg0 2 3 1 )))NATURAL #============================================================================== # --- Soil distribution factor (pointer is imported in mercury_mod.F) --- # # NOTE: Here we use the 4x5 GEOS-FP file, but users may want to change this # for other met fields and resolutions. #============================================================================== (((SOILDIST 0 HG0_SOILDIST $ROOT/MERCURY/v2014-09/SOIL/soilHg.presentday.v11-01.geosfp.4x5.nc HG0_DIST 1985/1/1/0 C xy unitless * - 1 1 )))SOILDIST #============================================================================== # --- QFED2 biomass burning --- #============================================================================== (((QFED2 0 QFED_Hg_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EF xyL=1:PBL kg/m2/s Hg0 54/75/311 5 2 0 QFED_Hg_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EF xyL=PBL:5500m kg/m2/s Hg0 54/75/312 5 2 )))QFED2 ############################################################################### ### 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. ############################################################################### #============================================================================== # --- 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 2003-2016/1-12/1-31/0 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 2003-2016/1-12/1/0-23 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 $ROOT/TIMEZONES/v2015-02/timezones_voronoi_1x1.nc UTC_OFFSET 2000/1/1/0 C xy count * - 1 1 #============================================================================== # --- Meteorology fields --- #============================================================================== (((METEOROLOGY >>>include HEMCO_Config.rc.gmao_metfields )))METEOROLOGY #============================================================================== # --- GEOS-Chem restart file --- #============================================================================== (((GC_RESTART * SPC_ ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 SpeciesRst_?ALL? $YYYY/$MM/$DD/$HH EFYO xyz 1 * - 1 1 * DELPDRY ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Met_DELPDRY $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 * OCEAN_Hg0 ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_OceanHg0 $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * OCEAN_Hg2 ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_OceanHg2 $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * OCEAN_HgP ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_OceanHgP $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * SNOW_HG_OCEAN ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_SnowHgOcean $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * SNOW_HG_LAND ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_SnowHgLand $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * SNOW_HG_OCEAN_STORED ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_SnowHgOceanStored $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 * SNOW_HG_LAND_STORED ./GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_SnowHgLandStored $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 )))GC_RESTART #============================================================================== # --- GEOS-Chem boundary condition file --- #============================================================================== (((GC_BCs * BC_ $ROOT/SAMPLE_BCs/v2019-05/tropchem/GEOSChem.BoundaryConditions.$YYYY$MM$DD_$HH$MNz.nc4 SpeciesBC_?ADV? 1980-2021/1-12/1-31/* EFY xyz 1 * - 1 1 )))GC_BCs (((CHEMISTRY_INPUT #============================================================================== # --- Oxidant fields --- #============================================================================== (((OXIDANT_FIELDS # --- 2016 oxidant fields [molec/cm3] --- # Consider supplying other years as necessary * GLOBAL_Br $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 Br 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_BrO $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 BrO 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_CH4 $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 CH4 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_Cl $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 Cl 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_ClO $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 ClO 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_CO $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 CO 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_HO2 $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 HO2 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_NO $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 NO 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_NO2 $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 NO2 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_O3 $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 O3 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_OH $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 OH 2016/1-12/1/0 C xyz 1 * - 1 1 # --- 2016 aerosol optical depths [unitless] --- # Consider supplying other years as necessary * AOD_BC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_BC 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_BGSULF $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_BGSULF 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST1 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST1 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST2 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST2 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST3 