From 546ad5a93e5ff6af707e00804bc7c72e8d4e3d11 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 15:59:06 +0000 Subject: [PATCH 01/36] Add config files --- .github/dev/config/HEMCO_Config.rc | 4553 ++++++++++++++++++++++ .github/dev/config/HEMCO_Diagn.rc | 762 ++++ .github/dev/config/HISTORY.rc | 1355 +++++++ .github/dev/config/geoschem_config.yml | 462 +++ .github/dev/config/species_database.yml | 4708 +++++++++++++++++++++++ 5 files changed, 11840 insertions(+) create mode 100644 .github/dev/config/HEMCO_Config.rc create mode 100644 .github/dev/config/HEMCO_Diagn.rc create mode 100644 .github/dev/config/HISTORY.rc create mode 100644 .github/dev/config/geoschem_config.yml create mode 100644 .github/dev/config/species_database.yml diff --git a/.github/dev/config/HEMCO_Config.rc b/.github/dev/config/HEMCO_Config.rc new file mode 100644 index 0000000..b43f04f --- /dev/null +++ b/.github/dev/config/HEMCO_Config.rc @@ -0,0 +1,4553 @@ +#------------------------------------------------------------------------------ +# 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: +# 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: /home/joe/data/giss-gc/ExtData/HEMCO +GCAPSCENARIO: not_used +GCAPVERTRES: 47 +Logfile: * +DiagnFile: HEMCO_Diagn.rc +DiagnPrefix: ./OutputDir/HEMCO_diagnostics +DiagnFreq: Monthly +Wildcard: * +Separator: / +Unit tolerance: 1 +Negative values: 0 +Only unitless scale factors: false +Verbose: 3 +Warning: 3 +VerboseOnCores: root # Accepted values: root all + +### END SECTION SETTINGS ### + +############################################################################### +### BEGIN SECTION EXTENSION SWITCHES +############################################################################### +# ExtNr ExtName on/off Species Years avail. +0 Base : on * +# ----- MAIN SWITCHES --------------------------------------------------------- + --> EMISSIONS : true + --> METEOROLOGY : false # 1980-2021 + --> CHEMISTRY_INPUT : true +# ----- RESTART FIELDS -------------------------------------------------------- + --> GC_RESTART : true + --> HEMCO_RESTART : true +# ----- NESTED GRID FIELDS ---------------------------------------------------- + --> GC_BCs : false +# ----- REGIONAL INVENTORIES -------------------------------------------------- + --> APEI : false # 1989-2014 + --> NEI2016_MONMEAN : false # 2002-2020 + --> DICE_Africa : false # 2013 +# ----- GLOBAL INVENTORIES ---------------------------------------------------- + --> CEDSv2 : true # 1750-2019 + --> CEDS_GBDMAPS : false # 1970-2017 + --> CEDS_GBDMAPS_byFuelType: false # 1970-2017 + --> EDGARv43 : false # 1970-2010 + --> HTAPv3 : false # 2000-2018 + --> GEIA_NH3 : true # 1990 + --> SEABIRD_NH3 : true # 1990 + --> POET_EOH : false # 1985 + --> TZOMPASOSA_C2H6 : true # 2010 + --> XIAO_C3H8 : true # 1985 + --> LIANG_BROMOCARB : true # 2000 + --> ORDONEZ_IODOCARB : true # 2000 + --> DECAYING_PLANTS : true # 1985 + --> AFCID : true # 2015 +# ----- AIRCRAFT EMISSIONS ---------------------------------------------------- +# There are 3 switches: +# +# 1. AEIC2019_DAILY selects daily AEIC 2019 emissions. For most simulations, +# this is not recommended due to the amount of computational overhead +# that will be incurred in regridding. But this may be useful for +# research purposes. Recommended setting: "AEIC2019_DAILY: false". +# +# 2. AEIC2019_MONMEAN selects monthly-mean AEIC 2019 emisisons, which will +# incur much less computational overhaead. This option should suffice +# for most simulations. Recommended setting "AEIC2019_MONMEAN: true". +# +# 3. AEIC_SCALE_1990_2019: If "false", the AEIC 2019 data from the year +# 2019 alone will be used. This will yield a "best estimate" of +# aviation emisssion. This could be important because simply scaling +# aviation emissions up and down is rather nonphysical. But if +# AEIC_SCALE_1990_2019 is set to true, then aviation emissions for +# 1990 to 2019 are estimated by: +# +# a. Scaling ALL aviation emissions based on the growth in fuelburn +# from 1990 to 2019* estimated by Lee et al. (2021); and +# +# b. Scaling aviation NOx emissions by an additional factor to reflect +# the changes in the NOx emissions index over the same period as +# reported by Lee et al. (2021). +# +# Recommended setting: "AEIC_SCALE_1990_2019: true" +# +# See additional notes in the AEIC scale factor section below. +#------------------------------------------------------------------------------ + --> AEIC2019_DAILY : false # 2019 (daily data) + --> AEIC2019_MONMEAN : true # 2019 (monthly-mean data) + --> AEIC_SCALE_1990_2019 : true # Scale to year in 1990-2019 +# ----- SHIP EMISSIONS -------------------------------------------------------- + --> SHIP : true + --> CEDSv2_SHIP : true # 1750-2017 + --> CEDS_GBDMAPS_SHIP : false # 1970-2017 + --> CEDS_GBDMAPS_SHIP_byFuelType: false # 1970-2017 + --> HTAPv3_SHIP : false # 2000-2018 + --> ICOADS_SHIP : false # 2002 + --> ARCTAS_SHIP : false # 2008 + --> CORBETT_SHIP : false # 1985 +# ----- RCP 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 / BOUNDARY CONDITIONS -------------------------- +# Set GCAPSCENARIO (e.g., HIST, SSP585) above in SECTION SETTINGS + --> CMIP6_SFC_BC : false # 1750-2100 + --> CMIP6_SFC_LAND_ANTHRO : false # 1850-2100 + --> CMIP6_AIRCRAFT : false # 1850-2100 + --> CMIP6_SHIP : false # 1850-2100 +# ----- BIOMASS BURNING EMISSIONS --------------------------------------------- + --> QFED2 : false # 2000-2020 + --> GFAS : false # 2003-2021 + --> BB4MIPS : false # 1850-2100 + --> GFED4_CLIMATOLOGY : false # If true, turn off GFED ext below +# ----- OFFLINE EMISSIONS ----------------------------------------------------- +# To use online emissions instead set the offline emissions to 'false' and the +# corresponding HEMCO extension to 'on': +# OFFLINE_DUST - DustDead or DustGinoux +# OFFLINE_BIOGENICVOC - MEGAN +# OFFLINE_SEASALT - SeaSalt +# OFFLINE_SOILNOX - SoilNOx +# +# NOTE: When switching between offline and online emissions, make sure to also +# update ExtNr and Cat in HEMCO_Diagn.rc to properly save out emissions for +# any affected species. +#------------------------------------------------------------------------------ + --> OFFLINE_DUST : true # 1980-2019 + --> OFFLINE_BIOGENICVOC : true # 1980-2020 + --> OFFLINE_SEASALT : true # 1980-2019 + --> CalcBrSeasalt : true + --> OFFLINE_SOILNOX : true # 1980-2020 +# ----- NON-EMISSIONS DATA ---------------------------------------------------- + --> UVALBEDO : true # 1985 + --> CCM_STRAT_Bry : false # 2007 + --> GMI_OH : false # 2005 + --> GMI_PROD_LOSS : false # 2005 + --> OMOC_RATIO : false # 2010 + --> GMD_SFC_CH4 : true # 1979-2020 + --> CMIP6_SFC_CH4 : false # 1750-1978 + --> OLSON_LANDMAP : true # 1985 + --> YUAN_MODIS_LAI : true # 2000-2020 + --> RRTMG : false # 2002 + --> SfcVMR : true # 1750-2014 + --> OCEAN_O3_DRYDEP : true # 1985 +# ----------------------------------------------------------------------------- +100 Custom : off - +101 SeaFlux : on DMS/ACET/ALD2/MENO3/ETNO3/MOH +102 ParaNOx : on NO/NO2/O3/HNO3 + --> LUT data format : nc + --> LUT source dir : $ROOT/PARANOX/v2015-02 +103 LightNOx : on NO + --> LightningClimatology : false + --> CDF table : $ROOT/LIGHTNOX/v2014-07/light_dist.ott2010.dat +104 SoilNOx : off NO + --> Use fertilizer NOx : true +105 DustDead : off DST1/DST2/DST3/DST4 + --> Mass tuning factor : 7.8533e-4 +106 DustGinoux : off DST1/DST2/DST3/DST4 +107 SeaSalt : off SALA/SALC/SALACL/SALCCL/SALAAL/SALCAL/BrSALA/BrSALC/MOPO/MOPI + --> SALA lower radius : 0.01 + --> SALA upper radius : 0.5 + --> SALC lower radius : 0.5 + --> SALC upper radius : 8.0 + --> Reduce SS cold water : true + --> Blowing Snow SS : true + --> NH FYI snow salinity : 0.1 + --> NH MYI snow salinity : 0.05 + --> SH FYI snow salinity : 0.03 + --> SH MYI snow salinity : 0.015 + --> NH snow age : 3.0 + --> SH snow age : 1.5 + --> N per snowflake : 5.0 + --> Model sea salt Br- : true + --> Br- mass ratio : 2.11e-3 +108 MEGAN : on ISOP/ACET/PRPE/C2H4/ALD2/MOH/EOH/MTPA/MTPO/LIMO/SESQ/SOAP/SOAS + --> Isoprene scaling : 1.0 + --> CO2 inhibition : true + --> CO2 conc (ppmv) : 390.0 + --> Isoprene to SOAP : 0.015 + --> Isoprene to SOAS : 0.015 + --> Monoterp to SOAP : 0.050 + --> Monoterp to SOAS : 0.050 + --> Othrterp to SOAP : 0.050 + --> Othrterp to SOAS : 0.050 +111 GFED : on NO/CO/ALK4/ACET/MEK/ALD2/PRPE/C2H2/C2H4/C3H8/CH2O/C2H6/SO2/NH3/BCPO/BCPI/OCPO/OCPI/POG1/POG2/MTPA/BENZ/TOLU/XYLE/NAP/EOH/MOH/SOAP/FURA/PHEN/MVK/ISOP/ACTA/MGLY/GLYX/RCHO + --> 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 + --> CO to SOAP : 0.013 + --> GFED_subgrid_coag : false +#see the note near scale factor 281 for the source of this emis factor +114 FINN : off NO/CO/ALK4/ACET/MEK/ALD2/PRPE/C2H2/C2H4/C3H8/CH2O/C2H6/SO2/NH3/BCPI/BCPO/OCPI/OCPO/GLYC/HAC/SOAP + --> FINN_daily : false + --> Scaling_CO : 1.0 + --> Scaling_SOAP : 0.013 + --> hydrophilic BC : 0.2 + --> hydrophilic OC : 0.5 + --> FINN_subgrid_coag : false +115 DustAlk : off DSTAL1/DSTAL2/DSTAL3/DSTAL4 +117 Volcano : on SO2 + --> Volcano_Source : AeroCom + --> Volcano_Table : $ROOT/VOLCANO/v2021-09/$YYYY/$MM/so2_volcanic_emissions_Carns.$YYYY$MM$DD.rc + --> Volcano_Climatology : $ROOT/VOLCANO/v2021-09/so2_volcanic_emissions_CARN_v202005.degassing_only.rc +120 Inorg_Iodine : on HOI/I2 + --> Emit HOI : true + --> Emit I2 : true +130 TOMAS_Jeagle : off SS01/SS02/SS03/SS04/SS05/SS06/SS07/SS08/SS09/SS10/SS11/SS12/SS13/SS14/SS15/SS16/SS17/SS18/SS19/SS20/SS21/SS22/SS23/SS24/SS25/SS26/SS27/SS28/SS29/SS30/SS31/SS32/SS33/SS34/SS35/SS36/SS37/SS38/SS39/SS40 + --> Reduce SS cold water : true + --> Blowing Snow SS : true + --> NH FYI snow salinity : 0.1 + --> NH MYI snow salinity : 0.05 + --> SH FYI snow salinity : 0.03 + --> SH MYI snow salinity : 0.015 + --> NH snow age : 3.0 + --> SH snow age : 1.5 + --> N per snowflake : 1.0 + --> Model sea salt Br- : false + --> Br- mass ratio : 2.11e-3 +131 TOMAS_DustDead : off DUST01/DUST02/DUST03/DUST04/DUST05/DUST06/DUST07/DUST08/DUST09/DUST10/DUST11/DUST12/DUST13/DUST14/DUST15/DUST16/DUST17/DUST18/DUST19/DUST20/DUST21/DUST22/DUST23/DUST24/DUST25/DUST26/DUST27/DUST28/DUST29/DUST30/DUST31/DUST32/DUST33/DUST34/DUST35/DUST36/DUST37/DUST38/DUST39/DUST40 + --> Mass tuning factor : 7.8533e-4 +### END SECTION EXTENSION SWITCHES ### + +############################################################################### +### BEGIN SECTION BASE EMISSIONS +############################################################################### + +# ExtNr Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Species ScalIDs Cat Hier + +(((EMISSIONS + +#============================================================================== +# --- APEI (Canada) --- +#============================================================================== +(((APEI +0 APEI_NO $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc NOx 1989-2014/1/1/0 RF xy kg/m2/s NO 25/1002/115 1 30 +0 APEI_CO $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc CO 1989-2014/1/1/0 RF xy kg/m2/s CO 26/52/1002 1 30 +0 APEI_SOAP - - - - - - SOAP 26/52/1002/280 1 30 +0 APEI_SO2 $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc SOx 1989-2014/1/1/0 RF xy kg/m2/s SO2 60/1002 1 30 +0 APEI_SO4 - - - - - - SO4 60/65/1002 1 30 +0 APEI_pFe - - - - - - pFe 60/68/1002 1 30 +0 APEI_NH3 $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc NH3 1989-2014/1/1/0 RF xy kg/m2/s NH3 1002 1 30 +0 APEI_BCPI $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc EC 1989-2014/1/1/0 RF xy kg/m2/s BCPI 70/1002 1 30 +0 APEI_BCPO $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc EC 1989-2014/1/1/0 RF xy kg/m2/s BCPO 71/1002 1 30 +0 APEI_OCPI $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc OC 1989-2014/1/1/0 RF xy kg/m2/s OCPI 72/1002 1 30 +0 APEI_OCPO $ROOT/APEI/v2016-11/APEI.0.1x0.1.nc OC 1989-2014/1/1/0 RF xy kg/m2/s OCPO 73/1002 1 30 +0 APEI_POG1 - - - - - - POG1 74/76/1002 1 30 +0 APEI_POG2 - - - - - - POG2 74/77/1002 1 30 +)))APEI + +#============================================================================== +# --- EPA NEI2016 v1 (USA) --- +# +# NOTES: +# * Barron Henderson wrote, "The EPA emission modeling platform always +# includes our best estimate of that year's emissions for Canada and Mexico +# (othpt, othar, ptfire_oth). Using that estimate is likely good. However, +# that can lead to a discontinuity in Mexico and Canada." +# - By default only emissions over the CONUS are used (via Mask #1007) +# - To include emissions over Canada and Mexico, users may revert to the old +# US mask file $ROOT/MASKS/v2018-09/USA_LANDMASK_NEI2011_0.1x0.1.20160921.nc +# * The base year of these emissions is 2016 and emissions are scaled to +# 2002-2020 using data from the EPA Trends Report for Tier 1 CAPS (obtained +# 21 Sep 2021). +# - See NEI2016/v2021-06/national_tier1_caps+HEMCOscaling.xlsx for details. +# - Cl2 and HCl emissions are only available for 2016 because those species +# aren't included in the Tier 1 CAPS file/ +#============================================================================== +(((NEI2016_MONMEAN +0 EPA16_BCPI__afdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__afdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__afdustPNA $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__afdustPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__afdustPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__afdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__afdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__afdustPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__afdustPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_SO4__afdustPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_afdust_adj_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_ACET__agACET $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__agALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__agALDX $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__agBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_C2H4__agETH $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__agETHA $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__agETOH $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__agFORM $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_PRPE__agIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__agKET $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__agMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__agNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_PRPE__agOLE $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__agPAR $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_C3H8__agPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_TOLU__agTOL $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__agXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_ag_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__airportsACET $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__airportsACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__airportsALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__airportsALDX $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__airportsBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__airportsCO $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__airportsSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__airportsETH $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__airportsETHA $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__airportsETOH $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__airportsFORM $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__airportsHONO $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__airportsIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__airportsKET $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__airportsMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NO__airportsNO $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__airportsNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__airportsOLE $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__airportsPAR $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__airportsPEC $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__airportsPEC $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__airportsPNA $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__airportsPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__airportsPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__airportsPOC $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__airportsPOC $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__airportsPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__airportsPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__airportsPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__airportsPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__airportsSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__airportspFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__airportsSULF $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__airportsTOL $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__airportsXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_airports_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__nonptACET $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__nonptACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__nonptALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__nonptALDX $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__nonptBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__nonptCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf CL2 2016/1-12/1/0 R xy kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__nonptCO $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__nonptSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__nonptETH $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__nonptETHA $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__nonptETOH $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__nonptFORM $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HCl__nonptHCL $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf HCL 2016/1-12/1/0 R xy kg/m2/s HCl 1007 1 50 +0 EPA16_HNO2__nonptHONO $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__nonptIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__nonptKET $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__nonptMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__nonptNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__nonptNO $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__nonptNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__nonptOLE $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__nonptPAR $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__nonptPEC $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__nonptPEC $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__nonptPNA $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__nonptPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__nonptPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__nonptPOC $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__nonptPOC $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__nonptPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__nonptPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__nonptPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__nonptPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__nonptSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__nonptpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__nonptSULF $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__nonptTOL $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__nonptXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_nonpt_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__nonroadACET $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__nonroadACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__nonroadALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__nonroadALDX $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__nonroadBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__nonroadCO $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__nonroadSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__nonroadETH $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__nonroadETHA $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__nonroadETOH $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__nonroadFORM $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__nonroadHONO $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__nonroadIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__nonroadKET $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__nonroadMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__nonroadNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__nonroadNO $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__nonroadNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__nonroadOLE $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__nonroadPAR $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__nonroadPEC $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__nonroadPEC $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__nonroadPNA $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__nonroadPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__nonroadPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__nonroadPOC $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__nonroadPOC $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__nonroadPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__nonroadPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__nonroadPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__nonroadPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__nonroadSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__nonroadspFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__nonroadSULF $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__nonroadTOL $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__nonroadXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_nonroad_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__npogACET $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__npogACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__npogALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__npogALDX $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__npogBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__npogCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf CL2 2016/1-12/1/0 R xy kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__npogCO $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__npogSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__npogETH $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__npogETHA $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__npogETOH $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__npogFORM $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__npogHONO $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__npogIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__npogKET $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__npogMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__npogNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__npogNO $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__npogNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__npogOLE $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__npogPAR $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__npogPEC $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__npogPEC $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__npogPNA $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__npogPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__npogPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__npogPOC $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__npogPOC $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__npogPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__npogPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__npogPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__npogPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__npogSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__npogpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__npogSULF $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__npogTOL $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__npogXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_np_oilgas_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__onroadACET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__onroadACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__onroadALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__onroadALDX $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__onroadBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__onroadCO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__onroadSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__onroadETH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__onroadETHA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__onroadETOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__onroadFORM $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__onroadHONO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroadIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__onroadKET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__onroadMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__onroadNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__onroadNO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__onroadNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroadOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__onroadPAR $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__onroadPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__onroadPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__onroadPNA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__onroadPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__onroadPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__onroadPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__onroadPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__onroadPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__onroadPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__onroadPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__onroadPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__onroadSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__onroadpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_TOLU__onroadTOL $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__onroadXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__onroad_caACET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__onroad_caACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__onroad_caALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__onroad_caALDX $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__onroad_caBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__onroad_caCO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP_onroad__caSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__onroad_caETH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__onroad_caETHA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__onroad_caETOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__onroad_caFORM $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__onroad_caHONO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_caIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__onroad_caKET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__onroad_caMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__onroad_caNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__onroad_caNO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__onroad_caNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_caOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__onroad_caPAR $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__onroad_caPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__onroad_caPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__onroad_caPNA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__onroad_caPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__onroad_caPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__onroad_caPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__onroad_caPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__onroad_caPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__onroad_caPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__onroad_caPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__onroad_caPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__onroad_caSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__onroad_capFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_TOLU__onroad_caTOL $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__onroad_caXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_ca_adj_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__railACET $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__railACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__railALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__railALDX $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__railBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__railCO $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__railSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__railETH $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__railETHA $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__railETOH $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__railFORM $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__railHONO $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__railIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__railKET $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__railMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__railNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__railNO $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__railNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__railOLE $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__railPAR $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__railPEC $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__railPEC $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__railPNA $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__railPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__railPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__railPOC $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__railPOC $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__railPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__railPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__railPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__railPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__railSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__railpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__railSULF $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__railTOL $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__railXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_rail_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__rwcACET $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__rwcACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__rwcALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__rwcALDX $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__rwcBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__rwcCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf CL2 2016/1-12/1/0 R xy kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__rwcCO $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__rwcSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__rwcETH $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__rwcETHA $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__rwcETOH $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__rwcFORM $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__rwcHONO $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__rwcIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__rwcKET $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__rwcMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__rwcNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__rwcNO $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__rwcNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__rwcOLE $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__rwcPAR $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__rwcPEC $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__rwcPEC $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__rwcPNA $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__rwcPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__rwcPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__rwcPOC $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__rwcPOC $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__rwcPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__rwcPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__rwcPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__rwcPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__rwcSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__rwcpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__rwcSULF $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__rwcTOL $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__rwcXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_rwc_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__c1c2ACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xyz kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__c1c2ALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xyz kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__c1c2ALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xyz kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__c1c2BENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xyz kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__c1c2CO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xyz kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__clc2SOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__c1c2ETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__c1c2ETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__c1c2ETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xyz kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__c1c2FORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xyz kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__c1c2HONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__c1c2IOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__c1c2KET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xyz kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__c1c2MEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xyz kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__c1c2NH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xyz kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__c1c2NO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xyz kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__c1c2NO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xyz kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__c1c2OLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__c1c2PAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xyz kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__c1c2PEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__c1c2PEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__c1c2PNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__c1c2PNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xyz kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__c1c2PNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xyz kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__c1c2POC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__c1c2POC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__clc2POC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__clc2POC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__c1c2PRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xyz kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__c1c2PSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__c1c2SO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xyz kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__clcpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__c1c2SULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__c1c2TOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xyz kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__c1c2XYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c1c2_12_0pt1degree_3D_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xyz kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__c3ACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xyz kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__c3ALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xyz kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__c3ALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xyz kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__c3BENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xyz kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__c3CO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xyz kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__c3SOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__c3ETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__c3ETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__c3ETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xyz kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__c3FORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xyz kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__c3HONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__c3IOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__c3KET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xyz kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__c3MEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xyz kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__c3NH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xyz kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__c3NO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xyz kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__c3NO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xyz kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__c3OLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__c3PAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xyz kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__c3PEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__c3PEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__c3PNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__c3PNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xyz kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__c3PNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xyz kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__c3POC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__c3POC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__c3POC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__c3POC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__c3PRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xyz kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__c3PSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__c3SO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xyz kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__c2pFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__c3SULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__c3TOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xyz kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__c3XYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_cmv_c3_12_0pt1degree_3D_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xyz kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__pteguACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xyz kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__pteguACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xyz kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__pteguALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xyz kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__pteguALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xyz kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__pteguBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xyz kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__pteguCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf CL2 2016/1-12/1/0 R xyz kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__pteguCO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xyz kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__pteguSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__pteguETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__pteguETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__pteguETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xyz kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__pteguFORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xyz kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HCl__pteguHCL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf HCL 2016/1-12/1/0 R xyz kg/m2/s HCl 1007 1 50 +0 EPA16_HNO2__pteguHONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__pteguIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__pteguKET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xyz kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__pteguMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xyz kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__pteguNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xyz kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__pteguNO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xyz kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__pteguNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xyz kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__pteguOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__pteguPAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xyz kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__pteguPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__pteguPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__pteguPNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__pteguPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xyz kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__pteguPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xyz kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__pteguPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__pteguPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__pteguPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__pteguPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__pteguPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xyz kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__pteguPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__pteguSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xyz kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__ptegupFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__pteguSULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__pteguTOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xyz kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__pteguXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptegu_0pt1degree_3D_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xyz kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__ptogACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xyz kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__ptogACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xyz kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__ptogALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xyz kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__ptogALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xyz kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__ptogBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xyz kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__ptogCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf CL2 2016/1-12/1/0 R xyz kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__ptogCO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xyz kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__ptogSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__ptogETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__ptogETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__ptogETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xyz kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__ptogFORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xyz kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HCl__ptogHCL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf HCL 2016/1-12/1/0 R xyz kg/m2/s HCl 1007 1 50 +0 EPA16_HNO2__ptogHONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__ptogIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__ptogKET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xyz kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__ptogMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xyz kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__ptogNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xyz kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__ptogNO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xyz kgNO2/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__ptogNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xyz kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__ptogOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__ptogPAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xyz kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__ptogPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__ptogPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__ptogPNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__ptogPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xyz kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__ptogPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xyz kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__ptogPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__ptogPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__ptogPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__ptogPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__ptogPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xyz kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__ptogPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__ptogSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xyz kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__ptogpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__ptogSULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__ptogTOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xyz kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__ptogXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_pt_oilgas_allinln_0pt1degree_3D_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xyz kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__ptnonipmACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xyz kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__ptnonipmACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xyz kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__ptnonipmALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xyz kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__ptnonipmALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xyz kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__ptnonipmBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xyz kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_Cl2__ptnonipmCL2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf CL2 2002-2020/1-12/1/0 R xyz kg/m2/s Cl2 1007 1 50 +0 EPA16_CO__ptnonipmCO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xyz kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__ptnonipmSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__ptnonipmETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__ptnonipmETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xyz kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__ptnonipmETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xyz kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__ptnonipmFORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xyz kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HCl__ptnonipmHCL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf HCL 2002-2020/1-12/1/0 R xyz kg/m2/s HCl 1007 1 50 +0 EPA16_HNO2__ptnonipmHONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__ptnonipmIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__ptnonipmKET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xyz kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__ptnonipmMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xyz kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__ptnonipmNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xyz kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__ptnonipmNO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xyz kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__ptnonipmNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xyz kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__ptnonipmOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xyz kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__ptnonipmPAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xyz kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__ptnonipmPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__ptnonipmPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xyz kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__ptnonipmPNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xyz kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__ptnonipmPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xyz kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__ptnonipmPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xyz kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__ptnonipmPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__ptnonipmPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xyz kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__ptnonipmPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__ptnonipmPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__ptnonipmPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xyz kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__ptnonipmPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__ptnonipmSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xyz kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__ptnonipmpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__ptnonipmSULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xyz kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__ptnonipmTOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xyz kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__ptnonipmXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_ptnonipm_allinln_0pt1degree_3D_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xyz kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__onroad_canACET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__onroad_canALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__onroad_canALDX $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__onroad_canBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__onroad_canCO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__onroad_canSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__onroad_canETH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__onroad_canETHA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__onroad_canETOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__onroad_canFORM $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__onroad_canHONO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_canIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__onroad_canKET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__onroad_canMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__onroad_canNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__onroad_canNO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__onroad_canNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_canOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__onroad_canPAR $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__onroad_canPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__onroad_canPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__onroad_canPNA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__onroad_canPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__onroad_canPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__onroad_canPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__onroad_canPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__onroad_canPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__onroad_canPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__onroad_canPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__onroad_canPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__onroad_canSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__onroad_canpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__onroad_canSULF $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__onroad_canTOL $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__onroad_canXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_can_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_ACET__onroad_mexACET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_MACR__onroad_mexACROLEIN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ACROLEIN 2002-2020/1-12/1/0 RF xy kg/m2/s MACR 26/213/254/1007 1 50 +0 EPA16_ALD2__onroad_mexALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__onroad_mexALDX $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__onroad_mexBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__onroad_mexCO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__onroad_mexSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__onroad_mexETH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__onroad_mexETHA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__onroad_mexETOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__onroad_mexFORM $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__onroad_mexHONO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_mexIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__onroad_mexKET $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__onroad_mexMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__onroad_mexNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__onroad_mexNO $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__onroad_mexNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__onroad_mexOLE $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__onroad_mexPAR $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__onroad_mexPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__onroad_mexPEC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__onroad_mexPNA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__onroad_mexPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__onroad_mexPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__onroad_mexPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__onroad_mexPOC $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__onroad_mexPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__onroad_mexPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__onroad_mexPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__onroad_mexPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__onroad_mexSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__onroad_mexpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__onroad_mexSULF $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__onroad_mexTOL $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__onroad_mexXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_onroad_mex_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_BCPI__othafdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__othafdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__othafdustPNA $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__othafdustPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__othafdustPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__othafdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__othafdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__othafdustPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__othafdustPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_SO4__othafdustPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_othafdust_adj_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_ACET__otharACET $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__otharALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__otharALDX $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__otharBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__otharCO $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__otharSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__otharETH $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__otharETHA $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__otharETOH $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__otharFORM $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__otharHONO $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__otharIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__otharKET $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__otharMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__otharNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__otharNO $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__otharNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__otharOLE $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__otharPAR $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__otharPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__otharPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__otharPNA $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__otharPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__otharPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__otharPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__otharPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__otharPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__otharPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__otharPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__otharPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__otharSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__otharpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__otharSULF $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__otharTOL $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__otharXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_othar_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +0 EPA16_BCPI__othptdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__othptdustPEC $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__othptdustPNA $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__othptdustPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__othptdustPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__othptdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__othptdustPOC $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__othptdustPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__othptdustPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_SO4__othptdustPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_othptdust_adj_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_ACET__othptACET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ACET 2002-2020/1-12/1/0 RF xy kg/m2/s ACET 26/213/254/1007 1 50 +0 EPA16_ALD2__othptALD2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ALD2 2002-2020/1-12/1/0 RF xy kg/m2/s ALD2 26/213/254/1007 1 50 +0 EPA16_RCHO__othptALDX $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ALDX 2002-2020/1-12/1/0 RF xy kg/m2/s RCHO 26/213/254/1007 1 50 +0 EPA16_BENZ__othptBENZ $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf BENZ 2002-2020/1-12/1/0 RF xy kg/m2/s BENZ 26/213/254/1007 1 50 +0 EPA16_CO__othptCO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf CO 2002-2020/1-12/1/0 RF xy kg/m2/s CO 26/211/252/1007 1 50 +0 EPA16_SOAP__othptSOAP - - - - - - SOAP 26/211/252/1007/280 1 50 +0 EPA16_C2H4__othptETH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ETH 2002-2020/1-12/1/0 RF xy kg/m2/s C2H4 26/213/254/1007 1 50 +0 EPA16_C2H6__othptETHA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ETHA 2002-2020/1-12/1/0 RF xy kg/m2/s C2H6 26/217/254/1007 1 50 +0 EPA16_EOH__othptETOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf ETOH 2002-2020/1-12/1/0 RF xy kg/m2/s EOH 26/213/254/1007 1 50 +0 EPA16_CH2O__othptFORM $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf FORM 2002-2020/1-12/1/0 RF xy kg/m2/s CH2O 26/213/254/1007 1 50 +0 EPA16_HNO2__othptHONO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf HONO 2002-2020/1-12/1/0 RF xy kg/m2/s HNO2 25/210/251/1007 1 50 +0 EPA16_PRPE__othptIOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf IOLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_MEK__othptKET $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf KET 2002-2020/1-12/1/0 RF xy kg/m2/s MEK 26/214/254/1007 1 50 +0 EPA16_MOH__othptMEOH $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf MEOH 2002-2020/1-12/1/0 RF xy kg/m2/s MOH 26/213/254/1007 1 50 +0 EPA16_NH3__othptNH3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf NH3 2002-2020/1-12/1/0 RF xy kg/m2/s NH3 26/213/253/1007 1 50 +0 EPA16_NO__othptNO $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf NO 2002-2020/1-12/1/0 RF xy kg/m2/s NO 115/25/210/251/1007 1 50 +0 EPA16_NO2__othptNO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf NO2 2002-2020/1-12/1/0 RF xy kg/m2/s NO2 25/210/251/1007 1 50 +0 EPA16_PRPE__othptOLE $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf OLE 2002-2020/1-12/1/0 RF xy kg/m2/s PRPE 26/215/254/1007 1 50 +0 EPA16_ALK4__othptPAR $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PAR 2002-2020/1-12/1/0 RF xy kg/m2/s ALK4 26/212/254/1007 1 50 +0 EPA16_BCPI__othptPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPI 26/221/256/1007/70 1 50 +0 EPA16_BCPO__othptPEC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PEC 2002-2020/1-12/1/0 RF xy kg/m2/s BCPO 26/221/256/1007/71 1 50 +0 EPA16_HNO4__othptPNA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PNA 2002-2020/1-12/1/0 RF xy kg/m2/s HNO4 26/213/251/1007 1 50 +0 EPA16_NH4__othptPNH4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PNH4 2002-2020/1-12/1/0 RF xy kg/m2/s NH4 26/218/255/1007 1 50 +0 EPA16_NIT__othptPNO3 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PNO3 2002-2020/1-12/1/0 RF xy kg/m2/s NIT 26/218/255/1007 1 50 +0 EPA16_OCPI__othptPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPI 26/222/256/1007/72 1 50 +0 EPA16_OCPO__othptPOC $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf POC 2002-2020/1-12/1/0 RF xy kg/m2/s OCPO 26/222/256/1007/73 1 50 +0 EPA16_POG1__othptPOC - - - - - - POG1 26/222/256/1007/74/76 1 50 +0 EPA16_POG2__othptPOC - - - - - - POG2 26/222/256/1007/74/77 1 50 +0 EPA16_C3H8__othptPRPA $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PRPA 2002-2020/1-12/1/0 RF xy kg/m2/s C3H8 26/216/254/1007 1 50 +0 EPA16_SO4__othptPSO4 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf PSO4 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_SO2__othptSO2 $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf SO2 2002-2020/1-12/1/0 RF xy kg/m2/s SO2 26/218/255/1007 1 50 +0 EPA16_pFe__othptpFe - - - - - - pFe 26/218/255/1007/69 1 50 +0 EPA16_SO4__othptSULF $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf SULF 2002-2020/1-12/1/0 RF xy kg/m2/s SO4 26/219/255/1007 1 50 +0 EPA16_TOLU__othptTOL $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf TOL 2002-2020/1-12/1/0 RF xy kg/m2/s TOLU 26/213/254/1007 1 50 +0 EPA16_XYLE__othptXYLMN $ROOT/NEI2016/v2021-06/2016fh_16j_emln_othpt_0pt1degree_month_$MM.ncf XYLMN 2002-2020/1-12/1/0 RF xy kg/m2/s XYLE 26/213/254/1007 1 50 +)))NEI2016_MONMEAN + +#============================================================================== +# --- DICE-Africa emission inventory (Marais and Wiedinmyer, ES&T, 2016) --- +# +# DICE-Africa includes regional (Africa) emissions of biofuel and diffuse +# anthropogenic emissions from cars and motorcycles, biofuels, charcoal making +# and use, backup generators, agricultural waste burning for cooking, gas +# flares, and ad-hoc/informal oil refining. +# +# Other pollution sources (formal industry, power generation using fossil +# fuels) are from the EDGAR v4.3 inventory for CO, SO2, NH3, NOx BC, and OC. +# +# NMVOCs from sources not accounted for in DICE-Africa aren't included here, +# as these emissions are likely to be low compared to the DICE pollution +# sources and RETRO v1 as implemented in GEOS-Chem doesn't distinguish +# emissions by sector/activity. +# +# Emissions for 2013 are defined below, but DICE-Africa also includes +# emissions for 2006. Developers recommend using population change to +# estimate emissions, if users want to use annual trends in pollutant +# emissions to estimate in other years. +#============================================================================== +(((DICE_Africa +# ------------------------ +# Cars +# ------------------------ +0 DICE_CARS_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_CARS_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_CARS_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 1 60 +0 DICE_CARS_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 1 60 +0 DICE_CARS_ISOP $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc ISOP 2013/1/1/0 C xy g/m2/yr ISOP 26/1008 1 60 +0 DICE_CARS_ACET $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc ACET 2013/1/1/0 C xy g/m2/yr ACET 26/1008 1 60 +0 DICE_CARS_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 1 60 +0 DICE_CARS_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 1 60 +0 DICE_CARS_RCHO $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc RCHO 2013/1/1/0 C xy g/m2/yr RCHO 26/1008 1 60 +0 DICE_CARS_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 1 60 +0 DICE_CARS_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 1 60 +0 DICE_CARS_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 1 60 +0 DICE_CARS_SO4 - - - - - - SO4 31/63/1008 1 60 +0 DICE_CARS_pFe - - - - - - pFe 31/78/66/1008 1 60 +0 DICE_CARS_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 1 60 +0 DICE_CARS_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 1 60 +0 DICE_CARS_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 1 60 +0 DICE_CARS_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 1 60 +0 DICE_CARS_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_CARS_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_CARS_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-cars-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008/330 1 60 +0 DICE_CARS_OCPO - - - - - - OCPO 73/1008/330 1 60 +0 DICE_CARS_POG1 - - - - - - POG1 74/76/1008/330 1 60 +0 DICE_CARS_POG2 - - - - - - POG2 74/77/1008/330 1 60 + +# ------------------------ +# Motorcycles +# ------------------------ +0 DICE_MOTORCYCLES_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_MOTORCYCLES_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_MOTORCYCLES_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 1 60 +0 DICE_MOTORCYCLES_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 1 60 +0 DICE_MOTORCYCLES_SO4 - - - - - - SO4 31/63/1008 1 60 +0 DICE_MOTORCYCLES_pFe - - - - - - pFe 31/78/66/1008 1 60 +0 DICE_MOTORCYCLES_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 1 60 +0 DICE_MOTORCYCLES_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 1 60 +0 DICE_MOTORCYCLES_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 1 60 +0 DICE_MOTORCYCLES_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 1 60 +0 DICE_MOTORCYCLES_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 1 60 +0 DICE_MOTORCYCLES_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 1 60 +0 DICE_MOTORCYCLES_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 1 60 +0 DICE_MOTORCYCLES_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_MOTORCYCLES_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_MOTORCYCLES_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-motorcycles-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 1 60 +0 DICE_MOTORCYCLES_OCPO - - - - - - OCPO 73/1008 1 60 +0 DICE_MOTORCYCLES_POG1 - - - - - - POG1 74/76/1008 1 60 +0 DICE_MOTORCYCLES_POG2 - - - - - - POG2 74/77/1008 1 60 + +# ------------------------ +# Backup generators +# ------------------------ +0 DICE_BACKUPGEN_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_BACKUPGEN_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_BACKUPGEN_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 1 60 +0 DICE_BACKUPGEN_NO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc NO2 2013/1/1/0 C xy g/m2/yr NO2 25/30/1008 1 60 +0 DICE_BACKUPGEN_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 1 60 +0 DICE_BACKUPGEN_SO4 - - - - - - SO4 31/63/1008 1 60 +0 DICE_BACKUPGEN_pFe - - - - - - pFe 31/78/66/1008 1 60 +0 DICE_BACKUPGEN_ACET $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc ACET 2013/1/1/0 C xy g/m2/yr ACET 26/1008 1 60 +0 DICE_BACKUPGEN_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 1 60 +0 DICE_BACKUPGEN_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 1 60 +0 DICE_BACKUPGEN_RCHO $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc RCHO 2013/1/1/0 C xy g/m2/yr RCHO 26/1008 1 60 +0 DICE_BACKUPGEN_MVK $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc MVK 2013/1/1/0 C xy g/m2/yr MVK 26/1008 1 60 +0 DICE_BACKUPGEN_MACR $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc MACR 2013/1/1/0 C xy g/m2/yr MACR 26/1008 1 60 +0 DICE_BACKUPGEN_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 1 60 +#0 DICE_BACKUPGEN_MGLY $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc MGLY 2013/1/1/0 C xy g/m2/yr MGLY 26/1008 1 60 +#0 DICE_BACKUPGEN_GLYX $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc GLYX 2013/1/1/0 C xy g/m2/yr GLYX 26/1008 1 60 +0 DICE_BACKUPGEN_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 1 60 +0 DICE_BACKUPGEN_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 1 60 +0 DICE_BACKUPGEN_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 1 60 +0 DICE_BACKUPGEN_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 1 60 +0 DICE_BACKUPGEN_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_BACKUPGEN_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_BACKUPGEN_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-generator-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 1 60 +0 DICE_BACKUPGEN_OCPO - - - - - - OCPO 73/1008 1 60 +0 DICE_BACKUPGEN_POG1 - - - - - - POG1 74/76/1008 1 60 +0 DICE_BACKUPGEN_POG2 - - - - - - POG2 74/77/1008 1 60 + +# ------------------------ +# Charcoal production +# ------------------------ +0 DICE_CHARCOALPROD_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008/320 1 60 +0 DICE_CHARCOALPROD_SOAP - - - - - - SOAP 26/1008/280/320 1 60 +0 DICE_CHARCOALPROD_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008/320 1 60 +0 DICE_CHARCOALPROD_NH3 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc NH3 2013/1/1/0 C xy g/m2/yr NH3 1008/320 1 60 +0 DICE_CHARCOALPROD_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008/320 1 60 +0 DICE_CHARCOALPROD_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008/320 1 60 +0 DICE_CHARCOALPROD_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008/320 1 60 +0 DICE_CHARCOALPROD_HAC $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc HAC 2013/1/1/0 C xy g/m2/yr HAC 26/1008/320 1 60 +0 DICE_CHARCOALPROD_C2H2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc C2H2 2013/1/1/0 C xy g/m2/yr C2H2 26/1008/320 1 60 +0 DICE_CHARCOALPROD_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008/320 1 60 +0 DICE_CHARCOALPROD_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008/320 1 60 +0 DICE_CHARCOALPROD_HCOOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc HCOOH 2013/1/1/0 C xy g/m2/yr HCOOH 26/1008/320 1 60 +0 DICE_CHARCOALPROD_MOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc MOH 2013/1/1/0 C xy g/m2/yr MOH 26/1008/320 1 60 +0 DICE_CHARCOALPROD_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008/320 1 60 +0 DICE_CHARCOALPROD_BCPO - - - - - - BCPO 71/1008/320 1 60 +0 DICE_CHARCOALPROD_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-production-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008/320 1 60 +0 DICE_CHARCOALPROD_OCPO - - - - - - OCPO 73/1008/320 1 60 +0 DICE_CHARCOALPROD_POG1 - - - - - - POG1 74/76/1008/320 1 60 +0 DICE_CHARCOALPROD_POG2 - - - - - - POG2 74/77/1008/320 1 60 + +# ------------------------ +# Flaring of natural gas +# ------------------------ +0 DICE_GASFLARE_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_GASFLARE_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_GASFLARE_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 1 60 +0 DICE_GASFLARE_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 1 60 +0 DICE_GASFLARE_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 1 60 +0 DICE_GASFLARE_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 1 60 +0 DICE_GASFLARE_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 1 60 +0 DICE_GASFLARE_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 1 60 +0 DICE_GASFLARE_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 1 60 +0 DICE_GASFLARE_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 1 60 +0 DICE_GASFLARE_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_GASFLARE_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_GASFLARE_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-gas-flares-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 1 60 +0 DICE_GASFLARE_OCPO - - - - - - OCPO 73/1008 1 60 +0 DICE_GASFLARE_POG1 - - - - - - POG1 74/76/1008 1 60 +0 DICE_GASFLARE_POG2 - - - - - - POG2 74/77/1008 1 60 + +# ------------------------------ +# Ag waste burning for energy +# ------------------------------ +0 DICE_AGBURNING_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 2 60 +0 DICE_AGBURNING_SOAP - - - - - - SOAP 26/1008/280 2 60 +0 DICE_AGBURNING_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 2 60 +0 DICE_AGBURNING_NO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc NO2 2013/1/1/0 C xy g/m2/yr NO2 25/30/1008 2 60 +0 DICE_AGBURNING_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 2 60 +0 DICE_AGBURNING_SO4 - - - - - - SO4 31/63/1008 2 60 +0 DICE_AGBURNING_pFe - - - - - - pFe 31/78/66/1008 2 60 +0 DICE_AGBURNING_NH3 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc NH3 2013/1/1/0 C xy g/m2/yr NH3 1008 2 60 +0 DICE_AGBURNING_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 2 60 +0 DICE_AGBURNING_ISOP $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc ISOP 2013/1/1/0 C xy g/m2/yr ISOP 26/1008 2 60 +0 DICE_AGBURNING_ACET $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc ACET 2013/1/1/0 C xy g/m2/yr ACET 26/1008 2 60 +0 DICE_AGBURNING_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 2 60 +0 DICE_AGBURNING_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 2 60 +0 DICE_AGBURNING_MVK $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc MVK 2013/1/1/0 C xy g/m2/yr MVK 26/1008 2 60 +0 DICE_AGBURNING_MACR $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc MACR 2013/1/1/0 C xy g/m2/yr MACR 26/1008 2 60 +0 DICE_AGBURNING_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 2 60 +0 DICE_AGBURNING_C3H8 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc C3H8 2013/1/1/0 C xy g/m2/yr C3H8 26/1008 2 60 +0 DICE_AGBURNING_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 2 60 +0 DICE_AGBURNING_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008 2 60 +0 DICE_AGBURNING_HAC $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc HAC 2013/1/1/0 C xy g/m2/yr HAC 26/1008 2 60 +0 DICE_AGBURNING_GLYC $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc GLYC 2013/1/1/0 C xy g/m2/yr GLYC 26/1008 2 60 +0 DICE_AGBURNING_MOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc MOH 2013/1/1/0 C xy g/m2/yr MOH 26/1008 2 60 +#0 DICE_AGBURNING_MGLY $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc MGLY 2013/1/1/0 C xy g/m2/yr MGLY 26/1008 2 60 +#0 DICE_AGBURNING_APIN $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc APIN 2013/1/1/0 C xy g/m2/yr APIN 26/1008 2 60 +0 DICE_AGBURNING_C2H2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc C2H2 2013/1/1/0 C xy g/m2/yr C2H2 26/1008 2 60 +0 DICE_AGBURNING_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 2 60 +0 DICE_AGBURNING_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 2 60 +0 DICE_AGBURNING_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 2 60 +0 DICE_AGBURNING_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 2 60 +0 DICE_AGBURNING_HCOOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc HCOOH 2013/1/1/0 C xy g/m2/yr HCOOH 26/1008 2 60 +0 DICE_AGBURNING_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 2 60 +0 DICE_AGBURNING_BCPO - - - - - g/m2/yr BCPO 71/1008 2 60 +0 DICE_AGBURNING_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-crop-residue-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 2 60 +0 DICE_AGBURNING_OCPO - - - - - - OCPO 73/1008 2 60 +0 DICE_AGBURNING_POG1 - - - - - - POG1 74/76/1008 2 60 +0 DICE_AGBURNING_POG2 - - - - - - POG2 74/77/1008 2 60 + +# ------------------------------ +# Charcoal use +# ------------------------------ +0 DICE_CHARCOALUSE_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 2 60 +0 DICE_CHARCOALUSE_SOAP - - - - - - SOAP 26/1008/280 2 60 +0 DICE_CHARCOALUSE_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 2 60 +0 DICE_CHARCOALUSE_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 2 60 +0 DICE_CHARCOALUSE_NH3 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc NH3 2013/1/1/0 C xy g/m2/yr NH3 1008 2 60 +0 DICE_CHARCOALUSE_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 2 60 +0 DICE_CHARCOALUSE_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 2 60 +0 DICE_CHARCOALUSE_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008 2 60 +0 DICE_CHARCOALUSE_C2H2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc C2H2 2013/1/1/0 C xy g/m2/yr C2H2 26/1008 2 60 +0 DICE_CHARCOALUSE_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 2 60 +0 DICE_CHARCOALUSE_HCOOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc HCOOH 2013/1/1/0 C xy g/m2/yr HCOOH 26/1008 2 60 +0 DICE_CHARCOALUSE_MOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc MOH 2013/1/1/0 C xy g/m2/yr MOH 26/1008 2 60 +0 DICE_CHARCOALUSE_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 2 60 +0 DICE_CHARCOALUSE_BCPO - - - - - - BCPO 71/1008 2 60 +0 DICE_CHARCOALUSE_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-charcoal-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 2 60 +0 DICE_CHARCOALUSE_OCPO - - - - - - OCPO 73/1008 2 60 +0 DICE_CHARCOALUSE_POG1 - - - - - - POG1 74/76/1008 2 60 +0 DICE_CHARCOALUSE_POG2 - - - - - - POG2 74/77/1008 2 60 + +# ------------------------------ +# Kerosene use +# ------------------------------ +0 DICE_KEROSENE_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-kerosene-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_KEROSENE_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_KEROSENE_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-kerosene-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_KEROSENE_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_KEROSENE_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-kerosene-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 1 60 +0 DICE_KEROSENE_OCPO - - - - - - OCPO 73/1008 1 60 +0 DICE_KEROSENE_POG1 - - - - - - POG1 74/76/1008 1 60 +0 DICE_KEROSENE_POG2 - - - - - - POG2 74/77/1008 1 60 + +# ------------------------------ +# Artisanal oil refining +# ------------------------------ +0 DICE_OILREFINING_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 1 60 +0 DICE_OILREFINING_SOAP - - - - - - SOAP 26/1008/280 1 60 +0 DICE_OILREFINING_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 1 60 +0 DICE_OILREFINING_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 1 60 +0 DICE_OILREFINING_SO4 - - - - - - SO4 31/63/1008 1 60 +0 DICE_OILREFINING_pFe - - - - - - pFe 31/78/66/1008 1 60 +0 DICE_OILREFINING_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 1 60 +0 DICE_OILREFINING_ACET $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc ACET 2013/1/1/0 C xy g/m2/yr ACET 26/1008 1 60 +0 DICE_OILREFINING_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 1 60 +0 DICE_OILREFINING_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 1 60 +0 DICE_OILREFINING_RCHO $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc RCHO 2013/1/1/0 C xy g/m2/yr RCHO 26/1008 1 60 +0 DICE_OILREFINING_C3H8 $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc C3H8 2013/1/1/0 C xy g/m2/yr C3H8 26/1008 1 60 +0 DICE_OILREFINING_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 1 60 +0 DICE_OILREFINING_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008 1 60 +0 DICE_OILREFINING_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 1 60 +0 DICE_OILREFINING_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 1 60 +0 DICE_OILREFINING_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 1 60 +0 DICE_OILREFINING_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 1 60 +0 DICE_OILREFINING_BCPO - - - - - - BCPO 71/1008 1 60 +0 DICE_OILREFINING_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-adhoc-oil-refining-2006-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 1 60 +0 DICE_OILREFINING_OCPO - - - - - - OCPO 73/1008 1 60 +0 DICE_OILREFINING_POG1 - - - - - - POG1 74/76/1008 1 60 +0 DICE_OILREFINING_POG2 - - - - - - POG2 74/77/1008 1 60 + +# -------------------------- +# Household fuelwood use +# -------------------------- +0 DICE_HOUSEFUELWOOD_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_SOAP - - - - - - SOAP 26/1008/280 2 60 +0 DICE_HOUSEFUELWOOD_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 2 60 +0 DICE_HOUSEFUELWOOD_NO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc NO2 2013/1/1/0 C xy g/m2/yr NO2 25/30/1008 2 60 +0 DICE_HOUSEFUELWOOD_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 2 60 +0 DICE_HOUSEFUELWOOD_SO4 - - - - - - SO4 31/63/1008 2 60 +0 DICE_HOUSEFUELWOOD_pFe - - - - - - pFe 31/78/66/1008 2 60 +0 DICE_HOUSEFUELWOOD_NH3 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc NH3 2013/1/1/0 C xy g/m2/yr NH3 1008 2 60 +0 DICE_HOUSEFUELWOOD_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_ISOP $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc ISOP 2013/1/1/0 C xy g/m2/yr ISOP 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_MVK $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc MVK 2013/1/1/0 C xy g/m2/yr MVK 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_HAC $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc HAC 2013/1/1/0 C xy g/m2/yr HAC 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_GLYC $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc GLYC 2013/1/1/0 C xy g/m2/yr GLYC 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_MOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc MOH 2013/1/1/0 C xy g/m2/yr MOH 26/1008 2 60 +#0 DICE_HOUSEFUELWOOD_MGLY $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc MGLY 2013/1/1/0 C xy g/m2/yr MGLY 26/1008 2 60 +#0 DICE_HOUSEFUELWOOD_APIN $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc APIN 2013/1/1/0 C xy g/m2/yr APIN 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_C2H2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc C2H2 2013/1/1/0 C xy g/m2/yr C2H2 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_HCOOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc HCOOH 2013/1/1/0 C xy g/m2/yr HCOOH 26/1008 2 60 +0 DICE_HOUSEFUELWOOD_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 2 60 +0 DICE_HOUSEFUELWOOD_BCPO - - - - - - BCPO 71/1008 2 60 +0 DICE_HOUSEFUELWOOD_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-household-fuelwood-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 2 60 +0 DICE_HOUSEFUELWOOD_OCPO - - - - - - OCPO 73/1008 2 60 +0 DICE_HOUSEFUELWOOD_POG1 - - - - - - POG1 74/76/1008 2 60 +0 DICE_HOUSEFUELWOOD_POG2 - - - - - - POG2 74/77/1008 2 60 + +# --------------------------------- +# Commercial (other) fuelwood use +# --------------------------------- +0 DICE_OTHERFUELWOOD_CO $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc CO 2013/1/1/0 C xy g/m2/yr CO 26/1008 2 60 +0 DICE_OTHERFUELWOOD_SOAP - - - - - - SOAP 26/1008/280 2 60 +0 DICE_OTHERFUELWOOD_NO $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc NO 2013/1/1/0 C xy g/m2/yr NO 25/30/1008 2 60 +0 DICE_OTHERFUELWOOD_NO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc NO2 2013/1/1/0 C xy g/m2/yr NO2 25/30/1008 2 60 +0 DICE_OTHERFUELWOOD_SO2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc SO2 2013/1/1/0 C xy g/m2/yr SO2 31/78/1008 2 60 +0 DICE_OTHERFUELWOOD_SO4 - - - - - - SO4 31/63/1008 2 60 +0 DICE_OTHERFUELWOOD_pFe - - - - - - pFe 31/78/66/1008 2 60 +0 DICE_OTHERFUELWOOD_NH3 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc NH3 2013/1/1/0 C xy g/m2/yr NH3 1008 2 60 +0 DICE_OTHERFUELWOOD_ALK4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc ALK4 2013/1/1/0 C xy g/m2/yr ALK4 26/1008 2 60 +0 DICE_OTHERFUELWOOD_ISOP $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc ISOP 2013/1/1/0 C xy g/m2/yr ISOP 26/1008 2 60 +0 DICE_OTHERFUELWOOD_MEK $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc MEK 2013/1/1/0 C xy g/m2/yr MEK 26/1008 2 60 +0 DICE_OTHERFUELWOOD_ALD2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc ALD2 2013/1/1/0 C xy g/m2/yr ALD2 26/1008 2 60 +0 DICE_OTHERFUELWOOD_MVK $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc MVK 2013/1/1/0 C xy g/m2/yr MVK 26/1008 2 60 +0 DICE_OTHERFUELWOOD_PRPE $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc PRPE 2013/1/1/0 C xy g/m2/yr PRPE 26/1008 2 60 +0 DICE_OTHERFUELWOOD_CH2O $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc CH2O 2013/1/1/0 C xy g/m2/yr CH2O 26/1008 2 60 +0 DICE_OTHERFUELWOOD_C2H6 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc C2H6 2013/1/1/0 C xy g/m2/yr C2H6 26/1008 2 60 +0 DICE_OTHERFUELWOOD_HAC $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc HAC 2013/1/1/0 C xy g/m2/yr HAC 26/1008 2 60 +0 DICE_OTHERFUELWOOD_GLYC $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc GLYC 2013/1/1/0 C xy g/m2/yr GLYC 26/1008 2 60 +0 DICE_OTHERFUELWOOD_MOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc MOH 2013/1/1/0 C xy g/m2/yr MOH 26/1008 2 60 +#0 DICE_OTHERFUELWOOD_MGLY $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc MGLY 2013/1/1/0 C xy g/m2/yr MGLY 26/1008 2 60 +#0 DICE_OTHERFUELWOOD_APIN $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc APIN 2013/1/1/0 C xy g/m2/yr APIN 26/1008 2 60 +0 DICE_OTHERFUELWOOD_C2H2 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc C2H2 2013/1/1/0 C xy g/m2/yr C2H2 26/1008 2 60 +0 DICE_OTHERFUELWOOD_C2H4 $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc C2H4 2013/1/1/0 C xy g/m2/yr C2H4 26/1008 2 60 +0 DICE_OTHERFUELWOOD_BENZ $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc BENZ 2013/1/1/0 C xy g/m2/yr BENZ 26/1008 2 60 +0 DICE_OTHERFUELWOOD_TOLU $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc TOLU 2013/1/1/0 C xy g/m2/yr TOLU 26/1008 2 60 +0 DICE_OTHERFUELWOOD_XYLE $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc XYLE 2013/1/1/0 C xy g/m2/yr XYLE 26/1008 2 60 +0 DICE_OTHERFUELWOOD_HCOOH $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc HCOOH 2013/1/1/0 C xy g/m2/yr HCOOH 26/1008 2 60 +0 DICE_OTHERFUELWOOD_BCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc BC 2013/1/1/0 C xy g/m2/yr BCPI 70/1008 2 60 +0 DICE_OTHERFUELWOOD_BCPO - - - - - - BCPO 71/1008 2 60 +0 DICE_OTHERFUELWOOD_OCPI $ROOT/DICE_Africa/v2016-10/DICE-Africa-other-fuelwood-use-2013-v01-4Oct2016.nc OC 2013/1/1/0 C xy g/m2/yr OCPI 72/1008 2 60 +0 DICE_OTHERFUELWOOD_OCPO - - - - - - OCPO 73/1008 2 60 +0 DICE_OTHERFUELWOOD_POG1 - - - - - - POG1 74/76/1008 2 60 +0 DICE_OTHERFUELWOOD_POG2 - - - - - - POG2 74/77/1008 2 60 + +# --------------------------------------------------- +# Efficient Combustion Emissions from EDGAR +# This makes up for sources that DICE-Africa lacks +# --------------------------------------------------- +0 AF_EDGAR_BCPI_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.POW.0.1x0.1.nc emi_bc 1970-2010/1/1/0 RF xy kg/m2/s BCPI 1201/1008/70 1 60 +0 AF_EDGAR_BCPO_POW - - - - - - BCPO 1201/1008/71 1 60 +0 AF_EDGAR_BCPI_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.ENG.0.1x0.1.nc emi_bc 1970-2010/1/1/0 RF xy kg/m2/s BCPI 1202/1008/70 1 60 +0 AF_EDGAR_BCPO_ENG - - - - - - BCPO 1202/1008/71 1 60 +0 AF_EDGAR_BCPI_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.IND.0.1x0.1.nc emi_bc 1970-2010/1/1/0 RF xy kg/m2/s BCPI 1203/1008/70 1 60 +0 AF_EDGAR_BCPO_IND - - - - - - BCPO 1203/1008/71 1 60 +0 AF_EDGAR_BCPI_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.TNG.0.1x0.1.nc emi_bc 1970-2010/1/1/0 RF xy kg/m2/s BCPI 1205/1008/70 1 60 +0 AF_EDGAR_BCPO_TNG - - - - - - BCPO 1205/1008/71 1 60 +0 AF_EDGAR_BCPI_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.SWD.0.1x0.1.nc emi_bc 1970-2010/1/1/0 RF xy kg/m2/s BCPI 1211/1008/70 1 60 +0 AF_EDGAR_BCPO_SWD - - - - - - BCPO 1211/1008/71 1 60 + +0 AF_EDGAR_CO_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.POW.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1201/26/52/1008 1 60 +0 AF_EDGAR_SOAP_POW - - - - - - SOAP 1201/26/52/1008/280 1 60 +0 AF_EDGAR_CO_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.ENG.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1202/26/52/1008 1 60 +0 AF_EDGAR_SOAP_ENG - - - - - - SOAP 1202/26/52/1008/280 1 60 +0 AF_EDGAR_CO_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.IND.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1203/26/52/1008 1 60 +0 AF_EDGAR_SOAP_IND - - - - - - SOAP 1203/26/52/1008/280 1 60 +0 AF_EDGAR_CO_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.TNG.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1205/26/52/1008 1 60 +0 AF_EDGAR_SOAP_TNG - - - - - - SOAP 1205/26/52/1008/280 1 60 +0 AF_EDGAR_CO_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.PPA.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1207/26/52/1008 1 60 +0 AF_EDGAR_SOAP_PPA - - - - - - SOAP 1207/26/52/1008/280 1 60 +0 AF_EDGAR_CO_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.SWD.0.1x0.1.nc emi_co 1970-2010/1/1/0 RF xy kg/m2/s CO 1211/26/52/1008 1 60 +0 AF_EDGAR_SOAP_SWD - - - - - - SOAP 1211/26/52/1008/280 1 60 + +0 AF_EDGAR_NO_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.POW.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1201/25/115/1008 1 60 +0 AF_EDGAR_NO_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.ENG.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1202/25/115/1008 1 60 +0 AF_EDGAR_NO_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.IND.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1203/25/115/1008 1 60 +0 AF_EDGAR_NO_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.TNG.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1205/25/115/1008 1 60 +0 AF_EDGAR_NO_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.PPA.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1207/25/115/1008 1 60 +0 AF_EDGAR_NO_AGR $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.AGR.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1208/25/115/1008 1 60 +0 AF_EDGAR_NO_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.SWD.0.1x0.1.nc emi_nox 1970-2010/1/1/0 RF xy kg/m2/s NO 1211/25/115/1008 1 60 + +0 AF_EDGAR_NH3_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.POW.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1201/1008 1 60 +0 AF_EDGAR_NH3_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.ENG.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1202/1008 1 60 +0 AF_EDGAR_NH3_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.IND.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1203/1008 1 60 +0 AF_EDGAR_NH3_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.TNG.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1205/1008 1 60 +0 AF_EDGAR_NH3_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.PPA.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1207/1008 1 60 +0 AF_EDGAR_NH3_AGR $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.AGR.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1208/1008 1 60 +0 AF_EDGAR_NH3_SOL $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.SOL.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1210/1008 1 60 +0 AF_EDGAR_NH3_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.SWD.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 RF xy kg/m2/s NH3 1211/1008 1 60 + +0 AF_EDGAR_OCPI_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.POW.0.1x0.1.nc emi_oc 1970-2010/1/1/0 RF xy kg/m2/s OCPI 1201/1008/72 1 60 +0 AF_EDGAR_OCPO_POW - - - - - - OCPO 1201/1008/73 1 60 +0 AF_EDGAR_POG1_POW - - - - - - POG1 1201/1008/74/76 1 60 +0 AF_EDGAR_POG2_POW - - - - - - POG2 1201/1008/74/77 1 60 +0 AF_EDGAR_OCPI_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.ENG.0.1x0.1.nc emi_oc 1970-2010/1/1/0 RF xy kg/m2/s OCPI 1202/1008/72 1 60 +0 AF_EDGAR_OCPO_ENG - - - - - - OCPO 1202/1008/73 1 60 +0 AF_EDGAR_POG1_ENG - - - - - - POG1 1202/1008/74/76 1 60 +0 AF_EDGAR_POG2_ENG - - - - - - POG2 1202/1008/74/77 1 60 +0 AF_EDGAR_OCPI_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.IND.0.1x0.1.nc emi_oc 1970-2010/1/1/0 RF xy kg/m2/s OCPI 1203/1008/72 1 60 +0 AF_EDGAR_OCPO_IND - - - - - - OCPO 1203/1008/73 1 60 +0 AF_EDGAR_POG1_IND - - - - - - POG1 1203/1008/74/76 1 60 +0 AF_EDGAR_POG2_IND - - - - - - POG2 1203/1008/74/77 1 60 +0 AF_EDGAR_OCPI_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.TNG.0.1x0.1.nc emi_oc 1970-2010/1/1/0 RF xy kg/m2/s OCPI 1205/1008/72 1 60 +0 AF_EDGAR_OCPO_TNG - - - - - - OCPO 1205/1008/73 1 60 +0 AF_EDGAR_POG1_TNG - - - - - - POG1 1205/1008/74/76 1 60 +0 AF_EDGAR_POG2_TNG - - - - - - POG2 1205/1008/74/77 1 60 +0 AF_EDGAR_OCPI_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.SWD.0.1x0.1.nc emi_oc 1970-2010/1/1/0 RF xy kg/m2/s OCPI 1211/1008/72 1 60 +0 AF_EDGAR_OCPO_SWD - - - - - - OCPO 1211/1008/73 1 60 +0 AF_EDGAR_POG1_SWD - - - - - - POG1 1211/1008/74/76 1 60 +0 AF_EDGAR_POG2_SWD - - - - - - POG2 1211/1008/74/77 1 60 + +0 AF_EDGAR_SO2_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.POW.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1201/1008 1 60 +0 AF_EDGAR_SO4_POW - - - - - - SO4 1201/1008/63 1 60 +0 AF_EDGAR_pFe_POW - - - - - - pFe 1201/1008/66 1 60 +0 AF_EDGAR_SO2_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.ENG.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1202/1008 1 60 +0 AF_EDGAR_SO4_ENG - - - - - - SO4 1202/1008/63 1 60 +0 AF_EDGAR_pFe_ENG - - - - - - pFe 1202/1008/66 1 60 +0 AF_EDGAR_SO2_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.IND.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1203/1008 1 60 +0 AF_EDGAR_SO4_IND - - - - - - SO4 1203/1008/63 1 60 +0 AF_EDGAR_pFe_IND - - - - - - pFe 1203/1008/66 1 60 +0 AF_EDGAR_SO2_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.TNG.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1205/1008 1 60 +0 AF_EDGAR_SO4_TNG - - - - - - SO4 1205/1008/63 1 60 +0 AF_EDGAR_pFe_TNG - - - - - - pFe 1205/1008/66 1 60 +0 AF_EDGAR_SO2_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.PPA.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1207/1008 1 60 +0 AF_EDGAR_SO4_PPA - - - - - - SO4 1207/1008/63 1 60 +0 AF_EDGAR_pFe_PPA - - - - - - pFe 1207/1008/66 1 60 +0 AF_EDGAR_SO2_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.SWD.0.1x0.1.nc emi_so2 1970-2010/1/1/0 RF xy kg/m2/s SO2 1211/1008 1 60 +0 AF_EDGAR_SO4_SWD - - - - - - SO4 1211/1008/63 1 60 +0 AF_EDGAR_pFe_SWD - - - - - - pFe 1211/1008/66 1 60 +)))DICE_Africa + +#============================================================================== +# --- CEDS v2 --- +# +# %%% This is the default global inventory. You may select either CEDS, +# EDGAR, HTAPv3 or CMIP6_SFC_LAND_ANTHRO for the global base emissions %%% +#============================================================================== +(((CEDSv2 +0 CEDS_NO_AGR $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_agr 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CEDS_NO_ENE $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s NO 25/315 1 5 +0 CEDS_NO_IND $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s NO 25/316 1 5 +0 CEDS_NO_TRA $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_tra 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CEDS_NO_RCO $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_rco 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CEDS_NO_SLV $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_slv 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CEDS_NO_WST $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_wst 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 1 5 + +0 CEDS_CO_AGR $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_agr 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CEDS_SOAP_AGR - - - - - - SOAP 26/280 1 5 +0 CEDS_CO_ENE $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s CO 26/315 1 5 +0 CEDS_SOAP_ENE - - - - - - SOAP 26/280/315 1 5 +0 CEDS_CO_IND $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s CO 26/316 1 5 +0 CEDS_SOAP_IND - - - - - - SOAP 26/280/316 1 5 +0 CEDS_CO_TRA $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_tra 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CEDS_SOAP_TRA - - - - - - SOAP 26/280 1 5 +0 CEDS_CO_RCO $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_rco 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CEDS_SOAP_RCO - - - - - - SOAP 26/280 1 5 +0 CEDS_CO_SLV $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_slv 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CEDS_SOAP_SLV - - - - - - SOAP 26/280 1 5 +0 CEDS_CO_WST $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_wst 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CEDS_SOAP_WST - - - - - - SOAP 26/280 1 5 + +0 CEDS_SO2_AGR $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_agr 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CEDS_SO4_AGR - - - - - - SO4 63 1 5 +0 CEDS_pFe_AGR - - - - - - pFe 66 1 5 +0 CEDS_SO2_ENE $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s SO2 315 1 5 +0 CEDS_SO4_ENE - - - - - - SO4 63/315 1 5 +0 CEDS_pFe_ENE - - - - - - pFe 66/315 1 5 +0 CEDS_SO2_IND $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s SO2 316 1 5 +0 CEDS_SO4_IND - - - - - - SO4 63/316 1 5 +0 CEDS_pFe_IND - - - - - - pFe 66/316 1 5 +0 CEDS_SO2_TRA $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_tra 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CEDS_SO4_TRA - - - - - - SO4 63 1 5 +0 CEDS_pFe_TRA - - - - - - pFe 66 1 5 +0 CEDS_SO2_RCO $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_rco 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CEDS_SO4_RCO - - - - - - SO4 63 1 5 +0 CEDS_pFe_RCO - - - - - - pFe 66 1 5 +0 CEDS_SO2_SLV $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_slv 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CEDS_SO4_SLV - - - - - - SO4 63 1 5 +0 CEDS_pFe_SLV - - - - - - pFe 66 1 5 +0 CEDS_SO2_WST $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_wst 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CEDS_SO4_WST - - - - - - SO4 63 1 5 +0 CEDS_pFe_WST - - - - - - pFe 66 1 5 + +0 CEDS_NH3_AGR $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_agr 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CEDS_NH3_ENE $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s NH3 315 1 5 +0 CEDS_NH3_IND $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s NH3 316 1 5 +0 CEDS_NH3_TRA $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_tra 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CEDS_NH3_RCO $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_rco 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CEDS_NH3_SLV $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_slv 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CEDS_NH3_WST $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_wst 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 1 5 + +0 CEDS_BCPI_AGR $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_agr 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CEDS_BCPO_AGR - - - - - - BCPO 71 1 5 +0 CEDS_BCPI_ENE $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s BCPI 70/315 1 5 +0 CEDS_BCPO_ENE - - - - - - BCPO 71/315 1 5 +0 CEDS_BCPI_IND $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s BCPI 70/316 1 5 +0 CEDS_BCPO_IND - - - - - - BCPO 71/316 1 5 +0 CEDS_BCPI_TRA $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_tra 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CEDS_BCPO_TRA - - - - - - BCPO 71 1 5 +0 CEDS_BCPI_RCO $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_rco 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CEDS_BCPO_RCO - - - - - - BCPO 71 1 5 +0 CEDS_BCPI_SLV $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_slv 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CEDS_BCPO_SLV - - - - - - BCPO 71 1 5 +0 CEDS_BCPI_WST $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_wst 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CEDS_BCPO_WST - - - - - - BCPO 71 1 5 + +0 CEDS_OCPI_AGR $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_agr 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CEDS_OCPO_AGR - - - - - - OCPO 73 1 5 +0 CEDS_POG1_AGR - - - - - - POG1 74/76 1 5 +0 CEDS_POG2_AGR - - - - - - POG2 74/77 1 5 +0 CEDS_OCPI_ENE $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s OCPI 72/315 1 5 +0 CEDS_OCPO_ENE - - - - - - OCPO 73/315 1 5 +0 CEDS_POG1_ENE - - - - - - POG1 74/76/315 1 5 +0 CEDS_POG2_ENE - - - - - - POG2 74/77/315 1 5 +0 CEDS_OCPI_IND $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s OCPI 72/316 1 5 +0 CEDS_OCPO_IND - - - - - - OCPO 73/316 1 5 +0 CEDS_POG1_IND - - - - - - POG1 74/76/316 1 5 +0 CEDS_POG2_IND - - - - - - POG2 74/77/316 1 5 +0 CEDS_OCPI_TRA $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_tra 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CEDS_OCPO_TRA - - - - - - OCPO 73 1 5 +0 CEDS_POG1_TRA - - - - - - POG1 74/76 1 5 +0 CEDS_POG2_TRA - - - - - - POG2 74/77 1 5 +0 CEDS_OCPI_RCO $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_rco 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CEDS_OCPO_RCO - - - - - - OCPO 73 1 5 +0 CEDS_POG1_RCO - - - - - - POG1 74/76 1 5 +0 CEDS_POG2_RCO - - - - - - POG2 74/77 1 5 +0 CEDS_OCPI_SLV $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_slv 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CEDS_OCPO_SLV - - - - - - OCPO 73 1 5 +0 CEDS_POG1_SLV - - - - - - POG1 74/76 1 5 +0 CEDS_POG2_SLV - - - - - - POG2 74/77 1 5 +0 CEDS_OCPI_WST $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_wst 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CEDS_OCPO_WST - - - - - - OCPO 73 1 5 +0 CEDS_POG1_WST - - - - - - POG1 74/76 1 5 +0 CEDS_POG2_WST - - - - - - POG2 74/77 1 5 + +# Comment out CO2 for fullchem simulations: CO2 not advected +#0 CEDS_CO2_AGR $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_agr 1750-2019/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CEDS_CO2_ENE $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s CO2 315 1 5 +#0 CEDS_CO2_IND $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s CO2 316 1 5 +#0 CEDS_CO2_TRA $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_tra 1750-2019/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CEDS_CO2_RCO $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_rco 1750-2019/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CEDS_CO2_SLV $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_slv 1750-2019/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CEDS_CO2_WST $ROOT/CEDS/v2021-06/$YYYY/CO2-em-anthro_CMIP_CEDS_$YYYY.nc CO2_wst 1750-2019/1-12/1/0 C xy kg/m2/s CO2 - 1 5 + +# Comment out CH4 for fullchem simulations: do not use CH4 emissions +# CEDS CH4 emissions are only available for 1970-2014 +#0 CEDS_CH4_AGR $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_agr 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 1 5 +#0 CEDS_CH4_ENE $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_ene 1970-2014/1-12/1/0 C xyL* kg/m2/s CH4 315 1 5 +#0 CEDS_CH4_IND $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_ind 1970-2014/1-12/1/0 C xyL* kg/m2/s CH4 316 1 5 +#0 CEDS_CH4_TRA $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_tra 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 1 5 +#0 CEDS_CH4_RCO $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_rco 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 1 5 +#0 CEDS_CH4_SLV $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_slv 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 1 5 +#0 CEDS_CH4_WST $ROOT/CEDS/v2021-06/$YYYY/CH4-em-anthro_CMIP_CEDS_$YYYY.nc CH4_wst 1970-2014/1-12/1/0 C xy kg/m2/s CH4 - 1 5 + +# NOTE: EOH files in CEDS/v2021-06 are actually VOC1 (total alchohols) and are split into MOH, EOH, ROH here +0 CEDS_MOH_AGR $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_AGR - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_AGR - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_ENE $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s MOH 26/90/315 1 5 +0 CEDS_EOH_ENE - - - - - - EOH 26/91/315 1 5 +0 CEDS_ROH_ENE - - - - - - ROH 26/92/315 1 5 +0 CEDS_MOH_IND $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s MOH 26/90/316 1 5 +0 CEDS_EOH_IND - - - - - - EOH 26/91/316 1 5 +0 CEDS_ROH_IND - - - - - - ROH 26/92/316 1 5 +0 CEDS_MOH_TRA $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_TRA - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_TRA - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_RCO $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_RCO - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_RCO - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_SLV $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_SLV - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_SLV - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_WST $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_WST - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_WST - - - - - - ROH 26/92 1 5 + +0 CEDS_C2H6_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H6 26/315 1 5 +0 CEDS_C2H6_IND $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H6 26/316 1 5 +0 CEDS_C2H6_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_WST $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 + +0 CEDS_C3H8_AGR $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_agr 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_ENE $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s C3H8 26/315 1 5 +0 CEDS_C3H8_IND $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s C3H8 26/316 1 5 +0 CEDS_C3H8_TRA $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_tra 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_RCO $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_rco 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_SLV $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_slv 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_WST $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_wst 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 + +0 CEDS_C4H10_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/315 1 5 +0 CEDS_C4H10_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/316 1 5 +0 CEDS_C4H10_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C5H12_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/315 1 5 +0 CEDS_C5H12_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/316 1 5 +0 CEDS_C5H12_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C6H14_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/315 1 5 +0 CEDS_C6H14_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s ALK4 26/316 1 5 +0 CEDS_C6H14_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C2H4_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H4 26/315 1 5 +0 CEDS_C2H4_IND $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H4 26/316 1 5 +0 CEDS_C2H4_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_WST $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 + +0 CEDS_PRPE_AGR $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_agr 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_ENE $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s PRPE 26/315 1 5 +0 CEDS_PRPE_IND $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s PRPE 26/316 1 5 +0 CEDS_PRPE_TRA $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_tra 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_RCO $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_rco 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_SLV $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_slv 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_WST $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_wst 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 + +0 CEDS_C2H2_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H2 26/315 1 5 +0 CEDS_C2H2_IND $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s C2H2 26/316 1 5 +0 CEDS_C2H2_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_WST $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 + +0 CEDS_BENZ_AGR $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_agr 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_ENE $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s BENZ 26/315 1 5 +0 CEDS_BENZ_IND $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s BENZ 26/316 1 5 +0 CEDS_BENZ_TRA $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_tra 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_RCO $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_rco 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_SLV $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_slv 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_WST $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_wst 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 + +0 CEDS_TOLU_AGR $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_agr 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_ENE $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s TOLU 26/315 1 5 +0 CEDS_TOLU_IND $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s TOLU 26/316 1 5 +0 CEDS_TOLU_TRA $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_tra 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_RCO $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_rco 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_SLV $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_slv 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_WST $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_wst 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 + +0 CEDS_XYLE_AGR $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_agr 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_ENE $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s XYLE 26/315 1 5 +0 CEDS_XYLE_IND $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s XYLE 26/316 1 5 +0 CEDS_XYLE_TRA $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_tra 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_RCO $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_rco 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_SLV $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_slv 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_WST $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_wst 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 + +0 CEDS_CH2O_AGR $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_agr 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_ENE $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s CH2O 26/315 1 5 +0 CEDS_CH2O_IND $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s CH2O 26/316 1 5 +0 CEDS_CH2O_TRA $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_tra 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_RCO $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_rco 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_SLV $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_slv 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_WST $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_wst 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 + +0 CEDS_ALD2_AGR $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_ENE $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s ALD2 26/315 1 5 +0 CEDS_ALD2_IND $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s ALD2 26/316 1 5 +0 CEDS_ALD2_TRA $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_RCO $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_SLV $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_WST $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 + +0 CEDS_MEK_AGR $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_agr 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_ENE $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s MEK 26/315 1 5 +0 CEDS_MEK_IND $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s MEK 26/316 1 5 +0 CEDS_MEK_TRA $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_tra 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_RCO $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_rco 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_SLV $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_slv 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_WST $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_wst 