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST3 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST4 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST5 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST5 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST6 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST6 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_DST7 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_DST7 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_ICEI $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_ICEI 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_OC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_OC 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_SO4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_SO4 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_SSA $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_SSA 2016/1-12/1/0 C xyz 1 * - 1 1 * AOD_SSC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 AOD_SSC 2016/1-12/1/0 C xyz 1 * - 1 1 # --- 2016 aerosol areas [cm2/cm3] --- # Consider supplying other years as necessary * Area_BC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_BC 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_BGSULF $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_BGSULF 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST1 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST1 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST2 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST2 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST3 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST3 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST4 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST5 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST5 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST6 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST6 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_DST7 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_DST7 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_ICEI $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_ICEI 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_OC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_OC 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_SO4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_SO4 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_SSA $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_SSA 2016/1-12/1/0 C xyz 1 * - 1 1 * Area_SSC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Area_SSC 2016/1-12/1/0 C xyz 1 * - 1 1 # --- 2016 aerosol radii [cm] --- # Consider supplying other years as necessary * Radi_BC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_BC 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_BGSULF $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_BGSULF 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST1 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST1 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST2 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST2 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST3 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST3 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST4 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST5 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST5 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST6 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST6 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_DST7 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_DST7 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_ICEI $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_ICEI 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_OC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_OC 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_SO4 $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_SO4 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_SSA $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_SSA 2016/1-12/1/0 C xyz 1 * - 1 1 * Radi_SSC $ROOT/MERCURY/v2022-04/Aerosols_for_Hg_sim_2016.nc4 Radi_SSC 2016/1-12/1/0 C xyz 1 * - 1 1 # --- Other fields --- # fOA and RH (2016) and ocean_conc (2007) are unitless; PM25 (2016) is in [ug/m3] # Consider supplying other years as necessary * GLOBAL_fOA $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 fOA 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_OCEAN $ROOT/MERCURY/v2018-04/ocean_fixed.nc ocean_conc 2007/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_PM25 $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 PM25 2016/1-12/1/0 C xyz 1 * - 1 1 * GLOBAL_RH $ROOT/MERCURY/v2022-04/Oxidants_for_Hg_sim_2016.nc4 RH 2016/1-12/1/0 C xyz 1 * - 1 1 )))OXIDANT_FIELDS #============================================================================== # --- BrOx fields -- #============================================================================== (((BrOx_GC * Br_GC $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_Br 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * BrO_GC $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_BrO 2010-2019/1-12/1/0 C xyz 1 * - 1 1 )))BrOx_GC (((.not.BrOx_GC * Br_TOMCAT $ROOT/MERCURY/v2014-09/BrOx/BrOx.GMI.geos5.2x25.nc LBRO2N 1985/1-12/1/0 C xyz pptv * - 1 1 * BrO_TOMCAT $ROOT/MERCURY/v2014-09/BrOx/BrOx.GMI.geos5.2x25.nc LBRO2H 1985/1-12/1/0 C xyz pptv * - 1 1 ))).not.BrOx_GC #============================================================================== # --- J-value fields --- #============================================================================== (((JBrO * JBrO $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.JValues.