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 + +0 CEDS_HCOOH_AGR $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_ENE $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ene 1750-2019/1-12/1/0 C xyL* kg/m2/s HCOOH 26/315 1 5 +0 CEDS_HCOOH_IND $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ind 1750-2019/1-12/1/0 C xyL* kg/m2/s HCOOH 26/316 1 5 +0 CEDS_HCOOH_TRA $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_RCO $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_SLV $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_WST $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +)))CEDSv2 + +#============================================================================== +# --- CEDS GBD-MAPS --- +# +# NOTES: +# -- Reference: McDuffie et al. (2020, Earth System Science Data) +# -- Anthropogenic source sectors: agriculture, energy, industry, road transport, +# non-road/off-road transport, residential, commercial, other energy use, +# solvents, waste, international shipping +# -- Fuel categories: the combustion of total coal, solid biofuel, liquid oil +# and gas, and all remaining sources +# **To use, enable CEDS_byFuelType and CEDS_SHIP_byFuelType** +#============================================================================== +(((CEDS_GBDMAPS +>>>include $ROOT/CEDS/v2020-08/HEMCO_Config.CEDS_GBDMAPS.rc +)))CEDS_GBDMAPS + +(((CEDS_GBDMAPS_byFuelType +(((.not.CEDS_GBDMAPS +(((.not.CEDSv2 +>>>include $ROOT/CEDS/v2020-08/HEMCO_Config.CEDS_GBDMAPS_byFuelType.rc +))).not.CEDSv2 +))).not.CEDS_GBDMAPS +)))CEDS_GBDMAPS_byFuelType + +#============================================================================== +# --- CMIP6_SFC_LAND_ANTHRO --- +# CEDS (historical) or Shared Socioeconomic Pathways (future), consistent with +# the CMIP6 simulation experimental design. +# +# Make sure that the desired $GCAPSCENARIO is set above in SECTION SETTINGS +# +#============================================================================== +(((CMIP6_SFC_LAND_ANTHRO +0 CMIP6_NO_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_agr 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_ene 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_ind 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_tra 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_rco 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_slv 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 +0 CMIP6_NO_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_wst 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 1 5 + +0 CMIP6_CO_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_agr 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_AGR - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_ene 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_ENE - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_ind 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_IND - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_tra 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_TRA - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_rco 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_RCO - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_slv 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_SLV - - - - - - SOAP 26/280 1 5 +0 CMIP6_CO_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_wst 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 1 5 +0 CMIP6_SOAP_WST - - - - - - SOAP 26/280 1 5 + +0 CMIP6_SO2_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_agr 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_AGR - - - - - - SO4 63 1 5 +0 CMIP6_pFe_AGR - - - - - - pFe 66 1 5 +0 CMIP6_SO2_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_ene 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_ENE - - - - - - SO4 63 1 5 +0 CMIP6_pFe_ENE - - - - - - pFe 66 1 5 +0 CMIP6_SO2_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_ind 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_IND - - - - - - SO4 63 1 5 +0 CMIP6_pFe_IND - - - - - - pFe 66 1 5 +0 CMIP6_SO2_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_tra 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_TRA - - - - - - SO4 63 1 5 +0 CMIP6_pFe_TRA - - - - - - pFe 66 1 5 +0 CMIP6_SO2_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_rco 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_RCO - - - - - - SO4 63 1 5 +0 CMIP6_pFe_RCO - - - - - - pFe 66 1 5 +0 CMIP6_SO2_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_slv 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_SLV - - - - - - SO4 63 1 5 +0 CMIP6_pFe_SLV - - - - - - pFe 66 1 5 +0 CMIP6_SO2_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_wst 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 1 5 +0 CMIP6_SO4_WST - - - - - - SO4 63 1 5 +0 CMIP6_pFe_WST - - - - - - pFe 66 1 5 + +0 CMIP6_NH3_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_agr 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_ene 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_ind 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_tra 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_rco 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_slv 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 +0 CMIP6_NH3_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_wst 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 1 5 + +0 CMIP6_BCPI_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_agr 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_AGR - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_ene 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_ENE - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_ind 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_IND - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_tra 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_TRA - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_rco 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_RCO - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_slv 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_SLV - - - - - - BCPO 71 1 5 +0 CMIP6_BCPI_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_wst 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 1 5 +0 CMIP6_BCPO_WST - - - - - - BCPO 71 1 5 + +0 CMIP6_OCPI_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_agr 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_AGR - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_AGR - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_AGR - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_ene 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_ENE - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_ENE - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_ENE - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_ind 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_IND - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_IND - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_IND - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_tra 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_TRA - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_TRA - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_TRA - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_rco 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_RCO - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_RCO - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_RCO - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_slv 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_SLV - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_SLV - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_SLV - - - - - - POG2 74/77 1 5 +0 CMIP6_OCPI_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_wst 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 1 5 +0 CMIP6_OCPO_WST - - - - - - OCPO 73 1 5 +0 CMIP6_POG1_WST - - - - - - POG1 74/76 1 5 +0 CMIP6_POG2_WST - - - - - - POG2 74/77 1 5 + +# Comment out CO2 for fullchem simulations: CO2 not advected +#0 CMIP6_CO2_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_agr 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_ene 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_ind 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_tra 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_rco 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_slv 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 +#0 CMIP6_CO2_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO2_wst 1750-2100/1-12/1/0 C xy kg/m2/s CO2 - 1 5 + +# Comment out CH4 for fullchem simulations: do not use CH4 emissions +# CMIP6 CH4 emissions are only available for 1970-2014 +#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 - 1 5 +#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 - 1 5 +#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 - 1 5 +#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 - 1 5 +#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 - 1 5 +#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 - 1 5 +#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 - 1 5 + +# NOTE: EOH files in CMIP6/v2021-01 are actually VOC1 (total alchohols) and are split into MOH, EOH, ROH here +0 CMIP6_MOH_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_agr 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_AGR - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_AGR - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_ene 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_ENE - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_ENE - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_ind 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_IND - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_IND - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_tra 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_TRA - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_TRA - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_rco 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_RCO - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_RCO - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_slv 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_SLV - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_SLV - - - - - - ROH 26/92 1 5 +0 CMIP6_MOH_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_wst 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CMIP6_EOH_WST - - - - - - EOH 26/91 1 5 +0 CMIP6_ROH_WST - - - - - - ROH 26/92 1 5 + +0 CMIP6_C2H6_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_agr 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_ene 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_ind 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_tra 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_rco 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_slv 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CMIP6_C2H6_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_wst 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 + +0 CMIP6_C3H8_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_agr 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_ene 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_ind 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_tra 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_rco 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_slv 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CMIP6_C3H8_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_wst 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 + +0 CMIP6_C4H10_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_agr 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_ene 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_ind 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_tra 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_rco 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_slv 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C4H10_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_wst 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CMIP6_C5H12_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_agr 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_ene 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_ind 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_tra 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_rco 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_slv 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C5H12_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_wst 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CMIP6_C6H14_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_agr 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_ene 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_ind 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_tra 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_rco 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_slv 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CMIP6_C6H14_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_wst 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CMIP6_C2H4_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_agr 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_ene 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_ind 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_tra 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_rco 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_slv 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CMIP6_C2H4_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_wst 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 + +0 CMIP6_PRPE_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_agr 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_ene 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_ind 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_tra 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_rco 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_slv 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CMIP6_PRPE_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_wst 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 + +0 CMIP6_C2H2_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_agr 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_ene 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_ind 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_tra 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_rco 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_slv 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CMIP6_C2H2_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_wst 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 + +0 CMIP6_BENZ_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_agr 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_ene 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_ind 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_tra 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_rco 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_slv 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CMIP6_BENZ_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_wst 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 + +0 CMIP6_TOLU_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_agr 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_ene 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_ind 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_tra 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_rco 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_slv 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CMIP6_TOLU_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_wst 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 + +0 CMIP6_XYLE_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_agr 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_ene 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_ind 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_tra 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_rco 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_slv 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CMIP6_XYLE_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_wst 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 + +0 CMIP6_CH2O_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_agr 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_ene 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_ind 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_tra 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_rco 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_slv 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CMIP6_CH2O_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_wst 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 + +0 CMIP6_ALD2_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_agr 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_ene 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_ind 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_tra 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_rco 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_slv 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CMIP6_ALD2_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_wst 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 + +0 CMIP6_MEK_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_agr 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_ene 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_ind 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_tra 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_rco 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_slv 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CMIP6_MEK_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_wst 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 1 5 + +0 CMIP6_HCOOH_AGR $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_agr 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_ENE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_ene 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_IND $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_ind 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_TRA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_tra 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_RCO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_rco 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_SLV $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_slv 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CMIP6_HCOOH_WST $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_wst 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +)))CMIP6_SFC_LAND_ANTHRO + +#============================================================================== +# CEDS (historical) or Shared Socioeconomic Pathways (future) aircraft +# emissions, consistent with the CMIP6 simulation experimental design +# +# Make sure that the desired $GCAPSCENARIO is set above in SECTION SETTINGS +# +#============================================================================== +(((CMIP6_AIRCRAFT +0 CMIP6_AIR_NO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 NO_air 1750-2100/1-12/1/0 C xyz kg/m2/s NO - 20 1 +0 CMIP6_AIR_CO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 CO_air 1750-2100/1-12/1/0 C xyz kg/m2/s CO - 20 1 +0 CMIP6_AIR_SOAP - - - - - - SOAP 280 20 1 +0 CMIP6_AIR_SO2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 SO2_air 1750-2100/1-12/1/0 C xyz kg/m2/s SO2 - 20 1 +0 CMIP6_AIR_SO4 - - - - - - SO4 63 20 1 +0 CMIP6_AIR_pFe - - - - - - pFe 66 20 1 +0 CMIP6_AIR_ACET - - - - - - ACET 601 20 1 +0 CMIP6_AIR_ALD2 - - - - - - ALD2 602 20 1 +0 CMIP6_AIR_ALK4 - - - - - - ALK4 603 20 1 +0 CMIP6_AIR_C2H6 - - - - - - C2H6 604 20 1 +0 CMIP6_AIR_C3H8 - - - - - - C3H8 605 20 1 +0 CMIP6_AIR_CH2O - - - - - - CH2O 606 20 1 +0 CMIP6_AIR_PRPE - - - - - - PRPE 607 20 1 +0 CMIP6_AIR_MACR - - - - - - MACR 608 20 1 +0 CMIP6_AIR_RCHO - - - - - - RCHO 609 20 1 +0 CMIP6_AIR_NH3 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 NH3_air 1750-2100/1-12/1/0 C xyz kg/m2/s NH3 - 20 1 +# Assume all BC/OC is BCPI/OCPI +0 CMIP6_AIR_BCPI $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 BC_air 1750-2100/1-12/1/0 C xyz kg/m2/s BCPI - 20 1 +0 CMIP6_AIR_OCPI $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY_AIR.$GCAP2VERTRESL.nc4 OC_air 1750-2100/1-12/1/0 C xyz kg/m2/s OCPI - 20 1 +0 CMIP6_AIR_POG1 - - - - - - POG1 74/76 20 1 +0 CMIP6_AIR_POG2 - - - - - - POG2 74/77 20 1 + +)))CMIP6_AIRCRAFT + +#============================================================================== +# --- EDGAR v4.3 --- +# +# %%% This is an optional inventory. You may select either CEDS, EDGAR, +# or HTAPv3 for the global base emissions %%% +# +# The following emissions are not included in EDGAR and will be added: +# * Wiedinmyer et al. (2014) global trash emissions +# * CEDS VOC emissions +# +# Aviation and shipping emissions from EDGAR are not included here. +# We also do not include the following sources: +# - Soil emissions of NOx (SOL). These emissions are calculated via the +# SoilNOx extension. +# - Open biomass burning (AWB). These emissions are obtained from +# GFED, QFED, FINN, or GFAS. +#============================================================================== +(((EDGARv43 +0 EDGAR_BCPI_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.POW.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1201/70 1 2 +0 EDGAR_BCPO_POW - - - - - - BCPO 1201/71 1 2 +0 EDGAR_BCPI_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.ENG.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1202/70 1 2 +0 EDGAR_BCPO_ENG - - - - - - BCPO 1202/71 1 2 +0 EDGAR_BCPI_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.IND.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1203/70 1 2 +0 EDGAR_BCPO_IND - - - - - - BCPO 1203/71 1 2 +0 EDGAR_BCPI_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.TRO.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1204/70 1 2 +0 EDGAR_BCPO_TRO - - - - - - BCPO 1204/71 1 2 +0 EDGAR_BCPI_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.TNG.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1205/70 1 2 +0 EDGAR_BCPO_TNG - - - - - - BCPO 1205/71 1 2 +0 EDGAR_BCPI_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.RCO.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1206/70 1 2 +0 EDGAR_BCPO_RCO - - - - - - BCPO 1206/71 1 2 +0 EDGAR_BCPI_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.PPA.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1207/70 1 2 +0 EDGAR_BCPO_PPA - - - - - - BCPO 1207/71 1 2 +#0 EDGAR_BCPI_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.AWB.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1209/70 1 2 +#0 EDGAR_BCPO_AWB - - - - - - BCPO 1209/71 1 2 +0 EDGAR_BCPI_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.SWD.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1211/70 1 2 +0 EDGAR_BCPO_SWD - - - - - - BCPO 1211/71 1 2 +0 EDGAR_BCPI_FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.BC.FFF.0.1x0.1.nc emi_bc 1970-2010/1/1/0 C xy kg/m2/s BCPI 1212/70 1 2 +0 EDGAR_BCPO_FFF - - - - - - BCPO 1212/71 1 2 +0 EDGAR_CO_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.POW.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1201/26/52 1 2 +0 EDGAR_SOAP_POW - - - - - - SOAP 1201/26/52/280 1 2 +0 EDGAR_CO_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.ENG.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1202/26/52 1 2 +0 EDGAR_SOAP_ENG - - - - - - SOAP 1202/26/52/280 1 2 +0 EDGAR_CO_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.IND.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1203/26/52 1 2 +0 EDGAR_SOAP_IND - - - - - - SOAP 1203/26/52/280 1 2 +0 EDGAR_CO_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.TRO.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1204/26/52 1 2 +0 EDGAR_SOAP_TRO - - - - - - SOAP 1204/26/52/280 1 2 +0 EDGAR_CO_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.TNG.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1205/26/52 1 2 +0 EDGAR_SOAP_TNG - - - - - - SOAP 1205/26/52/280 1 2 +0 EDGAR_CO_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.RCO.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1206/26/52 1 2 +0 EDGAR_SOAP_RCO - - - - - - SOAP 1206/26/52/280 1 2 +0 EDGAR_CO_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.PPA.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1207/26/52 1 2 +0 EDGAR_SOAP_PPA - - - - - - SOAP 1207/26/52/280 1 2 +#0 EDGAR_CO_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.AWB.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1209/26/52 1 2 +#0 EDGAR_SOAP_AWB - - - - - - SOAP 1209/26/52/280 1 2 +0 EDGAR_CO_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.SWD.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1211/26/52 1 2 +0 EDGAR_SOAP_SWD - - - - - - SOAP 1211/26/52/280 1 2 +0 EDGAR_CO_FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.CO.FFF.0.1x0.1.nc emi_co 1970-2010/1/1/0 C xy kg/m2/s CO 1212/26/52 1 2 +0 EDGAR_SOAP_FFF - - - - - - SOAP 1212/26/52/280 1 2 +0 EDGAR_NH3_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.POW.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1201 1 2 +0 EDGAR_NH3_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.ENG.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1202 1 2 +0 EDGAR_NH3_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.IND.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1203 1 2 +0 EDGAR_NH3_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.TRO.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1204 1 2 +0 EDGAR_NH3_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.TNG.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1205 1 2 +0 EDGAR_NH3_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.RCO.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1206 1 2 +0 EDGAR_NH3_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.PPA.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1207 1 2 +0 EDGAR_NH3_AGR $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.AGR.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1208 1 2 +#0 EDGAR_NH3_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.AWB.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1209 1 2 +0 EDGAR_NH3_SOL $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.SOL.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1210 1 2 +0 EDGAR_NH3_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.NH3.SWD.0.1x0.1.nc emi_nh3 1970-2010/1/1/0 C xy kg/m2/s NH3 1211 1 2 +0 EDGAR_NO_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.POW.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1201/25/115 1 2 +0 EDGAR_NO_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.ENG.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1202/25/115 1 2 +0 EDGAR_NO_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.IND.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1203/25/115 1 2 +0 EDGAR_NO_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.TRO.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1204/25/115 1 2 +0 EDGAR_NO_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.TNG.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1205/25/115 1 2 +0 EDGAR_NO_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.RCO.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1206/25/115 1 2 +0 EDGAR_NO_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.PPA.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1207/25/115 1 2 +0 EDGAR_NO_AGR $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.AGR.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1208/25/115 1 2 +#0 EDGAR_NO_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.AWB.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1209/25/115 1 2 +#0 EDGAR_NO_SOL $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.SOL.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1210/25/115 1 2 +0 EDGAR_NO_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.SWD.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1211/25/115 1 2 +0 EDGAR_NO_FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.NOx.FFF.0.1x0.1.nc emi_nox 1970-2010/1/1/0 C xy kg/m2/s NO 1212/25/115 1 2 +0 EDGAR_OCPI_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.POW.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1201/72 1 2 +0 EDGAR_OCPO_POW - - - - - - OCPO 1201/73 1 2 +0 EDGAR_POG1_POW - - - - - - POG1 1201/74/76 1 2 +0 EDGAR_POG2_POW - - - - - - POG2 1201/74/77 1 2 +0 EDGAR_OCPI_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.ENG.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1202/72 1 2 +0 EDGAR_OCPO_ENG - - - - - - OCPO 1202/73 1 2 +0 EDGAR_POG1_ENG - - - - - - POG1 1202/74/76 1 2 +0 EDGAR_POG2_ENG - - - - - - POG2 1202/74/77 1 2 +0 EDGAR_OCPI_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.IND.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1203/72 1 2 +0 EDGAR_OCPO_IND - - - - - - OCPO 1203/73 1 2 +0 EDGAR_POG1_IND - - - - - - POG1 1203/74/76 1 2 +0 EDGAR_POG2_IND - - - - - - POG2 1203/74/77 1 2 +0 EDGAR_OCPI_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.TRO.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1204/72 1 2 +0 EDGAR_OCPO_TRO - - - - - - OCPO 1204/73 1 2 +0 EDGAR_POG1_TRO - - - - - - POG1 1204/74/76 1 2 +0 EDGAR_POG2_TRO - - - - - - POG2 1204/74/77 1 2 +0 EDGAR_OCPI_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.TNG.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1205/72 1 2 +0 EDGAR_OCPO_TNG - - - - - - OCPO 1205/73 1 2 +0 EDGAR_POG1_TNG - - - - - - POG1 1205/74/76 1 2 +0 EDGAR_POG2_TNG - - - - - - POG2 1205/74/77 1 2 +0 EDGAR_OCPI_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.RCO.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1206/72 1 2 +0 EDGAR_OCPO_RCO - - - - - - OCPO 1206/73 1 2 +0 EDGAR_POG1_RCO - - - - - - POG1 1206/74/76 1 2 +0 EDGAR_POG2_RCO - - - - - - POG2 1206/74/77 1 2 +#0 EDGAR_OCPI_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.AWB.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1209/72 1 2 +#0 EDGAR_OCPO_AWB - - - - - - OCPO 1209/73 1 2 +#0 EDGAR_POG1_AWB - - - - - - POG1 1209/74/76 1 2 +#0 EDGAR_POG2_AWB - - - - - - POG2 1209/74/77 1 2 +0 EDGAR_OCPI_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.SWD.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1211/72 1 2 +0 EDGAR_OCPO_SWD - - - - - - OCPO 1211/73 1 2 +0 EDGAR_POG1_SWD - - - - - - POG1 1211/74/76 1 2 +0 EDGAR_POG2_SWD - - - - - - POG2 1211/74/77 1 2 +0 EDGAR_OCPI_FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.OC.FFF.0.1x0.1.nc emi_oc 1970-2010/1/1/0 C xy kg/m2/s OCPI 1212/72 1 2 +0 EDGAR_OCPO_FFF - - - - - - OCPO 1212/73 1 2 +0 EDGAR_POG1_FFF - - - - - - POG1 1212/74/76 1 2 +0 EDGAR_POG2_FFF - - - - - - POG2 1212/74/77 1 2 +0 EDGAR_SO2_POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.POW.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1201 1 2 +0 EDGAR_SO4_POW - - - - - - SO4 1201/63 1 2 +0 EDGAR_pFe_POW - - - - - - pFe 1201/66 1 2 +0 EDGAR_SO2_ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.ENG.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1202 1 2 +0 EDGAR_SO4_ENG - - - - - - SO4 1202/63 1 2 +0 EDGAR_pFe_ENG - - - - - - pFe 1202/66 1 2 +0 EDGAR_SO2_IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.IND.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1203 1 2 +0 EDGAR_SO4_IND - - - - - - SO4 1203/63 1 2 +0 EDGAR_pFe_IND - - - - - - pFe 1203/66 1 2 +0 EDGAR_SO2_TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.TRO.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1204 1 2 +0 EDGAR_SO4_TRO - - - - - - SO4 1204/63 1 2 +0 EDGAR_pFe_TRO - - - - - - pFe 1204/66 1 2 +0 EDGAR_SO2_TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.TNG.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1205 1 2 +0 EDGAR_SO4_TNG - - - - - - SO4 1205/63 1 2 +0 EDGAR_pFe_TNG - - - - - - pFe 1205/66 1 2 +0 EDGAR_SO2_RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.RCO.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1206 1 2 +0 EDGAR_SO4_RCO - - - - - - SO4 1206/63 1 2 +0 EDGAR_pFe_RCO - - - - - - pFe 1206/66 1 2 +0 EDGAR_SO2_PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.PPA.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1207 1 2 +0 EDGAR_SO4_PPA - - - - - - SO4 1207/63 1 2 +0 EDGAR_pFe_PPA - - - - - - pFe 1207/66 1 2 +#0 EDGAR_SO2_AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.AWB.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1209 1 2 +#0 EDGAR_SO4_AWB - - - - - - SO4 1209/63 1 2 +#0 EDGAR_pFe_AWB - - - - - - pFe 1209/66 1 2 +0 EDGAR_SO2_SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.SWD.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1211 1 2 +0 EDGAR_SO4_SWD - - - - - - SO4 1211/63 1 2 +0 EDGAR_pFe_SWD - - - - - - pFe 1211/66 1 2 +0 EDGAR_SO2_FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.SO2.FFF.0.1x0.1.nc emi_so2 1970-2010/1/1/0 C xy kg/m2/s SO2 1212 1 2 +0 EDGAR_SO4_FFF - - - - - - SO4 1212/63 1 2 +0 EDGAR_pFe_FFF - - - - - - pFe 1212/66 1 2 + +#============================================================================== +# --- NAP ANTHROPOGENIC EMISSIONS: approximate from EDGAR BENZ --- +# +# NOTE: Although this data comes from EDGAR version 2, we are storing it +# in the EDGARv42 data path for convenience. +#============================================================================== +0 EDGAR_NAP $ROOT/EDGARv42/v2015-02/VOCv2/EDGAR2_1985_FF_IND.1x1geos.nc BENZ 1985/1/1/0 C xy kgC/m2/s NAP 80/81/82/43 1 2 + +#============================================================================== +# --- Wiedinmyer et al. (2014) global trash emissions to be added to EDGAR --- +#============================================================================== +0 TRASH_CO $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc CO 2008/1/1/0 C xy kg/m2/s CO - 1 2 +0 TRASH_SOAP - - - - - - SOAP 280 1 2 +0 TRASH_NO $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc NO 2008/1/1/0 C xy kg/m2/s NO - 1 2 +0 TRASH_SO2 $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc SO2 2008/1/1/0 C xy kg/m2/s SO2 78 1 2 +0 TRASH_SO4 - - - - - - SO4 63 1 2 +0 TRASH_pFe - - - - - - pFe 78/66 1 2 +0 TRASH_BCPI $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc BC 2008/1/1/0 C xy kg/m2/s BCPI 70 1 2 +0 TRASH_BCPO - - - - - - BCPO 71 1 2 +0 TRASH_OCPI $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc OC 2008/1/1/0 C xy kg/m2/s OCPI 72 1 2 +0 TRASH_OCPO - - - - - - OCPO 73 1 2 +0 TRASH_POG1 - - - - - - POG1 74/76 1 2 +0 TRASH_POG2 - - - - - - POG2 74/77 1 2 +0 TRASH_NH3 $ROOT/TrashEmis/v2015-03/TrashBurn_v2_generic.01x01.nc NH3 2008/1/1/0 C xy kg/m2/s NH3 - 1 2 + +#============================================================================== +# --- CEDS VOC emissions to be added to EDGAR --- +#============================================================================== +0 CEDS_MOH_AGR $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_AGR - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_AGR - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_ENE $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ene 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_ENE - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_ENE - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_IND $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ind 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_IND - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_IND - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_TRA $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_TRA - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_TRA - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_RCO $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_RCO - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_RCO - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_SLV $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_SLV - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_SLV - - - - - - ROH 26/92 1 5 +0 CEDS_MOH_WST $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 5 +0 CEDS_EOH_WST - - - - - - EOH 26/91 1 5 +0 CEDS_ROH_WST - - - - - - ROH 26/92 1 5 + +0 CEDS_C2H6_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_IND $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 +0 CEDS_C2H6_WST $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 5 + +0 CEDS_C3H8_AGR $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_agr 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_ENE $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ene 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_IND $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ind 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_TRA $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_tra 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_RCO $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_rco 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_SLV $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_slv 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 +0 CEDS_C3H8_WST $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_wst 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 5 + +0 CEDS_C4H10_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C4H10_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C5H12_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C5H12_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C6H14_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 +0 CEDS_C6H14_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 5 + +0 CEDS_C2H4_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_IND $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 +0 CEDS_C2H4_WST $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 5 + +0 CEDS_PRPE_AGR $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_agr 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_ENE $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ene 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_IND $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ind 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_TRA $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_tra 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_RCO $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_rco 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_SLV $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_slv 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 +0 CEDS_PRPE_WST $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_wst 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 5 + +0 CEDS_C2H2_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_IND $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 +0 CEDS_C2H2_WST $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 5 + +0 CEDS_BENZ_AGR $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_agr 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_ENE $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ene 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_IND $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ind 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_TRA $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_tra 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_RCO $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_rco 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_SLV $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_slv 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 +0 CEDS_BENZ_WST $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_wst 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 5 + +0 CEDS_TOLU_AGR $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_agr 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_ENE $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ene 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_IND $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ind 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_TRA $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_tra 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_RCO $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_rco 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_SLV $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_slv 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 +0 CEDS_TOLU_WST $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_wst 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 5 + +0 CEDS_XYLE_AGR $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_agr 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_ENE $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ene 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_IND $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ind 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_TRA $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_tra 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_RCO $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_rco 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_SLV $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_slv 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 +0 CEDS_XYLE_WST $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_wst 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 5 + +0 CEDS_CH2O_AGR $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_agr 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_ENE $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ene 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_IND $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ind 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_TRA $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_tra 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_RCO $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_rco 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_SLV $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_slv 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 +0 CEDS_CH2O_WST $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_wst 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 5 + +0 CEDS_ALD2_AGR $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_ENE $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_IND $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_TRA $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_RCO $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_SLV $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 +0 CEDS_ALD2_WST $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 5 + +0 CEDS_MEK_AGR $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_agr 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_ENE $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ene 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_IND $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ind 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_TRA $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_tra 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_RCO $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_rco 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_SLV $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_slv 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 +0 CEDS_MEK_WST $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_wst 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 5 + +0 CEDS_HCOOH_AGR $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_ENE $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ene 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_IND $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ind 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_TRA $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_RCO $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_SLV $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +0 CEDS_HCOOH_WST $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 5 +)))EDGARv43 + +#============================================================================== +# --- HTAP v3 --- +# +# %%% This is an optional inventory. You may select either CEDS, EDGAR, +# or HTAPv3 for the global base emissions %%% +# +# ==> HTAPv3 ship emissions are listed in the ship emissions section below +#============================================================================== +(((HTAPv3 +0 HTAPv3_NO_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_AGR 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_ENE 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_IND 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_TRA 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_RCO 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_SLV 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_NO_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_WST 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 1 4 +0 HTAPv3_CO_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_AGR 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_AGR - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_ENE 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_ENE - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_IND 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_IND - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_TRA 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_TRA - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_RCO 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_RCO - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_SLV 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_SLV - - - - - - SOAP 26/280 1 4 +0 HTAPv3_CO_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_WST 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 1 4 +0 HTAPv3_SOAP_WST - - - - - - SOAP 26/280 1 4 +0 HTAPv3_SO2_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_AGR 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_AGR - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_AGR - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_ENE 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_ENE - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_ENE - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_IND 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_IND - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_IND - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_TRA 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_TRA - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_TRA - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_RCO 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_RCO - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_RCO - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_SLV 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_SLV - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_SLV - - - - - - pFe 66 1 4 +0 HTAPv3_SO2_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_WST 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 1 4 +0 HTAPv3_SO4_WST - - - - - - SO4 63 1 4 +0 HTAPv3_pFe_WST - - - - - - pFe 66 1 4 +0 HTAPv3_NH3_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_AGR 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_ENE 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_IND 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_TRA 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_RCO 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_SLV 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_NH3_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_WST 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 1 4 +0 HTAPv3_BCPI_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_AGR 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_AGR - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_ENE 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_ENE - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_IND 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_IND - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_TRA 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_TRA - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_RCO 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_RCO - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_SLV 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_SLV - - - - - - BCPO 71 1 4 +0 HTAPv3_BCPI_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_WST 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 1 4 +0 HTAPv3_BCPO_WST - - - - - - BCPO 71 1 4 +0 HTAPv3_OCPI_AGR $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_AGR 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_AGR - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_AGR - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_AGR - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_ENE $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_ENE 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_ENE - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_ENE - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_ENE - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_IND $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_IND 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_IND - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_IND - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_IND - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_TRA $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_TRA 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_TRA - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_TRA - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_TRA - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_RCO $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_RCO 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_RCO - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_RCO - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_RCO - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_SLV $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_SLV 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_SLV - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_SLV - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_SLV - - - - - - POG2 73/74/77 1 4 +0 HTAPv3_OCPI_WST $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_WST 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 1 4 +0 HTAPv3_OCPO_WST - - - - - - OCPO 73 1 4 +0 HTAPv3_POG1_WST - - - - - - POG1 73/74/76 1 4 +0 HTAPv3_POG2_WST - - - - - - POG2 73/74/77 1 4 +# +# Use CEDSv2 for species that are not in the HTAPv3 inventory +# NOTE: EOH files in CEDS/v2021-06 are actually VOC1 (total alchohols) and are split into MOH, EOH, ROH here +0 CEDS_MOH_AGR $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_AGR - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_AGR - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_ENE $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ene 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_ENE - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_ENE - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_IND $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_ind 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_IND - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_IND - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_TRA $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_TRA - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_TRA - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_RCO $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_RCO - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_RCO - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_SLV $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_SLV - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_SLV - - - - - - ROH 26/92 1 4 +0 CEDS_MOH_WST $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 1 4 +0 CEDS_EOH_WST - - - - - - EOH 26/91 1 4 +0 CEDS_ROH_WST - - - - - - ROH 26/92 1 4 +0 CEDS_C2H6_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_IND $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C2H6_WST $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 1 4 +0 CEDS_C3H8_AGR $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_agr 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_ENE $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ene 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_IND $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_ind 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_TRA $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_tra 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_RCO $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_rco 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_SLV $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_slv 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C3H8_WST $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_wst 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 1 4 +0 CEDS_C4H10_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C4H10_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C5H12_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_AGR $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_ENE $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_IND $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_TRA $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_RCO $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_SLV $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C6H14_WST $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 1 4 +0 CEDS_C2H4_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_IND $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_C2H4_WST $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 1 4 +0 CEDS_PRPE_AGR $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_agr 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_ENE $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ene 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_IND $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_ind 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_TRA $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_tra 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_RCO $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_rco 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_SLV $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_slv 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_PRPE_WST $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_wst 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 1 4 +0 CEDS_C2H2_AGR $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_agr 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_ENE $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ene 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_IND $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_ind 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_TRA $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_tra 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_RCO $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_rco 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_SLV $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_slv 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_C2H2_WST $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_wst 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 1 4 +0 CEDS_BENZ_AGR $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_agr 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_ENE $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ene 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_IND $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_ind 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_TRA $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_tra 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_RCO $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_rco 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_SLV $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_slv 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_BENZ_WST $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_wst 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 1 4 +0 CEDS_TOLU_AGR $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_agr 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_ENE $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ene 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_IND $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_ind 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_TRA $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_tra 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_RCO $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_rco 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_SLV $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_slv 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_TOLU_WST $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_wst 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 1 4 +0 CEDS_XYLE_AGR $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_agr 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_ENE $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ene 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_IND $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_ind 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_TRA $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_tra 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_RCO $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_rco 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_SLV $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_slv 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_XYLE_WST $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_wst 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 1 4 +0 CEDS_CH2O_AGR $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_agr 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_ENE $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ene 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_IND $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_ind 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_TRA $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_tra 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_RCO $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_rco 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_SLV $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_slv 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_CH2O_WST $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_wst 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 1 4 +0 CEDS_ALD2_AGR $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_agr 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_ENE $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ene 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_IND $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_ind 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_TRA $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_tra 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_RCO $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_rco 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_SLV $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_slv 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_ALD2_WST $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_wst 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 1 4 +0 CEDS_MEK_AGR $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_agr 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_ENE $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ene 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_IND $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_ind 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_TRA $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_tra 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_RCO $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_rco 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_SLV $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_slv 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_MEK_WST $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_wst 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 1 4 +0 CEDS_HCOOH_AGR $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_agr 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_ENE $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ene 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_IND $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_ind 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_TRA $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_tra 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_RCO $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_rco 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_SLV $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_slv 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +0 CEDS_HCOOH_WST $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_wst 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 1 4 +)))HTAPv3 + +#============================================================================== +# --- GEIA NH3 from natural sources --- +#============================================================================== +(((GEIA_NH3 +0 GEIA_NH3_NATU $ROOT/NH3/v2019-08/NH3_geos.2x25.nc NH3_NATU 1990/1-12/1/0 C xy kg/m2/s NH3 - 3 1 +)))GEIA_NH3 + +#============================================================================== +# --- NH3 from arctic seabirds --- +# Source: Riddick et al., 2012, NERC Environmental Information Data Centre +#============================================================================== +(((SEABIRD_NH3 +0 SEABIRD_NH3 $ROOT/NH3/v2018-04/NH3_Arctic_seabirds.nc NH3_SEABIRDS 1990/1-12/1/0 C xy kg/m2/s NH3 - 30 1 +)))SEABIRD_NH3 + +#============================================================================== +# --- POET EOH --- +#============================================================================== +(((POET_EOH +0 POET_EOH $ROOT/POET/v2017-03/POET_EOH.geos.2x25.nc EOH 1985/1/1/0 C xy kgC/m2/s EOH 26/47 1 1 +)))POET_EOH + +#============================================================================== +# --- 2010 Global fossil fuel and biofuel emissions of C2H6 (Tzompa-Sosa et al. (2017) --- +# +# NOTES: +# - These C2H6 emissions are used in place of CEDS +#============================================================================== +(((TZOMPASOSA_C2H6 +0 C2H6_2010_oilgas $ROOT/C2H6_2010/v2019-06/C2H6_global_anth_biof.2010$MM.2x25.nc ANTHR_C2H6 2010/1-12/1/0 C xy kgC/m2/s C2H6 45 1 100 +0 C2H6_2010_biofuel $ROOT/C2H6_2010/v2019-06/C2H6_global_anth_biof.2010$MM.2x25.nc BIOFUEL_C2H6 2010/1-12/1/0 C xy kgC/m2/s C2H6 45 1 100 +)))TZOMPASOSA_C2H6 + +#============================================================================== +# --- Xiao et al., JGR, 2008 --- +# +# NOTES: +# - Xiao et al. C3H8 emissions are used in place of CEDS +# - Priority is set to 10 to overwrite CEDS, but not newer regional inventories (e.g. EPA/NEI) +#============================================================================== +(((XIAO_C3H8 +0 XIAO_C3H8 $ROOT/XIAO/v2014-09/C3H8_C2H6_ngas.geos.1x1.nc C3H8 1985/1/1/0 C xy kgC/m2/s C3H8 6/7/26/22/46 1 10 +0 BIOFUEL_C3H8 $ROOT/BIOFUEL/v2019-08/biofuel.geos.2x25.nc BIOFUEL_C3H8 1985/1/1/0 C xy kgC/m2/s C3H8 46 1 10 +)))XIAO_C3H8 + +#============================================================================== +# --- Very-short-lived (VSL) bromocarbon emissions (cf. Qing Liang) --- +#============================================================================== +(((LIANG_BROMOCARB +0 LIANG_CHBR3 $ROOT/BROMINE/v2015-02/Bromocarb_Liang2010.nc CHBr3_emission 2000/1/1/0 C xy kg/m2/s CHBr3 39 1 1 +0 LIANG_CH2BR2 $ROOT/BROMINE/v2015-02/Bromocarb_Liang2010.nc CH2Br2_emission 2000/1/1/0 C xy kg/m2/s CH2Br2 - 1 1 +)))LIANG_BROMOCARB + +#============================================================================== +# --- Very-short-lived (VSL) iodocarbon emissions (cf. Carlos Ordonez) --- +#============================================================================== +(((ORDONEZ_IODOCARB +0 ORDONEZ_CH3I $ROOT/IODINE/v2020-02/CH3I_monthly_emissions_Ordonez_2012_COARDS.nc CH3I 2000/1-12/1/0 C xy kg/m2/s CH3I - 1 1 +0 ORDONEZ_CH2I2 $ROOT/IODINE/v2020-02/CH2I2_monthly_emissions_Ordonez_2012_COARDS.nc CH2I2 2000/1-12/1/0 C xy kg/m2/s CH2I2 - 1 1 +0 ORDONEZ_CH2ICL $ROOT/IODINE/v2020-02/CH2ICl_monthly_emissions_Ordonez_2012_COARDS.nc CH2ICl 2000/1-12/1/0 C xy kg/m2/s CH2ICl - 1 1 +0 ORDONEZ_CH2IBR $ROOT/IODINE/v2020-02/CH2IBr_monthly_emissions_Ordonez_2012_COARDS.nc CH2IBr 2000/1-12/1/0 C xy kg/m2/s CH2IBr - 1 1 +)))ORDONEZ_IODOCARB + +#============================================================================== +# --- Ship emissions --- +# +# ==> CEDS ship emissions are now the default. +# ==> If CEDS_SHIP is turned off above then ARCTAS should be used over ICOADS, +# CORBETT, and HTAPv3 for SO2 and ICOADS should be used for CO and NO. +# ==> Ship NO emissions are used by PARANOx and the extension number must be +# adjusted accordingly. If PARANOx is turned off, set the ExtNr back to +# zero. +#============================================================================== +(((SHIP + +(((ARCTAS_SHIP +0 ARCTAS_SHIP_SO2 $ROOT/ARCTAS_SHIP/v2014-07/ARCTAS_ship.generic.1x1.nc SO2 2008/1/1/0 C xy kg/m2/s SO2 11/19 10 1 +)))ARCTAS_SHIP + +(((ICOADS_SHIP +0 ICOADS_SHIP_SO2 $ROOT/ICOADS_SHIP/v2014-07/ICOADS.generic.1x1.nc SO2 2002/1-12/1/0 C xy kg/m2/s SO2 11/15/60 10 2 +0 ICOADS_SHIP_CO $ROOT/ICOADS_SHIP/v2014-07/ICOADS.generic.1x1.nc CO 2002/1-12/1/0 C xy kg/m2/s CO 6/10 10 2 +0 ICOADS_SHIP_SOAP - - - - - - SOAP 6/10/280 10 2 +)))ICOADS_SHIP + +(((CORBETT_SHIP +0 CORBETT_SHIP_SO2 $ROOT/CORBETT_SHIP/v2014-07/CORBETT_ship.geos.1x1.nc SO2_SHIP 1985/1-12/1/0 C xy kg/m2/s SO2 - 10 3 +)))CORBETT_SHIP + +(((HTAPv3_SHIP +0 HTAPv3_CO_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_CO_0.1x0.1_$YYYY.nc CO_SHP 2000-2018/1-12/1/0 C xy kg/m2/s CO 26 10 4 +0 HTAPv3_SOAP_SHP - - - - - - SOAP 26/280 10 4 +0 HTAPv3_SO2_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_SO2_0.1x0.1_$YYYY.nc SO2_SHP 2000-2018/1-12/1/0 C xy kg/m2/s SO2 - 10 4 +0 HTAPv3_SO4_SHP - - - - - - SO4 63 10 4 +0 HTAPv3_pFe_SHP - - - - - - pFe 66 10 4 +0 HTAPv3_NH3_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NH3_0.1x0.1_$YYYY.nc NH3_SHP 2000-2018/1-12/1/0 C xy kg/m2/s NH3 - 10 4 +0 HTAPv3_BCPI_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_BC_0.1x0.1_$YYYY.nc BC_SHP 2000-2018/1-12/1/0 C xy kg/m2/s BCPI 70 10 4 +0 HTAPv3_BCPO_SHP - - - - - - BCPO 71 10 4 +0 HTAPv3_OCPI_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_OC_0.1x0.1_$YYYY.nc OC_SHP 2000-2018/1-12/1/0 C xy kg/m2/s OCPI 72 10 4 +0 HTAPv3_OCPO_SHP - - - - - - OCPO 73 10 4 +# Use CEDSv2 ship emissions for species not in HTAPv3 +0 CEDS_MOH_SHP $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_shp 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 10 4 +0 CEDS_EOH_SHP - - - - - - EOH 26/91 10 4 +0 CEDS_ROH_SHP - - - - - - ROH 26/92 10 4 +0 CEDS_C2H6_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 10 4 +0 CEDS_C3H8_SHP $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_shp 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 10 4 +0 CEDS_C4H10_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 4 +0 CEDS_C5H12_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 4 +0 CEDS_C6H14_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 4 +0 CEDS_C2H4_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 10 4 +0 CEDS_PRPE_SHP $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_shp 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 10 4 +0 CEDS_C2H2_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 10 4 +0 CEDS_BENZ_SHP $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_shp 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 10 4 +0 CEDS_TOLU_SHP $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_shp 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 10 4 +0 CEDS_XYLE_SHP $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_shp 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 10 4 +0 CEDS_CH2O_SHP $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_shp 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 10 4 +0 CEDS_ALD2_SHP $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 10 4 +0 CEDS_MEK_SHP $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_shp 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 10 4 +0 CEDS_HCOOH_SHP $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_shp 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 10 4 +)))HTAPv3_SHIP + +(((CEDSv2_SHIP +0 CEDS_CO_SHP $ROOT/CEDS/v2021-06/$YYYY/CO-em-anthro_CMIP_CEDS_$YYYY.nc CO_shp 1750-2019/1-12/1/0 C xy kg/m2/s CO 26 10 5 +0 CEDS_SOAP_SHP - - - - - - SOAP 26/280 10 5 +0 CEDS_SO2_SHP $ROOT/CEDS/v2021-06/$YYYY/SO2-em-anthro_CMIP_CEDS_$YYYY.nc SO2_shp 1750-2019/1-12/1/0 C xy kg/m2/s SO2 - 10 5 +0 CEDS_SO4_SHP - - - - - - SO4 63 10 5 +0 CEDS_pFe_SHP - - - - - - pFe 66 10 5 +0 CEDS_NH3_SHP $ROOT/CEDS/v2021-06/$YYYY/NH3-em-anthro_CMIP_CEDS_$YYYY.nc NH3_shp 1750-2019/1-12/1/0 C xy kg/m2/s NH3 - 10 5 +0 CEDS_BCPI_SHP $ROOT/CEDS/v2021-06/$YYYY/BC-em-anthro_CMIP_CEDS_$YYYY.nc BC_shp 1750-2019/1-12/1/0 C xy kg/m2/s BCPI 70 10 5 +0 CEDS_BCPO_SHP - - - - - - BCPO 71 10 5 +0 CEDS_OCPI_SHP $ROOT/CEDS/v2021-06/$YYYY/OC-em-anthro_CMIP_CEDS_$YYYY.nc OC_shp 1750-2019/1-12/1/0 C xy kg/m2/s OCPI 72 10 5 +0 CEDS_OCPO_SHP - - - - - - OCPO 73 10 5 +0 CEDS_POG1_SHP - - - - - - POG1 74/76 10 5 +0 CEDS_POG2_SHP - - - - - - POG2 74/77 10 5 +0 CEDS_MOH_SHP $ROOT/CEDS/v2021-06/$YYYY/EOH-em-anthro_CMIP_CEDS_$YYYY.nc EOH_shp 1750-2019/1-12/1/0 C xy kg/m2/s MOH 26/90 10 5 +0 CEDS_EOH_SHP - - - - - - EOH 26/91 10 5 +0 CEDS_ROH_SHP - - - - - - ROH 26/92 10 5 +0 CEDS_C2H6_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H6-em-anthro_CMIP_CEDS_$YYYY.nc C2H6_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H6 26 10 5 +0 CEDS_C3H8_SHP $ROOT/CEDS/v2021-06/$YYYY/C3H8-em-anthro_CMIP_CEDS_$YYYY.nc C3H8_shp 1750-2019/1-12/1/0 C xy kg/m2/s C3H8 26 10 5 +0 CEDS_C4H10_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_butanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_butanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CEDS_C5H12_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_pentanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_pentanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CEDS_C6H14_SHP $ROOT/CEDS/v2021-06/$YYYY/ALK4_hexanes-em-anthro_CMIP_CEDS_$YYYY.nc ALK4_hexanes_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CEDS_C2H4_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H4-em-anthro_CMIP_CEDS_$YYYY.nc C2H4_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H4 26 10 5 +0 CEDS_PRPE_SHP $ROOT/CEDS/v2021-06/$YYYY/PRPE-em-anthro_CMIP_CEDS_$YYYY.nc PRPE_shp 1750-2019/1-12/1/0 C xy kg/m2/s PRPE 26 10 5 +0 CEDS_C2H2_SHP $ROOT/CEDS/v2021-06/$YYYY/C2H2-em-anthro_CMIP_CEDS_$YYYY.nc C2H2_shp 1750-2019/1-12/1/0 C xy kg/m2/s C2H2 26 10 5 +0 CEDS_BENZ_SHP $ROOT/CEDS/v2021-06/$YYYY/BENZ-em-anthro_CMIP_CEDS_$YYYY.nc BENZ_shp 1750-2019/1-12/1/0 C xy kg/m2/s BENZ 26 10 5 +0 CEDS_TOLU_SHP $ROOT/CEDS/v2021-06/$YYYY/TOLU-em-anthro_CMIP_CEDS_$YYYY.nc TOLU_shp 1750-2019/1-12/1/0 C xy kg/m2/s TOLU 26 10 5 +0 CEDS_XYLE_SHP $ROOT/CEDS/v2021-06/$YYYY/XYLE-em-anthro_CMIP_CEDS_$YYYY.nc XYLE_shp 1750-2019/1-12/1/0 C xy kg/m2/s XYLE 26 10 5 +0 CEDS_CH2O_SHP $ROOT/CEDS/v2021-06/$YYYY/CH2O-em-anthro_CMIP_CEDS_$YYYY.nc CH2O_shp 1750-2019/1-12/1/0 C xy kg/m2/s CH2O 26 10 5 +0 CEDS_ALD2_SHP $ROOT/CEDS/v2021-06/$YYYY/ALD2-em-anthro_CMIP_CEDS_$YYYY.nc ALD2_shp 1750-2019/1-12/1/0 C xy kg/m2/s ALD2 26 10 5 +0 CEDS_MEK_SHP $ROOT/CEDS/v2021-06/$YYYY/MEK-em-anthro_CMIP_CEDS_$YYYY.nc MEK_shp 1750-2019/1-12/1/0 C xy kg/m2/s MEK 26 10 5 +0 CEDS_HCOOH_SHP $ROOT/CEDS/v2021-06/$YYYY/HCOOH-em-anthro_CMIP_CEDS_$YYYY.nc HCOOH_shp 1750-2019/1-12/1/0 C xy kg/m2/s HCOOH 26 10 5 +)))CEDSv2_SHIP + +(((CEDS_GBDMAPS_SHIP +>>>include $ROOT/CEDS/v2020-08/HEMCO_Config.CEDS_GBDMAPS_SHIP.rc +)))CEDS_GBDMAPS_SHIP + +(((CEDS_SHIP_byFuelType +(((.not.CEDS_GBDMAPS_SHIP +(((.not.CEDSv2_SHIP +>>>include $ROOT/CEDS/v2020-08/HEMCO_Config.CEDS_GBD-MAPS_SHIP_byFuelType.rc +))).not.CEDSv2_SHIP +))).not.CEDS_GBDMAPS_SHIP +)))CEDS_SHIP_byFuelType + +#============================================================================== +# --- CMIP6_SHIP --- +# CEDS (historical) or Shared Socioeconomic Pathways (future), consistent with +# the CMIP6 simulation experimental design. +# +# Make sure that the desired $GCAPSCENARIO is set above in SECTION SETTINGS +# +#============================================================================== +(((CMIP6_SHIP +0 CMIP6_CO_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_shp 1750-2100/1-12/1/0 C xy kg/m2/s CO 26 10 5 +0 CMIP6_SOAP_SHP - - - - - - SOAP 26/280 10 5 +0 CMIP6_SO2_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_shp 1750-2100/1-12/1/0 C xy kg/m2/s SO2 - 10 5 +0 CMIP6_SO4_SHP - - - - - - SO4 63 10 5 +0 CMIP6_pFe_SHP - - - - - - pFe 66 10 5 +0 CMIP6_NH3_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_shp 1750-2100/1-12/1/0 C xy kg/m2/s NH3 - 10 5 +0 CMIP6_BCPI_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_shp 1750-2100/1-12/1/0 C xy kg/m2/s BCPI 70 10 5 +0 CMIP6_BCPO_SHP - - - - - - BCPO 71 10 5 +0 CMIP6_OCPI_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_shp 1750-2100/1-12/1/0 C xy kg/m2/s OCPI 72 10 5 +0 CMIP6_OCPO_SHP - - - - - - OCPO 73 10 5 +0 CMIP6_POG1_SHP - - - - - - POG1 74/76 10 5 +0 CMIP6_POG2_SHP - - - - - - POG2 74/77 10 5 +# NOTE: EOH files in CMIP6/v2021-01 are actually VOC1 (total alchohols) and are split into MOH, EOH, ROH here +0 CMIP6_MOH_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_shp 1750-2100/1-12/1/0 C xy kg/m2/s MOH 26/90 10 5 +0 CMIP6_EOH_SHP - - - - - - EOH 26/91 10 5 +0 CMIP6_ROH_SHP - - - - - - ROH 26/92 10 5 +0 CMIP6_C2H6_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_shp 1750-2100/1-12/1/0 C xy kg/m2/s C2H6 26 10 5 +0 CMIP6_C3H8_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_shp 1750-2100/1-12/1/0 C xy kg/m2/s C3H8 26 10 5 +0 CMIP6_C4H10_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_butanes_shp 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CMIP6_C5H12_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_pentanes_shp 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CMIP6_C6H14_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_hexanes_shp 1750-2100/1-12/1/0 C xy kg/m2/s ALK4 26 10 5 +0 CMIP6_C2H4_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_shp 1750-2100/1-12/1/0 C xy kg/m2/s C2H4 26 10 5 +0 CMIP6_PRPE_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_shp 1750-2100/1-12/1/0 C xy kg/m2/s PRPE 26 10 5 +0 CMIP6_C2H2_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H2_shp 1750-2100/1-12/1/0 C xy kg/m2/s C2H2 26 10 5 +0 CMIP6_BENZ_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_shp 1750-2100/1-12/1/0 C xy kg/m2/s BENZ 26 10 5 +0 CMIP6_TOLU_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_shp 1750-2100/1-12/1/0 C xy kg/m2/s TOLU 26 10 5 +0 CMIP6_XYLE_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_shp 1750-2100/1-12/1/0 C xy kg/m2/s XYLE 26 10 5 +0 CMIP6_CH2O_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_shp 1750-2100/1-12/1/0 C xy kg/m2/s CH2O 26 10 5 +0 CMIP6_ALD2_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_shp 1750-2100/1-12/1/0 C xy kg/m2/s ALD2 26 10 5 +0 CMIP6_MEK_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_shp 1750-2100/1-12/1/0 C xy kg/m2/s MEK 26 10 5 +0 CMIP6_HCOOH_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_shp 1750-2100/1-12/1/0 C xy kg/m2/s HCOOH 26 10 5 +)))CMIP6_SHIP + +#------------------------------------------------------------------------------ +# ### IF THE PARANOX EXTENSION IS TURNED ON ### +# +# Cosine(SZA) will be read from the restart file. Use the PARANOX extension +# number (# 102) to specify these quantities and the NEI emissions. +# This will make sure everything will be passed to the HEMCO PARANOX extension +# rather than sending them into the base emissions. +#------------------------------------------------------------------------------ +(((ParaNOx + +(((ICOADS_SHIP +102 ICOADS_SHIP_NO $ROOT/ICOADS_SHIP/v2014-07/ICOADS.generic.1x1.nc NO 2002/1-12/1/0 C xy kg/m2/s NO 1/5 10 1 +)))ICOADS_SHIP + +(((HTAPv3_SHIP +102 HTAPv3_NO_SHP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_SHP 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 10 4 +)))HTAPv3_SHIP + +(((CEDSv2_SHIP +102 CEDS_NO_SHP $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_shp 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 10 5 +)))CEDSv2_SHIP + +(((CEDS_GBDMAPS_SHIP +102 CEDS_NO_SHP $ROOT/CEDS/v2020-08/$YYYY/NO-em-total-anthro_CEDS_$YYYY.nc NO_shp 1970-2017/1-12/1/0 C xy kg/m2/s NO 25 10 5 +)))CEDS_GBDMAPS_SHIP + +)))ParaNOx + +#------------------------------------------------------------------------------ +# ### IF THE PARANOX EXTENSION IS TURNED OFF ### +# +# Use extension # 0 to specify these emissions. This will put them +# into the base emissions rather than sending them through PARANOX. +#------------------------------------------------------------------------------ +(((.not.ParaNOx + +(((ICOADS_SHIP +0 ICOADS_SHIP_NO $ROOT/ICOADS_SHIP/v2014-07/ICOADS.generic.1x1.nc NO 2002/1-12/1/0 C xy kg/m2/s NO 1/5 10 1 +)))ICOADS_SHIP + +(((HTAPv3_SHIP +0 HTAPv3_NO_SHIP $ROOT/HTAPv3/v2022-12/$YYYY/HTAPv3_NO_0.1x0.1_$YYYY.nc NO_SHP 2000-2018/1-12/1/0 C xy kg/m2/s NO 25 10 4 +)))HTAPv3_SHIP + +(((CEDSv2_SHIP +0 CEDS_NO_SHP $ROOT/CEDS/v2021-06/$YYYY/NO-em-anthro_CMIP_CEDS_$YYYY.nc NO_shp 1750-2019/1-12/1/0 C xy kg/m2/s NO 25 10 5 +)))CEDSv2_SHIP + +(((CEDS_GBDMAPS_SHIP +0 CEDS_NO_SHP $ROOT/CEDS/v2020-08/$YYYY/NO-em-total-anthro_CEDS_$YYYY.nc NO_shp 1970-2017/1-12/1/0 C xy kg/m2/s NO 25 10 5 +)))CEDS_GBDMAPS_SHIP + +(((CMIP6_SHIP +102 CMIP6_NO_SHP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_shp 1750-2100/1-12/1/0 C xy kg/m2/s NO 25 10 5 +)))CMIP6_SHIP + +))).not.ParaNOx + +)))SHIP + +#============================================================================== +# --- AEIC 2019 aircraft emissions (daily & monthly mean) --- +# +# Data files are for 2019, but scale factors from 1990-2019 can be applied +# in order to get year-specific emissions. See the notes in the AEIC2019 +# scale factor section below for more information. +#============================================================================== +(((AEIC2019_DAILY +0 AEIC19_DAILY_NO $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc NO 2019/1-12/1-31/0 C xyz kg/m2/s NO 241/240 20 1 +0 AEIC19_DAILY_NO2 $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc NO2 2019/1-12/1-31/0 C xyz kg/m2/s NO2 241/240 20 1 +0 AEIC19_DAILY_HONO $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc HONO 2019/1-12/1-31/0 C xyz kg/m2/s HNO2 241/240 20 1 +0 AEIC19_DAILY_CO $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc CO 2019/1-12/1-31/0 C xyz kg/m2/s CO 241 20 1 +0 AEIC19_DAILY_SOAP - - - - - - SOAP 241/280 20 1 +0 AEIC19_DAILY_SO2 $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc FUELBURN 2019/1-12/1-31/0 C xyz kg/m2/s SO2 241/111 20 1 +0 AEIC19_DAILY_pFe - - - - - - pFe 241/111/66 20 1 +0 AEIC19_DAILY_SO4 - - - - - - SO4 241/112 20 1 +0 AEIC19_DAILY_H2O - - - - - - H2O 241/120 20 1 +0 AEIC19_DAILY_BCPI $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc BC 2019/1-12/1-31/0 C xyz kg/m2/s BCPI 241 20 1 +0 AEIC19_DAILY_OCPI $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc OC 2019/1-12/1-31/0 C xyz kg/m2/s OCPI 241 20 1 +0 AEIC19_DAILY_POG1 - - - - - - POG1 241/74/76 20 1 +0 AEIC19_DAILY_POG2 - - - - - - POG2 241/74/77 20 1 +0 AEIC19_DAILY_ACET $ROOT/AEIC2019/v2022-03/2019/$MM/AEIC_2019$MM$DD.0.5x0.625.36L.nc HC 2019/1-12/1-31/0 C xyz kg/m2/s ACET 241/114/101 20 1 +0 AEIC19_DAILY_ALD2 - - - - - - ALD2 241/114/102 20 1 +0 AEIC19_DAILY_ALK4 - - - - - - ALK4 241/114/103 20 1 +0 AEIC19_DAILY_C2H6 - - - - - - C2H6 241/114/104 20 1 +0 AEIC19_DAILY_C3H8 - - - - - - C3H8 241/114/105 20 1 +0 AEIC19_DAILY_CH2O - - - - - - CH2O 241/114/106 20 1 +0 AEIC19_DAILY_PRPE - - - - - - PRPE 241/114/107 20 1 +0 AEIC19_DAILY_MACR - - - - - - MACR 241/114/108 20 1 +0 AEIC19_DAILY_RCHO - - - - - - RCHO 241/114/109 20 1 +)))AEIC2019_DAILY +(((AEIC2019_MONMEAN +0 AEIC19_MONMEAN_NO - - - - xyz kg/m2/s NO 241/240 20 1 +0 AEIC19_MONMEAN_NO2 - - - - xyz kg/m2/s NO2 241/240 20 1 +0 AEIC19_MONMEAN_HONO - - - - xyz kg/m2/s HNO2 241/240 20 1 +0 AEIC19_MONMEAN_CO - - - - xyz kg/m2/s CO 241 20 1 +0 AEIC19_MONMEAN_SOAP - - - - - - SOAP 241/280 20 1 +0 AEIC19_MONMEAN_SO2 - - - - xyz kg/m2/s SO2 241/111 20 1 +0 AEIC19_MONMEAN_pFe - - - - - - pFe 241/111/66 20 1 +0 AEIC19_MONMEAN_SO4 - - - - - - SO4 241/112 20 1 +0 AEIC19_MONMEAN_H2O - - - - - - H2O 241/120 20 1 +0 AEIC19_MONMEAN_BCPI - - - - xyz kg/m2/s BCPI 241 20 1 +0 AEIC19_MONMEAN_OCPI - - - - xyz kg/m2/s OCPI 241 20 1 +0 AEIC19_MONMEAN_POG1 - - - - - - POG1 241/74/76 20 1 +0 AEIC19_MONMEAN_POG2 - - - - - - POG2 241/74/77 20 1 +0 AEIC19_MONMEAN_ACET - - - - xyz kg/m2/s ACET 241/114/101 20 1 +0 AEIC19_MONMEAN_ALD2 - - - - - - ALD2 241/114/102 20 1 +0 AEIC19_MONMEAN_ALK4 - - - - - - ALK4 241/114/103 20 1 +0 AEIC19_MONMEAN_C2H6 - - - - - - C2H6 241/114/104 20 1 +0 AEIC19_MONMEAN_C3H8 - - - - - - C3H8 241/114/105 20 1 +0 AEIC19_MONMEAN_CH2O - - - - - - CH2O 241/114/106 20 1 +0 AEIC19_MONMEAN_PRPE - - - - - - PRPE 241/114/107 20 1 +0 AEIC19_MONMEAN_MACR - - - - - - MACR 241/114/108 20 1 +0 AEIC19_MONMEAN_RCHO - - - - - - RCHO 241/114/109 20 1 +)))AEIC2019_MONMEAN + +#============================================================================== +# --- Emissions from decaying plants --- +#============================================================================== +(((DECAYING_PLANTS +0 ALD2_PLANTDECAY $ROOT/ALD2/v2017-03/resp.geos.2x25.nc HET_RESP 1985/1-12/1/0 C xy kgC/m2/s ALD2 85/41 3 1 +0 EOH_PLANTDECAY - - - - - - EOH 86/47 3 1 +)))DECAYING_PLANTS + +#============================================================================== +# --- RCP future emissions 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 +0 RCP3PD_NOx $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_NOx_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NO - 1 1 +0 RCP3PD_CO $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_CO_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CO - 1 1 +0 RCP3PD_SOAP - - - - - - SOAP 280 1 1 +0 RCP3PD_BCPO $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_BC_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s BCPO - 1 1 +0 RCP3PD_OCPO $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_OC_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s OCPO - 1 1 +0 RCP3PD_POG1 - - - - - - POG1 74/76 1 1 +0 RCP3PD_POG2 - - - - - - POG2 74/77 1 1 +0 RCP3PD_SO2 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_SO2_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s SO2 - 1 1 +0 RCP3PD_pFe - - - - - - pFe 66 1 1 +0 RCP3PD_NH3 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_NH3_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NH3 - 1 1 +0 RCP3PD_C2H2 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_acetylene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H2 59 1 1 +0 RCP3PD_CH2O $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_formaldehyde_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH2O - 1 1 +0 RCP3PD_BENZ $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_benzene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s BENZ 43 1 1 +0 RCP3PD_TOLU $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_toluene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s TOLU 55 1 1 +0 RCP3PD_XYLE $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_xylene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s XYLE 56 1 1 +0 RCP3PD_ALD2 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_other_aldehydes_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALD2 41 1 1 +0 RCP3PD_ALK4__A $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_butanes_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP3PD_ALK4__B $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_pentanes_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP3PD_ALK4__C $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_hexanes_and_higher_alkanes_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP3PD_ACET $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_total_ketones_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ACET 51/40 1 1 +0 RCP3PD_MEK - - - - - - MEK 50/48 1 1 +0 RCP3PD_C2H6 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_ethane_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H6 45 1 1 +0 RCP3PD_C2H4 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_ethene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H4 44 1 1 +0 RCP3PD_C3H8 $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_propane_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C3H8 46 1 1 +0 RCP3PD_PRPE $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_propene_2005-2100_23474_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s PRPE 49 1 1 +0 RCP3PD_HCOOH $ROOT/RCP/v2020-07/RCP_3PD/RCPs_anthro_total_acids_2005-2100_23474.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s HCOOH 57/58 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 +0 RCP45_NOx $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_NOx_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NO - 1 1 +0 RCP45_CO $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_CO_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CO - 1 1 +0 RCP45_SOAP - - - - - - SOAP 280 1 1 +0 RCP45_BCPO $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_BC_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s BCPO - 1 1 +0 RCP45_OCPO $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_OC_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s OCPO - 1 1 +0 RCP45_POG1 - - - - - - POG1 74/76 1 1 +0 RCP45_POG2 - - - - - - POG2 74/77 1 1 +0 RCP45_SO2 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_SO2_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s SO2 - 1 1 +0 RCP45_pFe - - - - - - pFe 66 1 1 +0 RCP45_NH3 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_NH3_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NH3 - 1 1 +0 RCP45_C2H2 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_acetylene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H2 59 1 1 +0 RCP45_CH2O $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_formaldehyde_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH2O - 1 1 +0 RCP45_BENZ $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_benzene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s BENZ 43 1 1 +0 RCP45_TOLU $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_toluene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s TOLU 55 1 1 +0 RCP45_XYLE $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_xylene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s XYLE 56 1 1 +0 RCP45_ALD2 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_other_aldehydes_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALD2 41 1 1 +0 RCP45_ALK4__A $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_butanes_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP45_ALK4__B $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_pentanes_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP45_ALK4__C $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_hexanes_and_higher_alkanes_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP45_ACET $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_total_ketones_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ACET 51/40 1 1 +0 RCP45_MEK - - - - - - MEK 50/48 1 1 +0 RCP45_C2H6 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_ethane_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H6 45 1 1 +0 RCP45_C2H4 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_ethene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H4 44 1 1 +0 RCP45_C3H8 $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_propane_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C3H8 46 1 1 +0 RCP45_PRPE $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_propene_2005-2100_27424_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s PRPE 49 1 1 +0 RCP45_HCOOH $ROOT/RCP/v2020-07/RCP_45/RCPs_anthro_total_acids_2005-2100_27424.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s HCOOH 57/58 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 +0 RCP60_NOx $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_NOx_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NO - 1 1 +0 RCP60_CO $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_CO_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CO - 1 1 +0 RCP60_SOAP - - - - - - SOAP 280 1 1 +0 RCP60_BCPO $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_BC_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s BCPO - 1 1 +0 RCP60_OCPO $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_OC_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s OCPO - 1 1 +0 RCP60_POG1 - - - - - - POG1 74/76 1 1 +0 RCP60_POG2 - - - - - - POG2 74/77 1 1 +0 RCP60_SO2 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_SO2_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s SO2 - 1 1 +0 RCP60_pFe - - - - - - pFe 66 1 1 +0 RCP60_NH3 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_NH3_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NH3 - 1 1 +0 RCP60_C2H2 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_acetylene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H2 59 1 1 +0 RCP60_CH2O $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_formaldehyde_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH2O - 1 1 +0 RCP60_BENZ $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_benzene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s BENZ 43 1 1 +0 RCP60_TOLU $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_toluene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s TOLU 55 1 1 +0 RCP60_XYLE $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_xylene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s XYLE 56 1 1 +0 RCP60_ALD2 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_other_aldehydes_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALD2 41 1 1 +0 RCP60_ALK4__A $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_butanes_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP60_ALK4__B $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_pentanes_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP60_ALK4__C $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_hexanes_and_higher_alkanes_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP60_ACET $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_total_ketones_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ACET 51/40 1 1 +0 RCP60_MEK - - - - - - MEK 50/48 1 1 +0 RCP60_C2H6 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_ethane_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H6 45 1 1 +0 RCP60_C2H4 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_ethene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H4 44 1 1 +0 RCP60_C3H8 $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_propane_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C3H8 46 1 1 +0 RCP60_PRPE $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_propene_2005-2100_43190_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s PRPE 49 1 1 +0 RCP60_HCOOH $ROOT/RCP/v2020-07/RCP_60/RCPs_anthro_total_acids_2005-2100_43190.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s HCOOH 57/58 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 +0 RCP85_NOx $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_NOx_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NO - 1 1 +0 RCP85_CO $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_CO_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CO - 1 1 +0 RCP85_SOAP - - - - - - SOAP 280 1 1 +0 RCP85_BCPO $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_BC_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s BCPO - 1 1 +0 RCP85_OCPO $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_OC_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s OCPO - 1 1 +0 RCP85_POG1 - - - - - - POG1 74/76 1 1 +0 RCP85_POG2 - - - - - - POG2 74/77 1 1 +0 RCP85_SO2 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_SO2_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s SO2 - 1 1 +0 RCP80_pFe - - - - - - pFe 66 1 1 +0 RCP85_NH3 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_NH3_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s NH3 - 1 1 +0 RCP85_C2H2 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_acetylene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H2 59 1 1 +0 RCP85_CH2O $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_formaldehyde_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s CH2O - 1 1 +0 RCP85_BENZ $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_benzene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s BENZ 43 1 1 +0 RCP85_TOLU $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_toluene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s TOLU 55 1 1 +0 RCP85_XYLE $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_xylene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s XYLE 56 1 1 +0 RCP85_ALD2 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_other_aldehydes_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALD2 41 1 1 +0 RCP85_ALK4__A $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_butanes_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP85_ALK4__B $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_pentanes_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP85_ALK4__C $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_hexanes_and_higher_alkanes_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ALK4 42 1 1 +0 RCP85_ACET $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_total_ketones_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s ACET 51/40 1 1 +0 RCP85_MEK - - - - - - MEK 50/48 1 1 +0 RCP85_C2H6 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_ethane_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H6 45 1 1 +0 RCP85_C2H4 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_ethene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C2H4 44 1 1 +0 RCP85_C3H8 $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_propane_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s C3H8 46 1 1 +0 RCP85_PRPE $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_propene_2005-2100_43533_kgC.nc ACCMIP 2005-2100/1/1/0 ID xy kgC/m2/s PRPE 49 1 1 +0 RCP85_HCOOH $ROOT/RCP/v2020-07/RCP_85/RCPs_anthro_total_acids_2005-2100_43533.nc ACCMIP 2005-2100/1/1/0 ID xy kg/m2/s HCOOH 57/58 1 1 +)))RCP_85 + +#============================================================================== +# --- QFED2 biomass burning (v2.5r1) --- +#============================================================================== +(((QFED2 +0 QFED_ACET_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_acet.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s ACET 75/311 5 2 +0 QFED_ACET_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_acet.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s ACET 75/312 5 2 +0 QFED_ALD2_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ald2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s ALD2 75/311 5 2 +0 QFED_ALD2_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ald2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s ALD2 75/312 5 2 +0 QFED_ALK4_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_alk4.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s ALK4 75/311 5 2 +0 QFED_ALK4_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_alk4.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s ALK4 75/312 5 2 +0 QFED_BCPI_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_bc.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s BCPI 70/75/311 5 2 +0 QFED_BCPO_PBL - - - - - - BCPO 71/75/311 5 2 +0 QFED_BCPI_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_bc.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s BCPI 70/75/312 5 2 +0 QFED_BCPO_FT - - - - - - BCPO 71/75/312 5 2 +0 QFED_OCPI_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_oc.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s OCPI 72/75/311 5 2 +0 QFED_OCPO_PBL - - - - - - OCPO 73/75/311 5 2 +0 QFED_POG1_PBL - - - - - - POG1 74/76/75/311 5 2 +0 QFED_POG2_PBL - - - - - - POG2 74/77/75/311 5 2 +0 QFED_OCPI_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_oc.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s OCPI 72/75/312 5 2 +0 QFED_OCPO_FT - - - - - - OCPO 73/75/312 5 2 +0 QFED_POG1_FT - - - - - - POG1 74/76/75/312 5 2 +0 QFED_POG2_FT - - - - - - POG2 74/77/75/312 5 2 +0 QFED_C2H6_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c2h6.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s C2H6 75/311 5 2 +0 QFED_C2H6_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c2h6.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s C2H6 75/312 5 2 +0 QFED_C3H8_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c3h8.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s C3H8 75/311 5 2 +0 QFED_C3H8_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c3h8.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s C3H8 75/312 5 2 +0 QFED_CH2O_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ch2o.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s CH2O 75/311 5 2 +0 QFED_CH2O_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ch2o.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s CH2O 75/312 5 2 +0 QFED_CH4_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ch4.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s CH4 75/311 5 2 +0 QFED_CH4_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_ch4.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s CH4 75/312 5 2 +0 QFED_CO_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s CO 54/75/311 5 2 +0 QFED_SOAP_PBL - - - - - - SOAP 54/75/281/311 5 2 +0 QFED_CO_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s CO 54/75/312 5 2 +0 QFED_SOAP_FT - - - - - - SOAP 54/75/281/312 5 2 +0 QFED_CO2_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s CO2 75/311 5 2 +0 QFED_CO2_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_co2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s CO2 75/312 5 2 +0 QFED_MEK_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_mek.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s MEK 75/311 5 2 +0 QFED_MEK_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_mek.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s MEK 75/312 5 2 +0 QFED_NH3_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_nh3.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s NH3 75/311 5 2 +0 QFED_NH3_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_nh3.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s NH3 75/312 5 2 +0 QFED_NO_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_no.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s NO 75/311 5 2 +0 QFED_NO_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_no.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s NO 75/312 5 2 +0 QFED_SO2_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_so2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s SO2 75/311 5 2 +0 QFED_pFe_PBL - - - - - - pFe 75/311/66 5 2 +0 QFED_SO2_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_so2.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s SO2 75/312 5 2 +0 QFED_pFe_FT - - - - - - pF3 75/312/66 5 2 +0 QFED_C3H6_PBL $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c3h6.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=1:PBL kg/m2/s PRPE 75/311 5 2 +0 QFED_C3H6_FT $ROOT/QFED/v2018-07/$YYYY/$MM/qfed2.emis_c3h6.006.$YYYY$MM$DD.nc4 biomass 2000-2022/1-12/1-31/0/+12hour EFY xyL=PBL:5500m kg/m2/s PRPE 75/312 5 2 +)))QFED2 + +#============================================================================== +# --- GFAS biomass burning --- +#============================================================================== +(((GFAS +0 GFAS_CO $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc cofire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s CO 75 5 3 +0 GFAS_SOAP $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc cofire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s SOAP 75/281 5 3 +0 GFAS_CH3OH $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc ch3ohfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s MOH 75 5 3 +0 GFAS_NO $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc noxfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s NO 75 5 3 +0 GFAS_BCPI $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc bcfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s BCPI 70/75 5 3 +0 GFAS_BCPO $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc bcfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s BCPO 71/75 5 3 +0 GFAS_OCPI $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc ocfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s OCPI 72/75 5 3 +0 GFAS_OCPO $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc ocfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s OCPO 73/75 5 3 +0 GFAS_POG1 - - - - - - POG1 74/76/75 5 3 +0 GFAS_POG2 - - - - - - POG2 74/77/75 5 3 +0 GFAS_CO2 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc co2fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s CO2 75 5 3 +0 GFAS_CH4 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc ch4fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s CH4 75 5 3 +0 GFAS_SO2 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc so2fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s SO2 75 5 3 +0 GFAS_pFe $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc so2fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s pFe 75/66 5 3 +0 GFAS_NH3 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc nh3fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s NH3 75 5 3 +0 GFAS_ACET $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c3h6ofire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s ACET 75 5 3 +0 GFAS_ALD2 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c2h4ofire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s ALD2 75 5 3 +0 GFAS_ALK4 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc hialkanesfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s ALK4 75 5 3 +0 GFAS_PRPE1 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc hialkenesfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s PRPE 75 5 3 +0 GFAS_PRPE2 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c3h6fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s PRPE 75 5 3 +0 GFAS_C2H6 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c2h6fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s C2H6 75 5 3 +0 GFAS_C3H8 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c3h8fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s C3H8 75 5 3 +0 GFAS_CH2O $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc ch2ofire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s CH2O 75 5 3 +0 GFAS_C2H4 $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c2h4fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s C2H4 75 5 3 +0 GFAS_ISOP $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c5h8fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s ISOP 75 5 3 +0 GFAS_DMS $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c2h6sfire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s DMS 75 5 3 +0 GFAS_TOLU $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c7h8fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s TOLU 75 5 3 +0 GFAS_BENZ $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c6h6fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s BENZ 75 5 3 +0 GFAS_XYLE $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc c8h10fire 2003-2021/1-12/1-31/0 C xyL=1:scal300 kg/m2/s XYLE 75 5 3 +)))GFAS + +#============================================================================== +# --- BB4MIPs biomass burning --- +#============================================================================== +(((BB4MIPS +# 75 is time-of-day scaling +0 CMIP6_BB_CO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s CO 75 5 3 +0 CMIP6_BB_SOAP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CO_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s SOAP 75/281 5 3 +0 CMIP6_BB_NO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NO_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s NO 75 5 3 +0 CMIP6_BB_BCPI $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s BCPI 70/75 5 3 +0 CMIP6_BB_BCPO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BC_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s BCPO 71/75 5 3 +0 CMIP6_BB_OCPI $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s OCPI 72/75 5 3 +0 CMIP6_BB_OCPO $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 OC_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s OCPO 73/75 5 3 +0 CMIP6_BB_POG1 - - - - - - POG1 74/76/75 5 3 +0 CMIP6_BB_POG2 - - - - - - POG2 74/77/75 5 3 +0 CMIP6_BB_SO2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 SO2_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s SO2 75 5 3 +0 CMIP6_BB_pFe - - - - - - pFe 75/66 5 3 +0 CMIP6_BB_NH3 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 NH3_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s NH3 75 5 3 +0 CMIP6_BB_ALD2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALD2_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s ALD2 75 5 3 +0 CMIP6_BB_ALK4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ALK4_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s ALK4 75 5 3 +0 CMIP6_BB_PRPE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 PRPE_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s PRPE 75 5 3 +0 CMIP6_BB_C2H6 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H6_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s C2H6 75 5 3 +0 CMIP6_BB_C3H8 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C3H8_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s C3H8 75 5 3 +0 CMIP6_BB_CH2O $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 CH2O_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s CH2O 75 5 3 +0 CMIP6_BB_C2H4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 C2H4_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s C2H4 75 5 3 +0 CMIP6_BB_ISOP $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ISOP_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s ISOP 75 5 3 +0 CMIP6_BB_DMS $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 DMS_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s DMS 75 5 3 +0 CMIP6_BB_TOLU $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 TOLU_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s TOLU 75 5 3 +0 CMIP6_BB_BENZ $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 BENZ_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s BENZ 75 5 3 +0 CMIP6_BB_XYLE $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 XYLE_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s XYLE 75 5 3 +0 CMIP6_BB_H2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 H2_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s H2 75 5 3 +0 CMIP6_BB_MTPA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MONOT_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s MTPA 75 5 3 +#0 CMIP6_BB_MTPO - - - - - - MTPO 75 5 3 +#0 CMIP6_BB_LIMO - - - - - - LIMO 75 5 3 +0 CMIP6_BB_EOH $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 EOH_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s EOH 75 5 3 +0 CMIP6_BB_MOH $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MOH_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s MOH 75 5 3 +0 CMIP6_BB_ACET - - - - - - ACET 79/75 5 3 +0 CMIP6_BB_MGLY $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MGLY_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s MGLY 75 5 3 +0 CMIP6_BB_ACTA $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 ACTA_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s ACTA 75 5 3 +0 CMIP6_BB_HCN $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCN_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s HCN 75 5 3 +0 CMIP6_BB_HCOOH $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 HCOOH_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s HCOOH 75 5 3 +0 CMIP6_BB_MEK $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_$YYYY.nc4 MEK_bbn 1750-2100/1-12/1/0 C xyL=1:PBL kg/m2/s MEK 75 5 3 +)))BB4MIPS + +#============================================================================== +# --- GFED4 biomass burning emissions climatology +# NOTE: +# - These emissions were generated for 2010-2019 using the GFED extension +# in a 0.5x0.625 HEMCO 3.6.1 standalone simulation. +#============================================================================== +(((GFED4_CLIMATOLOGY +0 GFED4_CLIM_ACET $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_ACET 2019/1-12/1/0 C xy kg/m2/s ACET - 5 1 +0 GFED4_CLIM_ALD2 $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_ALD2 2019/1-12/1/0 C xy kg/m2/s ALD2 - 5 1 +0 GFED4_CLIM_ALK4 $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_ALK4 2019/1-12/1/0 C xy kg/m2/s ALK4 - 5 1 +0 GFED4_CLIM_BCPI $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_BCPI 2019/1-12/1/0 C xy kg/m2/s BCPI - 5 1 +0 GFED4_CLIM_BCPO $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_BCPO 2019/1-12/1/0 C xy kg/m2/s BCPO - 5 1 +0 GFED4_CLIM_BENZ $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_BENZ 2019/1-12/1/0 C xy kg/m2/s BENZ - 5 1 +0 GFED4_CLIM_C2H6 $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_C2H6 2019/1-12/1/0 C xy kg/m2/s C2H6 - 5 1 +0 GFED4_CLIM_C3H8 $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_C3H8 2019/1-12/1/0 C xy kg/m2/s C3H8 - 5 1 +0 GFED4_CLIM_CH2O $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_ACET 2019/1-12/1/0 C xy kg/m2/s CH2O - 5 1 +0 GFED4_CLIM_CO $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_CO 2019/1-12/1/0 C xy kg/m2/s CO - 5 1 +0 GFED4_CLIM_EOH $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_EOH 2019/1-12/1/0 C xy kg/m2/s EOH - 5 1 +0 GFED4_CLIM_MEK $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_MEK 2019/1-12/1/0 C xy kg/m2/s MEK - 5 1 +0 GFED4_CLIM_NO $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_NO 2019/1-12/1/0 C xy kg/m2/s NO - 5 1 +0 GFED4_CLIM_OCPI $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_OCPI 2019/1-12/1/0 C xy kg/m2/s OCPI - 5 1 +0 GFED4_CLIM_OCPO $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_OCPO 2019/1-12/1/0 C xy kg/m2/s OCPO - 5 1 +0 GFED4_CLIM_PRPE $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_PRPE 2019/1-12/1/0 C xy kg/m2/s PRPE - 5 1 +0 GFED4_CLIM_SO2 $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_SO2 2019/1-12/1/0 C xy kg/m2/s SO2 - 5 1 +0 GFED4_CLIM_SOAP $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_SOAP 2019/1-12/1/0 C xy kg/m2/s SOAP - 5 1 +0 GFED4_CLIM_TOLU $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_TOLU 2019/1-12/1/0 C xy kg/m2/s TOLU - 5 1 +0 GFED4_CLIM_XYLE $ROOT/GFED4/v2023-03/GFED4_climatology_2010-2019_05x0625.nc GFED4_XYLE 2019/1-12/1/0 C xy kg/m2/s XYLE - 5 1 +)))GFED4_CLIMATOLOGY + +#============================================================================== +# --- Anthropogenic Fugitive, Combustion and Industrial Dust --- +# (Philip et al., 2017, ERL) +#============================================================================== +(((AFCID +0 PM25FINE_1 $ROOT/AFCID/v2018-04/PM25FINE_ECLIPSE_2015.geos.2x25.nc PM25FINE 2015/1-12/1/0 C xy kg/m2/s DST1 - 1 1 +0 PM25FINE_2 $ROOT/AFCID/v2018-04/PM25FINE_MEIC_2012.generic.025x025.nc PM25FINE 2012/1-12/1/0 C xy kg/m2/s DST1 1009 1 2 +0 PM25FINE_3 $ROOT/AFCID/v2018-04/PM25FINE_IITB_2013.generic.025x025.nc PM25FINE 2013/1-12/1/0 C xy kg/m2/s DST1 1010 1 3 +)))AFCID + +#============================================================================== +# --- Offline dust emissions --- +#============================================================================== +(((OFFLINE_DUST +(((.not.DustDead.or.DustGinoux +0 EMIS_DST1 $ROOT/OFFLINE_DUST/v2021-08/0.5x0.625/$YYYY/$MM/dust_emissions_05.$YYYY$MM$DD.nc EMIS_DST1 1980-2022/1-12/1-31/* EFY xy kg/m2/s DST1 - 3 2 +0 EMIS_DST2 $ROOT/OFFLINE_DUST/v2021-08/0.5x0.625/$YYYY/$MM/dust_emissions_05.$YYYY$MM$DD.nc EMIS_DST2 1980-2022/1-12/1-31/* EFY xy kg/m2/s DST2 - 3 2 +0 EMIS_DST3 $ROOT/OFFLINE_DUST/v2021-08/0.5x0.625/$YYYY/$MM/dust_emissions_05.$YYYY$MM$DD.nc EMIS_DST3 1980-2022/1-12/1-31/* EFY xy kg/m2/s DST3 - 3 2 +0 EMIS_DST4 $ROOT/OFFLINE_DUST/v2021-08/0.5x0.625/$YYYY/$MM/dust_emissions_05.$YYYY$MM$DD.nc EMIS_DST4 1980-2022/1-12/1-31/* EFY xy kg/m2/s DST4 - 3 2 +))).not.DustDead.or.DustGinoux +)))OFFLINE_DUST + +#============================================================================== +# --- Offline biogenic VOC emissions --- +#============================================================================== +(((OFFLINE_BIOGENICVOC +0 BIOGENIC_ACET $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc ACET_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s ACET - 4 2 +0 BIOGENIC_ALD2 $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc ALD2_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s ALD2 - 4 2 +0 BIOGENIC_C2H4 $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc C2H4_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s C2H4 - 4 2 +0 BIOGENIC_EOH $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc EOH_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s EOH - 4 2 +0 BIOGENIC_ISOP $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc ISOP_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s ISOP - 4 2 +0 BIOGENIC_ISOP_SOAP - - - - - - SOAP 610 4 2 +0 BIOGENIC_ISOP_SOAS - - - - - - SOAS 610 4 2 +0 BIOGENIC_LIMO $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc LIMO_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s LIMO - 4 2 +0 BIOGENIC_LIMO_SOAP - - - - - - SOAP 611 4 2 +0 BIOGENIC_LIMO_SOAS - - - - - - SOAS 611 4 2 +0 BIOGENIC_MOH $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc MOH_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s MOH - 4 2 +0 BIOGENIC_MTPA $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc MTPA_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s MTPA - 4 2 +0 BIOGENIC_MTPA_SOAP - - - - - - SOAP 611 4 2 +0 BIOGENIC_MTPA_SOAS - - - - - - SOAS 611 4 2 +0 BIOGENIC_MTPO $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc MTPO_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s MTPO - 4 2 +0 BIOGENIC_MTPO_SOAP - - - - - - SOAP 611 4 2 +0 BIOGENIC_MTPO_SOAS - - - - - - SOAS 611 4 2 +0 BIOGENIC_PRPE $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc PRPE_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s PRPE - 4 2 +0 BIOGENIC_SESQ $ROOT/OFFLINE_BIOVOC/v2021-12/0.5x0.625/$YYYY/$MM/biovoc_05.