$YYYY$MM$DD_0000z.nc4 Jval_BrO 2010-2019/1-12/1/0 C xyz 1 * - 1 1 )))JBrO (((LRED_JNO2 * JNO2 $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.JValues.$YYYY$MM$DD_0000z.nc4 Jval_NO2 2010-2019/1-12/1/0 C xyz 1 * - 1 1 )))LRED_JNO2 #============================================================================== # --- Aerosol data for Hg2 partitioning --- #============================================================================== (((AERO_HG2_PARTITION * AERO_SO4 $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_SO4 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_NH4 $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_NH4 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_NIT $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_NIT 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_BCPI $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_BCPI 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_BCPO $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_BCPO 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_OCPI $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_OCPI 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_OCPO $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_OCPO 2010-2019/1-12/1/0 C xyz 1 * - 1 1 * AERO_DST1 $ROOT/GCClassic_Output/13.0.0/$YYYY/GEOSChem.SpeciesConc.$YYYY$MM$DD_0000z.nc4 SpeciesConc_DST1 2010-2019/1-12/1/0 C xyz 1 * - 1 1 )))AERO_HG2_PARTITION #============================================================================== # --- Data for the ocean mercury module --- #============================================================================== (((OCEAN_Hg * OCEAN_CHLA $ROOT/CHLA/v2014-07/Chl_2003.geos.1x1.nc CHLA 2003/1-12/1/0 C xy kg/m3 * - 1 1 * OCEAN_CHLA_A $ROOT/MERCURY/v2014-09/OCEAN/CHL_ocn_2009.geos.2x25.nc CHLO_A 2009/1-12/1/0 C xy 1 * - 1 1 * OCEAN_EKMAN_V $ROOT/MERCURY/v2014-09/OCEAN/ekman_upvel.geos.2x25.nc EKMAN_V 1985/1-12/1/0 C xy m/s * - 1 1 * OCEAN_MLD $ROOT/MERCURY/v2014-09/OCEAN/MLD_DReqDT.geos.2x25.nc MLD 1985/1-12/1/0 C xy m * - 1 1 * OCEAN_NPP $ROOT/MERCURY/v2014-09/OCEAN/NPP_2003.geos.2x25.nc NPP 2003/1-12/1/0 C xy kg/m2 * - 1 1 * OCEAN_NPP_A $ROOT/MERCURY/v2014-09/OCEAN/NPP_ocn_2009.geos.2x25.nc NPP_A 2009/1-12/1/0 C xy 1 * - 1 1 * OCEAN_dMLD1 $ROOT/MERCURY/v2014-09/OCEAN/dMLD1_DreqDT.geos.2x25.nc dMLD1 1985/1-12/1/0 C xy cm/s * - 1 1 * OCEAN_dMLD2 $ROOT/MERCURY/v2014-09/OCEAN/dMLD2_DreqDT.geos.2x25.nc dMLD2 1985/1-12/1/0 C xy cm/s * - 1 1 )))OCEAN_Hg #============================================================================== # --- TOMS/SBUV overhead ozone columns --- #============================================================================== (((TOMS_SBUV_O3 * TOMS_O3_COL $ROOT/TOMS_SBUV/v2015-03/TOMS_O3col_$YYYY.geos.1x1.nc TOMS 1971-2010/1-12/1/0 C xy dobsons * - 1 1 * TOMS_O3_PD $ROOT/TOMS_SBUV/v2015-03/TOMS_O3col_presentday.geos.2x25.nc TOMS_PD 1985/1-12/1/0 C xy dobsons * - 1 1 * TOMS_O3_LT $ROOT/TOMS_SBUV/v2015-03/TOMS_O3col_longterm.geos.2x25.nc TOMS_LT 1985/1-12/1/0 C xy dobsons * - 1 1 )))TOMS_SBUV_O3 )))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 ### END SECTION BASE EMISSIONS ### ############################################################################### ### BEGIN SECTION SCALE FACTORS ############################################################################### # ScalID Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Oper # --- Scale factors for anthropogenic, artisinal, and soil emissions --- 1 ARTISANALSCALE 0.75 - - - xy 1 1 2 SOILSCALE 0.5 - - - xy 1 1 3 ZHANGZHAO_0 1.120 - - - xy 1 1 4 ZHANGZHAO_2 2.467 - - - xy 1 1 5 ZHANGZHAO_P 0.557 - - - xy 1 1 6 CHAKRABORTY_0 1.401 - - - xy 1 1 7 CHAKRABORTY_2 2.120 - - - xy 1 1 8 CHAKRABORTY_P 2.856 - - - xy 1 1 9 EMISSCONT_2 0.5 - - - xy 1 1 10 NPRI_CONT_0 1.343 - - - xy 1 1 11 EU_CONT_0 1.396 - - - xy 1 1 12 CHN_CONT_0 1.400 - - - xy 1 1 54 COtoHg0_BB 7.16e-7 - - - xy 1 1 #============================================================================== # --- QFED2 diurnal scale factors --- # # Fire diurnal scaling factors (% per hour) from WRAP Report to Project # No. 178-6, July 2005 #============================================================================== 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 #============================================================================== # --- QFED vertical partitioning --- # Following Fischer et al. (2014) and Travis et al. (2016), emit 35% of QFED # emissions above the PBL. #============================================================================== 311 QFED_PBL_FRAC 0.65 - - - xy 1 1 312 QFED_FT_FRAC 0.35 - - - xy 1 1 ### END SECTION SCALE FACTORS ### ############################################################################### ### BEGIN SECTION MASKS ############################################################################### # ScalID Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Oper Lon1/Lat1/Lon2/Lat2 #============================================================================== # Country/region masks #============================================================================== 1005 USA_MASK $ROOT/MASKS/v2014-07/USA_mask.geos.1x1.nc MASK 1985/1/1/0 C xy 1 1 -140/10/-40/70 1006 CHINA_MASK $ROOT/MASKS/v2014-07/China_mask.generic.1x1.nc MASK 1985/1/1/0 C xy 1 1 70/15/125/50 1007 INDIA_MASK $ROOT/MASKS/v2014-07/India_mask.generic.1x1.nc MASK 1985/1/1/0 C xy 1 1 65/5/100/35 1008 CANADA_MASK $ROOT/MASKS/v2014-07/Canada_mask.gen.1x1.nc MASK 2000/1/1/0 C xy 1 1 -130/45/-50/85 1009 EUROPE_MASK $ROOT/MASKS/v2014-07/EU_mask.generic.1x1.nc MASK 1985/1/1/0 C xy 1 1 20/35/50/80 ### END SECTION MASKS ### ### END OF HEMCO INPUT FILE ### #EOC