$YYYY$MM$DD.nc SESQ_MEGAN 1980-2022/1-12/1-31/* EFY xy kg/m2/s SESQ - 4 2 +0 BIOGENIC_SESQ_SOAP - - - - - - SOAP 612 4 2 +0 BIOGENIC_SESQ_SOAS - - - - - - SOAS 612 4 2 +)))OFFLINE_BIOGENICVOC + +#============================================================================== +# --- Offline sea salt emissions --- +#============================================================================== +(((OFFLINE_SEASALT +(((.not.SeaSalt +0 SEASALT_SALA $ROOT/OFFLINE_SEASALT/v2019-01/0.5x0.625/$YYYY/$MM/seasalt_05.$YYYY$MM$DD.nc SALA_TOTAL 1980-2022/1-12/1-31/* EFY xy kg/m2/s SALA - 3 2 +0 SEASALT_SALAAL - - - - - - SALAAL 615 3 2 +0 SEASALT_SALACL - - - - - - SALACL 616 3 2 +(((CalcBrSeasalt +0 SEASALT_BrSALA - - - - - - BrSALA 617 3 2 +)))CalcBrSeasalt +0 SEASALT_SALC $ROOT/OFFLINE_SEASALT/v2019-01/0.5x0.625/$YYYY/$MM/seasalt_05.$YYYY$MM$DD.nc SALC_TOTAL 1980-2022/1-12/1-31/* EFY xy kg/m2/s SALC - 3 2 +0 SEASALT_SALCAL - - - - - - SALCAL 615 3 2 +0 SEASALT_SALCCL - - - - - - SALCCL 616 3 2 +(((CalcBrSeasalt +0 SEASALT_BrSALC - - - - - - BrSALC 617 3 2 +)))CalcBrSeasalt +))).not.SeaSalt +)))OFFLINE_SEASALT + +#============================================================================== +# --- Offline soil NOx emissions --- +#============================================================================== +(((OFFLINE_SOILNOX +(((.not.SoilNOx +0 SOILNOX_NO $ROOT/OFFLINE_SOILNOX/v2021-12/0.5x0.625/$YYYY/$MM/soilnox_05.$YYYY$MM$DD.nc SOIL_NOx 1980-2022/1-12/1-31/* EFY xy kg/m2/s NO - 3 2 +))).not.SoilNOx +)))OFFLINE_SOILNOX + +############################################################################### +### 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. +############################################################################### + +#============================================================================== +# --- Seawater concentrations for oceanic emissions (Extension 101) --- +#============================================================================== +(((SeaFlux +#101 CH3I_SEAWATER $ROOT/CH3I/v2014-07/ocean_ch3i.geos.4x5.nc CH3I_OCEAN 1985/1-12/1/0 C xy kg/m3 CH3I - 1 1 +101 DMS_SEAWATER $ROOT/DMS/v2015-07/DMS_lana.geos.1x1.nc DMS_OCEAN 1985/1-12/1/0 C xy kg/m3 DMS - 1 1 +101 ACET_SEAWATER $ROOT/ACET/v2014-07/ACET_seawater.generic.1x1.nc ACET 2005/1/1/0 C xy kgC/m3 ACET 40 1 1 +101 ALD2_SEAWATER $ROOT/ALD2/v2017-03/ALD2_seawater.geos.2x25.nc ALD2 2006/1-12/1/0 C xy kgC/m3 ALD2 41 1 1 +101 MENO3_SEAWATER $ROOT/RONO2/v2019-05/RONO2_seawater.geos.2x25.nc MENO3 2006/1-12/1/0 C xy kg/m3 MENO3 - 1 1 +101 ETNO3_SEAWATER $ROOT/RONO2/v2019-05/RONO2_seawater.geos.2x25.nc ETNO3 2006/1-12/1/0 C xy kg/m3 ETNO3 - 1 1 +101 MOH_SEAWATER $ROOT/MOH/v2019-12/MOH_seawater.low.kgCm3.generic.1x1.nc MOH 2005/1/1/0 C xy kg/m3 MOH - 1 1 +)))SeaFlux + +#============================================================================== +# --- SOILNOX emissions (Extension 104) --- +#============================================================================== +(((SoilNOx +104 DEP_RESERVOIR_DEFAULT $ROOT/SOILNOX/v2014-07/DepReservoirDefault.nc DEP_RESERVOIR 2013/7/1/0 C xy kg/m3 NO - 1 1 +(((HEMCO_RESTART +104 PFACTOR ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc PFACTOR $YYYY/$MM/$DD/$HH EY xy 1 NO - 1 1 +104 DRYPERIOD ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc DRYPERIOD $YYYY/$MM/$DD/$HH EY xy 1 NO - 1 1 +104 GWET_PREV ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc GWET_PREV $YYYY/$MM/$DD/$HH EY xy 1 NO - 1 1 +104 DEP_RESERVOIR ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc DEP_RESERVOIR $YYYY/$MM/$DD/$HH EY xy kg/m3 NO - 1 1 +)))HEMCO_RESTART +104 SOILNOX_FERT $ROOT/SOILNOX/v2014-07/soilNOx.fert_res.generic.05x05.nc FERT 2000/1-12/1-31/0 C xy kg/m3 NO - 1 1 +104 SOILNOX_LANDK1 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K01 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK2 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K02 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK3 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K03 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK4 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K04 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK5 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K05 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK6 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K06 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK7 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K07 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK8 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K08 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK9 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K09 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK10 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K10 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK11 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K11 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK12 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K12 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK13 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K13 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK14 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K14 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK15 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K15 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK16 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K16 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK17 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K17 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK18 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K18 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK19 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K19 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK20 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K20 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK21 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K21 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK22 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K22 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK23 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K23 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_LANDK24 $ROOT/SOILNOX/v2014-07/soilNOx.landtype.generic.025x025.1L.nc LANDFRAC_K24 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_ARID $ROOT/SOILNOX/v2014-07/soilNOx.climate.generic.05x05.nc ARID 2000/1/1/0 C xy 1 NO - 1 1 +104 SOILNOX_NONARID $ROOT/SOILNOX/v2014-07/soilNOx.climate.generic.05x05.nc NON_ARID 2000/1/1/0 C xy 1 NO - 1 1 +)))SoilNOx + +#============================================================================== +# --- Dust emissions using DEAD model (Extensions 105 and 131) --- +#============================================================================== +(((DustDead +105 DEAD_EF_GEO $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc EF_GEO 1985/1/1/0 C xy factor * - 1 1 +105 DEAD_LF_DRY $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc LF_DRY 1985/1/1/0 C xy factor * - 1 1 +105 DEAD_MF_CACO3 $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_CaCO3 1985/1/1/0 C xy fraction * - 1 1 +105 DEAD_MF_CLY $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_CLY 1985/1/1/0 C xy fraction * - 1 1 +105 DEAD_MF_SND $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_SND 1985/1/1/0 C xy fraction * - 1 1 +105 DEAD_SFC_TYP $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc SFC_TYP 1985/1/1/0 C xy unitless * - 1 1 +105 DEAD_GOC_SRC $ROOT/DUST_DEAD/v2019-06/GOCART_src_fn.geos.2x25.nc GOC_SRC 1985/1/1/0 C xy unitless * - 1 1 +105 DEAD_VAI $ROOT/DUST_DEAD/v2019-06/dst_tvbds.geos.2x25.nc VAI 1985/1-12/1/0 C xy unitless * - 1 1 +)))DustDead +(((TOMAS_DustDead +131 DEAD_EF_GEO $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc EF_GEO 1985/1/1/0 C xy factor * - 1 1 +131 DEAD_LF_DRY $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc LF_DRY 1985/1/1/0 C xy factor * - 1 1 +131 DEAD_MF_CACO3 $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_CaCO3 1985/1/1/0 C xy fraction * - 1 1 +131 DEAD_MF_CLY $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_CLY 1985/1/1/0 C xy fraction * - 1 1 +131 DEAD_MF_SND $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc MF_SND 1985/1/1/0 C xy fraction * - 1 1 +131 DEAD_SFC_TYP $ROOT/DUST_DEAD/v2019-06/dst_tibds.geos.2x25.nc SFC_TYP 1985/1/1/0 C xy unitless * - 1 1 +131 DEAD_GOC_SRC $ROOT/DUST_DEAD/v2019-06/GOCART_src_fn.geos.2x25.nc GOC_SRC 1985/1/1/0 C xy unitless * - 1 1 +131 DEAD_VAI $ROOT/DUST_DEAD/v2019-06/dst_tvbds.geos.2x25.nc VAI 1985/1-12/1/0 C xy unitless * - 1 1 +)))TOMAS_DustDead + +#============================================================================== +# --- Dust emissions using Paul Ginoux's mechanism (Extension 106) +#============================================================================== +(((DustGinoux +106 GINOUX_SAND $ROOT/DUST_GINOUX/v2014-07/NSP.dust.geos.4x5.nc SAND 1985/1/1/0 C xy unitless * - 1 1 +106 GINOUX_SILT $ROOT/DUST_GINOUX/v2014-07/NSP.dust.geos.4x5.nc SILT 1985/1/1/0 C xy unitless * - 1 1 +106 GINOUX_CLAY $ROOT/DUST_GINOUX/v2014-07/NSP.dust.geos.4x5.nc CLAY 1985/1/1/0 C xy unitless * - 1 1 +)))DustGinoux + +#============================================================================== +# --- Sea salt emissions (Extensions 107 and 130) +# +# MODIS Chlorophyll-A fields used for emissions of marine organic aerosols +#============================================================================== +(((SeaSalt +107 MODIS_CHLR $ROOT/MODIS_CHLR/v2019-11/MODIS.CHLRv.V5.generic.025x025.$YYYY.nc MODIS 2005-2014/1-12/1/0 C xy 1 * - 1 1 +107 MULTISEAICE $ROOT/MULTI_ICE/v2021-07/multiyearice.merra2.05x0625.$YYYY.nc FRSEAICE 1980-2020/1-12/1-31/0 C xy 1 * - 1 1 + +# Climatology CHLR +#107 MODIS_CHLR $ROOT/MODIS_CHLR/v2019-11/MODIS.CHLRv.V5.generic.025x025.Clim.nc MODIS 2007/1-12/1/0 C xy 1 * - 1 1 +)))SeaSalt +(((TOMAS_Jeagle +130 MODIS_CHLR $ROOT/MODIS_CHLR/v2019-11/MODIS.CHLRv.V5.generic.025x025.$YYYY.nc MODIS 2005-2014/1-12/1/0 C xy 1 * - 1 1 +130 MULTISEAICE $ROOT/MULTI_ICE/v2021-07/multiyearice.merra2.05x0625.$YYYY.nc FRSEAICE 1984-2017/1-12/1-31/0 C xy 1 * - 1 1 + +# Climatology CHLR +#130 MODIS_CHLR $ROOT/MODIS_CHLR/v2019-11/MODIS.CHLRv.V5.generic.025x025.Clim.nc MODIS 2007/1-12/1/0 C xy 1 * - 1 1 +)))TOMAS_Jeagle + +#============================================================================== +# --- MEGAN biogenic emissions (Extension 108) +# +# NOTE: These are the base emissions, which will be converted to kgC/m2/s by +# HEMCO. The specified species (OCPI/ISOP/ACET) are required for proper unit +# conversion. Since netCDF files are already in mass carbon (ug(C)), the only +# important thing is to specify a VOC with a specified MW of 12g/mol. +# This is the case for OCPI, ISOP and ACET. +# +# We don't need to read EF maps for acetone, a-pinene or myrcene. We now +# compute those values in the MEGAN extension. +#============================================================================== +(((MEGAN +(((HEMCO_RESTART +108 T_DAVG ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc T_DAVG $YYYY/$MM/$DD/$HH EY xy K * - 1 1 +108 T_PREVDAY ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc T_PREVDAY $YYYY/$MM/$DD/$HH EY xy K * - 1 1 +108 LAI_PREVDAY ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc LAI_PREVDAY $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 +108 PARDR_DAVG ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc PARDR_DAVG $YYYY/$MM/$DD/$HH EY xy W/m2 * - 1 1 +108 PARDF_DAVG ./Restarts/HEMCO_restart.$YYYY$MM$DD$HH00.nc PARDF_DAVG $YYYY/$MM/$DD/$HH EY xy W/m2 * - 1 1 +)))HEMCO_RESTART +108 MEGAN_AEF_ISOP $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_ISOPRENE 1985/1/1/0 C xy kgC/m2/s * 61 1 1 +108 MEGAN_AEF_MBOX $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_MBO 1985/1/1/0 C xy kgC/m2/s * 64 1 1 +#108 MEGAN_AEF_APIN $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_ALPHA_PINENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 MEGAN_AEF_BPIN $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_BETA_PINENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 MEGAN_AEF_CARE $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_CARENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 MEGAN_AEF_LIMO $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_LIMONENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +#108 MEGAN_AEF_MYRC $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_MYRCENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 MEGAN_AEF_OCIM $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_OCIMENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 MEGAN_AEF_SABI $ROOT/MEGAN/v2018-05/MEGAN2.1_EF.geos.025x03125.nc AEF_SABINENE 1985/1/1/0 C xy kgC/m2/s * 62 1 1 +108 CLM4_PFT_BARE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BARE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_NDLF_EVGN_TMPT_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_NDLF_EVGN_TMPT_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_NDLF_EVGN_BORL_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_NDLF_EVGN_BORL_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_NDLF_DECD_BORL_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_NDLF_DECD_BORL_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_EVGN_TROP_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_EVGN_TROP_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_EVGN_TMPT_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_EVGN_TMPT_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_DECD_TROP_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_DECD_TROP_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_DECD_TMPT_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_DECD_TMPT_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_DECD_BORL_TREE $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_DECD_BORL_TREE 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_EVGN_SHRB $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_EVGN_SHRB 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_DECD_TMPT_SHRB $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_DECD_TMPT_SHRB 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_BDLF_DECD_BORL_SHRB $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_BDLF_DECD_BORL_SHRB 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_C3_ARCT_GRSS $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_C3_ARCT_GRSS 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_C3_NARC_GRSS $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_C3_NARC_GRSS 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_C4_GRSS $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_C4_GRSS 2000/1/1/0 C xy 1 * - 1 1 +108 CLM4_PFT_CROP $ROOT/MEGAN/v2018-05/CLM4_PFT.geos.025x03125.v201805.nc PFT_CROP 2000/1/1/0 C xy 1 * - 1 1 +)))MEGAN + +#============================================================================== +# --- GFED biomass burning emissions (Extension 111) +# NOTES: +# - These are the base emissions in kgDM/m2/s +# - If a year is not available, you may use the GFED4_CLIMATOLOGY option instead +#============================================================================== +(((GFED4 +111 GFED_TEMP $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_TEMP 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 +111 GFED_AGRI $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_AGRI 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 +111 GFED_DEFO $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_DEFO 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 +111 GFED_BORF $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_BORF 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 +111 GFED_PEAT $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_PEAT 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 +111 GFED_SAVA $ROOT/GFED4/v2023-03/$YYYY/GFED4_gen.025x025.$YYYY$MM.nc DM_SAVA 1997-2022/1-12/01/0 RF xy kgDM/m2/s * - 1 1 + +(((GFED_subgrid_coag +111 FINN_DAILY_NUMBER $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25_with_num.nc number 2002-2016/1-12/1/0 RF xy unitless * - 1 1 +)))GFED_subgrid_coag + +(((GFED_daily +111 GFED_FRAC_DAY $ROOT/GFED4/v2023-03/$YYYY/GFED4_dailyfrac_gen.025x025.$YYYY$MM.nc GFED_FRACDAY 2003-2022/1-12/1-31/0 RF xy 1 * - 1 1 +)))GFED_daily + +(((GFED_3hourly +111 GFED_FRAC_3HOUR $ROOT/GFED4/v2023-03/$YYYY/GFED4_3hrfrac_gen.025x025.$YYYY$MM.nc GFED_FRAC3HR 2003-2022/1-12/1/0-23 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_subgrid_coag +114 FINN_DAILY_NUMBER $ROOT/FINN/v2015-02/FINN_daily_$YYYY_0.25x0.25_with_num.nc number 2002-2016/1-12/1/0 RF xy unitless * - 1 1 +)))FINN_subgrid_coag + +)))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 +* KPP_HVALUE ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_KPPHvalue $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 +* WETDEP_N ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_WetDepNitrogen $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 +* DRYDEP_N ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_DryDepNitrogen $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 +* SO2_AFTERCHEM ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_SO2AfterChem $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 +* H2O2_AFTERCHEM ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_H2O2AfterChem $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 +* AEROH2O_SNA ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_AeroH2OSNA $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 +* ORVCSESQ ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_ORVCSESQ $YYYY/$MM/$DD/$HH EY xyz 1 * - 1 1 +* JOH ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_JOH $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 +* JNO2 ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_JNO2 $YYYY/$MM/$DD/$HH EY xy 1 * - 1 1 +* STATE_PSC ./Restarts/GEOSChem.Restart.$YYYY$MM$DD_$HH$MNz.nc4 Chem_StatePSC $YYYY/$MM/$DD/$HH EY xyz count * - 1 1 +)))GC_RESTART + +#============================================================================== +# --- GEOS-Chem boundary condition file --- +#============================================================================== +(((GC_BCs +* BC_ $ROOT/SAMPLE_BCs/GC_14.3.0/fullchem/GEOSChem.BoundaryConditions.$YYYY$MM$DD_$HH$MNz.nc4 SpeciesBC_?ADV? 1980-2021/1-12/1-31/* EFY xyz 1 * - 1 1 +)))GC_BCs + +(((CHEMISTRY_INPUT + +#============================================================================== +# --- UV albedo, for photolysis (cf Hermann & Celarier, 1997) --- +#============================================================================== +(((UVALBEDO +* UV_ALBEDO $ROOT/UVALBEDO/v2019-06/uvalbedo.geos.2x25.nc UVALBD 1985/1-12/1/0 C xy percent * - 1 1 +)))UVALBEDO + +#============================================================================== +# --- Stratospheric Bry data from the CCM model --- +#============================================================================== +(((CCM_STRAT_Bry +* GEOSCCM_Br_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc BR 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_Br2_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc BRCL 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_BrO_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc BRO 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_BrNO3_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc BRONO2 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_HBr_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc HBR 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_HOBr_DAY $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.day.nc HOBR 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_Br_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc BR 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_Br2_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc BRCL 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_BrO_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc BRO 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_BrNO3_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc BRONO2 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_HBr_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc HBR 2007/1-12/1/0 C xyz pptv * - 60 1 +* GEOSCCM_HOBr_NIGHT $ROOT/STRAT/v2015-01/Bry/GEOSCCM_Bry.2007$MM.night.nc HOBR 2007/1-12/1/0 C xyz pptv * - 60 1 +)))CCM_STRAT_Bry + +#============================================================================== +#--- Archived GMI OH concentrations --- +#============================================================================== +(((GMI_OH +* GMI_OH $ROOT/GMI/v2015-02/gmi.clim.OH.geos5.2x25.nc species 2005/1-12/1/0 C xyz v/v * - 1 1 +)))GMI_OH + +#============================================================================== +#--- GMI chemistry: prod/loss rates --- +# +# Used for linearized mesospheric chemistry +#============================================================================== +(((GMI_PROD_LOSS +* GMI_LOSS_A3O2 $ROOT/GMI/v2015-02/gmi.clim.A3O2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 A3O2 - 1 1 +* GMI_PROD_A3O2 $ROOT/GMI/v2015-02/gmi.clim.A3O2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s A3O2 - 1 1 +* GMI_LOSS_ACET $ROOT/GMI/v2015-02/gmi.clim.ACET.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ACET - 1 1 +* GMI_PROD_ACET $ROOT/GMI/v2015-02/gmi.clim.ACET.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ACET - 1 1 +* GMI_LOSS_ACTA $ROOT/GMI/v2015-02/gmi.clim.ACTA.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ACTA - 1 1 +* GMI_PROD_ACTA $ROOT/GMI/v2015-02/gmi.clim.ACTA.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ACTA - 1 1 +* GMI_LOSS_ALD2 $ROOT/GMI/v2015-02/gmi.clim.ALD2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ALD2 - 1 1 +* GMI_PROD_ALD2 $ROOT/GMI/v2015-02/gmi.clim.ALD2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ALD2 - 1 1 +* GMI_LOSS_ALK4 $ROOT/GMI/v2015-02/gmi.clim.ALK4.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ALK4 - 1 1 +* GMI_PROD_ALK4 $ROOT/GMI/v2015-02/gmi.clim.ALK4.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ALK4 - 1 1 +* GMI_LOSS_ATO2 $ROOT/GMI/v2015-02/gmi.clim.ATO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ATO2 - 1 1 +* GMI_PROD_ATO2 $ROOT/GMI/v2015-02/gmi.clim.ATO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ATO2 - 1 1 +* GMI_LOSS_B3O2 $ROOT/GMI/v2015-02/gmi.clim.B3O2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 B3O2 - 1 1 +* GMI_PROD_B3O2 $ROOT/GMI/v2015-02/gmi.clim.B3O2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s B3O2 - 1 1 +#* GMI_LOSS_Br $ROOT/GMI/v2015-02/gmi.clim.Br.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 Br - 1 1 +#* GMI_PROD_Br $ROOT/GMI/v2015-02/gmi.clim.Br.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s Br - 1 1 +#* GMI_LOSS_BrCl $ROOT/GMI/v2015-02/gmi.clim.BrCl.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 BrCl - 1 1 +#* GMI_PROD_BrCl $ROOT/GMI/v2015-02/gmi.clim.BrCl.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s BrCl - 1 1 +#* GMI_LOSS_BrO $ROOT/GMI/v2015-02/gmi.clim.BrO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 BrO - 1 1 +#* GMI_PROD_BrO $ROOT/GMI/v2015-02/gmi.clim.BrO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s BrO - 1 1 +#* GMI_LOSS_BrNO3 $ROOT/GMI/v2015-02/gmi.clim.BrONO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 BrNO3 - 1 1 +#* GMI_PROD_BrNO3 $ROOT/GMI/v2015-02/gmi.clim.BrONO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s BrNO3 - 1 1 +* GMI_LOSS_C2H6 $ROOT/GMI/v2015-02/gmi.clim.C2H6.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 C2H6 - 1 1 +* GMI_PROD_C2H6 $ROOT/GMI/v2015-02/gmi.clim.C2H6.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s C2H6 - 1 1 +* GMI_LOSS_C3H8 $ROOT/GMI/v2015-02/gmi.clim.C3H8.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 C3H8 - 1 1 +* GMI_PROD_C3H8 $ROOT/GMI/v2015-02/gmi.clim.C3H8.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s C3H8 - 1 1 +* GMI_LOSS_CCl4 $ROOT/GMI/v2015-02/gmi.clim.CCl4.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CCl4 - 1 1 +* GMI_PROD_CCl4 $ROOT/GMI/v2015-02/gmi.clim.CCl4.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CCl4 - 1 1 +#* GMI_LOSS_H1202 $ROOT/GMI/v2015-02/gmi.clim.CF2Br2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H1202 - 1 1 +#* GMI_PROD_H1202 $ROOT/GMI/v2015-02/gmi.clim.CF2Br2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H1202 - 1 1 +* GMI_LOSS_CFC12 $ROOT/GMI/v2015-02/gmi.clim.CF2Cl2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CFC12 - 1 1 +* GMI_PROD_CFC12 $ROOT/GMI/v2015-02/gmi.clim.CF2Cl2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CFC12 - 1 1 +* GMI_LOSS_H1211 $ROOT/GMI/v2015-02/gmi.clim.CF2ClBr.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H1211 - 1 1 +* GMI_PROD_H1211 $ROOT/GMI/v2015-02/gmi.clim.CF2ClBr.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H1211 - 1 1 +#* GMI_LOSS_H1311 $ROOT/GMI/v2015-02/gmi.clim.CF3Br.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H1311 - 1 1 +#* GMI_PROD_H1311 $ROOT/GMI/v2015-02/gmi.clim.CF3Br.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H1311 - 1 1 +* GMI_LOSS_CFC113 $ROOT/GMI/v2015-02/gmi.clim.CFC113.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CFC113 - 1 1 +* GMI_PROD_CFC113 $ROOT/GMI/v2015-02/gmi.clim.CFC113.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CFC113 - 1 1 +* GMI_LOSS_CFC114 $ROOT/GMI/v2015-02/gmi.clim.CFC114.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CFC114 - 1 1 +* GMI_PROD_CFC114 $ROOT/GMI/v2015-02/gmi.clim.CFC114.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CFC114 - 1 1 +* GMI_LOSS_CFC115 $ROOT/GMI/v2015-02/gmi.clim.CFC115.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CFC115 - 1 1 +* GMI_PROD_CFC115 $ROOT/GMI/v2015-02/gmi.clim.CFC115.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CFC115 - 1 1 +* GMI_LOSS_CFC11 $ROOT/GMI/v2015-02/gmi.clim.CFCl3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CFC11 - 1 1 +* GMI_PROD_CFC11 $ROOT/GMI/v2015-02/gmi.clim.CFCl3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CFC11 - 1 1 +* GMI_LOSS_CH2O $ROOT/GMI/v2015-02/gmi.clim.CH2O.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CH2O - 1 1 +* GMI_PROD_CH2O $ROOT/GMI/v2015-02/gmi.clim.CH2O.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CH2O - 1 1 +#* GMI_LOSS_CH3Br $ROOT/GMI/v2015-02/gmi.clim.CH3Br.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CH3Br - 1 1 +#* GMI_PROD_CH3Br $ROOT/GMI/v2015-02/gmi.clim.CH3Br.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CH3Br - 1 1 +* GMI_LOSS_CH3CCl3 $ROOT/GMI/v2015-02/gmi.clim.CH3CCl3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CH3CCl3 - 1 1 +* GMI_PROD_CH3CCl3 $ROOT/GMI/v2015-02/gmi.clim.CH3CCl3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CH3CCl3 - 1 1 +* GMI_LOSS_CH3Cl $ROOT/GMI/v2015-02/gmi.clim.CH3Cl.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CH3Cl - 1 1 +* GMI_PROD_CH3Cl $ROOT/GMI/v2015-02/gmi.clim.CH3Cl.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CH3Cl - 1 1 +* GMI_LOSS_CH4 $ROOT/GMI/v2015-02/gmi.clim.CH4.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CH4 - 1 1 +* GMI_PROD_CH4 $ROOT/GMI/v2015-02/gmi.clim.CH4.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CH4 - 1 1 +* GMI_LOSS_CO $ROOT/GMI/v2015-02/gmi.clim.CO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 CO - 1 1 +* GMI_PROD_CO $ROOT/GMI/v2015-02/gmi.clim.CO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s CO - 1 1 +* GMI_LOSS_Cl $ROOT/GMI/v2015-02/gmi.clim.Cl.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 Cl - 1 1 +* GMI_PROD_Cl $ROOT/GMI/v2015-02/gmi.clim.Cl.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s Cl - 1 1 +* GMI_LOSS_Cl2 $ROOT/GMI/v2015-02/gmi.clim.Cl2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 Cl2 - 1 1 +* GMI_PROD_Cl2 $ROOT/GMI/v2015-02/gmi.clim.Cl2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s Cl2 - 1 1 +* GMI_LOSS_Cl2O2 $ROOT/GMI/v2015-02/gmi.clim.Cl2O2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 Cl2O2 - 1 1 +* GMI_PROD_Cl2O2 $ROOT/GMI/v2015-02/gmi.clim.Cl2O2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s Cl2O2 - 1 1 +* GMI_LOSS_ClO $ROOT/GMI/v2015-02/gmi.clim.ClO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ClO - 1 1 +* GMI_PROD_ClO $ROOT/GMI/v2015-02/gmi.clim.ClO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ClO - 1 1 +* GMI_LOSS_ClONO2 $ROOT/GMI/v2015-02/gmi.clim.ClONO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ClONO2 - 1 1 +* GMI_PROD_ClONO2 $ROOT/GMI/v2015-02/gmi.clim.ClONO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ClONO2 - 1 1 +* GMI_LOSS_EOH $ROOT/GMI/v2015-02/gmi.clim.EOH.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 EOH - 1 1 +* GMI_PROD_EOH $ROOT/GMI/v2015-02/gmi.clim.EOH.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s EOH - 1 1 +* GMI_LOSS_ETO2 $ROOT/GMI/v2015-02/gmi.clim.ETO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ETO2 - 1 1 +* GMI_PROD_ETO2 $ROOT/GMI/v2015-02/gmi.clim.ETO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ETO2 - 1 1 +* GMI_LOSS_ETP $ROOT/GMI/v2015-02/gmi.clim.ETP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ETP - 1 1 +* GMI_PROD_ETP $ROOT/GMI/v2015-02/gmi.clim.ETP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ETP - 1 1 +* GMI_LOSS_GCO3 $ROOT/GMI/v2015-02/gmi.clim.GCO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 GCO3 - 1 1 +* GMI_PROD_GCO3 $ROOT/GMI/v2015-02/gmi.clim.GCO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s GCO3 - 1 1 +* GMI_LOSS_GLYC $ROOT/GMI/v2015-02/gmi.clim.GLYC.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 GLYC - 1 1 +* GMI_PROD_GLYC $ROOT/GMI/v2015-02/gmi.clim.GLYC.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s GLYC - 1 1 +* GMI_LOSS_GLYX $ROOT/GMI/v2015-02/gmi.clim.GLYX.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 GLYX - 1 1 +* GMI_PROD_GLYX $ROOT/GMI/v2015-02/gmi.clim.GLYX.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s GLYX - 1 1 +* GMI_LOSS_GP $ROOT/GMI/v2015-02/gmi.clim.GP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 GP - 1 1 +* GMI_PROD_GP $ROOT/GMI/v2015-02/gmi.clim.GP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s GP - 1 1 +* GMI_LOSS_GPAN $ROOT/GMI/v2015-02/gmi.clim.GPAN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 GPAN - 1 1 +* GMI_PROD_GPAN $ROOT/GMI/v2015-02/gmi.clim.GPAN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s GPAN - 1 1 +* GMI_LOSS_H $ROOT/GMI/v2015-02/gmi.clim.H.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H - 1 1 +* GMI_PROD_H $ROOT/GMI/v2015-02/gmi.clim.H.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H - 1 1 +* GMI_LOSS_H2 $ROOT/GMI/v2015-02/gmi.clim.H2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H2 - 1 1 +* GMI_PROD_H2 $ROOT/GMI/v2015-02/gmi.clim.H2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H2 - 1 1 +* GMI_LOSS_H2402 $ROOT/GMI/v2015-02/gmi.clim.H2402.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H2402 - 1 1 +* GMI_PROD_H2402 $ROOT/GMI/v2015-02/gmi.clim.H2402.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H2402 - 1 1 +* GMI_LOSS_H2O $ROOT/GMI/v2015-02/gmi.clim.H2O.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H2O - 1 1 +* GMI_PROD_H2O $ROOT/GMI/v2015-02/gmi.clim.H2O.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H2O - 1 1 +* GMI_LOSS_H2O2 $ROOT/GMI/v2015-02/gmi.clim.H2O2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 H2O2 - 1 1 +* GMI_PROD_H2O2 $ROOT/GMI/v2015-02/gmi.clim.H2O2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s H2O2 - 1 1 +* GMI_LOSS_HAC $ROOT/GMI/v2015-02/gmi.clim.HAC.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HAC - 1 1 +* GMI_PROD_HAC $ROOT/GMI/v2015-02/gmi.clim.HAC.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HAC - 1 1 +#* GMI_LOSS_HBr $ROOT/GMI/v2015-02/gmi.clim.HBr.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HBr - 1 1 +#* GMI_PROD_HBr $ROOT/GMI/v2015-02/gmi.clim.HBr.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HBr - 1 1 +* GMI_LOSS_HCFC141b $ROOT/GMI/v2015-02/gmi.clim.HCFC141b.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HCFC141b - 1 1 +* GMI_PROD_HCFC141b $ROOT/GMI/v2015-02/gmi.clim.HCFC141b.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HCFC141b - 1 1 +* GMI_LOSS_HCFC142b $ROOT/GMI/v2015-02/gmi.clim.HCFC142b.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HCFC142b - 1 1 +* GMI_PROD_HCFC142b $ROOT/GMI/v2015-02/gmi.clim.HCFC142b.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HCFC142b - 1 1 +* GMI_LOSS_HCFC22 $ROOT/GMI/v2015-02/gmi.clim.HCFC22.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HCFC22 - 1 1 +* GMI_PROD_HCFC22 $ROOT/GMI/v2015-02/gmi.clim.HCFC22.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HCFC22 - 1 1 +* GMI_LOSS_HCOOH $ROOT/GMI/v2015-02/gmi.clim.HCOOH.geos5.2x25.20170108.nc loss 2005/1-12/1/0 C xyz s-1 HCOOH - 1 1 +* GMI_PROD_HCOOH $ROOT/GMI/v2015-02/gmi.clim.HCOOH.geos5.2x25.20170108.nc prod 2005/1-12/1/0 C xyz v/v/s HCOOH - 1 1 +* GMI_LOSS_HCl $ROOT/GMI/v2015-02/gmi.clim.HCl.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HCl - 1 1 +* GMI_PROD_HCl $ROOT/GMI/v2015-02/gmi.clim.HCl.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HCl - 1 1 +* GMI_LOSS_HNO2 $ROOT/GMI/v2015-02/gmi.clim.HNO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HNO2 - 1 1 +* GMI_PROD_HNO2 $ROOT/GMI/v2015-02/gmi.clim.HNO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HNO2 - 1 1 +* GMI_LOSS_HNO3 $ROOT/GMI/v2015-02/gmi.clim.HNO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HNO3 - 1 1 +* GMI_PROD_HNO3 $ROOT/GMI/v2015-02/gmi.clim.HNO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HNO3 - 1 1 +* GMI_LOSS_HNO4 $ROOT/GMI/v2015-02/gmi.clim.HNO4.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HNO4 - 1 1 +* GMI_PROD_HNO4 $ROOT/GMI/v2015-02/gmi.clim.HNO4.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HNO4 - 1 1 +* GMI_LOSS_HO2 $ROOT/GMI/v2015-02/gmi.clim.HO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HO2 - 1 1 +* GMI_PROD_HO2 $ROOT/GMI/v2015-02/gmi.clim.HO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HO2 - 1 1 +#* GMI_LOSS_HOBr $ROOT/GMI/v2015-02/gmi.clim.HOBr.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HOBr - 1 1 +#* GMI_PROD_HOBr $ROOT/GMI/v2015-02/gmi.clim.HOBr.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HOBr - 1 1 +* GMI_LOSS_HOCl $ROOT/GMI/v2015-02/gmi.clim.HOCl.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 HOCl - 1 1 +* GMI_PROD_HOCl $ROOT/GMI/v2015-02/gmi.clim.HOCl.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s HOCl - 1 1 +* GMI_LOSS_IALD $ROOT/GMI/v2015-02/gmi.clim.IALD.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 IALD - 1 1 +* GMI_PROD_IALD $ROOT/GMI/v2015-02/gmi.clim.IALD.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s IALD - 1 1 +* GMI_LOSS_IAO2 $ROOT/GMI/v2015-02/gmi.clim.IAO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 IAO2 - 1 1 +* GMI_PROD_IAO2 $ROOT/GMI/v2015-02/gmi.clim.IAO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s IAO2 - 1 1 +* GMI_LOSS_IAP $ROOT/GMI/v2015-02/gmi.clim.IAP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 IAP - 1 1 +* GMI_PROD_IAP $ROOT/GMI/v2015-02/gmi.clim.IAP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s IAP - 1 1 +* GMI_LOSS_INO2 $ROOT/GMI/v2015-02/gmi.clim.INO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 INO2 - 1 1 +* GMI_PROD_INO2 $ROOT/GMI/v2015-02/gmi.clim.INO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s INO2 - 1 1 +* GMI_LOSS_INPN $ROOT/GMI/v2015-02/gmi.clim.INPN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 INPN - 1 1 +* GMI_PROD_INPN $ROOT/GMI/v2015-02/gmi.clim.INPN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s INPN - 1 1 +* GMI_LOSS_ISN1 $ROOT/GMI/v2015-02/gmi.clim.ISN1.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ISN1 - 1 1 +* GMI_PROD_ISN1 $ROOT/GMI/v2015-02/gmi.clim.ISN1.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ISN1 - 1 1 +* GMI_LOSS_ISNP $ROOT/GMI/v2015-02/gmi.clim.ISNP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ISNP - 1 1 +* GMI_PROD_ISNP $ROOT/GMI/v2015-02/gmi.clim.ISNP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ISNP - 1 1 +* GMI_LOSS_ISOP $ROOT/GMI/v2015-02/gmi.clim.ISOP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ISOP - 1 1 +* GMI_PROD_ISOP $ROOT/GMI/v2015-02/gmi.clim.ISOP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ISOP - 1 1 +* GMI_LOSS_KO2 $ROOT/GMI/v2015-02/gmi.clim.KO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 KO2 - 1 1 +* GMI_PROD_KO2 $ROOT/GMI/v2015-02/gmi.clim.KO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s KO2 - 1 1 +* GMI_LOSS_MACR $ROOT/GMI/v2015-02/gmi.clim.MACR.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MACR - 1 1 +* GMI_PROD_MACR $ROOT/GMI/v2015-02/gmi.clim.MACR.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MACR - 1 1 +* GMI_LOSS_MAN2 $ROOT/GMI/v2015-02/gmi.clim.MAN2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MAN2 - 1 1 +* GMI_PROD_MAN2 $ROOT/GMI/v2015-02/gmi.clim.MAN2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MAN2 - 1 1 +* GMI_LOSS_MAO3 $ROOT/GMI/v2015-02/gmi.clim.MAO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MAO3 - 1 1 +* GMI_PROD_MAO3 $ROOT/GMI/v2015-02/gmi.clim.MAO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MAO3 - 1 1 +* GMI_LOSS_MAOP $ROOT/GMI/v2015-02/gmi.clim.MAOP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MAOP - 1 1 +* GMI_PROD_MAOP $ROOT/GMI/v2015-02/gmi.clim.MAOP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MAOP - 1 1 +* GMI_LOSS_MAP $ROOT/GMI/v2015-02/gmi.clim.MAP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MAP - 1 1 +* GMI_PROD_MAP $ROOT/GMI/v2015-02/gmi.clim.MAP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MAP - 1 1 +* GMI_LOSS_MCO3 $ROOT/GMI/v2015-02/gmi.clim.MCO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MCO3 - 1 1 +* GMI_PROD_MCO3 $ROOT/GMI/v2015-02/gmi.clim.MCO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MCO3 - 1 1 +* GMI_LOSS_MEK $ROOT/GMI/v2015-02/gmi.clim.MEK.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MEK - 1 1 +* GMI_PROD_MEK $ROOT/GMI/v2015-02/gmi.clim.MEK.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MEK - 1 1 +* GMI_LOSS_MGLY $ROOT/GMI/v2015-02/gmi.clim.MGLY.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MGLY - 1 1 +* GMI_PROD_MGLY $ROOT/GMI/v2015-02/gmi.clim.MGLY.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MGLY - 1 1 +* GMI_LOSS_MO2 $ROOT/GMI/v2015-02/gmi.clim.MO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MO2 - 1 1 +* GMI_PROD_MO2 $ROOT/GMI/v2015-02/gmi.clim.MO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MO2 - 1 1 +* GMI_LOSS_MOH $ROOT/GMI/v2015-02/gmi.clim.MOH.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MOH - 1 1 +* GMI_PROD_MOH $ROOT/GMI/v2015-02/gmi.clim.MOH.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MOH - 1 1 +* GMI_LOSS_MP $ROOT/GMI/v2015-02/gmi.clim.MP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MP - 1 1 +* GMI_PROD_MP $ROOT/GMI/v2015-02/gmi.clim.MP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MP - 1 1 +* GMI_LOSS_MRO2 $ROOT/GMI/v2015-02/gmi.clim.MRO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MRO2 - 1 1 +* GMI_PROD_MRO2 $ROOT/GMI/v2015-02/gmi.clim.MRO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MRO2 - 1 1 +* GMI_LOSS_MRP $ROOT/GMI/v2015-02/gmi.clim.MRP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MRP - 1 1 +* GMI_PROD_MRP $ROOT/GMI/v2015-02/gmi.clim.MRP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MRP - 1 1 +* GMI_LOSS_MVK $ROOT/GMI/v2015-02/gmi.clim.MVK.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MVK - 1 1 +* GMI_PROD_MVK $ROOT/GMI/v2015-02/gmi.clim.MVK.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MVK - 1 1 +* GMI_LOSS_MVN2 $ROOT/GMI/v2015-02/gmi.clim.MVN2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 MVN2 - 1 1 +* GMI_PROD_MVN2 $ROOT/GMI/v2015-02/gmi.clim.MVN2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s MVN2 - 1 1 +* GMI_LOSS_N $ROOT/GMI/v2015-02/gmi.clim.N.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 N - 1 1 +* GMI_PROD_N $ROOT/GMI/v2015-02/gmi.clim.N.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s N - 1 1 +* GMI_LOSS_N2O $ROOT/GMI/v2015-02/gmi.clim.N2O.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 N2O - 1 1 +* GMI_PROD_N2O $ROOT/GMI/v2015-02/gmi.clim.N2O.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s N2O - 1 1 +* GMI_LOSS_N2O5 $ROOT/GMI/v2015-02/gmi.clim.N2O5.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 N2O5 - 1 1 +* GMI_PROD_N2O5 $ROOT/GMI/v2015-02/gmi.clim.N2O5.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s N2O5 - 1 1 +* GMI_LOSS_NO $ROOT/GMI/v2015-02/gmi.clim.NO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 NO - 1 1 +* GMI_PROD_NO $ROOT/GMI/v2015-02/gmi.clim.NO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s NO - 1 1 +* GMI_LOSS_NO2 $ROOT/GMI/v2015-02/gmi.clim.NO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 NO2 - 1 1 +* GMI_PROD_NO2 $ROOT/GMI/v2015-02/gmi.clim.NO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s NO2 - 1 1 +* GMI_LOSS_NO3 $ROOT/GMI/v2015-02/gmi.clim.NO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 NO3 - 1 1 +* GMI_PROD_NO3 $ROOT/GMI/v2015-02/gmi.clim.NO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s NO3 - 1 1 +* GMI_LOSS_NOx $ROOT/GMI/v2015-02/gmi.clim.NOx.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 NOx - 1 1 +* GMI_PROD_NOx $ROOT/GMI/v2015-02/gmi.clim.NOx.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s NOx - 1 1 +* GMI_LOSS_O $ROOT/GMI/v2015-02/gmi.clim.O.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 O - 1 1 +* GMI_PROD_O $ROOT/GMI/v2015-02/gmi.clim.O.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s O - 1 1 +* GMI_LOSS_O1D $ROOT/GMI/v2015-02/gmi.clim.O1D.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 O1D - 1 1 +* GMI_PROD_O1D $ROOT/GMI/v2015-02/gmi.clim.O1D.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s O1D - 1 1 +* GMI_LOSS_O3 $ROOT/GMI/v2015-02/gmi.clim.O3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 O3 - 1 1 +* GMI_PROD_O3 $ROOT/GMI/v2015-02/gmi.clim.O3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s O3 - 1 1 +* GMI_LOSS_OClO $ROOT/GMI/v2015-02/gmi.clim.OClO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 OClO - 1 1 +* GMI_PROD_OClO $ROOT/GMI/v2015-02/gmi.clim.OClO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s OClO - 1 1 +* GMI_LOSS_OH $ROOT/GMI/v2015-02/gmi.clim.OH.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 OH - 1 1 +* GMI_PROD_OH $ROOT/GMI/v2015-02/gmi.clim.OH.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s OH - 1 1 +* GMI_LOSS_Ox $ROOT/GMI/v2015-02/gmi.clim.Ox.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 Ox - 1 1 +* GMI_PROD_Ox $ROOT/GMI/v2015-02/gmi.clim.Ox.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s Ox - 1 1 +* GMI_LOSS_PAN $ROOT/GMI/v2015-02/gmi.clim.PAN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PAN - 1 1 +* GMI_PROD_PAN $ROOT/GMI/v2015-02/gmi.clim.PAN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PAN - 1 1 +* GMI_LOSS_NPMN $ROOT/GMI/v2015-02/gmi.clim.NPMN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 NPMN - 1 1 +* GMI_PROD_NPMN $ROOT/GMI/v2015-02/gmi.clim.NPMN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s NPMN - 1 1 +* GMI_LOSS_IPMN $ROOT/GMI/v2015-02/gmi.clim.IPMN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 IPMN - 1 1 +* GMI_PROD_IPMN $ROOT/GMI/v2015-02/gmi.clim.IPMN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s IPMN - 1 1 +* GMI_LOSS_PO2 $ROOT/GMI/v2015-02/gmi.clim.PO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PO2 - 1 1 +* GMI_PROD_PO2 $ROOT/GMI/v2015-02/gmi.clim.PO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PO2 - 1 1 +* GMI_LOSS_PP $ROOT/GMI/v2015-02/gmi.clim.PP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PP - 1 1 +* GMI_PROD_PP $ROOT/GMI/v2015-02/gmi.clim.PP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PP - 1 1 +* GMI_LOSS_PPN $ROOT/GMI/v2015-02/gmi.clim.PPN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PPN - 1 1 +* GMI_PROD_PPN $ROOT/GMI/v2015-02/gmi.clim.PPN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PPN - 1 1 +* GMI_LOSS_PRN1 $ROOT/GMI/v2015-02/gmi.clim.PRN1.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PRN1 - 1 1 +* GMI_PROD_PRN1 $ROOT/GMI/v2015-02/gmi.clim.PRN1.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PRN1 - 1 1 +* GMI_LOSS_PRPE $ROOT/GMI/v2015-02/gmi.clim.PRPE.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PRPE - 1 1 +* GMI_PROD_PRPE $ROOT/GMI/v2015-02/gmi.clim.PRPE.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PRPE - 1 1 +* GMI_LOSS_PRPN $ROOT/GMI/v2015-02/gmi.clim.PRPN.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 PRPN - 1 1 +* GMI_PROD_PRPN $ROOT/GMI/v2015-02/gmi.clim.PRPN.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s PRPN - 1 1 +* GMI_LOSS_R4N1 $ROOT/GMI/v2015-02/gmi.clim.R4N1.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 R4N1 - 1 1 +* GMI_PROD_R4N1 $ROOT/GMI/v2015-02/gmi.clim.R4N1.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s R4N1 - 1 1 +* GMI_LOSS_R4N2 $ROOT/GMI/v2015-02/gmi.clim.R4N2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 R4N2 - 1 1 +* GMI_PROD_R4N2 $ROOT/GMI/v2015-02/gmi.clim.R4N2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s R4N2 - 1 1 +* GMI_LOSS_R4O2 $ROOT/GMI/v2015-02/gmi.clim.R4O2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 R4O2 - 1 1 +* GMI_PROD_R4O2 $ROOT/GMI/v2015-02/gmi.clim.R4O2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s R4O2 - 1 1 +* GMI_LOSS_R4P $ROOT/GMI/v2015-02/gmi.clim.R4P.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 R4P - 1 1 +* GMI_PROD_R4P $ROOT/GMI/v2015-02/gmi.clim.R4P.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s R4P - 1 1 +* GMI_LOSS_RA3P $ROOT/GMI/v2015-02/gmi.clim.RA3P.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RA3P - 1 1 +* GMI_PROD_RA3P $ROOT/GMI/v2015-02/gmi.clim.RA3P.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RA3P - 1 1 +* GMI_LOSS_RB3P $ROOT/GMI/v2015-02/gmi.clim.RB3P.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RB3P - 1 1 +* GMI_PROD_RB3P $ROOT/GMI/v2015-02/gmi.clim.RB3P.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RB3P - 1 1 +* GMI_LOSS_RCHO $ROOT/GMI/v2015-02/gmi.clim.RCHO.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RCHO - 1 1 +* GMI_PROD_RCHO $ROOT/GMI/v2015-02/gmi.clim.RCHO.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RCHO - 1 1 +* GMI_LOSS_RCO3 $ROOT/GMI/v2015-02/gmi.clim.RCO3.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RCO3 - 1 1 +* GMI_PROD_RCO3 $ROOT/GMI/v2015-02/gmi.clim.RCO3.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RCO3 - 1 1 +* GMI_LOSS_RCOOH $ROOT/GMI/v2015-02/gmi.clim.RCOOH.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RCOOH - 1 1 +* GMI_PROD_RCOOH $ROOT/GMI/v2015-02/gmi.clim.RCOOH.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RCOOH - 1 1 +* GMI_LOSS_RIO1 $ROOT/GMI/v2015-02/gmi.clim.RIO1.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RIO1 - 1 1 +* GMI_PROD_RIO1 $ROOT/GMI/v2015-02/gmi.clim.RIO1.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RIO1 - 1 1 +* GMI_LOSS_RIPA $ROOT/GMI/v2015-02/gmi.clim.RIPA.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RIPA - 1 1 +* GMI_PROD_RIPA $ROOT/GMI/v2015-02/gmi.clim.RIPA.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RIPA - 1 1 +* GMI_LOSS_RIPB $ROOT/GMI/v2015-02/gmi.clim.RIPB.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RIPB - 1 1 +* GMI_PROD_RIPB $ROOT/GMI/v2015-02/gmi.clim.RIPB.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RIPB - 1 1 +* GMI_LOSS_RIPD $ROOT/GMI/v2015-02/gmi.clim.RIPD.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RIPD - 1 1 +* GMI_PROD_RIPD $ROOT/GMI/v2015-02/gmi.clim.RIPD.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RIPD - 1 1 +* GMI_LOSS_ROH $ROOT/GMI/v2015-02/gmi.clim.ROH.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 ROH - 1 1 +* GMI_PROD_ROH $ROOT/GMI/v2015-02/gmi.clim.ROH.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s ROH - 1 1 +* GMI_LOSS_RP $ROOT/GMI/v2015-02/gmi.clim.RP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 RP - 1 1 +* GMI_PROD_RP $ROOT/GMI/v2015-02/gmi.clim.RP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s RP - 1 1 +* GMI_LOSS_VRO2 $ROOT/GMI/v2015-02/gmi.clim.VRO2.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 VRO2 - 1 1 +* GMI_PROD_VRO2 $ROOT/GMI/v2015-02/gmi.clim.VRO2.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s VRO2 - 1 1 +* GMI_LOSS_VRP $ROOT/GMI/v2015-02/gmi.clim.VRP.geos5.2x25.nc loss 2005/1-12/1/0 C xyz s-1 VRP - 1 1 +* GMI_PROD_VRP $ROOT/GMI/v2015-02/gmi.clim.VRP.geos5.2x25.nc prod 2005/1-12/1/0 C xyz v/v/s VRP - 1 1 +)))GMI_PROD_LOSS + +#============================================================================== +# --- Spatially varying OM/OC --- +#============================================================================== +(((OMOC_RATIO +* OMOC_DJF $ROOT/OMOC/v2018-01/OMOC.DJF.01x01.nc OMOC 2010/1/1/0 C xy 1 * - 1 1 +* OMOC_MAM $ROOT/OMOC/v2018-01/OMOC.MAM.01x01.nc OMOC 2010/1/1/0 C xy 1 * - 1 1 +* OMOC_JJA $ROOT/OMOC/v2018-01/OMOC.JJA.01x01.nc OMOC 2010/1/1/0 C xy 1 * - 1 1 +* OMOC_SON $ROOT/OMOC/v2018-01/OMOC.SON.01x01.nc OMOC 2010/1/1/0 C xy 1 * - 1 1 +)))OMOC_RATIO + +)))CHEMISTRY_INPUT + +#============================================================================== +# --- NOAA GMD monthly mean surface CH4 --- +#============================================================================== +(((GMD_SFC_CH4 +* NOAA_GMD_CH4 $ROOT/NOAA_GMD/v2018-01/monthly.gridded.surface.methane.1979-2020.1x1.nc SFC_CH4 1979-2020/1-12/1/0 RY xy ppbv * - 1 1 +)))GMD_SFC_CH4 + +#============================================================================== +# --- CMIP6 monthly mean surface CH4 --- +# NOTE: This is only used if NOAA data is unavailable (pre 1979) +#============================================================================== +(((CMIP6_SFC_CH4 +* CMIP6_Sfc_CH4 $ROOT/CMIP6/v2020-03/2x2.5/CMIP6_GHG_surface_VMR_$YYYY.2x25.nc CH4 1750-1978/1-12/1/0 EY xy ppbv * - 1 1 +)))CMIP6_SFC_CH4 + +#============================================================================== +# --- 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 + +#============================================================================== +# --- Inputs for the RRTMG radiative transfer model --- +# +# NOTE: The 2 x 2.5 albedo fields and emissivity fields will produce +# differences at the level of numerical noise when comparing output to +# simulations from prior versions (esp. when running at 4 x 5 resolution). +# You might see larger differences w/r/t prior verisons for a few grid boxes +# along the coastline of Antarctica, where the difference in resolution +# and regridding will be more apparent in the sharp transition from ice to +# ocean. If this is a problem, you can use the data files at 4x5 resolution +# for 4x5 RRTMG simulations. +# +# ALSO NOTE: The algorithm that HEMCO uses to select each time slice is +# likely different than what was implemented when reading the old bpch +# data from disk. This can also cause differences when comparing to +# prior versions. +#============================================================================== +(((RRTMG +* MODIS_ALBDFNIR $ROOT/RRTMG/v2018-11/modis_surf_albedo.2x25.nc ALBDFNIR 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_ALBDFVIS $ROOT/RRTMG/v2018-11/modis_surf_albedo.2x25.nc ALBDFVIS 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_ALBDRNIR $ROOT/RRTMG/v2018-11/modis_surf_albedo.2x25.nc ALBDRNIR 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_ALBDRVIS $ROOT/RRTMG/v2018-11/modis_surf_albedo.2x25.nc ALBDRVIS 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_01 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band01 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_02 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band02 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_03 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band03 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_04 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band04 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_05 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band05 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_06 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band06 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_07 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band07 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_08 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band08 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_09 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band09 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_10 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band10 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_11 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band11 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_12 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band12 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_13 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band13 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_14 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band14 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_15 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band15 2002/1-12/1-31/0 C xy 1 * - 1 1 +* MODIS_EMISSIVITY_16 $ROOT/RRTMG/v2018-11/modis_emissivity.2x25.nc RTEMISS_band16 2002/1-12/1-31/0 C xy 1 * - 1 1 +* TES_CLIM_CCL4 $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc CCl4 2000/1/1/0 C xyz ppbv * - 1 1 +* TES_CLIM_CFC11 $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc CFC11 2000/1/1/0 C xyz ppbv * - 1 1 +* TES_CLIM_CFC12 $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc CFC12 2000/1/1/0 C xyz ppbv * - 1 1 +* TES_CLIM_CFC22 $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc CFC22 2000/1/1/0 C xyz ppbv * - 1 1 +* TES_CLIM_CH4 $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc CH4 2000/1/1/0 C xyz ppbv * - 1 1 +* TES_CLIM_N2O $ROOT/RRTMG/v2018-11/species_clim_profiles.2x25.nc N2O 2000/1/1/0 C xyz ppbv * - 1 1 +)))RRTMG + +(((SfcVMR +#============================================================================== +# --- CMIP6 files --- +# +# Use core CMIP6 observationally constrained data from Meinshausen et al. (2017) GMD +#============================================================================== +* SfcVMR_CH3Cl $ROOT/CMIP6/v2020-03/2x2.5/CMIP6_GHG_surface_VMR_$YYYY.2x25.nc CH3Cl 1750-2014/1-12/1/0 C xy ppbv * 801 1 1 +* SfcVMR_CH2Cl2 $ROOT/CMIP6/v2020-03/2x2.5/CMIP6_GHG_surface_VMR_$YYYY.2x25.nc CH2Cl2 1750-2014/1-12/1/0 C xy ppbv * 801 1 1 +* SfcVMR_CHCl3 $ROOT/CMIP6/v2020-03/2x2.5/CMIP6_GHG_surface_VMR_$YYYY.2x25.nc CHCl3 1750-2014/1-12/1/0 C xy ppbv * 801 1 1 +* SfcVMR_CH3Br $ROOT/CMIP6/v2020-03/2x2.5/CMIP6_GHG_surface_VMR_$YYYY.2x25.nc CH3Br 1750-2014/1-12/1/0 C xy ppbv * 801 1 1 + +#============================================================================== +# --- WMO-2018 files (GMI) --- +#============================================================================== +* SfcVMR_CCl4 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CCl4 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CFC113 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CFC113 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CFC114 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CFC114 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CFC115 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CFC115 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CFC11 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CFC11 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CFC12 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CFC12 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +#* SfcVMR_CH3Br $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CH3Br 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_CH3CCl3 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CH3CCl3 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +#* SfcVMR_CH3Cl $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CH3Cl 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +#* SfcVMR_CH4 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc CH4 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_H1211 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc H1211 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_H1301 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc H1301 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_H2402 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc C2BR2F4 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_HCFC141b $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc HCFC141b 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_HCFC142b $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc HCFC142b 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_HCFC22 $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc HCFC22 1960-2100/1-12/1/0 C xy v/v * 802 1 1 +* SfcVMR_N2O $ROOT/SfcFix/v2019-12/WMO_2018/2x2.5/surface_VMRs_WMO2018_$YYYY.2x25.nc N2O 1960-2100/1-12/1/0 C xy v/v * 802 1 1 + +#============================================================================== +# --- Dummy files with a single surface concentration (for OCS and H2) --- +#============================================================================== +* SfcVMR_OCS $ROOT/SfcFix/v2019-12/surface_VMR_OCS.2x25.nc OCS 1985/1/1/0 C xy ppbv * - 1 1 +* SfcVMR_H2 $ROOT/SfcFix/v2019-12/surface_VMR_H2.2x25.nc H2 1985/1/1/0 C xy ppbv * - 1 1 +)))SfcVMR + +(((CMIP6_SFC_BC + +#============================================================================== +# --- CMIP6 surface boundary conditions for 1750-2100 --- +#============================================================================== + +# Commented-out tracers do not exist in GEOS-Chem yet +# * SfcVMR_C2F6 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C2F6 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C3F8 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C3F8 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C4F10 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C4F10 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C5F12 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C5F12 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C6F14 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C6F14 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C7F16 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C7F16 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_C8F18 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 C8F18 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_CC4F8 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CC4F8 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +* SfcVMR_CCl4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CCl4 1750-2100/1-12/1/0 RY xy v/v CCl4 802 1 1 +# * SfcVMR_CF4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CF4 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +* SfcVMR_CFC11 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CFC11 1750-2100/1-12/1/0 RY xy v/v CFC11 802 1 1 +* SfcVMR_CFC113 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CFC113 1750-2100/1-12/1/0 RY xy v/v CFC113 802 1 1 +* SfcVMR_CFC114 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CFC114 1750-2100/1-12/1/0 RY xy v/v CFC114 802 1 1 +* SfcVMR_CFC115 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CFC115 1750-2100/1-12/1/0 RY xy v/v CFC115 802 1 1 +* SfcVMR_CFC12 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CFC12 1750-2100/1-12/1/0 RY xy v/v CFC12 802 1 1 +* SfcVMR_CH2Cl2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CH2Cl2 1750-2100/1-12/1/0 RY xy v/v CH2Cl2 802 1 1 +* SfcVMR_CH3Br $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CH3Br 1750-2100/1-12/1/0 RY xy v/v CH3Br 802 1 1 +* SfcVMR_CH3CCl3 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CH3CCl3 1750-2100/1-12/1/0 RY xy v/v CH3CCl3 802 1 1 +* SfcVMR_CH3Cl $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CH3Cl 1750-2100/1-12/1/0 RY xy v/v CH3Cl 802 1 1 +* SfcVMR_CH4 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CH4 1750-2100/1-12/1/0 RY xy v/v CH4 802 1 1 +* SfcVMR_CHCl3 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CHCl3 1750-2100/1-12/1/0 RY xy v/v CHCl3 802 1 1 +# * SfcVMR_CO2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 CO2 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +* SfcVMR_H1211 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 H1211 1750-2100/1-12/1/0 RY xy v/v H1211 802 1 1 +* SfcVMR_H1301 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 H1301 1750-2100/1-12/1/0 RY xy v/v H1301 802 1 1 +* SfcVMR_H2402 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 H2402 1750-2100/1-12/1/0 RY xy v/v H2402 802 1 1 +# SFC_BC_HCFC123 <- exists in UCX with lifetime of 2 years but has no surface boundary conditions; 200-600 pptv in https://doi.org/10.1021/es802308m +* SfcVMR_HCFC141b $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HCFC141b 1750-2100/1-12/1/0 RY xy v/v HCFC141b 802 1 1 +* SfcVMR_HCFC142b $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HCFC142b 1750-2100/1-12/1/0 RY xy v/v HCFC142b 802 1 1 +* SfcVMR_HCFC22 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HCFC22 1750-2100/1-12/1/0 RY xy v/v HCFC22 802 1 1 +# * SfcVMR_HFC125 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC125 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC134a $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC134a 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC143a $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC143a 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC152a $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC152a 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC227ea $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC227ea 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC23 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC23 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC236fa $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC236fa 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC245fa $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC245fa 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC32 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC32 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC365mfc $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC365mfc 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_HFC4310mee $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 HFC4310mee 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +* SfcVMR_N2O $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 N2O 1750-2100/1-12/1/0 RY xy v/v N2O 802 1 1 +# * SfcVMR_NF3 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 NF3 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_SF6 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 SF6 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 +# * SfcVMR_SO2F2 $ROOT/CMIP6/v2021-01/$GCAPSCENARIO/$GCAPSCENARIO_BC_$YYYY.nc4 SO2F2 1750-2100/1-12/1/0 RY xy v/v * 802 1 1 + +#============================================================================== +# -- Not part of CMIP6 experimental design; use GEOS-Chem defaults +#============================================================================== +* SfcVMR_OCS $ROOT/SfcFix/v2019-12/surface_VMR_OCS.2x25.nc OCS 1985/1/1/0 C xy ppbv * - 1 1 +* SfcVMR_H2 $ROOT/SfcFix/v2019-12/surface_VMR_H2.2x25.nc H2 1985/1/1/0 C xy ppbv * - 1 1 + +)))CMIP6_SFC_BC + +#============================================================================== +# --- Oceanic ozone deposition --- +# +# Sea surface iodide concentration and salinity to be read in for the +# new calculations for ozone deposition to the ocean +#============================================================================== +(((OCEAN_O3_DRYDEP +* surf_salinity $ROOT/OCEAN_O3_DRYDEP/v2020-02/WOA_2013_salinity.nc s_mn 1985/1/1/0 C xy 1 * - 1 1 +* surf_iodide $ROOT/OCEAN_O3_DRYDEP/v2020-02/Oi_prj_predicted_iodide_0.125x0.125_No_Skagerrak_Just_Ensemble.nc Ensemble_Monthly_mean 1970/1-12/1/0 C xy 1 * - 1 1 +)))OCEAN_O3_DRYDEP + +### END SECTION BASE EMISSIONS ### + +############################################################################### +### BEGIN SECTION SCALE FACTORS +############################################################################### + +# ScalID Name sourceFile sourceVar sourceTime C/R/E SrcDim SrcUnit Oper + +(((EMISSIONS + +#============================================================================== +# --- Annual scale factors --- +#============================================================================== +(((XIAO_C3H8 +6 LIQFUEL_THISYR $ROOT/AnnualScalar/v2014-07/AnnualScalar.geos.1x1.nc COscalar 1985-2010/1/1/0 C xy 1 1 +7 LIQFUEL_1985 $ROOT/AnnualScalar/v2014-07/AnnualScalar.geos.1x1.nc COscalar 1985/1/1/0 C xy 1 -1 +)))XIAO_C3H8 + +#============================================================================== +# --- Diurnal scale factors --- +#============================================================================== +25 EDGAR_TODNOX $ROOT/EDGARv42/v2015-02/NO/EDGAR_hourly_NOxScal.nc NOXscale 2000/1/1/* C xy unitless 1 +26 GEIA_TOD_FOSSIL 0.45/0.45/0.6/0.6/0.6/0.6/1.45/1.45/1.45/1.45/1.4/1.4/1.4/1.4/1.45/1.45/1.45/1.45/0.65/0.65/0.65/0.65/0.45/0.45 - - - xy unitless 1 + +#============================================================================== +# Diurnal variablity of Chinese power plants from Liu et al. (EST, 2019) +#============================================================================== +33 PKU_pow_NOx 0.94/0.93/0.93/0.92/0.93/0.96/0.98/0.99/0.98/1.00/1.05/1.03/1.01/1.04/1.05/1.05/1.07/1.06/1.05/1.05/1.03/1.01/0.99/0.96 - - - xy unitless 1 1009 +34 PKU_pow_SO2 0.92/0.91/0.90/0.89/0.90/0.93/0.97/0.98/0.99/1.02/1.07/1.04/1.03/1.06/1.06/1.07/1.10/1.10/1.06/1.05/1.03/1.01/0.99/0.93 - - - xy unitless 1 1009 +35 PKU_pow_PM_BC_POC_VOC_CO 0.95/0.93/0.92/0.91/0.90/0.93/0.97/0.97/0.99/1.03/1.04/1.03/1.02/1.03/1.05/1.07/1.07/1.07/1.06/1.04/1.03/1.02/1.00/0.97 - - - xy unitless 1 1009 + +# These scale factors undo (Oper=-1) the global diurnal scale factors over China (Mask=1009) +36 EDGAR_TODNOX_UNDO $ROOT/EDGARv42/v2015-02/NO/EDGAR_hourly_NOxScal.nc NOXscale 2000/1/1/* C xy unitless -1 1009 +37 GEIA_TOD_FOSSIL_UNDO 0.45/0.45/0.6/0.6/0.6/0.6/1.45/1.45/1.45/1.45/1.4/1.4/1.4/1.4/1.45/1.45/1.45/1.45/0.65/0.65/0.65/0.65/0.45/0.45 - - - xy unitless -1 1009 + +#============================================================================== +# --- Day-of-week scale factors --- +# ==> data is Sun/Mon/.../Sat +#============================================================================== +(((XIAO_C3H8 +22 GEIA_DOW_HC 0.671/1.1102/1.1102/1.1102/1.1102/1.1102/0.768 - - - xy unitless 1 +)))XIAO_C3H8 + +#============================================================================== +# --- Seasonal scale factors --- +#============================================================================== +(((DICE_Africa +# from GEIA: +30 GEIA_SEASON_NOX $ROOT/GEIA/v2014-07/GEIA_monthscal.generic.1x1.nc NOXrat 1985/1-12/1/0 C xy unitless 1 +31 GEIA_SEASON_SO2 $ROOT/GEIA/v2014-07/GEIA_monthscal.generic.1x1.nc SO2rat 1985/1-12/1/0 C xy unitless 1 +)))DICE_Africa + +#============================================================================== +# --- For Bromocarbons --- +#============================================================================== +(((LIANG_BROMOCARB +39 BROMOCARB_SEASON $ROOT/BROMINE/v2015-02/BromoCarb_Season.nc CHXBRY_scale 2000/1-12/1/0 C xy unitless 1 +)))LIANG_BROMOCARB + +#============================================================================== +# --- Scale factors used for species conversions --- +#============================================================================== + +# Units carbon to species conversions +# Factor = # carbon atoms * MW carbon) / MW species +40 CtoACET MATH:58.09/(3.0*12.0) - - - xy unitless 1 +41 CtoALD2 MATH:44.06/(2.0*12.0) - - - xy unitless 1 +42 CtoALK4 MATH:58.12/(4.3*12.0) - - - xy unitless 1 +43 CtoBENZ MATH:78.12/(6.0*12.0) - - - xy unitless 1 +44 CtoC2H4 MATH:28.05/(2.0*12.0) - - - xy unitless 1 +45 CtoC2H6 MATH:30.08/(2.0*12.0) - - - xy unitless 1 +46 CtoC3H8 MATH:44.11/(3.0*12.0) - - - xy unitless 1 +47 CtoEOH MATH:46.07/(2.0*12.0) - - - xy unitless 1 +48 CtoMEK MATH:72.11/(4.0*12.0) - - - xy unitless 1 +49 CtoPRPE MATH:42.09/(3.0*12.0) - - - xy unitless 1 +55 CtoTOLU MATH:92.15/(7.0*12.0) - - - xy unitless 1 +56 CtoXYLE MATH:106.18/(8.0*12.0) - - - xy unitless 1 +59 CtoC2H2 MATH:26.04/(2.0*12.0) - - - xy unitless 1 +61 CtoISOP MATH:68.13/(5.0*12.0) - - - xy unitless 1 +62 CtoMTPA MATH:136.26/(10.0*12.0) - - - xy unitless 1 +64 CtoMBOX MATH:86.13/(5.0*12.0) - - - xy unitless 1 +67 CtoSESQ MATH:204.4/(15.0*12.0) - - - xy unitless 1 +83 CtoMACR MATH:70.10/(4.0*12.0) - - - xy unitless 1 +84 CtoRCHO MATH:58.09/(3.0*12.0) - - - xy unitless 1 + +# VOC speciations +(((RCP_3PD.or.RCP_45.or.RCP_60.or.RCP_85 +50 KET2MEK 0.25 - - - xy unitless 1 +51 KET2ACET 0.75 - - - xy unitless 1 +)))RCP_3PD.or.RCP_45.or.RCP_60.or.RCP_85 + +(((APEI.or.EDGARv43.or.DICE_Africa.or.QFED2 +52 COPROD_FOSSIL 1.02 - - - xy unitless 1 +54 COPROD_BIOMASS 1.05 - - - xy unitless 1 +)))APEI.or.EDGARv43.or.DICE_Africa.or.QFED2 + +# RCP acids to HCOOH conversion +(((RCP_3PD.or.RCP_45.or.RCP_60.or.RCP_85 +57 RCP_HCOOHfraction 0.25 - - - xy unitless 1 +58 RCP_ACIDStoHCOOH 0.779661 - - - xy unitless 1 +)))RCP_3PD.or.RCP_45.or.RCP_60.or.RCP_85 + +# SOx to SO2 conversion (Chin et al., 2000) +60 SOX2SO2_GLOBAL 0.986 - - - xy unitless 1 +63 SO2toSO4 0.031 - - - xy unitless 1 +65 SO2toSO4_APEI 0.014 - - - xy unitless 1 +66 SO2toPFe 1.0e-3 - - - xy unitless 1 +68 SO2toPFe_APEI 4.7e-4 - - - xy unitless 1 +69 SO2toPFe_NEI 1.0e-3 - - - xy unitless 1 +78 SO2FRAC 0.969 - - - xy unitless 1 + +# Carbon aerosols: speciation of hydrophilic and hydrophobic fractions +# (Fractions applied to the biomass burning extensions (GFED or FINN) are +# specified separately in the extensions section.) +70 BC2BCPI 0.2 - - - xy unitless 1 +71 BC2BCPO 0.8 - - - xy unitless 1 +72 OC2OCPI 0.5 - - - xy unitless 1 +73 OC2OCPO 0.5 - - - xy unitless 1 +74 POGSCAL 1.27 - - - xy unitless 1 +76 SV2POG1 0.49 - - - xy unitless 1 +77 SV2POG2 0.51 - - - xy unitless 1 + +(((BB4MIPS +# Convert MOH to ACET emissions for CMIP6 Scenarios +79 MOH2ACET 0.2094649 - - - xy unitless 1 +)))BB4MIPS + +# Convert CEDS total alchohols to methanol, ethanol, and other alcohols following Chen et al. (2019, ACP) +90 VOC1toMOH 0.5 - - - xy 1 1 +91 VOC1toEOH 0.375 - - - xy 1 1 +92 VOC1toROH 0.125 - - - xy 1 1 + +# NOx/NO2 to NO conversion +115 NO2toNO 6.521739e-1 - - - xy unitless 1 + +# SOA-Precursor scale factors +# +# From Kim, P.S., et. al. 2015 "Sources, seasonality, and trends +# of southeast US aerosol: ..." +# AVOCs and BBVOCs are emitted in proportion to CO, with an emission ratio of +# 0.069 g AVOC (g CO)−1 (Hayes et al., 2015) and +# 0.013 g BBVOC (g CO)−1 (Cubison et al., 2011). +# They are both oxidized by OH in the model ... to generate SOA. +280 COtoSOAP_anth 0.069 - - - xy 1 1 +281 COtoSOAP_burn 0.013 - - - xy 1 1 + +#============================================================================== +# --- 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 + +#============================================================================== +# --- NAP scale factors --- +# +# Get anthropogenic (FF) NAP emissions by scaling BENZ emissions with the +# following factor. Factor is ratio of TgC NAP to TgC BENZ emissions +# or equivalently, molec C NAP to molec C BENZ. Scaling should produce +# about 0.09 TgC NAP/year, consistent with non-BB,BF emissions predicted +# by Zhang and Tao 2009 Atm Env +# Based on year 2000 1x1 inv (hotp 11/14/09) +#REAL*8, PARAMETER :: NAPTOBENZSCALE = 0.06861d0 + +# NAPTOTSCAL: factor to scale total NAP emissions to POA (hotp 7/24/09) +#REAL*8, PARAMETER :: NAPTOTALSCALE = 66.09027d0 + +# = CO emissions * emissions ratio of mol NAP / mol CO +# * kg C / mol NAP * mol CO / kg CO +# mmol NAP / mol CO = 0.025 g NAP/ kg DM / +# ( 78 g CO/ kg DM ) * 28 g CO / mol CO +# / ( 128 g NAP / mol NAP ) *1000 mmol/mol +# scale emissions down if appropriate to remove the +# effect of VOC ox on CO emission +# EF for NAP from Andreae and Merlet 2001 Glob Biog Cyc +# EF for CO from Andreae and Merlet 2001 Glob Biog Cyc +#BIOFUEL_KG(N,:,:) = BIOFUEL_KG(IDBFCO,:,:) * 0.0701d-3 +# * 120d0 / 28d0 * COSCALEDOWN +#============================================================================== +(((EDGARv43 +80 NAPEMISS 1.0 - - - xy unitless 1 +81 NAPTOTSCAL 66.09 - - - xy unitless 1 +82 BENZTONAP 6.86e-2 - - - xy unitless 1 +)))EDGARv43 + +#============================================================================== +# --- BIOGENIC EMISSIONS FROM DRY LEAF MATTER --- +# +# Use yield of 40ug/dDW. +# Assume organic matter has molecular formula CH2O (MW 30.03), which +# means 0.4 gC / g plant +# ALD2 MW = 44.05 g/mole ==> 0.55 gC/g ALD2 +# Therefore 40ug (ALD2) / g (plant) ==> 55 ug C in ALD2 / gC plant +# EOH MW = 46 g/mole ==> 0.52 gC/g EOH +# Therefore 40ug (EOH) / g (plant) ==> 52 ug C in EOH / gC plant +#============================================================================== +(((DECAYING_PLANTS +85 YIELD_RESP_ALD2 55.0e-6 - - - xy unitless 1 +86 YIELD_RESP_EOH 52.0e-6 - - - xy unitless 1 +)))DECAYING_PLANTS + +#============================================================================== +# --- AEIC2019 aircraft emissions scale factors --- +# +# See http://geoschemdata.wustl.edu/ExtData/HEMCO/AEIC2019/v2022-03/AEIC_2019_technical_note.pdf +#============================================================================== +(((AEIC2019_DAILY.or.AEIC2019_MONMEAN +# Conversions from AEIC2019 inventory quantities to individual species +101 AEICACET 3.693477e-3 - - - xy unitless 1 +102 AEICALD2 4.271822e-2 - - - xy unitless 1 +103 AEICALK4 2.137911e-1 - - - xy unitless 1 +104 AEICC2H6 5.214505e-3 - - - xy unitless 1 +105 AEICC3H8 7.808710e-4 - - - xy unitless 1 +106 AEICCH2O 1.230811e-1 - - - xy unitless 1 +107 AEICPRPE 1.780418e-1 - - - xy unitless 1 +108 AEICMACR 5.362609e-2 - - - xy unitless 1 +109 AEICRCHO 3.676944e-2 - - - xy unitless 1 +111 AEICSO2 1.176000e-3 - - - xy unitless 1 +112 AEICSO4 3.600000e-5 - - - xy unitless 1 +113 AEICBC 3.000000e-5 - - - xy unitless 1 +114 AEICHC 1.160000e+0 - - - xy unitless 1 +120 FB2H2O 1.231000e+0 - - - xy unitless 1 + +#------------------------------------------------------------------------------ +# Scaling factors for 1990-2019 derived from Lee et al. (2021). Increase +# from 2018 to 2019 is estimated based on the growth from 2017 to 2018. +# Lee et al. (2021) only covers 1990 to 2018, so to get to 2019 it is +# assumed that the growth from 2017 to 2018 is the same as that from 2018 +# to 2019. So the formula is something like: +# +# Emissions of CO in 2009 = AEIC 2019 emissions of CO +# * (Lee 2017 CO / Lee 2018 fuel burn) +# * (Lee 2009 fuel burn / Lee 2018 fuel burn) +# +# So in this case, we use the Lee 2017/Lee 2018 value to scale AEIC’s +# emissions to the “2018” values, and then scale directly using the Lee et al +# fuel burn. This ensures that, when running with year 2019, you get an +# unadjusted version of the AEIC2019 inventory, and all previous years are +# scaled down. For NOx, the same procedure is applied but with an additional +# factor to account for changes in NOx EI: +# +# Emissions of NOx in 2009 = [ AEIC 2019 emissions of NOx +# * (Lee 2017 CO / Lee 2018 fuel burn) +# * (Lee 2009 fuel burn / Lee 2018 fuel burn) ] +# * [ (Lee 2017 NOx EI / Lee 2018 NOx EI) +# * (Lee 2009 NOx EI / Lee 2018 NOx EI) ] +# +# In this case though the Lee et al 2018 and 2017 NOx EIs are identical. +# All scaling factors are included in here in HEMCO_Config.rc. +#------------------------------------------------------------------------------ +(((AEIC_SCALE_1990_2019 +240 AC_EINOX 0.852/0.852/0.852/0.859/0.866/0.873/0.881/0.888/0.896/0.903/0.911/0.916/0.922/0.927/0.932/0.937/0.950/0.962/0.974/0.987/1.000/1.000/1.000/1.000/1.000/1.000/1.000/1.000/1.000/1.000 - 1990-2019/1/1/0 C xy 1 1 +241 AC_FBMULT 0.506/0.489/0.490/0.493/0.517/0.529/0.553/0.570/0.581/0.600/0.631/0.607/0.608/0.608/0.646/0.678/0.686/0.706/0.703/0.666/0.700/0.721/0.728/0.749/0.773/0.815/0.854/0.905/0.952/1.000 - 1990-2019/1/1/0 C xy 1 1 +)))AEIC_SCALE_1990_2019 + +# If not applying 1990-2019 scale factors, use 1.0 +(((.not.AEIC_SCALE_1990_2019 +240 AC_EINOX 1.000000e+0 - - - xy 1 1 +241 AC_FBMULT 1.000000e+0 - - - xy 1 1 +))).not.AEIC_SCALE_1990_2019 +)))AEIC2019_DAILY.or.AEIC2019_MONMEAN + +(((CMIP6_AIRCRAFT +# Conversions for SO2 to HCs taken from AEIC +601 CMIP6_SO2_TO_ACET 3.140712 - - - xy unitless 1 +602 CMIP6_SO2_TO_ALD2 36.32502 - - - xy unitless 1 +603 CMIP6_SO2_TO_ALK4 181.7952 - - - xy unitless 1 +604 CMIP6_SO2_TO_C2H6 4.434103 - - - xy unitless 1 +605 CMIP6_SO2_TO_C3H8 0.664006 - - - xy unitless 1 +606 CMIP6_SO2_TO_CH2O 104.6608 - - - xy unitless 1 +607 CMIP6_SO2_TO_PRPE 151.3961 - - - xy unitless 1 +608 CMIP6_SO2_TO_MACR 45.60042 - - - xy unitless 1 +609 CMIP6_SO2_TO_RCHO 31.26653 - - - xy unitless 1 +)))CMIP6_AIRCRAFT + +#============================================================================== +# --- EPA NEI day-of-week scale factors --- +#============================================================================== +(((NEI2016_MONMEAN +210 NEI99_DOW_NOX $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc NOX 1999/1-12/WD/0 C xy 1 1 +211 NEI99_DOW_CO $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc CO 1999/1-12/WD/0 C xy 1 1 +212 NEI99_DOW_ALK4 $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc ALK4 1999/1-12/WD/0 C xy 1 1 +213 NEI99_DOW_ACET $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc ACET 1999/1-12/WD/0 C xy 1 1 +214 NEI99_DOW_MEK $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc MEK 1999/1-12/WD/0 C xy 1 1 +215 NEI99_DOW_PRPE $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc PRPE 1999/1-12/WD/0 C xy 1 1 +216 NEI99_DOW_C3H8 $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc C3H8 1999/1-12/WD/0 C xy 1 1 +217 NEI99_DOW_C2H6 $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc C2H6 1999/1-12/WD/0 C xy 1 1 +218 NEI99_DOW_SO2 $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc SO2 1999/1-12/WD/0 C xy 1 1 +219 NEI99_DOW_SO4 $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc SO4 1999/1-12/WD/0 C xy 1 1 +220 NEI99_DOW_MSA $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc MSA 1999/1-12/WD/0 C xy 1 1 +221 NEI99_DOW_BCPI $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc BCPI 1999/1-12/WD/0 C xy 1 1 +222 NEI99_DOW_OCPI $ROOT/NEI2005/v2023-02/NEI99.dow.geos.1x1.corrected.012023.nc OCPI 1999/1-12/WD/0 C xy 1 1 +)))NEI2016_MONMEAN + +#============================================================================== +# --- EPA NEI2016 annual scale factors --- +# +# Annual scale factors were computed from the EPA Trends Report for Tier 1 CAPS +# (obtained 21 Sep 2021) using the "Total without wildfires" field. NH3 and +# PM2.5 only had values for 2002-2020, while the remaining species had yearly +# values for 1990-2020 (we include only 2002-2020 here). +# +# See NEI2016/v2021-06/national_tier1_caps+HEMCOscaling.xlsx for details. +#============================================================================== +(((NEI2016_MONMEAN +251 NEI2016_NOx_YRSCALE 2.341/2.213/2.083/1.989/1.879/1.768/1.651/1.539/1.448/1.407/1.345/1.282/1.224/1.135/1.000/0.943/0.895/0.840/0.785 - 2002-2020/1/1/0 C xy 1 1 +252 NEI2016_CO_YRSCALE 1.817/1.767/1.716/1.666/1.610/1.554/1.393/1.251/1.272/1.261/1.220/1.178/1.137/1.095/1.000/0.973/0.950/0.927/0.904 - 2002-2020/1/1/0 C xy 1 1 +253 NEI2016_NH3_YRSCALE 0.996/0.999/1.002/1.005/1.043/1.082/1.100/1.088/1.077/1.012/0.957/0.954/0.899/0.950/1.000/1.052/1.051/1.050/1.049 - 2002-2020/1/1/0 C xy 1 1 +254 NEI2016_VOC_YRSCALE 1.314/1.285/1.255/1.223/1.234/1.246/1.148/1.135/1.154/1.175/1.153/1.131/1.110/1.067/1.000/0.970/0.956/0.941/0.926 - 2002-2020/1/1/0 C xy 1 1 +255 NEI2016_SO2_YRSCALE 4.773/4.701/4.626/4.625/4.171/3.717/3.273/2.879/2.446/2.038/1.591/1.525/1.469/1.237/1.000/0.767/0.735/0.641/0.583 - 2002-2020/1/1/0 C xy 1 1 +256 NEI2016_PM25_YRSCALE 1.120/1.140/1.159/1.178/1.213/1.248/1.202/1.195/1.190/1.192/1.153/1.115/1.077/1.040/1.000/0.964/0.961/0.958/0.955 - 2002-2020/1/1/0 C xy 1 1 +)))NEI2016_MONMEAN + +#============================================================================== +# --- GFAS scale factors --- +#============================================================================== +(((GFAS +300 GFAS_EMITL $ROOT/GFAS/v2018-09/$YYYY/GFAS_$YYYY$MM.nc mami 2003-2021/1-12/1-31/0 C xy m 1 +)))GFAS + +#============================================================================== +# --- QFED vertical partitioning --- +# Following Fischer et al. (2014) and Travis et al. (2016), emit 35% of QFED +# emissions above the PBL. +#============================================================================== +(((QFED2 +311 QFED_PBL_FRAC 0.65 - - - xy 1 1 +312 QFED_FT_FRAC 0.35 - - - xy 1 1 +)))QFED2 + +#============================================================================== +# --- CEDS vertical partitioning --- +#============================================================================== +(((CEDSv2.or.CEDS_GBDMAPS +315 ENERGY_LEVS 1.0 - - - xyz 1 1 +316 INDUSTRY_LEVS 1.0 - - - xyz 1 1 +317 SHIP_LEVS 1.0 - - - xyz 1 1 +)))CEDSv2.or.CEDS_GBDMAPS + +#============================================================================== +# --- DICE-Africa --- +#============================================================================== +(((DICE_Africa +# Charcoal production scale factor to reduce charcoal production +# by a factor of 5 after finding error in implementation of emission factors. +320 DICE_CP_SF 0.20 - - - xy 1 1 + +# Car emissions of OCPI and OCPO scale factor to address a factor of 7 overestimate +# in car OC emissions that results from incorrect emission factors used in the original inventory +330 DICE_CAR_OC_SF 0.14 - - - xy 1 1 +)))DICE_Africa + +#============================================================================== +# --- Offline biogenic VOC scale factors --- +# +# Isoprene : 1.5% mass yield SOAP, 1.5% mass yield SOAS +# Monoterpenes : 5.0% mass yield SOAP, 5.0% mass yield SOAS +# Other terpenes: 5.0% mass yield SOAP, 5.0% mass yield SOAS +# --> Need to multiply by 1.133 to convert from carbon basis to mass basis +#============================================================================== +(((OFFLINE_BIOGENICVOC +610 ISOPtoSOA 0.0170 - - - xy 1 1 +611 MONOtoSOA 0.0567 - - - xy 1 1 +612 OTHRtoSOA 0.0567 - - - xy 1 1 +)))OFFLINE_BIOGENICVOC + +#============================================================================== +# --- Offline sea salt scale factors --- +# +# NOTES: +# - Sea salt alkalinity and chloride values obtained from hcox_seasalt_mod.F90 +# - BrContent obtained from '--> Br- mass ratio' in SeaSalt extension above +#============================================================================== +(((OFFLINE_SEASALT +615 SSAlkalinity 1.0 - - - xy 1 1 +616 SSChloride 0.5504 - - - xy 1 1 +617 BrContent 2.11e-3 - - - xy 1 1 +)))OFFLINE_SEASALT + +)))EMISSIONS + +#============================================================================== +# Scale the CMIP6 values in pptv to ppbv +#============================================================================== +801 pptv2ppbv 0.001 - - - xy 1 1 +802 vv2ppbv 1000000000 - - - xy 1 1 + +#============================================================================== +# --- EDGAR 4.3.1 --- +# Using data of 2010, the calculated seasonal ratio for different species in the +# same sector are nearly identical, possibly due to consistent activity data used. +# Therefore we use the seasonal scale factors of CO in 2010 for most sectors, +# except for AGR, AWB and SOL. +# For AGR, the NH3 AGR seasonal scale factors are used. +# For AWB, the CO AGR seasonal scale factors are used. +# For SOL, the NOx AGR seasonal scale factors are used. +#============================================================================== +(((EDGARv43.or.DICE_Africa +1201 POW $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc POW 2010/1-12/1/0 C xy unitless 1 +1202 ENG $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc ENG 2010/1-12/1/0 C xy unitless 1 +1203 IND $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc IND 2010/1-12/1/0 C xy unitless 1 +1204 TRO $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc TRO 2010/1-12/1/0 C xy unitless 1 +1205 TNG $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc TNG 2010/1-12/1/0 C xy unitless 1 +1206 RCO $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc RCO 2010/1-12/1/0 C xy unitless 1 +1207 PPA $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc PPA 2010/1-12/1/0 C xy unitless 1 +1208 AGR $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc AGR 2010/1-12/1/0 C xy unitless 1 +1209 AWB $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc AWB 2010/1-12/1/0 C xy unitless 1 +1210 SOL $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc SOL 2010/1-12/1/0 C xy unitless 1 +1211 SWD $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc SWD 2010/1-12/1/0 C xy unitless 1 +1212 FFF $ROOT/EDGARv43/v2016-11/EDGAR_v43.Seasonal.1x1.nc FFF 2010/1-12/1/0 C xy unitless 1 +)))EDGARv43.or.DICE_Africa + +### 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 +#============================================================================== +(((APEI +1002 CANADA_MASK $ROOT/MASKS/v2018-09/Canada_mask.geos.1x1.nc MASK 2000/1/1/0 C xy 1 1 -141/40/-52/85 +)))APEI + +(((NEI2016_MONMEAN +1007 CONUS_MASK $ROOT/MASKS/v2018-09/CONUS_Mask.01x01.nc MASK 2000/1/1/0 C xy 1 1 -140/20/-50/60 +)))NEI2016_MONMEAN + +(((DICE_Africa +1008 AFRICA_MASK $ROOT/MASKS/v2018-09/AF_LANDMASK.geos.05x0666.global.nc LANDMASK 1985/1/1/0 C xy 1 1 -20/-37/54/40 +)))DICE_Africa + +1009 CHINA_MASK $ROOT/MASKS/v2018-09/China_mask.generic.1x1.nc MASK 2000/1/1/0 C xy 1 1 70/10/150/60 + +(((AFCID +1010 INDIA_MASK $ROOT/MASKS/v2019-05/India_mask.generic.1x1.nc MASK 2000/1/1/0 C xy 1 1 67/7/99/39 +)))AFCID + +)))EMISSIONS + +### END SECTION MASKS ### + +### END OF HEMCO INPUT FILE ### +#EOC diff --git a/.github/dev/config/HEMCO_Diagn.rc b/.github/dev/config/HEMCO_Diagn.rc new file mode 100644 index 0000000..c8fd80e --- /dev/null +++ b/.github/dev/config/HEMCO_Diagn.rc @@ -0,0 +1,762 @@ +#------------------------------------------------------------------------------ +# GEOS-Chem Global Chemical Transport Model ! +#------------------------------------------------------------------------------ +#BOP +# +# !MODULE: HEMCO_Diagn.rc +# +# !DESCRIPTION: Configuration file for netCDF diagnostic output from HEMCO. +#\\ +#\\ +# !REMARKS: +# For more information about scheduling HEMCO diagnostics, see: +# http://wiki.geos-chem.org/The_HEMCO_User%27s_Guide#Diagnostics +# +# For a list of species by inventory, please see: +# http://wiki.geos-chem.org/HEMCO_data_directories#Default_GEOS-Chem_emissions_configurations +# +# All diagnostics will now be saved out in units of kg/m2/s. If necessary, +# you can convert hydrocarbon species to e.g. kg C/m2/s in post-processing. +# +# The INVENTORY DIAGNOSTICS (starting with "Inv") are only needed for +# benchmark simulations, and can be left commented out for production runs. +# +# !REVISION HISTORY: +# 13 Feb 2018 - E. Lundgren - Initial version +# See https://github.com/geoschem/geos-chem for complete history +#EOP +#------------------------------------------------------------------------------ +#BOC +# Name Spec ExtNr Cat Hier Dim OutUnit LongName + +############################################################################### +##### ACET emissions ##### +############################################################################### +EmisACET_Total ACET -1 -1 -1 3 kg/m2/s ACET_emission_flux_from_all_sectors +EmisACET_BioBurn ACET 111 -1 -1 2 kg/m2/s ACET_emission_flux_from_biomass_burning +EmisACET_Biogenic ACET 0 4 -1 2 kg/m2/s ACET_emission_flux_from_biogenic_sources +EmisACET_Ocean ACET 101 -1 -1 2 kg/m2/s ACET_emission_flux_from_ocean + +############################################################################### +##### ACTA emissions ##### +############################################################################### +EmisACTA_Total ACTA -1 -1 -1 3 kg/m2/s ACTA_emission_flux_from_all_sectors +EmisACTA_BioBurn ACTA 111 -1 -1 2 kg/m2/s ACTA_emission_flux_from_biomass_burning + +############################################################################### +##### ALD2 emissions ##### +############################################################################### +EmisALD2_Total ALD2 -1 -1 -1 3 kg/m2/s ALD2_emission_flux_from_all_sectors +EmisALD2_Anthro ALD2 0 1 -1 3 kg/m2/s ALD2_emission_flux_from_anthropogenic +EmisALD2_BioBurn ALD2 111 -1 -1 2 kg/m2/s ALD2_emission_flux_from_biomass_burning +EmisALD2_Biogenic ALD2 0 4 -1 2 kg/m2/s ALD2_emission_flux_from_biogenic_sources +EmisALD2_Ocean ALD2 101 -1 -1 2 kg/m2/s ALD2_emission_flux_from_ocean +EmisALD2_PlantDecay ALD2 0 3 -1 2 kg/m2/s ALD2_emission_flux_from_decaying_plants +EmisALD2_Ship ALD2 0 10 -1 2 kg/m2/s ALD2_emission_flux_from_ships + +############################################################################### +##### ALK4 emissions ##### +############################################################################### +EmisALK4_Total ALK4 -1 -1 -1 3 kg/m2/s ALK4_emission_flux_from_all_sectors +EmisALK4_Aircraft ALK4 0 20 -1 3 kg/m2/s ALK4_emission_flux_from_aircraft +EmisALK4_Anthro ALK4 0 1 -1 3 kg/m2/s ALK4_emission_flux_from_anthropogenic +EmisALK4_BioBurn ALK4 111 -1 -1 2 kg/m2/s ALK4_emission_flux_from_biomass_burning +EmisALK4_Ship ALK4 0 10 -1 2 kg/m2/s ALK4_emission_flux_from_ships + +############################################################################### +##### BCPI and BCPO emissions ##### +############################################################################### +EmisBCPI_Total BCPI -1 -1 -1 3 kg/m2/s BCPI_emission_flux_from_all_sectors +EmisBCPI_Aircraft BCPI 0 20 -1 3 kg/m2/s BCPI_emission_flux_from_aircraft +EmisBCPI_Anthro BCPI 0 1 -1 3 kg/m2/s BCPI_emission_flux_from_anthropogenic +EmisBCPI_BioBurn BCPI 111 -1 -1 2 kg/m2/s BCPI_emission_flux_from_biomass_burning +EmisBCPI_Ship BCPI 0 10 -1 2 kg/m2/s BCPI_emission_flux_from_ships +EmisBCPO_Total BCPO -1 -1 -1 3 kg/m2/s BCPO_emission_flux_from_all_sectors +EmisBCPO_Anthro BCPO 0 1 -1 3 kg/m2/s BCPO_emission_flux_from_anthropogenic +EmisBCPO_BioBurn BCPO 111 -1 -1 2 kg/m2/s BCPO_emission_flux_from_biomass_burning +EmisBCPO_Ship BCPO 0 10 -1 2 kg/m2/s BCPO_emission_flux_from_ships + +############################################################################### +##### BENZ emissions ##### +############################################################################### +EmisBENZ_Total BENZ -1 -1 -1 3 kg/m2/s BENZ_emission_flux_from_all_sectors +EmisBENZ_Anthro BENZ 0 1 -1 3 kg/m2/s BENZ_emission_flux_from_anthropogenic +EmisBENZ_BioBurn BENZ 111 -1 -1 2 kg/m2/s BENZ_emission_flux_from_biomass_burning +EmisBENZ_Ship BENZ 0 10 -1 2 kg/m2/s BENZ_emission_flux_from_ships + +############################################################################### +##### C2H2 emissions ###### +############################################################################### +EmisC2H2_Total C2H2 -1 -1 -1 3 kg/m2/s C2H2_emission_flux_from_all_sectors +EmisC2H2_Anthro C2H2 0 1 -1 3 kg/m2/s C2H2_emission_flux_from_anthropogenic +EmisC2H2_BioBurn C2H2 111 -1 -1 2 kg/m2/s C2H2_emission_flux_from_biomass_burning +EmisC2H2_Ship C2H2 0 10 -1 2 kg/m2/s C2H2_emission_flux_from_ships + +############################################################################### +##### C2H4 emissions ###### +############################################################################### +EmisC2H4_Total C2H4 -1 -1 -1 3 kg/m2/s C2H4_emission_flux_from_all_sectors +EmisC2H4_Anthro C2H4 0 1 -1 3 kg/m2/s C2H4_emission_flux_from_anthropogenic +EmisC2H4_BioBurn C2H4 111 -1 -1 2 kg/m2/s C2H4_emission_flux_from_biomass_burning +EmisC2H4_Biogenic C2H4 0 4 -1 2 kg/m2/s C2H4_emission_flux_from_biogenic_sources +EmisC2H4_Ship C2H4 0 10 -1 2 kg/m2/s C2H4_emission_flux_from_ships + +############################################################################### +##### C2H6 emissions ###### +############################################################################### +EmisC2H6_Total C2H6 -1 -1 -1 3 kg/m2/s C2H6_emission_flux_from_all_sectors +EmisC2H6_Aircraft C2H6 0 20 -1 3 kg/m2/s C2H6_emission_flux_from_aircraft +EmisC2H6_Anthro C2H6 0 1 -1 3 kg/m2/s C2H6_emission_flux_from_anthropogenic +EmisC2H6_BioBurn C2H6 111 -1 -1 2 kg/m2/s C2H6_emission_flux_from_biomass_burning +EmisC2H6_Ship C2H6 0 10 -1 2 kg/m2/s C2H6_emission_flux_from_ships + +############################################################################### +##### C3H8 emissions ##### +############################################################################### +EmisC3H8_Total C3H8 -1 -1 -1 3 kg/m2/s C3H8_emission_flux_from_all_sectors +EmisC3H8_Aircraft C3H8 0 20 -1 3 kg/m2/s C3H8_emission_flux_from_aircraft +EmisC3H8_Anthro C3H8 0 1 -1 3 kg/m2/s C3H8_emission_flux_from_anthropogenic +EmisC3H8_BioBurn C3H8 111 -1 -1 2 kg/m2/s C3H8_emission_flux_from_biomass_burning +EmisC3H8_Ship C3H8 0 10 -1 2 kg/m2/s C3H8_emission_flux_from_ships + +############################################################################### +##### CH2Br2 emissions ##### +############################################################################### +EmisCH2Br2_Ocean CH2Br2 0 1 -1 2 kg/m2/s CH2Br2_emission_flux_from_ocean + +############################################################################### +##### CH2I2 emissions ##### +############################################################################### +EmisCH2I2_Ocean CH2I2 0 1 -1 2 kg/m2/s CH2I2_emission_flux_from_ocean + +############################################################################### +##### CH2ICl emissions ##### +############################################################################### +EmisCH2ICl_Ocean CH2ICl 0 1 -1 2 kg/m2/s CH2ICl_emission_flux_from_ocean + +############################################################################### +##### CH2IBr emissions ##### +############################################################################### +EmisCH2IBr_Ocean CH2IBr 0 1 -1 2 kg/m2/s CH2IBr_emission_flux_from_ocean + +############################################################################### +##### CH2O emissions ##### +############################################################################### +EmisCH2O_Total CH2O -1 -1 -1 3 kg/m2/s CH2O_emission_flux_from_all_sectors +EmisCH2O_Aircraft CH2O 0 20 -1 3 kg/m2/s CH2O_emission_flux_from_aircraft +EmisCH2O_Anthro CH2O 0 1 -1 3 kg/m2/s CH2O_emission_flux_from_anthropogenic +EmisCH2O_BioBurn CH2O 111 -1 -1 2 kg/m2/s CH2O_emission_flux_from_biomass_burning +EmisCH2O_Ship CH2O 0 10 -1 2 kg/m2/s CH2O_emission_flux_from_ships + +############################################################################### +##### CH3I emissions ##### +############################################################################### +EmisCH3I_Ocean CH3I 0 1 -1 2 kg/m2/s CH3I_emission_flux_from_ocean + +############################################################################### +##### CH4 emissions ##### +############################################################################### +# Zero for now, so comment out +#EmisCH4_Total CH4 -1 -1 -1 3 kg/m2/s CH4_emission_flux_from_all_sectors +#EmisCH4_Anthro CH4 0 1 -1 3 kg/m2/s CH4_emission_flux_from_anthropogenic +#EmisCH4_BioBurn CH4 0 5 -1 2 kg/m2/s CH4_emission_flux_from_biomass_burning +#EmisCH4_Ship CH4 0 10 -1 2 kg/m2/s CH4_emission_flux_from_ships + +############################################################################### +##### CHBr3 emissions ##### +############################################################################### +EmisCHBr3_Ocean CHBr3 0 1 -1 2 kg/m2/s CHBr3_emission_flux_from_ocean + +############################################################################### +##### CO emissions ##### +############################################################################### +EmisCO_Total CO -1 -1 -1 3 kg/m2/s CO_emission_flux_from_all_sectors +EmisCO_Aircraft CO 0 20 -1 3 kg/m2/s CO_emission_flux_from_aircraft +EmisCO_Anthro CO 0 1 -1 3 kg/m2/s CO_emission_flux_from_anthropogenic +EmisCO_BioBurn CO 111 -1 -1 2 kg/m2/s CO_emission_flux_from_biomass_burning +EmisCO_Ship CO 0 10 -1 2 kg/m2/s CO_emission_flux_from_ships + +############################################################################### +##### CO2 emissions ##### +############################################################################### +EmisCO2_Total CO2 -1 -1 -1 3 kg/m2/s CO2_emission_flux_from_all_sectors +EmisCO2_Anthro CO2 0 1 -1 3 kg/m2/s CO2_emission_flux_from_anthropogenic +EmisCO2_BioBurn CO2 0 5 -1 2 kg/m2/s CO2_emission_flux_from_biomass_burning +EmisCO2_Ship CO2 0 10 -1 2 kg/m2/s CO2_emission_flux_from_ships + +############################################################################### +##### DMS emissions ##### +############################################################################### +EmisDMS_Ocean DMS 101 -1 -1 2 kg/m2/s DMS_emission_flux_from_ocean + +############################################################################### +##### Dust emissions ##### +############################################################################### +EmisDST1_Total DST1 -1 -1 -1 2 kg/m2/s DST1_emission_flux_from_all_sectors +EmisDST1_Anthro DST1 0 1 -1 2 kg/m2/s DST1_emission_flux_from_anthropogenic +EmisDST1_Natural DST1 0 3 -1 2 kg/m2/s DST1_emission_flux_from_natural_sources +EmisDST2_Natural DST2 0 3 -1 2 kg/m2/s DST2_emission_flux_from_natural_sources +EmisDST3_Natural DST3 0 3 -1 2 kg/m2/s DST3_emission_flux_from_natural_sources +EmisDST4_Natural DST4 0 3 -1 2 kg/m2/s DST4_emission_flux_from_natural_sources + +############################################################################### +##### EOH emissions ##### +############################################################################### +EmisEOH_Total EOH -1 -1 -1 3 kg/m2/s EOH_emission_flux_from_all_sectors +EmisEOH_Anthro EOH 0 1 -1 3 kg/m2/s EOH_emission_flux_from_anthropogenic +EmisEOH_BioBurn EOH 111 -1 -1 2 kg/m2/s EOH_emission_flux_from_biomass_burning +EmisEOH_Biogenic EOH 0 4 -1 2 kg/m2/s EOH_emission_flux_from_biogenic_sources +EmisEOH_PlantDecay EOH 0 3 -1 2 kg/m2/s EOH_emission_flux_from_decaying_plants +EmisEOH_Ship EOH 0 10 -1 2 kg/m2/s EOH_emission_flux_from_ships + +############################################################################### +##### ETNO3 emissions ##### +############################################################################### +EmisETNO3_Ocean ETNO3 101 -1 -1 2 kg/m2/s ETNO3_emission_flux_from_ocean + +############################################################################### +##### FURA emissions ##### +############################################################################### +EmisFURA_Total FURA -1 -1 -1 3 kg/m2/s FURA_emission_flux_from_all_sectors +EmisFURA_BioBurn FURA 111 -1 -1 2 kg/m2/s FURA_emission_flux_from_biomass_burning + +############################################################################### +##### GLYX emissions ##### +############################################################################### +EmisGLYX_Total GLYX -1 -1 -1 3 kg/m2/s GLYX_emission_flux_from_all_sectors +EmisGLYX_BioBurn GLYX 111 -1 -1 2 kg/m2/s GLYX_emission_flux_from_biomass_burning + +############################################################################### +##### H2O emissions ##### +############################################################################### +EmisH2O_Aircraft H2O 0 20 -1 3 kg/m2/s H2O_emission_flux_from_aircraft + +############################################################################### +##### HCOOH sources ##### +############################################################################### +EmisHCOOH_Total HCOOH -1 -1 -1 3 kg/m2/s HCOOH_emission_flux_from_all_sectors +EmisHCOOH_Anthro HCOOH 0 1 -1 3 kg/m2/s HCOOH_emission_flux_from_anthropogenic +EmisHCOOH_Ship HCOOH 0 10 -1 2 kg/m2/s HCOOH_emission_flux_from_ship + +############################################################################### +##### HNO3 emissions ##### +############################################################################### +EmisHNO3_Ship HNO3 102 -1 -1 2 kg/m2/s HNO3_emission_flux_from_ships + +############################################################################### +##### HONO emissions ##### +############################################################################### +EmisHONO_Aircraft HONO 0 20 -1 3 kg/m2/s HONO_emission_flux_from_aircraft + +############################################################################### +##### ISOP emissions ##### +############################################################################### +EmisISOP_Total ISOP -1 -1 -1 3 kg/m2/s ISOP_emission_flux_from_all_sectors +EmisISOP_BioBurn ISOP 111 -1 -1 2 kg/m2/s ISOP_emission_flux_from_biomass_burning +EmisISOP_Biogenic ISOP 0 4 -1 2 kg/m2/s ISOP_emission_flux_from_biogenic_sources + +############################################################################### +##### LIMO emissions ##### +############################################################################### +EmisLIMO_Biogenic LIMO 0 4 -1 2 kg/m2/s LIMO_emission_flux_from_biogenic_sources + +############################################################################### +##### MACR emissions ##### +############################################################################### +EmisMACR_Total MACR -1 -1 -1 3 kg/m2/s MACR_emission_flux_from_all_sectors +EmisMACR_Aircraft MACR 0 20 -1 3 kg/m2/s MACR_emission_flux_from_anthropogenic + +############################################################################### +##### MEK emissions ##### +############################################################################### +EmisMEK_Total MEK -1 -1 -1 3 kg/m2/s MEK_emission_flux_from_all_sectors +EmisMEK_Anthro MEK 0 1 -1 3 kg/m2/s MEK_emission_flux_from_anthropogenic +EmisMEK_BioBurn MEK 111 -1 -1 2 kg/m2/s MEK_emission_flux_from_biomass_burning +EmisMEK_Ship MEK 0 10 -1 2 kg/m2/s MEK_emission_flux_from_ships + +############################################################################### +##### MENO3 emissions ##### +############################################################################### +EmisMENO3_Ocean MENO3 101 -1 -1 2 kg/m2/s MENO3_emission_flux_from_ocean + +############################################################################### +##### MGLY emissions ##### +############################################################################### +EmisMGLY_Total MGLY -1 -1 -1 3 kg/m2/s MGLY_emission_flux_from_all_sectors +EmisMGLY_BioBurn MGLY 111 -1 -1 2 kg/m2/s MGLY_emission_flux_from_biomass_burning + +############################################################################### +##### MOH emissions ##### +############################################################################### +EmisMOH_Total MOH -1 -1 -1 3 kg/m2/s MOH_emission_flux_from_all_sectors +EmisMOH_Anthro MOH 0 1 -1 3 kg/m2/s MOH_emission_flux_from_anthropogenic +EmisMOH_BioBurn MOH 111 -1 -1 2 kg/m2/s MOH_emission_flux_from_biomass_burning +EmisMOH_Biogenic MOH 108 -1 -1 2 kg/m2/s MOH_emission_flux_from_biogenic_sources +EmisMOH_Ocean MOH 101 -1 -1 2 kg/m2/s MOH_emission_flux_from_ocean +EmisMOH_Ship MOH 0 10 -1 2 kg/m2/s MOH_emission_flux_from_ships + +############################################################################### +##### MTPA emissions ##### +############################################################################### +EmisMTPA_Total MTPA -1 -1 -1 3 kg/m2/s MTPA_emission_flux_from_all_sectors +EmisMTPA_BioBurn MTPA 111 -1 -1 2 kg/m2/s MTPA_emission_flux_from_biomass_burning +EmisMTPA_Biogenic MTPA 0 4 -1 2 kg/m2/s MTPA_emission_flux_from_biogenic_sources + +############################################################################### +##### MTPO emissions ##### +############################################################################### +EmisMTPO_Total MTPO -1 -1 -1 3 kg/m2/s MTPO_emission_flux_from_all_sectors +EmisMTPO_Biogenic MTPO 0 4 -1 2 kg/m2/s MTPO_emission_flux_from_biogenic_sources + +############################################################################### +##### MVK emissions ##### +############################################################################### +EmisMVK_Total MVK -1 -1 -1 3 kg/m2/s MVK_emission_flux_from_all_sectors +EmisMVK_BioBurn MVK 111 -1 -1 2 kg/m2/s MVK_emission_flux_from_biomass_burning + +############################################################################### +##### NAP emissions ##### +############################################################################### +EmisNAP_Total NAP -1 -1 -1 3 kg/m2/s NAP_emission_flux_from_all_sectors +EmisNAP_Anthro NAP 0 1 -1 3 kg/m2/s NAP_emission_flux_from_anthropogenic +EmisNAP_BioBurn NAP 111 -1 -1 2 kg/m2/s NAP_emission_flux_from_biomass_burning + +############################################################################### +##### NH3 emissions ##### +############################################################################### +EmisNH3_Total NH3 -1 -1 -1 3 kg/m2/s NH3_emission_flux_from_all_sectors +EmisNH3_Anthro NH3 0 1 -1 3 kg/m2/s NH3_emission_flux_from_anthropogenic +EmisNH3_BioBurn NH3 111 -1 -1 2 kg/m2/s NH3_emission_flux_from_biomass_burning +EmisNH3_Natural NH3 0 3 -1 2 kg/m2/s NH3_emission_flux_from_natural_sources +EmisNH3_Seabirds NH3 0 30 -1 2 kg/m2/s NH3_emission_flux_from_seabirds +EmisNH3_Ship NH3 0 10 -1 2 kg/m2/s NH3_emission_flux_from_ships + +############################################################################### +##### NO emissions ##### +##### ##### +##### - Separate fertilizer NOx emissions are only available when the ##### +##### SoilNOx extension is enabled ##### +############################################################################### +EmisNO_Total NO -1 -1 -1 3 kg/m2/s NO_emission_flux_from_all_sectors +EmisNO_Aircraft NO 0 20 -1 3 kg/m2/s NO_emission_flux_from_aircraft +EmisNO_Anthro NO 0 1 -1 3 kg/m2/s NO_emission_flux_from_anthropogenic +EmisNO_BioBurn NO 111 -1 -1 2 kg/m2/s NO_emission_flux_from_biomass_burning +EmisNO_Lightning NO 103 -1 -1 3 kg/m2/s NO_emission_flux_from_lightning +EmisNO_Ship NO 102 -1 -1 2 kg/m2/s NO_emission_flux_from_ships +EmisNO_Soil NO 0 3 -1 2 kg/m2/s NO_emission_flux_from_soil_including_fertilizer +#EmisNO_Fert -1 104 -1 -1 2 kg/m2/s NO_emission_flux_from_fertilizer_only + +############################################################################### +##### NO2 emissions ##### +############################################################################### +EmisNO2_Total NO2 -1 -1 -1 3 kg/m2/s NO2_emission_flux_from_all_sectors +EmisNO2_Aircraft NO2 0 20 -1 3 kg/m2/s NO2_emission_flux_from_aircraft +EmisNO2_Ship NO2 102 -1 -1 2 kg/m2/s NO2_emission_flux_from_ships + +############################################################################### +##### O3 emissions ##### +############################################################################### +EmisO3_Ship O3 102 -1 -1 2 kg/m2/s O3_emission_flux_from_ships + +############################################################################### +##### OCPI and OCPO emissions ##### +############################################################################### +EmisOCPI_Total OCPI -1 -1 -1 3 kg/m2/s OCPI_emission_flux_from_all_sectors +EmisOCPI_Aircraft OCPI 0 20 -1 3 kg/m2/s OCPI_emission_flux_from_aircraft +EmisOCPI_Anthro OCPI 0 1 -1 3 kg/m2/s OCPI_emission_flux_from_anthropogenic +EmisOCPI_BioBurn OCPI 111 -1 -1 2 kg/m2/s OCPI_emission_flux_from_biomass_burning +EmisOCPI_Ship OCPI 0 10 -1 2 kg/m2/s OCPI_emission_flux_from_ships +EmisOCPO_Total OCPO -1 -1 -1 3 kg/m2/s OCPO_emission_flux_from_all_sectors +EmisOCPO_Anthro OCPO 0 1 -1 3 kg/m2/s OCPO_emission_flux_from_anthropogenic +EmisOCPO_BioBurn OCPO 111 -1 -1 2 kg/m2/s OCPO_emission_flux_from_biomass_burning +EmisOCPO_Ship OCPO 0 10 -1 2 kg/m2/s OCPO_emission_flux_from_ships + +############################################################################### +##### pFe emissions ##### +############################################################################### +EmispFe_Total pFe -1 -1 -1 3 kg/m2/s pFe_emission_flux_from_all_sectors +EmispFe_Anthro pFe 0 1 -1 3 kg/m2/s pFe_emission_flux_from_anthropogenic +EmispFe_Ship pFe 0 10 -1 2 kg/m2/s pFe_emission_flux_from_ships + +############################################################################### +##### PHEN emissions ##### +############################################################################### +EmisPHEN_Total PHEN -1 -1 -1 3 kg/m2/s PHEN_emission_flux_from_all_sectors +EmisPHEN_BioBurn PHEN 111 -1 -1 2 kg/m2/s PHEN_emission_flux_from_biomass_burning + +############################################################################### +##### POG1 and POG2 emissions ##### +############################################################################### +EmisPOG1_Total POG1 -1 -1 -1 3 kg/m2/s POG1_emission_flux_from_all_sectors +EmisPOG1_Anthro POG1 0 1 -1 3 kg/m2/s POG1_emission_flux_from_anthropogenic +EmisPOG1_BioBurn POG1 111 -1 -1 2 kg/m2/s POG1_emission_flux_from_GFED_inventory +EmisPOG2_Total POG2 -1 -1 -1 3 kg/m2/s POG2_emission_flux_from_all_sectors +EmisPOG2_Anthro POG2 0 1 -1 3 kg/m2/s POG2_emission_flux_from_anthropogenic +EmisPOG2_BioBurn POG2 111 -1 -1 2 kg/m2/s POG2_emission_flux_from_GFED_inventory + +############################################################################### +##### PRPE emissions ##### +############################################################################### +EmisPRPE_Total PRPE -1 -1 -1 3 kg/m2/s PRPE_emission_flux_from_all_sectors +EmisPRPE_Aircraft PRPE 0 20 -1 3 kg/m2/s PRPE_emission_flux_from_aircraft +EmisPRPE_Anthro PRPE 0 1 -1 3 kg/m2/s PRPE_emission_flux_from_anthropogenic +EmisPRPE_BioBurn PRPE 111 -1 -1 2 kg/m2/s PRPE_emission_flux_from_biomass_burning +EmisPRPE_Biogenic PRPE 0 4 -1 2 kg/m2/s PRPE_emission_flux_from_biogenic_sources +EmisPRPE_Ship PRPE 0 10 -1 2 kg/m2/s PRPE_emission_flux_from_ships + +############################################################################### +##### RCHO emissions ##### +############################################################################### +EmisRCHO_Total RCHO -1 -1 -1 3 kg/m2/s RCHO_emission_flux_from_all_sectors +EmisRCHO_Aircraft RCHO 0 20 -1 3 kg/m2/s RCHO_emission_flux_from_aircraft +EmisRCHO_BioBurn RCHO 111 -1 -1 2 kg/m2/s RCHO_emission_flux_from_biomass_burning + +############################################################################### +##### SESQ emissions ##### +############################################################################### +# SESQ is not an active species in GEOS-Chem; disable for now +#EmisSESQ_Biogenic SESQ 0 4 -1 2 kg/m2/s SESQ_emission_flux_from_biogenic_sources + +############################################################################### +##### Sea salt emissions ##### +############################################################################### +EmisSALA_Natural SALA 0 3 -1 2 kg/m2/s SALA_emission_flux_from_natural_sources +EmisBrSALA_Natural BrSALA 0 3 -1 2 kg/m2/s BrSALA_emission_flux_from_natural_sources +EmisSALAAL_Natural SALAAL 0 3 -1 2 kg/m2/s SALAAL_emission_flux_from_natural_sources +EmisSALACL_Natural SALACL 0 3 -1 2 kg/m2/s SALACL_emission_flux_from_natural_sources +EmisSALC_Natural SALC 0 3 -1 2 kg/m2/s SALC_emission_flux_from_natural_sources +EmisBrSALC_Natural BrSALC 0 3 -1 2 kg/m2/s BrSALC_emission_flux_from_natural_sources +EmisSALCAL_Natural SALCAL 0 3 -1 2 kg/m2/s SALCAL_emission_flux_from_natural_sources +EmisSALCCL_Natural SALCCL 0 3 -1 2 kg/m2/s SALCCL_emission_flux_from_natural_sources + +############################################################################### +##### SO2 emissions ##### +############################################################################### +EmisSO2_Total SO2 -1 -1 -1 3 kg/m2/s SO2_emission_flux_from_all_sectors +EmisSO2_Aircraft SO2 0 20 -1 3 kg/m2/s SO2_emission_flux_from_aircraft +EmisSO2_Anthro SO2 0 1 -1 3 kg/m2/s SO2_emission_flux_from_anthropogenic +EmisSO2_BioBurn SO2 111 -1 -1 2 kg/m2/s SO2_emission_flux_from_biomass_burning +EmisSO2_VolcErupt SO2 117 51 -1 3 kg/m2/s SO2_emission_flux_from_eruptive_volcano +EmisSO2_VolcDegas SO2 117 52 -1 3 kg/m2/s SO2_emission_flux_from_noneruptive_volcano +EmisSO2_Ship SO2 0 10 -1 2 kg/m2/s SO2_emission_flux_from_ships + +############################################################################### +##### SO4 emissions ##### +############################################################################### +EmisSO4_Total SO4 -1 -1 -1 3 kg/m2/s SO4_emission_flux_from_all_sectors +EmisSO4_Aircraft SO4 0 20 -1 3 kg/m2/s SO4_emission_flux_from_aircraft +EmisSO4_Anthro SO4 0 1 -1 3 kg/m2/s SO4_emission_flux_from_anthropogenic +EmisSO4_Ship SO4 0 10 -1 2 kg/m2/s SO4_emission_flux_from_ship + +############################################################################### +##### SOAP sources ##### +############################################################################### +EmisSOAP_Total SOAP -1 -1 -1 3 kg/m2/s SOAP_emission_flux_from_all_sectors +EmisSOAP_Aircraft SOAP 0 20 -1 3 kg/m2/s SOAP_emission_flux_from_aircraft +EmisSOAP_Anthro SOAP 0 1 -1 3 kg/m2/s SOAP_emission_flux_from_anthropogenic +EmisSOAP_Biogenic SOAP 0 4 -1 2 kg/m2/s SOAP_emission_flux_from_biogenic_sources +EmisSOAP_BioBurn SOAP 111 -1 -1 2 kg/m2/s SOAP_emission_flux_from_biomass_burning +EmisSOAP_Ship SOAP 0 10 -1 2 kg/m2/s SOAP_emission_flux_from_ships + +############################################################################### +##### SOAS sources ##### +############################################################################### +EmisSOAS_Biogenic SOAS 0 4 -1 2 kg/m2/s SOAS_emission_flux_from_biogenic_sources + +############################################################################### +##### TOLU emissions ##### +############################################################################### +EmisTOLU_Total TOLU -1 -1 -1 3 kg/m2/s TOLU_emission_flux_from_all_sectors +EmisTOLU_Anthro TOLU 0 1 -1 3 kg/m2/s TOLU_emission_flux_from_anthropogenic +EmisTOLU_BioBurn TOLU 111 -1 -1 2 kg/m2/s TOLU_emission_flux_from_biomass_burning +EmisTOLU_Ship TOLU 0 10 -1 2 kg/m2/s TOLU_emission_flux_from_ships + +############################################################################### +##### XYLE emissions ##### +############################################################################### +EmisXYLE_Total XYLE -1 -1 -1 3 kg/m2/s XYLE_emission_flux_from_all_sectors +EmisXYLE_Anthro XYLE 0 1 -1 3 kg/m2/s XYLE_emission_flux_from_anthropogenic +EmisXYLE_BioBurn XYLE 111 -1 -1 2 kg/m2/s XYLE_emission_flux_from_biomass_burning +EmisXYLE_Ship XYLE 0 10 -1 2 kg/m2/s XYLE_emission_flux_from_ships + +############################################################################### +##### Additional diagnostics saved out via HEMCO extensions ##### +############################################################################### + +#============================= +# LIGHTNOX extension +#============================= +HcoLightningFlashRate_Total -1 103 -1 -1 2 flashes/min/km2 Total_lightning_flash_rate +HcoLightningFlashRate_IntraCld -1 103 -1 -1 2 flashes/min/km2 Intra-cloud_lightning_flash_rate +HcoLightningFlashRate_CldGround -1 103 -1 -1 2 flashes/min/km2 Cloud-ground_lightning_flash_rate +HcoConvectiveCloudTopHeight -1 103 -1 -1 2 level Convective_cloud_top_height + +############################################################################### +##### INVENTORY DIAGNOSTICS, needed for benchmarking simulations only ##### +##### Listed in same order as HEMCO_Config.rc ##### +##### (You can comment these out for production runs, to save memory) ##### +############################################################################### + +#============================= +# CEDS +#============================= +#InvCEDS_ALD2 ALD2 0 1 5 3 kg/m2/s ALD2_emission_flux_from_CEDS_inventory +#InvCEDS_ALK4 ALK4 0 1 5 3 kg/m2/s ALK4_emission_flux_from_CEDS_inventory +#InvCEDS_BCPI BCPI 0 1 5 3 kg/m2/s BCPI_emission_flux_from_CEDS_inventory +#InvCEDS_BCPO BCPO 0 1 5 3 kg/m2/s BCPO_emission_flux_from_CEDS_inventory +#InvCEDS_BENZ BENZ 0 1 5 3 kg/m2/s BENZ_emission_flux_from_CEDS_inventory +#InvCEDS_C2H2 C2H2 0 1 5 3 kg/m2/s C2H2_emission_flux_from_CEDS_inventory +#InvCEDS_C2H4 C2H4 0 1 5 3 kg/m2/s C2H4_emission_flux_from_CEDS_inventory +#InvCEDS_C2H6 C2H6 0 1 5 3 kg/m2/s C2H6_emission_flux_from_CEDS_inventory +#InvCEDS_C3H8 C3H8 0 1 5 3 kg/m2/s C3H8_emission_flux_from_CEDS_inventory +#InvCEDS_CH2O CH2O 0 1 5 3 kg/m2/s CH2O_emission_flux_from_CEDS_inventory +#InvCEDS_CO CO 0 1 5 3 kg/m2/s CO_emission_flux_from_CEDS_inventory +#InvCEDS_MOH MOH 0 1 5 3 kg/m2/s MOH_emission_flux_from_CEDS_inventory +#InvCEDS_EOH EOH 0 1 5 3 kg/m2/s EOH_emission_flux_from_CEDS_inventory +#InvCEDS_ROH ROH 0 1 5 3 kg/m2/s ROH_emission_flux_from_CEDS_inventory +#InvCEDS_HCOOH HCOOH 0 1 5 3 kg/m2/s HCOOH_emission_flux_from_CEDS_inventory +#InvCEDS_MEK MEK 0 1 5 3 kg/m2/s MEK_emission_flux_from_CEDS_inventory +#InvCEDS_NH3 NH3 0 1 5 3 kg/m2/s NH3_emission_flux_from_CEDS_inventory +#InvCEDS_NO NO 0 1 5 3 kg/m2/s NO_emission_flux_from_CEDS_inventory +#InvCEDS_OCPI OCPI 0 1 5 3 kg/m2/s OCPI_emission_flux_from_CEDS_inventory +#InvCEDS_OCPO OCPO 0 1 5 3 kg/m2/s OCPO_emission_flux_from_CEDS_inventory +#InvCEDS_pFe pFe 0 1 5 3 kg/m2/s pFe_emission_flux_from_CEDS_inventory +#InvCEDS_POG1 POG1 0 1 5 3 kg/m2/s POG1_emission_flux_from_CEDS_inventory +#InvCEDS_POG2 POG2 0 1 5 3 kg/m2/s POG2_emission_flux_from_CEDS_inventory +#InvCEDS_PRPE PRPE 0 1 5 3 kg/m2/s PRPE_emission_flux_from_CEDS_inventory +#InvCEDS_SO2 SO2 0 1 5 3 kg/m2/s SO2_emission_flux_from_CEDS_inventory +#InvCEDS_SO4 SO4 0 1 5 3 kg/m2/s SO4_emission_flux_from_CEDS_inventory +#InvCEDS_SOAP SOAP 0 1 5 3 kg/m2/s SOAP_emission_flux_from_CEDS_inventory +#InvCEDS_TOLU TOLU 0 1 5 3 kg/m2/s TOLU_emission_flux_from_CEDS_inventory +#InvCEDS_XYLE XYLE 0 1 5 3 kg/m2/s XYLE_emission_flux_from_CEDS_inventory + +#============================= +# GEIA_NH3 +#============================= +#InvGEIAnatural_NH3 NH3 0 3 1 2 kg/m2/s NH3_emission_flux_from_GEIA_natural_source + +#============================= +# Seabirds +#============================= +#InvSEABIRDS_NH3 NH3 0 30 1 2 kg/m2/s NH3_emission_flux_from_arctic_seabirds + +#============================= +# C2H62010 +#============================= +#InvC2H62010_C2H6 C2H6 0 1 100 2 kg/m2/s C2H6_from_C2H62010_anthropogenic_inventory + +#============================= +# XIAO_C3H8 +#============================= +#InvXIAO_C3H8 C3H8 0 1 10 2 kg/m2/s C3H8_from_XIAO_anthropogenic_inventory + +#============================= +# LIANG_BROMOCARB +#============================= +#InvLIANG_CH2Br2 CH2Br2 0 1 1 2 kg/m2/s CH2Br2_emission_flux_from_LIANG_BROMOCARB_inventory +#InvLIANG_CHBr3 CHBr3 0 1 1 2 kg/m2/s CHBr3_emission_flux_from_LIANG_BROMOCARB_inventory + +#============================= +# ORDONEZ_IODOCARB +#============================= +#InvORDONEZ_CH2I2 CH2I2 0 1 1 2 kg/m2/s CH2I2_emission_flux_from_ORDONEZ_IODOCARB_inventory +#InvORDONEZ_CH2ICl CH2ICl 0 1 1 2 kg/m2/s CH2ICl_emission_flux_from_ORDONEZ_IODOCARB_inventory +#InvORDONEZ_CH2IBr CH2IBr 0 1 1 2 kg/m2/s CH2IBr_emission_flux_from_ORDONEZ_IODOCARB_inventory +#InvORDONEZ_CH3I CH3I 0 1 1 2 kg/m2/s CH3I_emission_flux_from_ORDONEZ_IODOCARB_inventory + +#============================= +# CEDS_SHIP +#============================= +#InvCEDSship_ALD2 ALD2 0 10 5 2 kg/m2/s ALD2_emission_flux_from_CEDSship_inventory +#InvCEDSship_ALK4 ALK4 0 10 5 2 kg/m2/s ALK4_emission_flux_from_CEDSship_inventory +#InvCEDSship_BCPI BCPI 0 10 5 2 kg/m2/s BCPI_emission_flux_from_CEDSship_inventory +#InvCEDSship_BCPO BCPO 0 10 5 2 kg/m2/s BCPO_emission_flux_from_CEDSship_inventory +#InvCEDSship_BENZ BENZ 0 10 5 2 kg/m2/s BENZ_emission_flux_from_CEDSship_inventory +#InvCEDSship_C2H2 C2H2 0 10 5 2 kg/m2/s C2H2_emission_flux_from_CEDSship_inventory +#InvCEDSship_C2H4 C2H4 0 10 5 2 kg/m2/s C2H4_emission_flux_from_CEDSship_inventory +#InvCEDSship_C2H6 C2H6 0 10 5 2 kg/m2/s C2H6_emission_flux_from_CEDSship_inventory +#InvCEDSship_C3H8 C3H8 0 10 5 2 kg/m2/s C3H8_emission_flux_from_CEDSship_inventory +#InvCEDSship_CH2O CH2O 0 10 5 2 kg/m2/s CH2O_emission_flux_from_CEDSship_inventory +#InvCEDSship_CO CO 0 10 5 2 kg/m2/s CO_emission_flux_from_CEDSship_inventory +#InvCEDSship_EOH EOH 0 10 5 2 kg/m2/s EOH_emission_flux_from_CEDSship_inventory +#InvCEDSship_HCOOH HCOOH 0 10 5 2 kg/m2/s HCOOH_emission_flux_from_CEDSship_inventory +#InvCEDSship_MEK MEK 0 10 5 2 kg/m2/s MEK_emission_flux_from_CEDSship_inventory +#InvCEDSship_NH3 NH3 0 10 5 2 kg/m2/s NH3_emission_flux_from_CEDSship_inventory +#InvCEDSship_pFe pFe 0 10 5 2 kg/m2/s pFe_emission_flux_from_CEDSship_inventory +#InvCEDSship_PRPE PRPE 0 10 5 2 kg/m2/s PRPE_emission_flux_from_CEDSship_inventory +#InvCEDSship_OCPI OCPI 0 10 5 2 kg/m2/s OCPI_emission_flux_from_CEDSship_inventory +#InvCEDSship_OCPO OCPO 0 10 5 2 kg/m2/s OCPO_emission_flux_from_CEDSship_inventory +#InvCEDSship_SO2 SO2 0 10 5 2 kg/m2/s SO2_emission_flux_from_CEDSship_inventory +#InvCEDSship_SO4 SO4 0 10 5 2 kg/m2/s SO4_emission_flux_from_CEDSship_inventory +#InvCEDSship_SOAP SOAP 0 10 5 2 kg/m2/s SOAP_emission_flux_from_CEDSship_inventory +#InvCEDSship_TOLU TOLU 0 10 5 2 kg/m2/s TOLU_emission_flux_from_CEDSship_inventory +#InvCEDSship_XYLE XYLE 0 10 5 2 kg/m2/s XYLE_emission_flux_from_CEDSship_inventory + +#============================= +# AEIC +#============================= +#InvAEIC_ACET ACET 0 20 1 3 kg/m2/s ACET_emission_flux_from_AEIC_inventory +#InvAEIC_ALD2 ALD2 0 20 1 3 kg/m2/s ALD2_emission_flux_from_AEIC_inventory +#InvAEIC_ALK4 ALK4 0 20 1 3 kg/m2/s ALK4_emission_flux_from_AEIC_inventory +#InvAEIC_BCPI BCPI 0 20 1 3 kg/m2/s BCPI_emission_flux_from_AEIC_inventory +#InvAEIC_C2H6 C2H6 0 20 1 3 kg/m2/s C2H6_emission_flux_from_AEIC_inventory +#InvAEIC_C3H8 C3H8 0 20 1 3 kg/m2/s C3H8_emission_flux_from_AEIC_inventory +#InvAEIC_CH2O CH2O 0 20 1 3 kg/m2/s CH2O_emission_flux_from_AEIC_inventory +#InvAEIC_CO CO 0 20 1 3 kg/m2/s CO_emission_flux_from_AEIC_inventory +#InvAEIC_HONO HONO 0 20 1 3 kg/m2/s HONO_emission_flux_from_AEIC_inventory +#InvAEIC_MACR MACR 0 20 1 3 kg/m2/s MACR_emission_flux_from_AEIC_inventory +#InvAEIC_NO NO 0 20 1 3 kg/m2/s NO_emission_flux_from_AEIC_inventory +#InvAEIC_NO2 NO2 0 20 1 3 kg/m2/s NO2_emission_flux_from_AEIC_inventory +#InvAEIC_OCPI OCPI 0 20 1 3 kg/m2/s OCPI_emission_flux_from_AEIC_inventory +#InvAEIC_PRPE PRPE 0 20 1 3 kg/m2/s PRPE_emission_flux_from_AEIC_inventory +#InvAEIC_RCHO RCHO 0 20 1 3 kg/m2/s RCHO_emission_flux_from_AEIC_inventory +#InvAEIC_SO2 SO2 0 20 1 3 kg/m2/s SO2_emission_flux_from_AEIC_inventory +#InvAEIC_SO4 SO4 0 20 1 3 kg/m2/s SO4_emission_flux_from_AEIC_inventory +#InvAEIC_SOAP SOAP 0 20 1 3 kg/m2/s SOAP_emission_flux_from_AEIC_inventory + +#============================= +# Decaying plants +#============================= +#InvPLANTDECAY_ALD2 ALD2 0 3 1 2 kg/m2/s ALD2_emission_flux_from_PLANTDECAY_inventory +#InvPLANTDECAY_EOH EOH 0 3 1 2 kg/m2/s EOH_emission_flux_from_PLANTDECAY_inventory + +#============================= +# AFCID emissions +#============================= +#InvAFCID_DST1 DST1 0 1 -1 2 kg/m2/s DST1_emission_flux_from_AFCID_inventory + +#============================= +# Seaflux extension +#============================= +#InvSeaFlux_ACET ACET 101 -1 -1 2 kg/m2/s ACET_emission_flux_from_SeaFlux_extension +#InvSeaFlux_ALD2 ALD2 101 -1 -1 2 kg/m2/s ALD2_emission_flux_from_SeaFlux_extension +#InvSeaFlux_DMS DMS 101 -1 -1 2 kg/m2/s DMS_emission_flux_from_SeaFlux_extension +#InvSeaFlux_ETNO3 ETNO3 101 -1 -1 2 kg/m2/s ETNO3_emission_flux_from_SeaFlux_extension +#InvSeaFlux_MENO3 MENO3 101 -1 -1 2 kg/m2/s MENO3_emission_flux_from_SeaFlux_extension +#InvSeaFlux_MOH MOH 101 -1 -1 2 kg/m2/s MOH_emission_flux_from_SeaFlux_extension + +#============================= +# PARANOX extension +#============================= +#InvPARANOX_HNO3 HNO3 102 -1 -1 2 kg/m2/s HNO3_emission_flux_from_PARANOX_extension +#InvPARANOX_NO NO 102 -1 -1 2 kg/m2/s NO_emission_flux_from_PARANOX_extension +#InvPARANOX_NO2 NO2 102 -1 -1 2 kg/m2/s NO2_emission_flux_from_PARANOX_extension +#InvPARANOX_O3 O3 102 -1 -1 2 kg/m2/s O3_emission_flux_from_PARANOX_extension + +#============================= +# LIGHTNOX extension +#============================= +#InvLIGHTNOX_NO NO 103 -1 -1 3 kg/m2/s NO_emission_flux_from_lightning_extension + +#============================= +# SOILNOX extension +#============================= +#InvSOILNOX_NO NO 104 -1 -1 2 kg/m2/s NO_emission_flux_from_SOINOX_extension_including_soil_and_fertilizer_emissions + +#============================= +# DEAD (dust) Extension +#============================= +#InvDEAD_DST1 DST1 105 -1 -1 2 kg/m2/s DST1_emission_flux_from_DEAD_extension +#InvDEAD_DST2 DST2 105 -1 -1 2 kg/m2/s DST2_emission_flux_from_DEAD_extension +#InvDEAD_DST3 DST3 105 -1 -1 2 kg/m2/s DST3_emission_flux_from_DEAD_extension +#InvDEAD_DST4 DST4 105 -1 -1 2 kg/m2/s DST4_emission_flux_from_DEAD_extension + +#============================= +# SeaSalt extension +#============================= +#InvSeaSalt_BrSALA BrSALA 107 -1 -1 2 kg/m2/s BrSALA_emission_flux_from_SeaSalt_extension +#InvSeaSalt_BrSALC BrSALC 107 -1 -1 2 kg/m2/s BrSALC_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALA SALA 107 -1 -1 2 kg/m2/s SALA_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALC SALC 107 -1 -1 2 kg/m2/s SALC_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALAAL SALAAL 107 -1 -1 2 kg/m2/s SALAAL_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALACL SALACL 107 -1 -1 2 kg/m2/s SALACL_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALCAL SALCAL 107 -1 -1 2 kg/m2/s SALAAL_emission_flux_from_SeaSalt_extension +#InvSeaSalt_SALCCL SALCCL 107 -1 -1 2 kg/m2/s SALCCL_emission_flux_from_SeaSalt_extension + +#============================= +# MEGAN Extension +#============================= +#InvMEGAN_ALD2 ALD2 108 -1 -1 2 kg/m2/s ALD2_biogenic_emission_flux_from_MEGAN_extension +# C2H4 is not an active species in GEOS-Chem; disable for now +##InvMEGAN_C2H4 C2H4 108 -1 -1 2 kg/m2/s C2H4_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_EOH EOH 108 -1 -1 2 kg/m2/s EOH_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_ISOP ISOP 108 -1 -1 2 kg/m2/s ISOP_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_LIMO LIMO 108 -1 -1 2 kg/m2/s LIMO_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_MTPA MTPA 108 -1 -1 2 kg/m2/s MTPA_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_MTPO MTPO 108 -1 -1 2 kg/m2/s MTPO_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_PRPE PRPE 108 -1 -1 2 kg/m2/s PRPE_biogenic_emission_flux_from_MEGAN_extension +# SESQ is not an active species in GEOS-Chem; disable for now +##InvMEGAN_SESQ SESQ 108 -1 -1 2 kg/m2/s SESQ_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_SOAP SOAP 108 -1 -1 2 kg/m2/s SOAP_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_SOAS SOAS 108 -1 -1 2 kg/m2/s SOAS_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_ACET ACET 108 -1 -1 2 kg/m2/s ACET_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_ACET_MONO -1 108 -1 -1 2 kg/m2/s Acetone_from_monoterpenes_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_ACET_MBOX -1 108 -1 -1 2 kg/m2/s Acetone_from_methyl_butenol_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_ACET_DIRECT -1 108 -1 -1 2 kg/m2/s Direct_acetone_biogenic_emission_flux_from_MEGAN_extension +#InvMEGAN_MOH MOH 108 -1 -1 2 kg/m2/s Methanol_emission_flux_from_MEGAN_extension +#InvMEGAN_APIN -1 108 -1 -1 2 kg/m2/s Alpha_pinene_emission_flux_from_MEGAN_extension +#InvMEGAN_BPIN -1 108 -1 -1 2 kg/m2/s Beta_pinene_acid_emission_flux_from_MEGAN_extension +#InvMEGAN_SABI -1 108 -1 -1 2 kg/m2/s Sabinene_emission_flux_from_MEGAN_extension +#InvMEGAN_MYRC -1 108 -1 -1 2 kg/m2/s Mycrene_emission_flux_from_MEGAN_extension +#InvMEGAN_CARE -1 108 -1 -1 2 kg/m2/s 3_Carene_emission_flux_from_MEGAN_extension +#InvMEGAN_OCIM -1 108 -1 -1 2 kg/m2/s Ocimene_emission_flux_from_MEGAN_extension +#InvMEGAN_OMON -1 108 -1 -1 2 kg/m2/s Other_monoterpene_emission_flux_from_MEGAN_extension +#InvMEGAN_MONX -1 108 -1 -1 2 kg/m2/s Total_monoterpene_emission_flux_from_MEGAN_extension +#InvMEGAN_FARN -1 108 -1 -1 2 kg/m2/s alpha_Farnesene_emission_flux_from_MEGAN_extension +#InvMEGAN_BCAR -1 108 -1 -1 2 kg/m2/s beta_caryophyllene_emission_flux_from_MEGAN_extension +#InvMEGAN_OSQT -1 108 -1 -1 2 kg/m2/s Other_sesquiterpenes_emission_flux_from_MEGAN_extension +#InvMEGAN_MBOX -1 108 -1 -1 2 kg/m2/s Methyl_butenol_emission_flux_from_MEGAN_extension +#InvMEGAN_FAXX -1 108 -1 -1 2 kg/m2/s Formic_acid_emission_flux_from_MEGAN_extension +#InvMEGAN_AAXX -1 108 -1 -1 2 kg/m2/s Acetic_acid_emission_flux_from_MEGAN_extension + +#============================= +# GFED Extension +#============================= +#InvGFED_ACET ACET 111 -1 -1 2 kg/m2/s ACET_emission_flux_from_GFED_extension +#InvGFED_ACTA ACTA 111 -1 -1 2 kg/m2/s ACTA_emission_flux_from_GFED_extension +#InvGFED_ALD2 ALD2 111 -1 -1 2 kg/m2/s ALD2_emission_flux_from_GFED_extension +#InvGFED_ALK4 ALK4 111 -1 -1 2 kg/m2/s ALK4_emission_flux_from_GFED_extension +#InvGFED_BCPI BCPI 111 -1 -1 2 kg/m2/s BCPI_emission_flux_from_GFED_extension +#InvGFED_BCPO BCPO 111 -1 -1 2 kg/m2/s BCPO_emission_flux_from_GFED_extension +#InvGFED_BENZ BENZ 111 -1 -1 2 kg/m2/s BENZ_emission_flux_from_GFED_extension +#InvGFED_C2H6 C2H6 111 -1 -1 2 kg/m2/s C2H6_emission_flux_from_GFED_extension +#InvGFED_C3H8 C3H8 111 -1 -1 2 kg/m2/s C3H8_emission_flux_from_GFED_extension +#InvGFED_CH2O CH2O 111 -1 -1 2 kg/m2/s CH2O_emission_flux_from_GFED_extension +#InvGFED_CO CO 111 -1 -1 2 kg/m2/s CO_emission_flux_from_GFED_extension +#InvGFED_EOH EOH 111 -1 -1 2 kg/m2/s EOH_emission_flux_from_GFED_extension +#InvGFED_FURA FURA 111 -1 -1 2 kg/m2/s FURA_emission_flux_from_GFED_extension +#InvGFED_GLYX GLYX 111 -1 -1 2 kg/m2/s GLYX_emission_flux_from_GFED_extension +#InvGFED_ISOP ISOP 111 -1 -1 2 kg/m2/s ISOP_emission_flux_from_GFED_extension +#InvGFED_MEK MEK 111 -1 -1 2 kg/m2/s MEK_emission_flux_from_GFED_extension +#InvGFED_MGLY MGLY 111 -1 -1 2 kg/m2/s MGLY_emission_flux_from_GFED_extension +#InvGFED_MOH MOH 111 -1 -1 2 kg/m2/s MOH_emission_flux_from_GFED_extension +#InvGFED_MTPA MTP 111 -1 -1 2 kg/m2/s MTPA_emission_flux_from_GFED_extension +#InvGFED_MVK MVK 111 -1 -1 2 kg/m2/s MVK_emission_flux_from_GFED_extension +#InvGFED_NAP NAP 111 -1 -1 2 kg/m2/s NAP_emission_flux_from_GFED_extension +#InvGFED_NH3 NH3 111 -1 -1 2 kg/m2/s NH3_emission_flux_from_GFED_extension +#InvGFED_NO NO 111 -1 -1 2 kg/m2/s NO_emission_flux_from_GFED_extension +#InvGFED_OCPI OCPI 111 -1 -1 2 kg/m2/s OCPI_emission_flux_from_GFED_extension +#InvGFED_OCPO OCPO 111 -1 -1 2 kg/m2/s OCPO_emission_flux_from_GFED_extension +#InvGFED_PHEN PHEN 111 -1 -1 2 kg/m2/s PHEN_emission_flux_from_GFED_extension +#InvGFED_POG1 POG1 111 -1 -1 2 kg/m2/s POG1_emission_flux_from_GFED_extension +#InvGFED_POG2 POG2 111 -1 -1 2 kg/m2/s POG2_emission_flux_from_GFED_extension +#InvGFED_PRPE PRPE 111 -1 -1 2 kg/m2/s PRPE_emission_flux_from_GFED_extension +#InvGFED_RCHO RCHO 111 -1 -1 2 kg/m2/s RCHO_emission_flux_from_GFED_extension +#InvGFED_SO2 SO2 111 -1 -1 2 kg/m2/s SO2_emission_flux_from_GFED_extension +#InvGFED_SOAP SOAP 111 -1 -1 2 kg/m2/s SOAP_emission_flux_from_GFED_extension +#InvGFED_TOLU TOLU 111 -1 -1 2 kg/m2/s TOLU_emission_flux_from_GFED_extension +#InvGFED_XYLE ACET 111 -1 -1 2 kg/m2/s XYLE_emission_flux_from_GFED_extension + +#============================= +# Volcano extension +#============================= +#InvVOLCANOerupt_SO2 SO2 117 51 -1 3 kg/m2/s SO2_eruptive_emission_flux_from_Volcano_extension +#InvVOLCANOdegas_SO2 SO2 117 52 -1 3 kg/m2/s SO2_degassing_emission_flux_from_Volcano_extension + +#============================= +# INORG_IODINE Extension +#============================= +#InvIODINE_HOI HOI 120 -1 -1 2 kg/m2/s HOI_emission_flux_from_INORG_IODINE_extension +#InvIODINE_I2 I2 120 -1 -1 2 kg/m2/s I2_emission_flux_from_INORG_IODINE_extension + +#EOC diff --git a/.github/dev/config/HISTORY.rc b/.github/dev/config/HISTORY.rc new file mode 100644 index 0000000..8835b7d --- /dev/null +++ b/.github/dev/config/HISTORY.rc @@ -0,0 +1,1355 @@ +############################################################################### +### HISTORY.rc file for GEOS-Chem full chemistry simulations ### +### Contact: GEOS-Chem Support Team (geos-chem-support@g.harvard.edu) ### +############################################################################### + +#============================================================================ +# EXPID allows you to specify the beginning of the file path corresponding +# to each diagnostic collection. For example: +# +# EXPID: ./GEOSChem +# Will create netCDF files whose names begin "GEOSChem", +# in this run directory. +# +# EXPID: ./OutputDir/GEOSChem +# Will create netCDF files whose names begin with "GEOSChem" +# in the OutputDir sub-folder of this run directory. +# +#============================================================================ +EXPID: ./OutputDir/GEOSChem + +#============================================================================== +# %%%%% COLLECTION NAME DECLARATIONS %%%%% +# +# To enable a collection, remove the "#" character in front of its name. The +# Restart collection should always be turned on. +# +# NOTE: These are the "default" collections for GEOS-Chem, but you can create +# your own customized diagnostic collections as well. +#============================================================================== +COLLECTIONS: 'Restart', + 'Metrics', + 'SpeciesConc', + #'AdvFluxVert', + #'AerosolMass', + #'Aerosols', + ##'Budget', + ##'CloudConvFlux', + ##'ConcAboveSfc', + ##'ConcAfterChem', + ##'DryDep', + #'JValues', + ##'KppDiags', + ##'KppARDiags', + ##'LevelEdgeDiags', + ##'ProdLoss', + ##'RRTMG', + ##'RxnRates', + ##'RxnConst', + ##'SatDiagn', + ##'SatDiagnEdge', + ##'StateChm', + #'StateMet', + ##'StratBM', + ##'Tomas', + ##'UVFlux', + ##'WetLossConv', + ##'WetLossLS', + ##'BoundaryConditions', +:: +############################################################################### +### The rest of this file consists of collection definitions. ### +### Above collections whose declarations are commented out will be ignored. ### +### Make sure that each collection definition, as well as the list of ### +### collections above, ends with a double-colon ("::"). ### +############################################################################### + +#============================================================================== +# %%%%% THE Restart COLLECTION %%%%% +# +# GEOS-Chem restart file fields +# +# Available for all simulations +#============================================================================== + Restart.filename: './Restarts/GEOSChem.Restart.%y4%m2%d2_%h2%n2z.nc4', + Restart.frequency: ${RUNDIR_HIST_INST_FREQ} + Restart.duration: ${RUNDIR_HIST_INST_DUR} + Restart.mode: 'instantaneous' + Restart.fields: 'SpeciesRst_?ALL? ', + 'Chem_AeroH2OSNA ', + 'Chem_ORVCsesq ', + 'Chem_H2O2AfterChem ', + 'Chem_JOH ', + 'Chem_JNO2 ', + 'Chem_SO2AfterChem ', + 'Chem_DryDepNitrogen ', + 'Chem_WetDepNitrogen ', + 'Chem_KPPHvalue ', + 'Chem_StatePSC ', + 'Met_DELPDRY ', + 'Met_BXHEIGHT ', + 'Met_TropLev ', +:: +#============================================================================== +# %%%%% THE Metrics COLLECTION %%%%% +# +# Diagnostics for chemistry metrics such as global mean OH concentration, +# MCF lifetime, and CH4 lifetime. +# +# This diagnostic collection should always be left on. +# Use the run-directory script ./metrics_fullchem.py to print results. +# +# Available for full-chemistry and CH4 simulations only. +#============================================================================== + Metrics.template: '%y4%m2%d2_%h2%n2z.nc4', + Metrics.frequency: 'End', + Metrics.duration: 'End', + Metrics.mode: 'time-averaged' + Metrics.fields: 'AirMassColumnFull ', + 'LossOHbyCH4columnTrop ', + 'LossOHbyMCFcolumnTrop ', + 'OHwgtByAirMassColumnFull ', +:: +#============================================================================== +# %%%%% THE SpeciesConc COLLECTION %%%%% +# +# GEOS-Chem species concentrations (default = all species) +# +# Available for all simulations +# +# Concentrations may be saved out as SpeciesConcVV [v/v dry air] or +# SpeciesConcMND [molec/cm3] +#============================================================================== + SpeciesConc.template: '%y4%m2%d2_%h2%n2z.nc4', + SpeciesConc.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + SpeciesConc.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + SpeciesConc.mode: 'time-averaged' + SpeciesConc.fields: 'SpeciesConcVV_?ALL? ', + ##'SpeciesConcMND_?ALL? ', +:: +#============================================================================== +# %%%%% THE AdvFluxVert COLLECTION %%%%% +# +# GEOS-Chem vertical mass flux of species in kg/s (default = O3 only) +# +# Available for all simulations +#============================================================================== + AdvFluxVert.template: '%y4%m2%d2_%h2%n2z.nc4', + AdvFluxVert.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + AdvFluxVert.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + AdvFluxVert.mode: 'time-averaged' + AdvFluxVert.fields: 'AdvFluxVert_O3 ', +:: +#============================================================================== +# %%%%% THE AerosolMass COLLECTION %%%%% +# +# Aerosol and PM2.5 mass +# +# Available for full-chemistry and aerosol-only simulations +#============================================================================== + AerosolMass.template: '%y4%m2%d2_%h2%n2z.nc4', + AerosolMass.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + AerosolMass.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + AerosolMass.mode: 'time-averaged' + AerosolMass.fields: 'AerMassASOA ', + 'AerMassBC ', + 'AerMassHMS ', + 'AerMassINDIOL ', + 'AerMassLVOCOA ', + 'AerMassNH4 ', + 'AerMassNIT ', + 'AerMassOPOA ', + 'AerMassPOA ', + 'AerMassSAL ', + 'AerMassSO4 ', + 'AerMassSOAGX ', + 'AerMassSOAIE ', + 'AerMassTSOA ', + 'BetaNO ', + 'PM25 ', + 'PM10 ', + 'TotalBiogenicOA ', + 'TotalOA ', + 'TotalOC ', +:: +#============================================================================== +# %%%%% The Aerosols COLLECTION %%%%% +# +# Aerosol optical depth, surface area, number density, and hygroscopic growth +# +# Available for full-chemistry or aerosol-only simulations +#============================================================================== + Aerosols.template: '%y4%m2%d2_%h2%n2z.nc4', + Aerosols.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + Aerosols.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + Aerosols.mode: 'time-averaged' + Aerosols.fields: 'AODDust ', + 'AODDustWL1_?DUSTBIN? ', + 'AODHygWL1_?HYG? ', + 'AODSOAfromAqIsopreneWL1 ', + 'AODStratLiquidAerWL1 ', + 'AODPolarStratCloudWL1 ', + 'AerHygroscopicGrowth_?HYG? ', + 'AerNumDensityStratLiquid ', + 'AerNumDensityStratParticulate ', + 'AerAqueousVolume ', + 'AerSurfAreaDust ', + 'AerSurfAreaHyg_?HYG? ', + 'AerSurfAreaStratLiquid ', + 'AerSurfAreaPolarStratCloud ', + 'Chem_AeroAreaMDUST1 ', + 'Chem_AeroAreaMDUST2 ', + 'Chem_AeroAreaMDUST3 ', + 'Chem_AeroAreaMDUST4 ', + 'Chem_AeroAreaMDUST5 ', + 'Chem_AeroAreaMDUST6 ', + 'Chem_AeroAreaMDUST7 ', + 'Chem_AeroAreaSULF ', + 'Chem_AeroAreaBC ', + 'Chem_AeroAreaOC ', + 'Chem_AeroAreaSSA ', + 'Chem_AeroAreaSSC ', + #'Chem_AeroAreaBGSULF ', + #'Chem_AeroAreaICEI ', + 'Chem_AeroRadiMDUST1 ', + 'Chem_AeroRadiMDUST2 ', + 'Chem_AeroRadiMDUST3 ', + 'Chem_AeroRadiMDUST4 ', + 'Chem_AeroRadiMDUST5 ', + 'Chem_AeroRadiMDUST6 ', + 'Chem_AeroRadiMDUST7 ', + 'Chem_AeroRadiSULF ', + 'Chem_AeroRadiBC ', + 'Chem_AeroRadiOC ', + 'Chem_AeroRadiSSA ', + 'Chem_AeroRadiSSC ', + #'Chem_AeroRadiBGSULF ', + #'Chem_AeroRadiICEI ', + 'Chem_WetAeroAreaMDUST1 ', + 'Chem_WetAeroAreaMDUST2 ', + 'Chem_WetAeroAreaMDUST3 ', + 'Chem_WetAeroAreaMDUST4 ', + 'Chem_WetAeroAreaMDUST5 ', + 'Chem_WetAeroAreaMDUST6 ', + 'Chem_WetAeroAreaMDUST7 ', + 'Chem_WetAeroAreaSULF ', + 'Chem_WetAeroAreaBC ', + 'Chem_WetAeroAreaOC ', + 'Chem_WetAeroAreaSSA ', + 'Chem_WetAeroAreaSSC ', + #'Chem_WetAeroAreaBGSULF ', + #'Chem_WetAeroAreaICEI ', + 'Chem_WetAeroRadiMDUST1 ', + 'Chem_WetAeroRadiMDUST2 ', + 'Chem_WetAeroRadiMDUST3 ', + 'Chem_WetAeroRadiMDUST4 ', + 'Chem_WetAeroRadiMDUST5 ', + 'Chem_WetAeroRadiMDUST6 ', + 'Chem_WetAeroRadiMDUST7 ', + 'Chem_WetAeroRadiSULF ', + 'Chem_WetAeroRadiBC ', + 'Chem_WetAeroRadiOC ', + 'Chem_WetAeroRadiSSA ', + 'Chem_WetAeroRadiSSC ', + #'Chem_WetAeroRadiBGSULF ', + #'Chem_WetAeroRadiICEI ', + #'Chem_StatePSC ', + #'Chem_KhetiSLAN2O5H2O ', + #'Chem_KhetiSLAN2O5HCl ', + #'Chem_KhetiSLAClNO3H2O ', + #'Chem_KhetiSLAClNO3HCl ', + #'Chem_KhetiSLAClNO3HBr ', + #'Chem_KhetiSLABrNO3H2O ', + #'Chem_KhetiSLABrNO3HCl ', + #'Chem_KhetiSLAHOClHCl ', + #'Chem_KhetiSLAHOClHBr ', + #'Chem_KhetiSLAHOBrHCl ', + #'Chem_KhetiSLAHOBrHBr ', +:: +#============================================================================== +# %%%%% THE Budget COLLECTION %%%%% +# +# GEOS-Chem budget diagnostics defined as species kg/s in the column +# (full, troposphere, or PBL) due to a single component (e.g. chemistry) +# (default = advected species) +# +# Available for all simulations +#============================================================================== + Budget.template: '%y4%m2%d2_%h2%n2z.nc4', + Budget.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + Budget.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + Budget.mode: 'time-averaged' + Budget.fields: 'BudgetEmisDryDepFull_?ADV? ', + 'BudgetEmisDryDepTrop_?ADV? ', + 'BudgetEmisDryDepPBL_?ADV? ', + 'BudgetEmisDryDepLevs1to35_?ADV? ', + 'BudgetChemistryFull_?ADV? ', + 'BudgetChemistryTrop_?ADV? ', + 'BudgetChemistryPBL_?ADV? ', + 'BudgetChemistryLevs1to35_?ADV? ', + 'BudgetTransportFull_?ADV? ', + 'BudgetTransportTrop_?ADV? ', + 'BudgetTransportPBL_?ADV? ', + 'BudgetTransportLevs1to35_?ADV? ', + 'BudgetMixingFull_?ADV? ', + 'BudgetMixingTrop_?ADV? ', + 'BudgetMixingPBL_?ADV? ', + 'BudgetMixingLevs1to35_?ADV? ', + 'BudgetConvectionFull_?ADV? ', + 'BudgetConvectionTrop_?ADV? ', + 'BudgetConvectionPBL_?ADV? ', + 'BudgetConvectionLevs1to35_?ADV? ', + 'BudgetWetDepFull_?WET? ', + 'BudgetWetDepTrop_?WET? ', + 'BudgetWetDepPBL_?WET? ', + 'BudgetWetDepLevs1to35_?WET? ', +:: +#============================================================================== +# %%%%% THE CloudConvFlux COLLECTION %%%%% +# +# Cloud convective flux (default = advected species) +# +# Available for all simulations +#============================================================================== + CloudConvFlux.template: '%y4%m2%d2_%h2%n2z.nc4', + CloudConvFlux.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + CloudConvFlux.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + CloudConvFlux.mode: 'time-averaged' + CloudConvFlux.fields: 'CloudConvFlux_?ADV? ', +:: +#============================================================================== +# %%%%% THE ConcAboveSfc COLLECTION %%%%% +# +# Concentrations of O3 and HNO3 at a user-specified altitude above +# the surface, such as 10m. Set the desired output altitude in meters +# in the deposition settings in geoschem_config.yml. +# +# NOTES: +# (1) This collection requires dry deposition to be turned on. +# (2) All of the fields in the collection must be turned on. +# (3) This collection is best used with mode "instantaneous". +#============================================================================== + ConcAboveSfc.template: '%y4%m2%d2_%h2%n2z.nc4', + ConcAboveSfc.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + ConcAboveSfc.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ConcAboveSfc.mode: 'instantaneous' + ConcAboveSfc.fields: 'DryDepRaALT1 ', + 'DryDepVelForALT1_?DRYALT? ', + 'SpeciesConcALT1_?DRYALT? ', +:: +#============================================================================== +# %%%%% THE ConcAfterChem COLLECTION %%%%% +# +# Concentrations of OH, HO2, O1D, O3P immediately after exiting the KPP solver +# or OH after the CH4 specialty-simulation chemistry routine. +# +# OH: Available for all full-chemistry simulations and CH4 specialty sim +# HO2: Available for all full-chemistry simulations +# O1D, O3P: Availalbe for full-chemistry simulations using UCX mechanism +#============================================================================== + ConcAfterChem.template: '%y4%m2%d2_%h2%n2z.nc4', + ConcAfterChem.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + ConcAfterChem.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ConcAfterChem.mode: 'time-averaged' + ConcAfterChem.fields: 'OHconcAfterChem ', + 'HO2concAfterChem ', + 'O1DconcAfterChem ', + 'O3PconcAfterChem ', +:: +#============================================================================== +# %%%%% THE DryDep COLLECTION %%%%% +# +# Dry depositon fluxes and velocities (for all dry-depositing species) +# +# Available for all simuations that have dry-depositing species +#============================================================================== + DryDep.template: '%y4%m2%d2_%h2%n2z.nc4', + DryDep.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + DryDep.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + DryDep.mode: 'time-averaged' + DryDep.fields: 'DryDep_?DRY? ', + 'DryDepVel_?DRY? ', + ##'DryDepChm_?DRY? ', + ##'DryDepMix_?DRY? ', +:: +#============================================================================== +# %%%%% THE JValues COLLECTION %%%%% +# +# Photolysis rates (from the photolysis module) +# +# Available for all full-chemistry simulations with photolysis +#============================================================================== + JValues.template: '%y4%m2%d2_%h2%n2z.nc4', + JValues.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + JValues.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + JValues.mode: 'time-averaged' + JValues.fields: 'Jval_?PHO? ', + 'JvalO3O1D ', + 'JvalO3O3P ', +:: +#============================================================================== +# %%%%% THE UVFlux COLLECTION %%%%% +# +# UV fluxes (from the photolysis module) +# +# Available for all full-chemistry simulations with photolysis +#============================================================================== + UVFlux.template: 'UVFluxDiffuse_?UVFLX? ', + 'UVFluxDirect_?UVFLX? ', + 'UVFluxNet_?UVFLX? ', +:: +#============================================================================== +# %%%%% THE KppDiags COLLECTION %%%%% +# +# Diagnostics from the KPP solver. +# +# Available for full-chemistry simulations (all variations) +#============================================================================== + KppDiags.template: '%y4%m2%d2_%h2%n2z.nc4', + KppDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + KppDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + KppDiags.mode: 'time-averaged' + KppDiags.fields: 'KppIntCounts ', + 'KppJacCounts ', + 'KppTotSteps ', + 'KppAccSteps ', + 'KppRejSteps ', + 'KppLuDecomps ', + 'KppSubsts ', + 'KppSmDecomps ', + 'KppTime ', + #'KppNegatives ', + #'KppNegatives0 ', +:: +#============================================================================== +# %%%%% THE KppARDiags COLLECTION %%%%% +# +# Diagnostics from the KPP solver when auto-reduction solver is used. +# +# Available for full-chemistry simulations only if auto-reduce is enabled. +#============================================================================== + KppARDiags.template: '%y4%m2%d2_%h2%n2z.nc4', + KppARDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + KppARDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + KppARDiags.mode: 'time-averaged' + KppARDiags.fields: 'KppAutoReducerNVAR ', + 'KppAutoReduceThres ', + 'KppcNONZERO ', +:: +#============================================================================== +# %%%%% THE LevelEdgeDiags COLLECTION %%%%% +# +# Diagnostics that are defined on grid box level edges +# +# Available for all simulations +#============================================================================== + LevelEdgeDiags.template: '%y4%m2%d2_%h2%n2z.nc4', + LevelEdgeDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + LevelEdgeDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + LevelEdgeDiags.mode: 'time-averaged' + LevelEdgeDiags.fields: 'Met_CMFMC ', + 'Met_PEDGE ', + 'Met_PEDGEDRY ', + 'Met_PFICU ', + 'Met_PFILSAN ', + 'Met_PFLCU ', + 'Met_PFLLSAN ', +:: +#============================================================================== +# %%%%% THE ProdLoss COLLECTION %%%%% +# +# Chemical production and loss rates +# +# Available for full-chemistry, aerosol-only, tagO3, and tagCO simulations +#============================================================================== + ProdLoss.template: '%y4%m2%d2_%h2%n2z.nc4', + ProdLoss.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + ProdLoss.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ProdLoss.mode: 'time-averaged' + ProdLoss.fields: 'Prod_?PRD? ', + 'ProdBCPIfromBCPO ', + 'ProdOCPIfromOCPO ', + 'ProdHMSfromSO2andHCHOinCloud ', + 'ProdSO2andHCHOfromHMSinCloud ', + 'ProdSO4fromHMSinCloud ', + 'ProdSO4fromH2O2inCloud ', + 'ProdSO4fromO2inCloudMetal ', + 'ProdSO4fromO3inCloud ', + 'ProdSO4fromO3inSeaSalt ', + 'ProdSO4fromHOBrInCloud ', + 'ProdSO4fromSRO3 ', + 'ProdSO4fromSRHObr ', + 'ProdSO4fromO3s ', + 'Loss_?LOS? ', + 'LossHNO3onSeaSalt ', + 'ProdCOfromCH4 ', + 'ProdCOfromNMVOC ', +:: +#============================================================================== +# %%%%% THE RRTMG COLLECTION %%%%% +# +# Outputs for different species from the RRTMG radiative transfer model: +# (See http://wiki.geos-chem.org/Coupling_GEOS-Chem_with_RRTMG) +# +# 0=BA (Baseline ) 1=O3 (Ozone ) 2=ME (Methane ) +# 3=SU (Sulfate ) 4=NI (Nitrate ) 5=AM (Ammonium ) +# 6=BC (Black carbon) 7=OA (Organic aerosol) 8=SS (Sea Salt ) +# 9=DU (Mineral dust) 10=PM (All part. matter) 12=ST (Strat aer., UCX only) +# +# NOTES: +# (1) Only request diagnostics you need to reduce the overall run time. +# (2) The ?RRTMG? wildcard includes all output except ST (strat aerosols). +# However, if ST is included explicitly for one diagnostic then it +# will be included for all others that use the wildcard. +# (3) Only enable ST if running with UCX. +# (4) Optics diagnostics have a reduced set of output species (no BASE, O3, ME) +#============================================================================== + RRTMG.template: '%y4%m2%d2_%h2%n2z.nc4', + RRTMG.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + RRTMG.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RRTMG.mode: 'time-averaged' + RRTMG.fields: 'RadClrSkyLWSurf_BASE ', + 'RadClrSkyLWSurf_O3 ', + 'RadClrSkyLWSurf_ME ', + 'RadClrSkyLWSurf_SU ', + 'RadClrSkyLWSurf_NI ', + 'RadClrSkyLWSurf_AM ', + 'RadClrSkyLWSurf_BC ', + 'RadClrSkyLWSurf_OA ', + 'RadClrSkyLWSurf_SS ', + 'RadClrSkyLWSurf_DU ', + 'RadClrSkyLWSurf_PM ', + #'RadClrSkyLWSurf_ST ', + 'RadAllSkyLWSurf_?RRTMG?', + 'RadClrSkySWSurf_?RRTMG?', + 'RadAllSkySWSurf_?RRTMG?', + 'RadClrSkyLWTOA_?RRTMG? ', + 'RadAllSkyLWTOA_?RRTMG? ', + 'RadClrSkySWTOA_?RRTMG? ', + 'RadAllSkySWTOA_?RRTMG? ', + 'RadAODWL1_SU ', + 'RadAODWL1_NI ', + 'RadAODWL1_AM ', + 'RadAODWL1_BC ', + 'RadAODWL1_OA ', + 'RadAODWL1_SS ', + 'RadAODWL1_DU ', + 'RadAODWL1_PM ', + #'RadAODWL1_ST ', + 'RadSSAWL1_SU ', + 'RadSSAWL1_NI ', + 'RadSSAWL1_AM ', + 'RadSSAWL1_BC ', + 'RadSSAWL1_OA ', + 'RadSSAWL1_SS ', + 'RadSSAWL1_DU ', + 'RadSSAWL1_PM ', + #'RadSSAWL1_ST ', + 'RadAsymWL1_SU ', + 'RadAsymWL1_NI ', + 'RadAsymWL1_AM ', + 'RadAsymWL1_BC ', + 'RadAsymWL1_OA ', + 'RadAsymWL1_SS ', + 'RadAsymWL1_DU ', + 'RadAsymWL1_PM ', + #'RadAsymWL1_ST ', +:: +#============================================================================== +# %%%%% THE RxnRates COLLECTION %%%%% +# +# Archives chemical reaction rates from the KPP solver. +# It is best to list individual reactions to avoid using too much memory. +# Reactions should be listed as "RxnRate_EQnnn", where nnn is the reaction +# index as listed in KPP/fullchem/gckpp_Monitor.F90 (pad zeroes as needed). +# +# Available for the fullchem simulations. +#============================================================================== + RxnRates.template: '%y4%m2%d2_%h2%n2z.nc4', + RxnRates.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + RxnRates.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RxnRates.mode: 'time-averaged' + RxnRates.fields: 'RxnRate_EQ001 ', + 'RxnRate_EQ002 ', +:: +#============================================================================== +# %%%%% THE RxnConst COLLECTION %%%%% +# +# Archives chemical reaction rates constants from the KPP solver. +# It is best to list individual reactions to avoid using too much memory. +# Reactions should be listed as "RxnConst_EQnnn", where nnn is the reaction +# index as listed in KPP/fullchem/gckpp_Monitor.F90 (pad zeroes as needed). +# +# The units of reaction rate constants vary according to the number of reactants +# in the reaction. +# +# Available for the fullchem simulations. +#============================================================================== + RxnConst.template: '%y4%m2%d2_%h2%n2z.nc4', + RxnConst.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + RxnConst.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RxnConst.mode: 'time-averaged' + RxnConst.fields: 'RxnConst_EQ001 ', + 'RxnConst_EQ002 ', +:: +#============================================================================== +# %%%%% THE SatDiagn COLLECTION %%%%% +# +# GEOS-Chem data during satellite overpass +# +# Available for all simulations +#============================================================================== + SatDiagn.template: '%y4%m2%d2_%h2%n2z.nc4', + SatDiagn.format: 'CFIO', + SatDiagn.frequency: 00000001 000000 + SatDiagn.duration: 00000100 000000 + SatDiagn.hrrange: 11.98 15.02 + SatDiagn.mode: 'time-averaged' + SatDiagn.fields: 'SatDiagnConc_ISOP ', + 'SatDiagnConc_CH2O ', + 'SatDiagnConc_MVK ', + 'SatDiagnConc_MACR ', + 'SatDiagnConc_MOH ', + 'SatDiagnConc_CO ', + 'SatDiagnConc_NO ', + 'SatDiagnConc_NO2 ', + 'SatDiagnConc_NO3 ', + 'SatDiagnConc_O3 ', + 'SatDiagnConc_HO2 ', + 'SatDiagnOH ', + 'SatDiagnRH ', + 'SatDiagnAirDen ', + 'SatDiagnBoxHeight ', + 'SatDiagnPEdge ', + 'SatDiagnTROPP ', + 'SatDiagnPBLHeight ', + 'SatDiagnPBLTop ', + 'SatDiagnTAir ', + 'SatDiagnGWETROOT ', + 'SatDiagnGWETTOP ', + 'SatDiagnPARDR ', + 'SatDiagnPARDF ', + 'SatDiagnPRECTOT ', + 'SatDiagnSLP ', + 'SatDiagnSPHU ', + 'SatDiagnTS ', + 'SatDiagnPBLTOPL ', + 'SatDiagnMODISLAI ', + 'SatDiagnWetLossLS_CH2O ', + 'SatDiagnWetLossConv_CH2O ', + 'SatDiagnJval_CH2O ', + 'SatDiagnJval_NO2 ', + 'SatDiagnJval_NO3 ', + 'SatDiagnJval_O3 ', + 'SatDiagnJvalO3O1D ', + 'SatDiagnJvalO3O3P ', + 'SatDiagnDryDep_CH2O ', + 'SatDiagnDryDep_NO2 ', + 'SatDiagnDryDep_O3 ', + 'SatDiagnDryDepVel_CH2O ', + 'SatDiagnDryDepVel_NO2 ', + 'SatDiagnDryDepVel_O3 ', + 'SatDiagnOHreactivity ', + 'SatDiagnColEmis_ISOP ', + 'SatDiagnSurfFlux_ISOP ', + 'SatDiagnColEmis_CH2O ', + 'SatDiagnSurfFlux_CH2O ', + 'SatDiagnColEmis_NO ', + 'SatDiagnSurfFlux_NO ', + 'SatDiagnProd_?PRD? ', + 'SatDiagnLoss_?LOS? ', + 'SatDiagnRxnRate_EQ385 ', + 'SatDiagnRxnRate_EQ386 ', + 'SatDiagnRxnRate_EQ387 ', + 'SatDiagnRxnRate_EQ388 ', +:: +#============================================================================== +# %%%%% THE SatDiagnEdge COLLECTION %%%%% +# +# GEOS-Chem data (on level edges) during satellite overpass +# +# Available for all simulations +#============================================================================== + SatDiagnEdge.template: '%y4%m2%d2_%h2%n2z.nc4', + SatDiagnEdge.format: 'CFIO', + SatDiagnEdge.frequency: 00000001 000000 + SatDiagnEdge.duration: 00000100 000000 + SatDiagnEdge.hrrange: 11.98 15.02 + SatDiagnEdge.mode: 'time-averaged' + SatDiagnEdge.fields: 'SatDiagnConc_PEDGE ', +:: +#============================================================================== +# %%%%% THE StateChm COLLECTION %%%%% +# +# Fields of the State_Chm object (see also Aerosols collection) +# +# Available for full-chemistry and aerosols-only simulations +#============================================================================== + StateChm.template: '%y4%m2%d2_%h2%n2z.nc4', + StateChm.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + StateChm.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + StateChm.mode: 'time-averaged' + StateChm.fields: 'Chem_IsorropAeropHAccum ', + 'Chem_IsorropAeropHCoarse ', + 'Chem_IsorropHplusAccum ', + 'Chem_IsorropHplusCoarse ', + 'Chem_IsorropAeroH2OAccum ', + 'Chem_IsorropAeroH2OCoarse ', + 'Chem_IsorropSulfate ', + 'Chem_IsorropNitrateAccum ', + 'Chem_IsorropNitrateCoarse ', + 'Chem_IsorropChlorideAccum ', + 'Chem_IsorropChlorideCoarse ', + 'Chem_IsorropBisulfate ', + 'Chem_pHCloud ', + 'Chem_isCloud ', + 'Chem_SSAlkAccumMode ', + 'Chem_SSAlkCoarseMode ', + 'Chem_HSO3AQ ', + 'Chem_SO3AQ ', + 'Chem_fupdateHOBr ', + 'Chem_GammaN2O5overall ', + 'Chem_GammaN2O5fine ', + 'Chem_YieldClNO2fine ', +:: +#============================================================================== +# %%%%% The StateMet COLLECTION %%%%% +# +# Fields of the State_Met object (also see the LevelEdgeDiags collection) +# +# Available for all simulations +#============================================================================== + StateMet.template: '%y4%m2%d2_%h2%n2z.nc4', + StateMet.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + StateMet.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + StateMet.mode: 'time-averaged' + StateMet.fields: 'Met_AD ', + 'Met_AIRDEN ', + 'Met_AIRVOL ', + 'Met_ALBD ', + 'Met_AVGW ', + 'Met_BXHEIGHT ', + 'Met_ChemGridLev ', + 'Met_CLDF ', + 'Met_CLDFRC ', + 'Met_CLDTOPS ', + 'Met_CONVDEPTH ', + 'Met_DELP ', + 'Met_DELPDRY ', + 'Met_DQRCU ', + 'Met_DQRLSAN ', + 'Met_DTRAIN ', + 'Met_EFLUX ', + 'Met_FLASHDENS ', + 'Met_FRCLND ', + 'Met_FRLAKE ', + 'Met_FRLAND ', + 'Met_FRLANDIC ', + 'Met_FROCEAN ', + 'Met_FRSEAICE ', + 'Met_FRSNO ', + 'Met_GWETROOT ', + 'Met_GWETTOP ', + 'Met_HFLUX ', + 'Met_LAI ', + 'Met_PARDR ', + 'Met_PARDF ', + 'Met_PBLTOPL ', + 'Met_PBLH ', + 'Met_PHIS ', + 'Met_PMID ', + 'Met_PMIDDRY ', + 'Met_PRECANV ', + 'Met_PRECCON ', + 'Met_PRECLSC ', + 'Met_PRECTOT ', + 'Met_PS1DRY ', + 'Met_PS1WET ', + 'Met_PS2DRY ', + 'Met_PS2WET ', + 'Met_PSC2WET ', + 'Met_PSC2DRY ', + 'Met_QI ', + 'Met_QL ', + 'Met_OMEGA ', + 'Met_OPTD ', + 'Met_REEVAPCN ', + 'Met_REEVAPLS ', + 'Met_SLP ', + 'Met_SNODP ', + 'Met_SNOMAS ', + 'Met_SPHU ', + 'Met_SPHU1 ', + 'Met_SPHU2 ', + 'Met_SUNCOS ', + 'Met_SUNCOSmid ', + 'Met_SWGDN ', + 'Met_T ', + 'Met_TAUCLI ', + 'Met_TAUCLW ', + 'Met_THETA ', + 'Met_TMPU1 ', + 'Met_TMPU2 ', + 'Met_TO3 ', + 'Met_TropHt ', + 'Met_TropLev ', + 'Met_TropP ', + 'Met_TS ', + 'Met_TSKIN ', + 'Met_TV ', + 'Met_U ', + 'Met_U10M ', + 'Met_USTAR ', + 'Met_UVALBEDO ', + 'Met_V ', + 'Met_V10M ', + 'Met_Z0 ', + 'FracOfTimeInTrop ', +:: +#============================================================================== +# %%%%% THE StratBM COLLECTION %%%%% +# +# Fields needed for GEOS-Chem 10-year stratospheric benchmarks +# +# Available for full-chemistry simulations +#============================================================================== + StratBM.template: '%y4%m2%d2_%h2%n2z.nc4', + StratBM.frequency: 00000000 010000 + StratBM.duration: 00000001 000000 + StratBM.mode: 'time-averaged' + StratBM.fields: 'SpeciesConcVV_NO2 ', + 'SpeciesConcVV_O3 ', + 'SpeciesConcVV_ClO ', + 'Met_PSC2WET ', + 'Met_BXHEIGHT ', + 'Met_AIRDEN ', + 'Met_AD ', +:: +#============================================================================== +# %%%%% THE Tomas Microphysics Rate COLLECTION %%%%% +# +# Tomas microphysics rates +# +# Available for full-chemistry and aerosol-only simulations +#============================================================================== + Tomas.template: '%y4%m2%d2_%h2%n2z.nc4', + Tomas.format: 'CFIO', + Tomas.timestampStart: .true. + Tomas.monthly: 0 + Tomas.frequency: 010000 + Tomas.duration: 010000 + Tomas.mode: 'time-averaged' + Tomas.fields: 'TomasH2SO4 ', + 'TomasH2SO4mass_bin01 ', + 'TomasH2SO4mass_bin02 ', + 'TomasH2SO4mass_bin03 ', + 'TomasH2SO4mass_bin04 ', + 'TomasH2SO4mass_bin05 ', + 'TomasH2SO4mass_bin06 ', + 'TomasH2SO4mass_bin07 ', + 'TomasH2SO4mass_bin08 ', + 'TomasH2SO4mass_bin09 ', + 'TomasH2SO4mass_bin10 ', + 'TomasH2SO4mass_bin11 ', + 'TomasH2SO4mass_bin12 ', + 'TomasH2SO4mass_bin13 ', + 'TomasH2SO4mass_bin14 ', + 'TomasH2SO4mass_bin15 ', + 'TomasH2SO4number_bin01 ', + 'TomasH2SO4number_bin02 ', + 'TomasH2SO4number_bin03 ', + 'TomasH2SO4number_bin04 ', + 'TomasH2SO4number_bin05 ', + 'TomasH2SO4number_bin06 ', + 'TomasH2SO4number_bin07 ', + 'TomasH2SO4number_bin08 ', + 'TomasH2SO4number_bin09 ', + 'TomasH2SO4number_bin10 ', + 'TomasH2SO4number_bin11 ', + 'TomasH2SO4number_bin12 ', + 'TomasH2SO4number_bin13 ', + 'TomasH2SO4number_bin14 ', + 'TomasH2SO4number_bin15 ', + 'TomasCOAG ', + 'TomasCOAGmass_bin01 ', + 'TomasCOAGmass_bin02 ', + 'TomasCOAGmass_bin03 ', + 'TomasCOAGmass_bin04 ', + 'TomasCOAGmass_bin05 ', + 'TomasCOAGmass_bin06 ', + 'TomasCOAGmass_bin07 ', + 'TomasCOAGmass_bin08 ', + 'TomasCOAGmass_bin09 ', + 'TomasCOAGmass_bin10 ', + 'TomasCOAGmass_bin11 ', + 'TomasCOAGmass_bin12 ', + 'TomasCOAGmass_bin13 ', + 'TomasCOAGmass_bin14 ', + 'TomasCOAGmass_bin15 ', + 'TomasCOAGnumber_bin01 ', + 'TomasCOAGnumber_bin02 ', + 'TomasCOAGnumber_bin03 ', + 'TomasCOAGnumber_bin04 ', + 'TomasCOAGnumber_bin05 ', + 'TomasCOAGnumber_bin06 ', + 'TomasCOAGnumber_bin07 ', + 'TomasCOAGnumber_bin08 ', + 'TomasCOAGnumber_bin09 ', + 'TomasCOAGnumber_bin10 ', + 'TomasCOAGnumber_bin11 ', + 'TomasCOAGnumber_bin12 ', + 'TomasCOAGnumber_bin13 ', + 'TomasCOAGnumber_bin14 ', + 'TomasCOAGnumber_bin15 ', + 'TomasNUCL ', + 'TomasNUCRATEFN ', + 'TomasNUCLmass_bin01 ', + 'TomasNUCLmass_bin02 ', + 'TomasNUCLmass_bin03 ', + 'TomasNUCLmass_bin04 ', + 'TomasNUCLmass_bin05 ', + 'TomasNUCLmass_bin06 ', + 'TomasNUCLmass_bin07 ', + 'TomasNUCLmass_bin08 ', + 'TomasNUCLmass_bin09 ', + 'TomasNUCLmass_bin10 ', + 'TomasNUCLmass_bin11 ', + 'TomasNUCLmass_bin12 ', + 'TomasNUCLmass_bin13 ', + 'TomasNUCLmass_bin14 ', + 'TomasNUCLmass_bin15 ', + 'TomasNUCLnumber_bin01 ', + 'TomasNUCLnumber_bin02 ', + 'TomasNUCLnumber_bin03 ', + 'TomasNUCLnumber_bin04 ', + 'TomasNUCLnumber_bin05 ', + 'TomasNUCLnumber_bin06 ', + 'TomasNUCLnumber_bin07 ', + 'TomasNUCLnumber_bin08 ', + 'TomasNUCLnumber_bin09 ', + 'TomasNUCLnumber_bin10 ', + 'TomasNUCLnumber_bin11 ', + 'TomasNUCLnumber_bin12 ', + 'TomasNUCLnumber_bin13 ', + 'TomasNUCLnumber_bin14 ', + 'TomasNUCLnumber_bin15 ', + 'TomasNUCRATEnumber_bin01 ', + 'TomasNUCRATEnumber_bin02 ', + 'TomasNUCRATEnumber_bin03 ', + 'TomasNUCRATEnumber_bin04 ', + 'TomasNUCRATEnumber_bin05 ', + 'TomasNUCRATEnumber_bin06 ', + 'TomasNUCRATEnumber_bin07 ', + 'TomasNUCRATEnumber_bin08 ', + 'TomasNUCRATEnumber_bin09 ', + 'TomasNUCRATEnumber_bin10 ', + 'TomasNUCRATEnumber_bin11 ', + 'TomasNUCRATEnumber_bin12 ', + 'TomasNUCRATEnumber_bin13 ', + 'TomasNUCRATEnumber_bin14 ', + 'TomasNUCRATEnumber_bin15 ', + 'TomasAQOX ', + 'TomasAQOXmass_bin01 ', + 'TomasAQOXmass_bin02 ', + 'TomasAQOXmass_bin03 ', + 'TomasAQOXmass_bin04 ', + 'TomasAQOXmass_bin05 ', + 'TomasAQOXmass_bin06 ', + 'TomasAQOXmass_bin07 ', + 'TomasAQOXmass_bin08 ', + 'TomasAQOXmass_bin09 ', + 'TomasAQOXmass_bin10 ', + 'TomasAQOXmass_bin11 ', + 'TomasAQOXmass_bin12 ', + 'TomasAQOXmass_bin13 ', + 'TomasAQOXmass_bin14 ', + 'TomasAQOXmass_bin15 ', + 'TomasAQOXnumber_bin01 ', + 'TomasAQOXnumber_bin02 ', + 'TomasAQOXnumber_bin03 ', + 'TomasAQOXnumber_bin04 ', + 'TomasAQOXnumber_bin05 ', + 'TomasAQOXnumber_bin06 ', + 'TomasAQOXnumber_bin07 ', + 'TomasAQOXnumber_bin08 ', + 'TomasAQOXnumber_bin09 ', + 'TomasAQOXnumber_bin10 ', + 'TomasAQOXnumber_bin11 ', + 'TomasAQOXnumber_bin12 ', + 'TomasAQOXnumber_bin13 ', + 'TomasAQOXnumber_bin14 ', + 'TomasAQOXnumber_bin15 ', + 'TomasMNFIX ', + 'TomasMNFIXmass_bin01 ', + 'TomasMNFIXmass_bin02 ', + 'TomasMNFIXmass_bin03 ', + 'TomasMNFIXmass_bin04 ', + 'TomasMNFIXmass_bin05 ', + 'TomasMNFIXmass_bin06 ', + 'TomasMNFIXmass_bin07 ', + 'TomasMNFIXmass_bin08 ', + 'TomasMNFIXmass_bin09 ', + 'TomasMNFIXmass_bin10 ', + 'TomasMNFIXmass_bin11 ', + 'TomasMNFIXmass_bin12 ', + 'TomasMNFIXmass_bin13 ', + 'TomasMNFIXmass_bin14 ', + 'TomasMNFIXmass_bin15 ', + 'TomasMNFIXnumber_bin01 ', + 'TomasMNFIXnumber_bin02 ', + 'TomasMNFIXnumber_bin03 ', + 'TomasMNFIXnumber_bin04 ', + 'TomasMNFIXnumber_bin05 ', + 'TomasMNFIXnumber_bin06 ', + 'TomasMNFIXnumber_bin07 ', + 'TomasMNFIXnumber_bin08 ', + 'TomasMNFIXnumber_bin09 ', + 'TomasMNFIXnumber_bin10 ', + 'TomasMNFIXnumber_bin11 ', + 'TomasMNFIXnumber_bin12 ', + 'TomasMNFIXnumber_bin13 ', + 'TomasMNFIXnumber_bin14 ', + 'TomasMNFIXnumber_bin15 ', + 'TomasMNFIXh2so4mass_bin01 ', + 'TomasMNFIXh2so4mass_bin02 ', + 'TomasMNFIXh2so4mass_bin03 ', + 'TomasMNFIXh2so4mass_bin04 ', + 'TomasMNFIXh2so4mass_bin05 ', + 'TomasMNFIXh2so4mass_bin06 ', + 'TomasMNFIXh2so4mass_bin07 ', + 'TomasMNFIXh2so4mass_bin08 ', + 'TomasMNFIXh2so4mass_bin09 ', + 'TomasMNFIXh2so4mass_bin10 ', + 'TomasMNFIXh2so4mass_bin11 ', + 'TomasMNFIXh2so4mass_bin12 ', + 'TomasMNFIXh2so4mass_bin13 ', + 'TomasMNFIXh2so4mass_bin14 ', + 'TomasMNFIXh2so4mass_bin15 ', + 'TomasMNFIXh2so4number_bin01 ', + 'TomasMNFIXh2so4number_bin02 ', + 'TomasMNFIXh2so4number_bin03 ', + 'TomasMNFIXh2so4number_bin04 ', + 'TomasMNFIXh2so4number_bin05 ', + 'TomasMNFIXh2so4number_bin06 ', + 'TomasMNFIXh2so4number_bin07 ', + 'TomasMNFIXh2so4number_bin08 ', + 'TomasMNFIXh2so4number_bin09 ', + 'TomasMNFIXh2so4number_bin10 ', + 'TomasMNFIXh2so4number_bin11 ', + 'TomasMNFIXh2so4number_bin12 ', + 'TomasMNFIXh2so4number_bin13 ', + 'TomasMNFIXh2so4number_bin14 ', + 'TomasMNFIXh2so4number_bin15 ', + 'TomasMNFIXcoagmass_bin01 ', + 'TomasMNFIXcoagmass_bin02 ', + 'TomasMNFIXcoagmass_bin03 ', + 'TomasMNFIXcoagmass_bin04 ', + 'TomasMNFIXcoagmass_bin05 ', + 'TomasMNFIXcoagmass_bin06 ', + 'TomasMNFIXcoagmass_bin07 ', + 'TomasMNFIXcoagmass_bin08 ', + 'TomasMNFIXcoagmass_bin09 ', + 'TomasMNFIXcoagmass_bin10 ', + 'TomasMNFIXcoagmass_bin11 ', + 'TomasMNFIXcoagmass_bin12 ', + 'TomasMNFIXcoagmass_bin13 ', + 'TomasMNFIXcoagmass_bin14 ', + 'TomasMNFIXcoagmass_bin15 ', + 'TomasMNFIXcoagnumber_bin01 ', + 'TomasMNFIXcoagnumber_bin02 ', + 'TomasMNFIXcoagnumber_bin03 ', + 'TomasMNFIXcoagnumber_bin04 ', + 'TomasMNFIXcoagnumber_bin05 ', + 'TomasMNFIXcoagnumber_bin06 ', + 'TomasMNFIXcoagnumber_bin07 ', + 'TomasMNFIXcoagnumber_bin08 ', + 'TomasMNFIXcoagnumber_bin09 ', + 'TomasMNFIXcoagnumber_bin10 ', + 'TomasMNFIXcoagnumber_bin11 ', + 'TomasMNFIXcoagnumber_bin12 ', + 'TomasMNFIXcoagnumber_bin13 ', + 'TomasMNFIXcoagnumber_bin14 ', + 'TomasMNFIXcoagnumber_bin15 ', + 'TomasMNFIXaqoxmass_bin01 ', + 'TomasMNFIXaqoxmass_bin02 ', + 'TomasMNFIXaqoxmass_bin03 ', + 'TomasMNFIXaqoxmass_bin04 ', + 'TomasMNFIXaqoxmass_bin05 ', + 'TomasMNFIXaqoxmass_bin06 ', + 'TomasMNFIXaqoxmass_bin07 ', + 'TomasMNFIXaqoxmass_bin08 ', + 'TomasMNFIXaqoxmass_bin09 ', + 'TomasMNFIXaqoxmass_bin10 ', + 'TomasMNFIXaqoxmass_bin11 ', + 'TomasMNFIXaqoxmass_bin12 ', + 'TomasMNFIXaqoxmass_bin13 ', + 'TomasMNFIXaqoxmass_bin14 ', + 'TomasMNFIXaqoxmass_bin15 ', + 'TomasMNFIXaqoxnumber_bin01 ', + 'TomasMNFIXaqoxnumber_bin02 ', + 'TomasMNFIXaqoxnumber_bin03 ', + 'TomasMNFIXaqoxnumber_bin04 ', + 'TomasMNFIXaqoxnumber_bin05 ', + 'TomasMNFIXaqoxnumber_bin06 ', + 'TomasMNFIXaqoxnumber_bin07 ', + 'TomasMNFIXaqoxnumber_bin08 ', + 'TomasMNFIXaqoxnumber_bin09 ', + 'TomasMNFIXaqoxnumber_bin10 ', + 'TomasMNFIXaqoxnumber_bin11 ', + 'TomasMNFIXaqoxnumber_bin12 ', + 'TomasMNFIXaqoxnumber_bin13 ', + 'TomasMNFIXaqoxnumber_bin14 ', + 'TomasMNFIXaqoxnumber_bin15 ', + 'TomasMNFIXezwat1mass_bin01 ', + 'TomasMNFIXezwat1mass_bin02 ', + 'TomasMNFIXezwat1mass_bin03 ', + 'TomasMNFIXezwat1mass_bin04 ', + 'TomasMNFIXezwat1mass_bin05 ', + 'TomasMNFIXezwat1mass_bin06 ', + 'TomasMNFIXezwat1mass_bin07 ', + 'TomasMNFIXezwat1mass_bin08 ', + 'TomasMNFIXezwat1mass_bin09 ', + 'TomasMNFIXezwat1mass_bin10 ', + 'TomasMNFIXezwat1mass_bin11 ', + 'TomasMNFIXezwat1mass_bin12 ', + 'TomasMNFIXezwat1mass_bin13 ', + 'TomasMNFIXezwat1mass_bin14 ', + 'TomasMNFIXezwat1mass_bin15 ', + 'TomasMNFIXezwat1number_bin01 ', + 'TomasMNFIXezwat1number_bin02 ', + 'TomasMNFIXezwat1number_bin03 ', + 'TomasMNFIXezwat1number_bin04 ', + 'TomasMNFIXezwat1number_bin05 ', + 'TomasMNFIXezwat1number_bin06 ', + 'TomasMNFIXezwat1number_bin07 ', + 'TomasMNFIXezwat1number_bin08 ', + 'TomasMNFIXezwat1number_bin09 ', + 'TomasMNFIXezwat1number_bin10 ', + 'TomasMNFIXezwat1number_bin11 ', + 'TomasMNFIXezwat1number_bin12 ', + 'TomasMNFIXezwat1number_bin13 ', + 'TomasMNFIXezwat1number_bin14 ', + 'TomasMNFIXezwat1number_bin15 ', + 'TomasMNFIXezwat2mass_bin01 ', + 'TomasMNFIXezwat2mass_bin02 ', + 'TomasMNFIXezwat2mass_bin03 ', + 'TomasMNFIXezwat2mass_bin04 ', + 'TomasMNFIXezwat2mass_bin05 ', + 'TomasMNFIXezwat2mass_bin06 ', + 'TomasMNFIXezwat2mass_bin07 ', + 'TomasMNFIXezwat2mass_bin08 ', + 'TomasMNFIXezwat2mass_bin09 ', + 'TomasMNFIXezwat2mass_bin10 ', + 'TomasMNFIXezwat2mass_bin11 ', + 'TomasMNFIXezwat2mass_bin12 ', + 'TomasMNFIXezwat2mass_bin13 ', + 'TomasMNFIXezwat2mass_bin14 ', + 'TomasMNFIXezwat2mass_bin15 ', + 'TomasMNFIXezwat2number_bin01 ', + 'TomasMNFIXezwat2number_bin02 ', + 'TomasMNFIXezwat2number_bin03 ', + 'TomasMNFIXezwat2number_bin04 ', + 'TomasMNFIXezwat2number_bin05 ', + 'TomasMNFIXezwat2number_bin06 ', + 'TomasMNFIXezwat2number_bin07 ', + 'TomasMNFIXezwat2number_bin08 ', + 'TomasMNFIXezwat2number_bin09 ', + 'TomasMNFIXezwat2number_bin10 ', + 'TomasMNFIXezwat2number_bin11 ', + 'TomasMNFIXezwat2number_bin12 ', + 'TomasMNFIXezwat2number_bin13 ', + 'TomasMNFIXezwat2number_bin14 ', + 'TomasMNFIXezwat2number_bin15 ', + 'TomasMNFIXezwat3mass_bin01 ', + 'TomasMNFIXezwat3mass_bin02 ', + 'TomasMNFIXezwat3mass_bin03 ', + 'TomasMNFIXezwat3mass_bin04 ', + 'TomasMNFIXezwat3mass_bin05 ', + 'TomasMNFIXezwat3mass_bin06 ', + 'TomasMNFIXezwat3mass_bin07 ', + 'TomasMNFIXezwat3mass_bin08 ', + 'TomasMNFIXezwat3mass_bin09 ', + 'TomasMNFIXezwat3mass_bin10 ', + 'TomasMNFIXezwat3mass_bin11 ', + 'TomasMNFIXezwat3mass_bin12 ', + 'TomasMNFIXezwat3mass_bin13 ', + 'TomasMNFIXezwat3mass_bin14 ', + 'TomasMNFIXezwat3mass_bin15 ', + 'TomasMNFIXezwat3number_bin01 ', + 'TomasMNFIXezwat3number_bin02 ', + 'TomasMNFIXezwat3number_bin03 ', + 'TomasMNFIXezwat3number_bin04 ', + 'TomasMNFIXezwat3number_bin05 ', + 'TomasMNFIXezwat3number_bin06 ', + 'TomasMNFIXezwat3number_bin07 ', + 'TomasMNFIXezwat3number_bin08 ', + 'TomasMNFIXezwat3number_bin09 ', + 'TomasMNFIXezwat3number_bin10 ', + 'TomasMNFIXezwat3number_bin11 ', + 'TomasMNFIXezwat3number_bin12 ', + 'TomasMNFIXezwat3number_bin13 ', + 'TomasMNFIXezwat3number_bin14 ', + 'TomasMNFIXezwat3number_bin15 ', + 'TomasMNFIXcheck1mass_bin01 ', + 'TomasMNFIXcheck1mass_bin02 ', + 'TomasMNFIXcheck1mass_bin03 ', + 'TomasMNFIXcheck1mass_bin04 ', + 'TomasMNFIXcheck1mass_bin05 ', + 'TomasMNFIXcheck1mass_bin06 ', + 'TomasMNFIXcheck1mass_bin07 ', + 'TomasMNFIXcheck1mass_bin08 ', + 'TomasMNFIXcheck1mass_bin09 ', + 'TomasMNFIXcheck1mass_bin10 ', + 'TomasMNFIXcheck1mass_bin11 ', + 'TomasMNFIXcheck1mass_bin12 ', + 'TomasMNFIXcheck1mass_bin13 ', + 'TomasMNFIXcheck1mass_bin14 ', + 'TomasMNFIXcheck1mass_bin15 ', + 'TomasMNFIXcheck1number_bin01 ', + 'TomasMNFIXcheck1number_bin02 ', + 'TomasMNFIXcheck1number_bin03 ', + 'TomasMNFIXcheck1number_bin04 ', + 'TomasMNFIXcheck1number_bin05 ', + 'TomasMNFIXcheck1number_bin06 ', + 'TomasMNFIXcheck1number_bin07 ', + 'TomasMNFIXcheck1number_bin08 ', + 'TomasMNFIXcheck1number_bin09 ', + 'TomasMNFIXcheck1number_bin10 ', + 'TomasMNFIXcheck1number_bin11 ', + 'TomasMNFIXcheck1number_bin12 ', + 'TomasMNFIXcheck1number_bin13 ', + 'TomasMNFIXcheck1number_bin14 ', + 'TomasMNFIXcheck1number_bin15 ', + 'TomasMNFIXcheck2mass_bin01 ', + 'TomasMNFIXcheck2mass_bin02 ', + 'TomasMNFIXcheck2mass_bin03 ', + 'TomasMNFIXcheck2mass_bin04 ', + 'TomasMNFIXcheck2mass_bin05 ', + 'TomasMNFIXcheck2mass_bin06 ', + 'TomasMNFIXcheck2mass_bin07 ', + 'TomasMNFIXcheck2mass_bin08 ', + 'TomasMNFIXcheck2mass_bin09 ', + 'TomasMNFIXcheck2mass_bin10 ', + 'TomasMNFIXcheck2mass_bin11 ', + 'TomasMNFIXcheck2mass_bin12 ', + 'TomasMNFIXcheck2mass_bin13 ', + 'TomasMNFIXcheck2mass_bin14 ', + 'TomasMNFIXcheck2mass_bin15 ', + 'TomasMNFIXcheck2number_bin01 ', + 'TomasMNFIXcheck2number_bin02 ', + 'TomasMNFIXcheck2number_bin03 ', + 'TomasMNFIXcheck2number_bin04 ', + 'TomasMNFIXcheck2number_bin05 ', + 'TomasMNFIXcheck2number_bin06 ', + 'TomasMNFIXcheck2number_bin07 ', + 'TomasMNFIXcheck2number_bin08 ', + 'TomasMNFIXcheck2number_bin09 ', + 'TomasMNFIXcheck2number_bin10 ', + 'TomasMNFIXcheck2number_bin11 ', + 'TomasMNFIXcheck2number_bin12 ', + 'TomasMNFIXcheck2number_bin13 ', + 'TomasMNFIXcheck2number_bin14 ', + 'TomasMNFIXcheck2number_bin15 ', + 'TomasMNFIXcheck3mass_bin01 ', + 'TomasMNFIXcheck3mass_bin02 ', + 'TomasMNFIXcheck3mass_bin03 ', + 'TomasMNFIXcheck3mass_bin04 ', + 'TomasMNFIXcheck3mass_bin05 ', + 'TomasMNFIXcheck3mass_bin06 ', + 'TomasMNFIXcheck3mass_bin07 ', + 'TomasMNFIXcheck3mass_bin08 ', + 'TomasMNFIXcheck3mass_bin09 ', + 'TomasMNFIXcheck3mass_bin10 ', + 'TomasMNFIXcheck3mass_bin11 ', + 'TomasMNFIXcheck3mass_bin12 ', + 'TomasMNFIXcheck3mass_bin13 ', + 'TomasMNFIXcheck3mass_bin14 ', + 'TomasMNFIXcheck3mass_bin15 ', + 'TomasMNFIXcheck3number_bin01 ', + 'TomasMNFIXcheck3number_bin02 ', + 'TomasMNFIXcheck3number_bin03 ', + 'TomasMNFIXcheck3number_bin04 ', + 'TomasMNFIXcheck3number_bin05 ', + 'TomasMNFIXcheck3number_bin06 ', + 'TomasMNFIXcheck3number_bin07 ', + 'TomasMNFIXcheck3number_bin08 ', + 'TomasMNFIXcheck3number_bin09 ', + 'TomasMNFIXcheck3number_bin10 ', + 'TomasMNFIXcheck3number_bin11 ', + 'TomasMNFIXcheck3number_bin12 ', + 'TomasMNFIXcheck3number_bin13 ', + 'TomasMNFIXcheck3number_bin14 ', + 'TomasMNFIXcheck3number_bin15 ', + 'TomasSOA ', + 'TomasSOAmass_bin01 ', + 'TomasSOAmass_bin02 ', + 'TomasSOAmass_bin03 ', + 'TomasSOAmass_bin04 ', + 'TomasSOAmass_bin05 ', + 'TomasSOAmass_bin06 ', + 'TomasSOAmass_bin07 ', + 'TomasSOAmass_bin08 ', + 'TomasSOAmass_bin09 ', + 'TomasSOAmass_bin10 ', + 'TomasSOAmass_bin11 ', + 'TomasSOAmass_bin12 ', + 'TomasSOAmass_bin13 ', + 'TomasSOAmass_bin14 ', + 'TomasSOAmass_bin15 ', + 'TomasSOAnumber_bin01 ', + 'TomasSOAnumber_bin02 ', + 'TomasSOAnumber_bin03 ', + 'TomasSOAnumber_bin04 ', + 'TomasSOAnumber_bin05 ', + 'TomasSOAnumber_bin06 ', + 'TomasSOAnumber_bin07 ', + 'TomasSOAnumber_bin08 ', + 'TomasSOAnumber_bin09 ', + 'TomasSOAnumber_bin10 ', + 'TomasSOAnumber_bin11 ', + 'TomasSOAnumber_bin12 ', + 'TomasSOAnumber_bin13 ', + 'TomasSOAnumber_bin14 ', + 'TomasSOAnumber_bin15 ', +:: +#============================================================================== +# %%%%% THE WetLossConv COLLECTION %%%%% +# +# Loss of soluble species in convective updrafts +# +# Available for all simulations that have soluble species +#============================================================================== + WetLossConv.template: '%y4%m2%d2_%h2%n2z.nc4', + WetLossConv.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + WetLossConv.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + WetLossConv.mode: 'time-averaged' + WetLossConv.fields: 'WetLossConv_?WET? ', + 'WetLossConvFrac_?WET? ', +:: +#============================================================================== +# %%%%% THE WetLossLS COLLECTION %%%%% +# +# Loss of soluble species in large-scale wetdep (i.e. rainout and washout) +# +# Available for all simulations that have soluble species +#============================================================================== +# Loss due to rainout and washout (per deposited species) + WetLossLS.template: '%y4%m2%d2_%h2%n2z.nc4', + WetLossLS.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} + WetLossLS.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + WetLossLS.mode: 'time-averaged' + WetLossLS.fields: 'WetLossLS_?WET? ', +:: +#============================================================================== +# %%%%% THE BoundaryConditions COLLECTION %%%%% +# +# GEOS-Chem boundary conditions for use in nested grid simulations +# +# Available for all simulations +#============================================================================== + BoundaryConditions.template: '%y4%m2%d2_%h2%n2z.nc4', + BoundaryConditions.frequency: 00000000 030000 + BoundaryConditions.duration: 00000001 000000 + BoundaryConditions.mode: 'instantaneous' + BoundaryConditions.fields: 'SpeciesBC_?ADV? ', +:: diff --git a/.github/dev/config/geoschem_config.yml b/.github/dev/config/geoschem_config.yml new file mode 100644 index 0000000..c9cab55 --- /dev/null +++ b/.github/dev/config/geoschem_config.yml @@ -0,0 +1,462 @@ +--- +### geoschem_config.yml: GEOS-Chem Runtime configuration options. +### Customized for simulations using the KPP "fullchem" mechanism. +### +### NOTE: Add quotes around nitrogen oxide ('NO'), because YAML +### parsers will confuse this with a negative "no" value. + +#============================================================================ +# Simulation settings +#============================================================================ +simulation: + name: fullchem + start_date: [20190701, 000000] + end_date: [20190801, 000000] + root_data_dir: /home/joe/data/gcclassic/ExtData + met_field: MERRA2 + species_database_file: ./species_database.yml + species_metadata_output_file: OutputDir/geoschem_species_metadata.yml + verbose: + activate: false + on_cores: root # Allowed values: root all + use_gcclassic_timers: false + +#============================================================================ +# Grid settings +#============================================================================ +grid: + resolution: 4.0x5.0 + number_of_levels: 72 + longitude: + range: [-180.0, 180.0] + center_at_180: true + latitude: + range: [-90.0, 90.0] + half_size_polar_boxes: true + nested_grid_simulation: + activate: false + buffer_zone_NSEW: [0, 0, 0, 0] + +#============================================================================ +# Timesteps settings +#============================================================================ +timesteps: + transport_timestep_in_s: 600 + chemistry_timestep_in_s: 1200 + radiation_timestep_in_s: 10800 + +#============================================================================ +# Settings for GEOS-Chem operations +#============================================================================ +operations: + + chemistry: + activate: true + linear_chemistry_aloft: + activate: true + use_linoz_for_O3: true + active_strat_H2O: + activate: true + use_static_bnd_cond: true + gamma_HO2: 0.2 + autoreduce_solver: + activate: false + use_target_threshold: + activate: true + oh_tuning_factor: 0.00005 + no2_tuning_factor: 0.0001 + use_absolute_threshold: + scale_by_pressure: true + absolute_threshold: 100.0 + keep_halogens_active: false + append_in_internal_timestep: false + + convection: + activate: true + + dry_deposition: + activate: true + CO2_effect: + activate: false + CO2_level: 600.0 + reference_CO2_level: 380.0 + diag_alt_above_sfc_in_m: 10 + + pbl_mixing: + activate: true + use_non_local_pbl: true + + photolysis: + activate: true + input_directories: + fastjx_input_dir: /home/joe/data/gcclassic/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ + cloudj_input_dir: /home/joe/data/gcclassic/ExtData/CHEM_INPUTS/CLOUD_J/v2023-05/ + overhead_O3: + use_online_O3_from_model: true + use_column_O3_from_met: true + use_TOMS_SBUV_O3: false + photolyze_nitrate_aerosol: + activate: true + NITs_Jscale_JHNO3: 100.0 + NIT_Jscale_JHNO2: 100.0 + percent_channel_A_HONO: 66.667 + percent_channel_B_NO2: 33.333 + + rrtmg_rad_transfer_model: + activate: false + aod_wavelengths_in_nm: + - 550 + longwave_fluxes: false + shortwave_fluxes: false + clear_sky_flux: false + all_sky_flux: false + fixed_dyn_heating: false + seasonal_fdh: false + read_dyn_heating: false + co2_ppmv: 390.0 + + transport: + gcclassic_tpcore: # GEOS-Chem Classic only + activate: true # GEOS-Chem Classic only + fill_negative_values: true # GEOS-Chem Classic only + iord_jord_kord: [3, 3, 7] # GEOS-Chem Classic only + transported_species: + - ACET + - ACTA + - AERI + - ALD2 + - ALK4 + - AONITA + - AROMP4 + - AROMP5 + - ATOOH + - BALD + - BCPI + - BCPO + - BENZ + - BENZP + - Br + - Br2 + - BrCl + - BrNO2 + - BrNO3 + - BrO + - BrSALA + - BrSALC + - BUTDI + - BZCO3H + - BZPAN + - C2H2 + - C2H4 + - C2H6 + - C3H8 + - CCl4 + - CFC11 + - CFC113 + - CFC114 + - CFC115 + - CFC12 + - CH2Br2 + - CH2Cl2 + - CH2I2 + - CH2IBr + - CH2ICl + - CH2O + - CH3Br + - CH3CCl3 + - CH3Cl + - CH3I + - CH4 + - CHBr3 + - CHCl3 + - Cl + - Cl2 + - Cl2O2 + - ClNO2 + - ClNO3 + - ClO + - ClOO + - CLOCK + - CO + - CSL + - DMS + - DST1 + - DST2 + - DST3 + - DST4 + - EOH + - ETHLN + - ETHN + - ETHP + - ETNO3 + - ETP + - FURA + - GLYC + - GLYX + - H1211 + - H1301 + - H2402 + - H2O + - H2O2 + - HAC + - HBr + - HC5A + - HCFC123 + - HCFC141b + - HCFC142b + - HCFC22 + - HCl + - HCOOH + - HI + - HMHP + - HMML + - HMS + - HNO2 + - HNO3 + - HNO4 + - HOBr + - HOCl + - HOI + - HONIT + - HPALD1 + - HPALD2 + - HPALD3 + - HPALD4 + - HPETHNL + - I + - I2 + - I2O2 + - I2O3 + - I2O4 + - IBr + - ICHE + - ICl + - ICN + - ICPDH + - IDC + - IDCHP + - IDHDP + - IDHPE + - IDN + - IEPOXA + - IEPOXB + - IEPOXD + - IHN1 + - IHN2 + - IHN3 + - IHN4 + - INDIOL + - INO + - INPB + - INPD + - IO + - IONITA + - IONO + - IONO2 + - IPRNO3 + - ISALA + - ISALC + - ISOP + - ITCN + - ITHN + - LIMO + - LVOC + - LVOCOA + - MACR + - MACR1OOH + - MAP + - MCRDH + - MCRENOL + - MCRHN + - MCRHNB + - MCRHP + - MCT + - MEK + - MENO3 + - MGLY + - MOH + - MONITA + - MONITS + - MONITU + - MP + - MPAN + - MPN + - MSA + - MTPA + - MTPO + - MVK + - MVKDH + - MVKHC + - MVKHCB + - MVKHP + - MVKN + - MVKPC + - N2O + - N2O5 + - NH3 + - NH4 + - NIT + - NITs + - 'NO' + - NO2 + - NO3 + - NPHEN + - NPRNO3 + - O3 + - OClO + - OCPI + - OCPO + - OCS + - OIO + - PAN + - pFe + - PHEN + - PIP + - PP + - PPN + - PROPNN + - PRPE + - PRPN + - PYAC + - R4N2 + - R4P + - RA3P + - RB3P + - RCHO + - RIPA + - RIPB + - RIPC + - RIPD + - RP + - SALA + - SALAAL + - SALACL + - SALC + - SALCAL + - SALCCL + - SO2 + - SO4 + - SO4s + - SOAGX + - SOAIE + - SOAP + - SOAS + - TOLU + - XYLE + + wet_deposition: + activate: true + +#============================================================================ +# Settings for GEOS-Chem aerosols +#============================================================================ +aerosols: + + carbon: + activate: true + brown_carbon: false + enhance_black_carbon_absorption: + activate: true + hydrophilic: 1.5 + hydrophobic: 1.0 + + complex_SOA: + activate: false + semivolatile_POA: false + + dust: + activate: true + acid_uptake_on_dust: false + + sea_salt: + activate: true + SALA_radius_bin_in_um: [0.01, 0.5] + SALC_radius_bin_in_um: [0.5, 8.0] + marine_organic_aerosols: false + + stratosphere: + settle_strat_aerosol: true + polar_strat_clouds: + activate: true + het_chem: true + allow_homogeneous_NAT: false + NAT_supercooling_req_in_K: 3.0 + supersat_factor_req_for_ice_nucl: 1.2 + calc_strat_aod: true + + sulfate: + activate: true + metal_cat_SO2_oxidation: true + +#============================================================================ +# Settings for diagnostics (other than HISTORY and HEMCO) +#============================================================================ +extra_diagnostics: + + obspack: + activate: false + quiet_logfile_output: false + input_file: ./obspack_co2_1_OCO2MIP_2018-11-28.YYYYMMDD.nc + output_file: ./OutputDir/GEOSChem.ObsPack.YYYYMMDD_hhmmz.nc4 + output_species: + - CO + - 'NO' + - O3 + + planeflight: + activate: false + flight_track_file: Planeflight.dat.YYYYMMDD + output_file: plane.log.YYYYMMDD + + legacy_bpch: # 1 2 3 + output_menu: # 1234567890123456789012345678901 + schedule_output_for_JAN: 3000000000000000000000000000000 + schedule_output_for_FEB: 30000000000000000000000000000 + schedule_output_for_MAR: 3000000000000000000000000000000 + schedule_output_for_APR: 300000000000000000000000000000 + schedule_output_for_MAY: 3000000000000000000000000000000 + schedule_output_for_JUN: 300000000000000000000000000000 + schedule_output_for_JUL: 3000000000000000000000000000000 + schedule_output_for_AUG: 3000000000000000000000000000000 + schedule_output_for_SEP: 300000000000000000000000000000 + schedule_output_for_OCT: 3000000000000000000000000000000 + schedule_output_for_NOV: 300000000000000000000000000000 + schedule_output_for_DEC: 3000000000000000000000000000000 + + gamap: + diaginfo_dat_file: ./diaginfo.dat + tracerinfo_dat_file: ./tracerinfo.dat + + bpch_diagnostics: + TOMAS_aerosol_emissions: "0 all" + TOMAS_rate: "0 all" + TOMAS_3D_rate: "0 all" + ND65_prodloss: + activate: true + number_of_levels: 72 + + ND51_satellite: + activate: false + output_file: ts_satellite.YYYYMMDD.bpch + tracers: + - 1 + - 2 + - 501 + UTC_hour_for_write: 0 + averaging_period_in_LT: [9, 11] + IMIN_and_IMAX_of_region: [1, 72] + JMIN_and_JMAX_of_region: [1, 46] + LMIN_and_LMAX_of_region: [1, 1] + + ND51b_satellite: + activate: false + output_file: ts_13_15_NA..YYYYMMDD.bpch + tracers: + - 1 + - 2 + - 501 + UTC_hour_for_write: 1 + averaging_period_in_LT: [13, 15] + IMIN_and_IMAX_of_region: [1, 72] + JMIN_and_JMAX_of_region: [1, 46] + LMIN_and_LMAX_of_region: [1, 1] diff --git a/.github/dev/config/species_database.yml b/.github/dev/config/species_database.yml new file mode 100644 index 0000000..7788822 --- /dev/null +++ b/.github/dev/config/species_database.yml @@ -0,0 +1,4708 @@ +# GEOS-Chem Species Database +# Core species only (neglecting microphysics) +# NOTE: Anchors must be defined before any variables that reference them. +A3O2: + Formula: CH3CH2CH2OO + FullName: Primary peroxy radical from C3H8 + Is_Gas: true + MW_g: 75.10 +ACET: + DD_F0: 1.0 + DD_Hstar: 1.0e+5 + Formula: CH3C(O)CH3 + FullName: Acetone + Henry_CR: 5500.0 + Henry_K0: 2.74e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 58.09 +ACTA: + DD_F0: 1.0 + DD_Hstar: 4.1e+3 + Formula: CH3C(O)OH + FullName: Acetic acid + Henry_CR: 6200.0 + Henry_K0: 4.05e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 60.06 + WD_RetFactor: 2.0e-2 +AERI: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: I + FullName: Iodine on aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 126.90 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +DST1_PROP: &DST1properties + DD_DustDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2500.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 7.3e-7 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 1.0, 1.0] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [1.0, 0.1, 0.0] +DST2_PROP: &DST2properties + DD_DustDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2650.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 1.4e-6 + WD_AerScavEff: 1.0 + WD_CoarseAer: true + WD_KcScaleFac: [1.0, 1.0, 1.0] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [1.0, 0.1, 0.0] +DST3_PROP: &DST3properties + DD_DustDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2650.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 2.4e-6 + WD_AerScavEff: 1.0 + WD_CoarseAer: true + WD_KcScaleFac: [1.0, 1.0, 1.0] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [1.0, 0.1, 0.0] +DST4_PROP: &DST4properties + DD_DustDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2650.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 4.5e-6 + WD_AerScavEff: 1.0 + WD_CoarseAer: true + WD_KcScaleFac: [1.0, 1.0, 1.0] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [1.0, 0.1, 0.0] +AlF1: + << : *DST1properties + Formula: Al + Fullname: Aluminium on dust Reff = 0.7 microns + MW_g: 26.98 + WD_CoarseAer: true +AlF2: + << : *DST2properties + Formula: Al + Fullname: Aluminium on dust, Reff = 1.4 microns + MW_g: 26.98 +ALD2: + DD_F0: 1.0 + DD_Hstar: 1.1e+1 + Formula: CH3CHO + FullName: Acetaldehyde + Henry_CR: 5900.0 + Henry_K0: 1.32e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 44.06 + WD_RetFactor: 2.0e-2 +ALK4: + FullName: Lumped >= C4 Alkanes + Is_Advected: true + Is_Gas: true + MW_g: 58.12 +aoa_PROP: &aoaproperties + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Snk_Mode: constant + Snk_Value: 0 + Src_Add: true + Src_Horiz: all + Src_Mode: constant + Src_Units: timestep + Src_Value: 1 + Src_Vert: all + Units: days +aoa: + << : *aoaproperties + FullName: Age of air uniform source tracer + Snk_Horiz: all + Snk_Vert: surface +aoa_bl: + << : *aoaproperties + FullName: Age of air uniform source tracer with sink restricted to the boundary layer + Snk_Horiz: all + Snk_Vert: boundary_layer +aoa_nh: + << : *aoaproperties + FullName: Age of air uniform source tracer with surface sink restricted to a zone in the northern hemisphere + Snk_Horiz: lat_zone + Snk_Lats: [30.0, 50.0] + Snk_Vert: surface +AONITA: + DD_F0: 1.0 + DD_Hstar: 2.9e+3 + Formula: C6H6O6N + FullName: Aerosol-phase organonitrates from aromatics + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Henry_CR: 6800.0 + Henry_K0: 2.9e+3 + MW_g: 189.12 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RetFactor: 2.0e-2 +AROMP4: + DD_F0: 1.0 + DD_Hstar: 4.1e+5 + Formula: C4H4O2 + FullName: Generic C4 product of aromatics + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 68.08 + Henry_CR: 7500.0 + Henry_K0: 4.1e+5 + WD_RetFactor: 2.0e-2 +AROMP5: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H6O2 + FullName: C5 unsaturated dicarbonyl + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 98.10 + Henry_CR: 7500.0 + Henry_K0: 2.0e+6 + WD_RetFactor: 2.0e-2 +AROMRO2: + Formula: C6H7O3 + FullName: hydroxy-peroxy radical from aromatics + Is_Gas: true + MW_g: 127.00 +AsF1: + << : *DST1properties + Formula: As + Fullname: Arsenic on dust Reff = 0.7 microns + MW_g: 74.92 + WD_CoarseAer: true +AsF2: + << : *DST2properties + Formula: As + Fullname: Arsenic on dust, Reff = 1.4 microns + MW_g: 74.92 +ASOA_PROP: &ASOAproperties + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Lumped non-volatile aerosol products of light aromatics + IVOCs + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 150.00 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +ASOA1: + << : *ASOAproperties +ASOA2: + << : *ASOAproperties +ASOA3: + << : *ASOAproperties +ASOAN: + << : *ASOAproperties +ASOG_PROP: &ASOGproperties + DD_F0: 0.0 + DD_Hstar: 1.0e+5 + FullName: Lumped non-volatile gas products of light aromatics + IVOCs + Henry_CR: 6039.0 + Henry_K0: 1.0e+5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 150.00 + WD_RetFactor: 2.0e-2 +ASOG1: + << : *ASOGproperties +ASOG2: + << : *ASOGproperties +ASOG3: + << : *ASOGproperties +ATO2: + Formula: CH3C(O)CH2O2 + FullName: Peroxy radical from acetone + Is_Gas: true + MW_g: 89.08 +ATOOH: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3C(O)CH2OOH + FullName: ATO2 peroxide + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 90.09 + WD_RetFactor: 2.0e-2 +B3O2: + Formula: CH3CH(OO)CH3 + FullName: B3O2 + Is_Gas: true + MW_g: 75.10 +BALD: + DD_F0: 1.0 + DD_Hstar: 3.8e+1 + Formula: C7H6O + FullName: Benzaldehyde + Henry_CR: 5500.0 + Henry_K0: 3.8e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 106.12 + WD_RetFactor: 2.0e-2 +BCPI: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1800.0 + Formula: C + FullName: Hydrophilic black carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_HygroGrowth: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 0.5] +BCPO: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1800.0 + Formula: C + FullName: Hydrophobic black carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 1.0, 0.5] + WD_KcScaleFac_Luo: [1.0, 1.0, 0.0] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [0.5, 0.05, 0.0] +Be_PROP: &Beproperties + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_RadioNuclide: true + Is_Tracer: true + Is_WetDep: true +# Comment out tracer-specific code for now and use RnPbBe_mod.F90 +# Snk_Horiz: all +# Snk_Mode: halflife +# Snk_Vert: all +# Src_Add: true +# Src_Mode: HEMCO + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +Be10: + << : *Beproperties + Formula: Be10 + FullName: Beryllium-10 isotope + MW_g: 10.0 +# Snk_Period: 5.84e8 +# Src_Vert: all +Be10s: + << : *Beproperties + Formula: Be10 + FullName: Beryllium-10 isotope stratospheric-source tracer + MW_g: 10.0 +# Snk_Period: 5.84e8 +# Src_Vert: stratosphere +Be7: + << : *Beproperties + Formula: Be7 + FullName: Beryllium-7 isotope + MW_g: 7.0 +# Snk_Period: 53.3 +# Src_Vert: all +Be7s: + << : *Beproperties + Formula: Be7 + FullName: Beryllium-7 isotope stratospheric-source tracer + MW_g: 7.0 +# Snk_Period: 53.3 +# Src_Vert: stratosphere +BENZ: + Formula: C6H6 + FullName: Benzene + Is_Advected: true + Is_Gas: true + MW_g: 78.12 +BENZO: + Formula: C6H5O + FullName: alkoxy radical from aromatics + Is_Gas: true + MW_g: 93.00 +BENZO2: + Formula: C6H5O2 + FullName: peroxy radical from aromatics + Is_Gas: true + MW_g: 109.00 +BENZP: + DD_F0: 1.0 + DD_Hstar: 2.9e+3 + Formula: C6H6O2 + FullName: Phenyl hydroperoxide + Henry_CR: 6800.0 + Henry_K0: 2.9e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 110.11 + WD_RetFactor: 2.0e-2 +Br: + Formula: Br + FullName: Atomic bromine + Is_Advected: true + Is_Gas: true + MW_g: 79.90 +Br2: + DD_F0: 0.0 + DD_Hstar: 7.6e-1 + Formula: Br2 + FullName: Molecular Bromine + Henry_CR: 3720.0 + Henry_K0: 7.6e-1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 159.80 + WD_RetFactor: 0.0 +BrCl: + DD_F0: 0.0 + DD_Hstar: 9.7e-1 + Henry_CR: 5600.0 + Henry_K0: 9.7e-1 + Formula: BrCl + FullName: Bromine chloride + Is_Advected: true + Is_Gas: true + Is_DryDep: true + Is_WetDep: true + WD_RetFactor: 0.0 + Is_Photolysis: true + MW_g: 115.45 +BrNO2: + Formula: BrNO2 + FullName: Nitryl bromide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 125.91 +BrNO3: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: BrNO3 + FullName: Bromine nitrate + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 141.91 +BrO: + Formula: BrO + FullName: Bromine monoxide + Is_Advected: true + Is_Gas: true + Is_DryAlt: true + Is_Photolysis: true + MW_g: 95.90 +BRO2: + Formula: C6H7O5 + FullName: Peroxy radical from BENZ oxidation + Is_Gas: true + MW_g: 159.13 +SALA_PROP: &SALAproperties + DD_AeroDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2200.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 2.55e-7 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +BrSALA: + << : *SALAproperties + Formula: Br + FullName: Fine sea salt bromine + Is_HygroGrowth: false + MW_g: 79.90 +BUTDI: + Formula: C4H4O2 + FullName: Butenedial + Is_Advected: true + Is_Gas: true + MW_g: 84.07 +BZCO3: + Formula: C7H5O3 + FullName: Acyl peroxy radical from benzaldehyde + Is_Gas: true + MW_g: 137.00 +BZCO3H: + DD_F0: 1.0 + DD_Hstar: 2.4e+4 + Formula: C6H5CO3H + FullName: Perbenzoic acid + Henry_CR: 0.0 + Henry_K0: 2.4e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 138.12 + WD_RetFactor: 2.0e-2 +BZPAN: + DD_F0: 1.0 + DD_Hstar: 7.0e+1 + Formula: C7H5O5N + FullName: Peroxybenzoylnitrate + Henry_CR: 4600.0 + Henry_K0: 7.0e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 183.12 + WD_RetFactor: 2.0e-2 +SALC_PROP: &SALCproperties + DD_AeroDryDep: true + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 2200.0 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + Radius: 4.25e-6 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +BrSALC: + << : *SALCproperties + Formula: Br + FullName: Coarse sea salt bromine + Is_HygroGrowth: false + MW_g: 79.90 + WD_CoarseAer: true +C: + Formula: C + FullName: Atomic carbon + MW_g: 12.01 +C2H2: + Formula: C2H2 + FullName: Acetylene (aka Ethyne) + Is_Advected: true + Is_Gas: true + MW_g: 26.05 +C2H4: + Formula: C2H4 + FullName: Ethylene + Is_Advected: true + Is_Gas: true + MW_g: 28.05 +C2H6: + Formula: C2H6 + FullName: Ethane + Henry_CR: 2400.0 + Henry_K0: 1.93e-3 + Is_Advected: true + Is_Gas: true + MW_g: 30.08 +C3H8: + Formula: C3H8 + FullName: Propane + Henry_CR: 2400.0 + Henry_K0: 1.52e-3 + Is_Advected: true + Is_Gas: true + MW_g: 44.11 +C4HVP1: + Formula: C4H7O3 + FullName: C4 hydroxy-vinyl peroxy radicals from HPALDS + Is_Gas: true + MW_g: 103.11 +C4HVP2: + Formula: C4H7O3 + FullName: C4 hydroxy-vinyl peroxy radicals from HPALDS + Is_Gas: true + MW_g: 103.11 +CaF1: + << : *DST1properties + Formula: Ca + Fullname: Calcium on dust Reff = 0.7 microns + MW_g: 40.08 + WD_CoarseAer: true +CaF2: + << : *DST2properties + Formula: Ca + Fullname: Calcium on dust, Reff = 1.4 microns + MW_g: 40.08 +CaC3: + << : *DST3properties + Formula: Ca + Fullname: Calcium on dust, Reff = 2.4 microns + MW_g: 40.08 +CaC4: + << : *DST4properties + Formula: Ca + Fullname: Calcium on dust, Reff = 4.5 microns + MW_g: 40.08 +CCl4: + Formula: CCl4 + FullName: Carbon tetrachloride + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 153.82 +CdF1: + << : *DST1properties + Formula: Cd + Fullname: Cadmium on dust Reff = 0.7 microns + MW_g: 112.41 + WD_CoarseAer: true +CdF2: + << : *DST2properties + Formula: Cd + Fullname: Cadmium on dust, Reff = 1.4 microns + MW_g: 112.41 +CFC11: + Formula: CCl3F + FullName: CFC-11 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 137.37 +CFC113: + Formula: C2Cl3F3 + FullName: CFC-113 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 187.38 +CFC114: + Formula: C2Cl2F4 + FullName: CFC-114 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 170.92 +CFC115: + Formula: C2ClF5 + FullName: CFC-115 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 154.47 +CFC12: + Formula: CCl2F2 + FullName: CFC-12 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 120.91 +CH2Br2: + Formula: CH2Br2 + FullName: Dibromomethane + Henry_CR: 5000.0 + Henry_K0: 1.22 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 173.83 +CH2Cl2: + Formula: CH2Cl2 + FullName: Dichloromethane + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 84.93 +CH2I2: + Formula: CH2I2 + FullName: Diiodomethane + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 267.84 +CH2IBr: + Formula: CH2IBr + FullName: Bromoiodomethane + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 220.84 +CH2ICl: + Formula: CH2ICl + FullName: Chloroiodomethane + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 176.38 +CH2O: + Background_VV: 4.0e-15 + DD_F0: 1.0 + DD_Hstar: 3.0e+3 + Formula: CH2O + FullName: Formaldehyde + Henry_CR: 6800.0 + Henry_K0: 3.24e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 30.03 + WD_RetFactor: 2.0e-2 +CH2OO: + Formula: CH2OO + FullName: Criegee intermediate + Is_Gas: true + MW_g: 46.03 +CH3Br: + Formula: CH3Br + FullName: Methyl bromide + Henry_CR: 2800.0 + Henry_K0: 1.32e-1 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 94.94 +CH3CCl3: + Formula: CH3CCl3 + FullName: Methyl chloroform + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 133.35 +CH3CHOO: + Formula: CH3CHOO + FullName: Criegee intermediate + Is_Gas: true + MW_g: 60.06 +CH3Cl: + Formula: CH3Cl + FullName: Chloromethane + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 50.45 +CH3I: + Background_VV: 1.0e-20 + Formula: CH3I + FullName: Methyl iodide + Henry_CR: 3.6e+3 + Henry_K0: 0.20265 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_Tracer: true + Snk_Horiz: all + Snk_Mode: efolding + Snk_Period: 5 + Snk_Vert: all + Src_Add: true + Src_Mode: HEMCO + MW_g: 141.94 +CH4_PROP: &CH4properties + Formula: CH4 + Is_Advected: true + Is_Gas: true + MW_g: 16.04 +CH4: + << : *CH4properties + Background_VV: 1.8e-6 + FullName: Methane +CH4_BBN: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from biomass burning emissions +CH4_COL: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from coal emissions +CH4_GAS: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from gas emissions +CH4_LAK: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from lake emissions +CH4_LDF: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from landfill emissions +CH4_LIV: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from livestock emissions +CH4_OIL: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from oil emissions +CH4_OTA: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from other anthropogenic emissions +CH4_RES: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from hydroelectric reservoir emissions +CH4_RIC: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from rice emissions +CH4_SAB: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from soil absorption +CH4_SEE: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from geological seep emissions +CH4_TER: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from termite emissions +CH4_WST: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from waste emissions +CH4_WTL: + << : *CH4properties + Background_VV: 1.0e-20 + FullName: Methane from wetland emissions +CHBr3: + Formula: CHBr3 + FullName: Bromoform + Henry_CR: 5200.0 + Henry_K0: 1.72 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 252.73 +CHCl3: + Formula: CHCl3 + FullName: Chloroform + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 119.35 +Cl: + Formula: Cl + FullName: Atomic chlorine + Is_Advected: true + Is_Gas: true + MW_g: 35.45 +Cl2: + DD_F0: 0.0 + DD_Hstar: 9.2e-2 + Formula: Cl2 + FullName: Molecular chlorine + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_DryDep: true + Henry_K0: 9.2e-2 + Henry_CR: 2000.0 + MW_g: 70.90 +Cl2O2: + Formula: Cl2O2 + FullName: Dichlorine dioxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 102.91 +ClNO2: + DD_F0: 0.0 + DD_Hstar: 4.5e-2 + Formula: ClNO2 + FullName: Nitryl chloride + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_DryDep: true + MW_g: 81.45 +ClNO3: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: ClNO3 + FullName: Chlorine nitrate + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Henry_K0: 1.0e+20 + Henry_CR: 0.0 + WD_RetFactor: 1.0 + MW_g: 97.45 +ClO: + DD_F0: 0.0 + DD_Hstar: 7.0e-1 + Formula: ClO + FullName: Chlorine monoxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_DryDep: true + MW_g: 51.45 +ClOO: + DD_F0: 0.0 + DD_Hstar: 1.0 + Formula: ClOO + FullName: Chlorine dioxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_DryDep: true + Henry_K0: 1.0 + Henry_CR: 3500.0 + MW_g: 67.45 +CLOCK: + Background_VV: 0.0 + FullName: Clock tracer for diagnosing age of air + Is_Advected: true + Is_Gas: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g +CO2_PROP: &CO2properties + Formula: CO2 + Is_Gas: true + MW_g: 44.01 +CO2: + << : *CO2properties + Background_VV: 3.55e-4 + FullName: Carbon dioxide +CO2av: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from aviation emissions +CO2bal: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from balanced biosphere +CO2bb: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from biomass burning emissions +CO2bf: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from biofuel emissions +CO2ch: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from chemical sources +CO2corr: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide chemical source surface correction +CO2ff: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from fossil fuel emissions +CO2nte: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from net terrestrial exchange +CO2oc: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from ocean emissions +CO2se: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide from ship emissions +CO2fromOH: + << : *CO2properties + Background_VV: 1.0e-20 + FullName: Carbon dioxide loss by OH (carbon mechanism) +CO_PROP: &COproperties + Formula: CO + Is_Advected: true + Is_Gas: true + MW_g: 28.01 +CO: + << : *COproperties + FullName: Carbon monoxide + Background_VV: 1.0e-7 +COacet: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from acetone oxidation +CO_25: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic CO 25 day tracer + Is_Tracer: true + Snk_Horiz: all + Snk_Mode: efolding + Snk_Period: 25 + Snk_Vert: all + Src_Add: true + Src_Mode: HEMCO +CO_50: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic CO 50 day tracer + Is_Tracer: true + Snk_Horiz: all + Snk_Mode: efolding + Snk_Period: 50 + Snk_Vert: all + Src_Add: true + Src_Mode: HEMCO +COasia: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic + biofuel CO emitted over Asia +CObbaf: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted over Africa +CObbam: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted over South America +CObbas: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted over Asia +CObbeu: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted over Europe +CObboc: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted over Oceania +CObboth: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Biomass burning CO emitted everywhere else +CObiof: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from biofuels (whole world) +COch4: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from methane oxidation +COeur: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic + biofuel CO emitted over Europe +COisop: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from isoprene oxidation +COmeoh: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from methanol oxidation +COmono: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from monoterpene oxidation +COnmvoc: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from NMVOC oxidation +COoth: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic + biofuel CO emitted everywhere else +COUniformEmis25dayTracer: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO_with_uniform_emission_and_25day_lifetime +COus: + << : *COproperties + Background_VV: 1.0e-20 + FullName: Anthropogenic + biofuel CO emitted over the USA +COfromCH4: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from methane oxidation (carbon mechanism) +COfromNMVOC: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from non-methane VOCs oxidation (carbon mechanism) +CSL: + DD_F0: 1.0 + DD_Hstar: 4.2e+2 + Formula: C7H8O + FullName: Cresols + Henry_CR: 8500.0 + Henry_K0: 4.2e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 108.14 + WD_RetFactor: 2.0e-2 +DMS: + Formula: (CH3)2S + FullName: Dimethyl sulfide + Henry_CR: 3100.0 + Henry_K0: 0.48 + Is_Advected: true + Is_Aerosol: true + MW_g: 62.13 +DST1: + << : *DST1properties + FullName: Dust aerosol, Reff = 0.7 microns + MW_g: 29.0 +DST2: + << : *DST2properties + FullName: Dust aerosol, Reff = 1.4 microns + MW_g: 29.0 +DST3: + << : *DST3properties + FullName: Dust aerosol, Reff = 2.4 microns + MW_g: 29.0 +DST4: + << : *DST4properties + FullName: Dust aerosol, Reff = 4.5 microns + MW_g: 29.0 +DSTAL1: + << : *DST1properties + FullName: Dust alkalinity, Reff = 0.7 microns + MW_g: 29.0 +DSTAL2: + << : *DST2properties + FullName: Dust alkalinity, Reff = 1.4 microns + MW_g: 29.0 +DSTAL3: + << : *DST3properties + FullName: Dust alkalinity, Reff = 2.4 microns + MW_g: 29.0 +DSTAL4: + << : *DST4properties + FullName: Dust alkalinity, Reff = 4.5 microns + MW_g: 29.0 +Dummy: + FullName: Dummy species (carbon mechanism) + Is_Gas: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g +DummyCH4: + << : *CH4properties + Background_VV: 1.8e-6 + FullName: Methane (external input for carbon mechanism) +DummyNMVOC: + << : *COproperties + Background_VV: 1.0e-20 + FullName: CO produced from NMVOC oxidation (external input for carbon mechanism) +e90_PROP: &e90properties + Background_VV: 1.0e-20 + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Snk_Horiz: all + Snk_Mode: efolding + Snk_Period: 90 + Snk_Vert: all + Src_Add: true + Src_Mode: maintain_mixing_ratio + Src_Units: ppbv + Src_Value: 100 + Src_Vert: surface +e90: + << : *e90properties + FullName: Constant burden 90 day tracer + Src_Horiz: all +e90_n: + << : *e90properties + FullName: Constant burden Northern Hemisphere 90 day tracer + Src_Horiz: lat_zone + Src_Lats: [ 40.0, 91.0] +e90_s: + << : *e90properties + FullName: Constant burden Southern Hemisphere 90 day tracer + Src_Horiz: lat_zone + Src_Lats: [ -91.0, -40.0 ] +EOH: + DD_F0: 0.0 + DD_Hstar: 1.9e+2 + Formula: C2H5OH + FullName: Ethanol + Henry_CR: 6400.0 + Henry_K0: 1.93e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 46.07 + WD_RetFactor: 2.0e-2 +ETHLN: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: CHOCH2ONO2 + FullName: Ethanol nitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 105.06 + WD_RetFactor: 2.0e-2 +ETHN: + Formula: HOCH2CH2ONO2 + FullName: hydroxy-nitrooxy-ethane + Is_Advected: true + Is_Gas: true + MW_g: 107.07 + Is_DryDep: true + Is_WetDep: true + WD_RetFactor: 2.0e-2 + DD_F0: 0.1 + DD_Hstar: 3.90e+04 + Henry_CR: 8600.0 + Henry_K0: 3.90e+04 +ETHP: + Formula: HOCH2CH2OOH + FullName: hydroxy-hydroperoxy-ethane + Is_Advected: true + Is_Gas: true + MW_g: 78.07 + Is_DryDep: true + Is_WetDep: true + Is_Photolysis: true + WD_RetFactor: 2.0e-2 + DD_F0: 0.1 + DD_Hstar: 6.50e+5 + Henry_CR: 8800.0 + Henry_K0: 6.50e+5 +ETNO3: + DD_F0: 0.1 + DD_Hstar: 1.6 + Formula: C2H5ONO2 + FullName: Ethyl nitrate + Henry_CR: 5400.0 + Henry_K0: 1.6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 91.08 +ETO2: + Formula: CH3CH2OO + FullName: ETO2 + Is_Gas: true + MW_g: 61.07 +ETO: + Formula: HOCH2CH2O + FullName: alkoxy radical from ETOO + Is_Gas: true + MW_g: 61.06 +ETOO: + Formula: HOCH2CH2OO + FullName: peroxy radical from ethene + Is_Gas: true + MW_g: 77.06 +ETP: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3CH2OOH + FullName: Ethylhydroperoxide + Henry_CR: 6000.0 + Henry_K0: 3.34e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 62.08 + WD_RetFactor: 2.0e-2 +FeF1: + << : *DST1properties + Formula: Fe + Fullname: Iron on dust. Reff = 0.7 microns + MW_g: 55.84 + WD_CoarseAer: true +FeF2: + << : *DST2properties + Formula: Fe + Fullname: Iron on dust, Reff = 1.4 microns + MW_g: 55.84 +FixedCl: + Formula: Cl + FullName: Atomic chlorine (external input for carbon mechanism) + Is_Advected: true + Is_Gas: true + MW_g: 35.45 +FixedOH: + Background_VV: 4.0e-15 + Formula: OH + FullName: Hydroxyl radical (external input for carbon mechanism) + Is_Gas: true + MW_g: 17.01 +FURA: + DD_F0: 1.0 + DD_Hstar: 1.80e-1 + Formula: C4H4O + FullName: Furan + Henry_CR: 6100.0 + Henry_K0: 1.80e-1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: false + Is_WetDep: true + MW_g: 68.07 + WD_RetFactor: 2.0e-2 +GLYC: + DD_F0: 1.0 + DD_Hstar: 4.1e+4 + Formula: HOCH2CHO + FullName: Glycoaldehyde + Henry_CR: 4600.0 + Henry_K0: 4.15e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 60.06 + WD_RetFactor: 2.0e-2 +GLYX: + DD_F0: 1.0 + DD_Hstar: 3.6e+5 + Formula: CHOCHO + FullName: Glyoxal + Henry_CR: 7500.0 + Henry_K0: 4.15e+5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 58.04 + WD_RetFactor: 2.0e-2 +H: + Formula: H + FullName: Atomic hydrogen + Is_Gas: true + MW_g: 1.01 +H1211: + Formula: CBrClF2 + FullName: Halon 1211, Freon 12B1 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 165.36 +H1301: + Formula: CBrF3 + FullName: Halon 1301, Freon 13B1 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 148.91 +H2: + Background_VV: 5.0e-7 + Formula: H2 + FullName: Molecular hydrogen + Is_Gas: true + MW_g: 2.02 +H2402: + Formula: C2Br2F4 + FullName: Halon 2402 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 259.82 +H2O: + Background_VV: 1.839e-2 + Formula: H2O + FullName: Water vapor + Is_Advected: true + Is_Gas: true + MW_g: 18.02 +H2O2: + Background_VV: 4.0e-15 + DD_F0: 1.0 + DD_Hstar: 5.0e+7 + Formula: H2O2 + FullName: Hydrogen peroxide + Henry_CR: 7400.0 + Henry_K0: 8.3e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 34.02 + WD_RetFactor: 5e-2 + WD_LiqAndGas: true + WD_ConvFacI2G: 4.36564e-1 +HAC: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: HOCH2C(O)CH3 + FullName: Hydroxyacetone + Henry_CR: 0.0 + Henry_K0: 7800.0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 74.08 + WD_RetFactor: 2.0e-2 +HBr: + DD_F0: 0.0 + DD_Hstar: 7.1e+15 + Formula: HBr + FullName: Hypobromic acid + Henry_CR: 10200.0 + Henry_K0: 7.1e+13 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 80.91 + WD_RetFactor: 1.0e+0 +HC5A: + DD_F0: 0.0 + DD_Hstar: 7.8e+3 + Formula: C5H8O2 + FullName: isoprene-4,1-hydroxyaldehyde + Henry_CR: 0.0 + Henry_K0: 7.8e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 100.13 + WD_RetFactor: 2.0e-2 +HCFC123: + Formula: C2HCl2F3 + FullName: HCFC-123, Freon 123 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 152.93 +HCFC141b: + Formula: C(CH3)Cl2F + FullName: HCFC-141b, Freon 141b + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 116.94 +HCFC142b: + Formula: C(CH3)ClF2 + FullName: HCFC-142b, Freon 142b + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 100.50 +HCFC22: + Formula: CHClF2 + FullName: HCFC-22, Freon 22 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 86.47 +HCl: + DD_F0: 0.0 + DD_Hstar: 2.0e+13 + Formula: HCl + FullName: Hydrochloric acid + Henry_CR: 9000.0 + Henry_K0: 6.3e+10 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 36.45 + WD_RetFactor: 1.0e+0 +HCOOH: + DD_F0: 1.0 + DD_Hstar: 8.90e+3 + Formula: HCOOH + FullName: Formic acid + Henry_CR: 6100.0 + Henry_K0: 8.92e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 46.03 + WD_RetFactor: 2.0e-2 +Hg0_PROP: &Hg0properties + DD_F0: 3.0e-5 + DD_Hstar: 0.11 + Formula: 'Hg' + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Hg0: true + MW_g: 200.59 +Hg0: + << : *Hg0properties + FullName: Elemental mercury +Hg0_ant: + << : *Hg0properties + FullName: Elemental mercury from Antarctic subsurface water +Hg0_arc: + << : *Hg0properties + FullName: Elemental mercury from Arctic subsurface water +Hg0_atl: + << : *Hg0properties + FullName: Elemental mercury from Mid-Atlantic subsurface water +Hg0_bb: + << : *Hg0properties + FullName: Elemental mercury from biomass burning +Hg0_cam: + << : *Hg0properties + FullName: Elemental mercury from Central America +Hg0_can: + << : *Hg0properties + FullName: Elemental mercury from Canada +Hg0_eaf: + << : *Hg0properties + FullName: Elemental mercury from East Africa +Hg0_eas: + << : *Hg0properties + FullName: Elemental mercury from East Asia +Hg0_eeu: + << : *Hg0properties + FullName: Elemental mercury from Eastern Europe +Hg0_eur: + << : *Hg0properties + FullName: Elemental mercury from OECD Europe +Hg0_geo: + << : *Hg0properties + FullName: Elemental mercury from geogenic sources +Hg0_jpn: + << : *Hg0properties + FullName: Elemental mercury from Japan +Hg0_mde: + << : *Hg0properties + FullName: Elemental mercury from Middle East +Hg0_naf: + << : *Hg0properties + FullName: Elemental mercury from North Africa +Hg0_nat: + << : *Hg0properties + FullName: Elemental mercury from North Atlantic subsurface water +Hg0_npa: + << : *Hg0properties + FullName: Elemental mercury from North Pacific subsurface water +Hg0_oce: + << : *Hg0properties + FullName: Elemental mercury from Oceania +Hg0_ocn: + << : *Hg0properties + FullName: Elemental mercury from Indo-Pacific subsurface water +Hg0_saf: + << : *Hg0properties + FullName: Elemental mercury from South Africa +Hg0_sam: + << : *Hg0properties + FullName: Elemental mercury from South America +Hg0_sas: + << : *Hg0properties + FullName: Elemental mercury from South Asia +Hg0_sat: + << : *Hg0properties + FullName: Elemental mercury from South Atlantic subsurface water +Hg0_sea: + << : *Hg0properties + FullName: Elemental mercury from Southeast Asia +Hg0_so: + << : *Hg0properties + FullName: Elemental mercury from organic soil +Hg0_sov: + << : *Hg0properties + FullName: Elemental mercury from former USSR +Hg0_str: + << : *Hg0properties + FullName: Elemental mercury from stratosphere +Hg0_usa: + << : *Hg0properties + FullName: Elemental mercury from USA +Hg0_waf: + << : *Hg0properties + FullName: Elemental mercury from West Africa +Hg2_PROP: &Hg2properties + DD_F0: 0.0 + DD_Hstar: 1.0e+14 + Formula: 'Hg' + Henry_CR: 8400.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Hg2: true + Is_WetDep: true + MW_g: 200.59 + WD_RetFactor: 1.0 +Hg2: + << : *Hg2properties + FullName: Divalent mercury +Hg2_ant: + << : *Hg2properties + FullName: Divalent mercury from Antarctic subsurface water +Hg2_arc: + << : *Hg2properties + FullName: Divalent mercury from Arctic subsurface water +Hg2_atl: + << : *Hg2properties + FullName: Divalent mercury from Mid-Atlantic subsurface water +Hg2_bb: + << : *Hg2properties + FullName: Divalent mercury from biomass burning +Hg2_cam: + << : *Hg2properties + FullName: Divalent mercury from Central America +Hg2_can: + << : *Hg2properties + FullName: Divalent mercury from Canada +Hg2_eaf: + << : *Hg2properties + FullName: Divalent mercury from East Africa +Hg2_eas: + << : *Hg2properties + FullName: Divalent mercury from East Asia +Hg2_eeu: + << : *Hg2properties + FullName: Divalent mercury from Eastern Europe +Hg2_eur: + << : *Hg2properties + FullName: Divalent mercury from OECD Europe +Hg2_geo: + << : *Hg2properties + FullName: Divalent mercury from geogenic sources +Hg2_jpn: + << : *Hg2properties + FullName: Divalent mercury from Japan +Hg2_mde: + << : *Hg2properties + FullName: Divalent mercury from Middle East +Hg2_naf: + << : *Hg2properties + FullName: Divalent mercury from North Africa +Hg2_nat: + << : *Hg2properties + FullName: Divalent mercury from North Atlantic subsurface water +Hg2_npa: + << : *Hg2properties + FullName: Divalent mercury from North Pacific subsurface water +Hg2_oce: + << : *Hg2properties + FullName: Divalent mercury from Oceania +Hg2_ocn: + << : *Hg2properties + FullName: Divalent mercury from Indo-Pacific subsurface water +Hg2_saf: + << : *Hg2properties + FullName: Divalent mercury from South Africa +Hg2_sam: + << : *Hg2properties + FullName: Divalent mercury from South America +Hg2_sas: + << : *Hg2properties + FullName: Divalent mercury from South Asia +Hg2_sat: + << : *Hg2properties + FullName: Divalent mercury from South Atlantic subsurface water +Hg2_sea: + << : *Hg2properties + FullName: Divalent mercury from Southeast Asia +Hg2_so: + << : *Hg2properties + FullName: Divalent mercury from organic soil +Hg2_sov: + << : *Hg2properties + FullName: Divalent mercury from former USSR +Hg2_str: + << : *Hg2properties + FullName: Divalent mercury from stratosphere +Hg2_usa: + << : *Hg2properties + FullName: Divalent mercury from USA +Hg2_waf: + << : *Hg2properties + FullName: Divalent mercury from West Africa +HgP_PROP: &HgPproperties + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: 'Hg' + Is_Advected: true + Is_DryDep: true + Is_Aerosol: true + Is_HgP: true + Is_WetDep: true + MW_g: 200.59 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 1.0, 1.0] + WD_RainoutEff_Luo: [0.4, 1.0, 1.0] +HgP: + << : *HgPproperties + FullName: Particulate mercury +HgP_ant: + << : *HgPproperties + FullName: Particulate mercury from Antarctic subsurface water +HgP_arc: + << : *HgPproperties + FullName: Particulate mercury from Arctic subsurface water +HgP_atl: + << : *HgPproperties + FullName: Particulate mercury from Mid-Atlantic subsurface water +HgP_bb: + << : *HgPproperties + FullName: Particulate mercury from biomass burning +HgP_cam: + << : *HgPproperties + FullName: Particulate mercury from Central America +HgP_can: + << : *HgPproperties + FullName: Particulate mercury from Canada +HgP_eaf: + << : *HgPproperties + FullName: Particulate mercury from East Africa +HgP_eas: + << : *HgPproperties + FullName: Particulate mercury from East Asia +HgP_eeu: + << : *HgPproperties + FullName: Particulate mercury from Eastern Europe +HgP_eur: + << : *HgPproperties + FullName: Particulate mercury from OECD Europe +HgP_geo: + << : *HgPproperties + FullName: Particulate mercury from geogenic sources +HgP_jpn: + << : *HgPproperties + FullName: Particulate mercury from Japan +HgP_mde: + << : *HgPproperties + FullName: Particulate mercury from Middle East +HgP_naf: + << : *HgPproperties + FullName: Particulate mercury from North Africa +HgP_nat: + << : *HgPproperties + FullName: Particulate mercury from North Atlantic subsurface water +HgP_npa: + << : *HgPproperties + FullName: Particulate mercury from North Pacific subsurface water +HgP_oce: + << : *HgPproperties + FullName: Particulate mercury from Oceania +HgP_ocn: + << : *HgPproperties + FullName: Particulate mercury from Indo-Pacific subsurface water +HgP_saf: + << : *HgPproperties + FullName: Particulate mercury from South Africa +HgP_sam: + << : *HgPproperties + FullName: Particulate mercury from South America +HgP_sas: + << : *HgPproperties + FullName: Particulate mercury from South Asia +HgP_sat: + << : *HgPproperties + FullName: Particulate mercury from South Atlantic subsurface water +HgP_sea: + << : *HgPproperties + FullName: Particulate mercury from Southeast Asia +HgP_so: + << : *HgPproperties + FullName: Particulate mercury from organic soil +HgP_sov: + << : *HgPproperties + FullName: Particulate mercury from former USSR +HgP_str: + << : *HgPproperties + FullName: Particulate mercury from stratosphere +HgP_usa: + << : *HgPproperties + FullName: Particulate mercury from USA +HgP_waf: + << : *HgPproperties + FullName: Particulate mercury from West Africa +Hg_OTHER_PROP: &HgChemProperties + Henry_CR: 8.40e+03 + Henry_K0: 1.40e+06 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + WD_RetFactor: 1.0 +HgBr: + Fullname: HgBr + Formula: HgBr + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 280.49 +HgBrNO2: + Fullname: syn-HgBrONO + Formula: BrHgONO + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 326.50 +HgBrHO2: + << : *HgChemProperties + Fullname: HgBrHO2 + Formula: BrHgOOH + MW_g: 313.50 +HgBrBrO: + << : *HgChemProperties + Fullname: HgBrBrO + Formula: BrHgOBr + MW_g: 376.40 +HgBrClO: + << : *HgChemProperties + Fullname: HgBrClO + Formula: BrHgOCl + MW_g: 332.00 +HgBrOH: + << : *HgChemProperties + Fullname: HgBrOH + Formula: BrHgOH + MW_g: 297.50 +HgBr2: + << : *HgChemProperties + Fullname: HgBr2 + Formula: HgBr2 + MW_g: 360.40 +HgCl: + Fullname: HgCl + Formula: HgCl + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: false + MW_g: 236.04 +HgClNO2: + << : *HgChemProperties + Fullname: syn-HgClONO + Formula: ClHgONO + MW_g: 282.00 +HgClHO2: + WD_RetFactor: 1.0 + << : *HgChemProperties + Fullname: HgClHO2 + Formula: ClHgOOH + MW_g: 269.00 + WD_RetFactor: 1.0 +HgClClO: + << : *HgChemProperties + Fullname: HgClClO + Formula: ClHgOCl + MW_g: 287.50 +HgClBrO: + << : *HgChemProperties + Fullname: HgClBrO + Formula: ClHgOBr + MW_g: 332.00 +HgClBr: + << : *HgChemProperties + Fullname: HgClBr + Formula: HgBrCl + MW_g: 316.00 +HgClOH: + << : *HgChemProperties + Fullname: HgClOH + Formula: ClHgOH + MW_g: 253.00 +HgOH: + Fullname: HgOH + Formula: HgOH + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 201.00 +HgOHNO2: + << : *HgChemProperties + Fullname: syn-HgOHONO + Formula: HOHgONO + MW_g: 263.60 +HgOHHO2: + << : *HgChemProperties + Fullname: HgOHHO2 + Formula: HOHgOOH + MW_g: 250.60 +HgOHClO: + << : *HgChemProperties + Fullname: HgBrClO + Formula: HOHgOCl + MW_g: 269.0000 +HgOHBrO: + << : *HgChemProperties + Fullname: HgOHBrO + Formula: HOHgOBr + MW_g: 313.5000 +HgOHOH: + << : *HgChemProperties + Fullname: HgOH2 + Formula: HOHgOH + MW_g: 234.60 +HgCl2: + << : *HgChemProperties + Fullname: HgCl2 + Formula: HgCl2 + MW_g: 271.5000 +Hg2ClP: + Fullname: Hg(II) chloride salts on sea-salt aerosols + Formula: HgCln + Is_Aerosol: true + Is_DryDep: true + Is_HygroGrowth: false + Is_WetDep: true + MW_g: 201.00 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 1.0, 1.0] +Hg2ORGP: + Fullname: Hg(II) organic complex in aerosols + Formula: R-Hg + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 201.00 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 1.0, 1.0] +Hg2STRP: + Fullname: Hg(II) in stratospheric aerosols + Formula: Hg2+ + Is_Advected: true + Is_Aerosol: true + MW_g: 201.00 +HI: + DD_F0: 0.0 + DD_Hstar: 2.35e+16 + Formula: HI + FullName: Hydrogen iodide + Henry_CR: 3.1872e+3 + Henry_K0: 7.43e+13 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 127.91 + WD_RetFactor: 1.0 +HMHP: + DD_F0: 1.0 + DD_Hstar: 1.3e+6 + Formula: HOCH2OOH + FullName: Hydroxymethyl hydroperoxide + Henry_CR: 5200.0 + Henry_K0: 1.3e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 64.05 + WD_RetFactor: 2.0e-2 +HMML: + DD_F0: 1.0 + DD_Hstar: 1.2e+5 + Formula: C4H6O3 + FullName: hydroxymethyl-methyl-a-lactone + Henry_CR: 7200.0 + Henry_K0: 1.2e+5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 102.10 + WD_RetFactor: 2.0e-2 +HMS: + Background_VV: 1.0e-15 + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: HOCH2SO3− + FullName: Hydroxymethanesulfonate + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 111.10 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] +HNO2: + Background_VV: 4.0e-15 + Formula: HNO2 + FullName: Nitrous acid + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 47.01 +HNO3: + Background_VV: 4.0e-15 + DD_F0: 0.0 + DD_Hstar: 1.0e+14 + Formula: HNO3 + FullName: Nitric acid + Henry_CR: 7400.0 + Henry_K0: 8.3e+4 + Is_Advected: true + Is_DryAlt: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 63.01 + WD_AerScavEff: 1.0 + WD_Is_HNO3: true + WD_KcScaleFac: [1.0, 1.0, 1.0] + WD_KcScaleFac_Luo: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 1.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +HNO4: + Background_VV: 4.0e-15 + Formula: HNO4 + FullName: Peroxynitric acid + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 79.01 +HO2: + Background_VV: 4.0e-15 + Formula: HO2 + FullName: Hydroperoxyl radical + Is_Gas: true + MW_g: 33.01 +HOBr: + DD_F0: 0.0 + DD_Hstar: 1.3e+3 + Formula: HOBr + FullName: Hypobromous acid + Henry_CR: 4000.0 + Henry_K0: 1.3e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 96.91 + WD_RetFactor: 0.0 +HOCl: + DD_F0: 0.0 + DD_Hstar: 6.5e+2 + Formula: HOCl + FullName: Hypochlorous acid + Henry_CR: 5900.0 + Henry_K0: 6.50e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 52.45 + WD_RetFactor: 0.0 +HOI: + DD_F0: 0.0 + DD_Hstar: 1.54e+4 + Formula: HOI + FullName: Hypoiodous acid + Henry_CR: 8371.0 + Henry_K0: 1.54e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 143.89 + WD_RetFactor: 2.0e-2 +HONIT: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + FullName: 2nd gen monoterpene organic nitrate + Henry_CR: 5487.0 + Henry_K0: 2.69e+13 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 215.0 + WD_RetFactor: 2.0e-2 +HPALD1: + DD_F0: 0.0 + DD_Hstar: 4.0e+4 + Formula: C5H8O3 + FullName: d-4,1-C5-hydroperoxyaldehyde + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 116.13 +HPALD1OO: + Formula: C5H7O5 + FullName: HPALD1OO + Is_Gas: true + MW_g: 147.12 +HPALD2: + DD_F0: 0.0 + DD_Hstar: 4.0e+4 + Formula: C5H8O3 + FullName: d-1,4-C5-hydroperoxyaldehyde + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 116.13 +HPALD2OO: + Formula: C5H7O5 + FullName: HPALD2OO + Is_Gas: true + MW_g: 147.12 +HPALD3: + DD_F0: 0.0 + DD_Hstar: 4.0e+4 + Formula: C5H8O3 + FullName: b-2,1-C5-hydroperoxyaldehyde + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 116.13 +HPALD4: + DD_F0: 0.0 + DD_Hstar: 4.0e+4 + Formula: C5H8O3 + FullName: b-3,4-C5-hydroperoxyaldehyde + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 116.13 +HPETHNL: + DD_F0: 1.0 + DD_Hstar: 4.1e+4 + Formula: HOOCH2CHO + FullName: Hydroperoxy ethanal + Henry_CR: 4600.0 + Henry_K0: 4.1e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 76.06 + WD_RetFactor: 2.0e-2 +HSO3m: + Formula: HSO3- + FullName: Hydrogen sulfite + Is_Gas: true + MW_g: 81.07 +I: + Formula: I + FullName: Atomic iodine + Is_Advected: true + Is_Gas: true + MW_g: 126.90 +I2: + DD_F0: 0.0 + DD_Hstar: 2.7 + Formula: I2 + FullName: Molecular iodine + Henry_CR: 7.5074e+3 + Henry_K0: 2.7 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 253.80 + WD_RetFactor: 0.0 +I2O2: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: I2O2 + FullName: Diiodine dioxide + Henry_CR: 1.89e+4 + Henry_K0: 1.0e+20 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 285.80 + WD_RetFactor: 1.0 +I2O3: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: I2O3 + FullName: Diiodine trioxide + Henry_CR: 1.34e+4 + Henry_K0: 1.0e+20 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 301.80 + WD_RetFactor: 1.0 +I2O4: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: I2O4 + FullName: Diiodine tetraoxide + Henry_CR: 1.34e+4 + Henry_K0: 1.0e+20 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 317.80 + WD_RetFactor: 1.0 +IBr: + DD_F0: 0.0 + DD_Hstar: 2.43e+1 + Formula: IBr + FullName: Iodine monobromide + Henry_CR: 4.9167e+3 + Henry_K0: 2.4e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 206.90 + WD_RetFactor: 0.0 +ICHE: + DD_F0: 1.0 + DD_Hstar: 8.0e+7 + Formula: C5H8O3 + FullName: Isoprene hydroxy-carbonyl-epoxides + Henry_CR: 0.0 + Henry_K0: 8.0e+7 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 116.13 + WD_RetFactor: 2.0e-2 +ICHOO: + Formula: C5H9O5 + FullName: Peroxy radical from IEPOXD + Is_Gas: true + MW_g: 149.14 +ICl: + DD_F0: 0.0 + DD_Hstar: 1.11e+2 + Formula: ICl + FullName: Iodine monochloride + Henry_CR: 2.1055e+3 + Henry_K0: 1.11e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 162.45 + WD_RetFactor: 0.0 +ICN: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H7NO4 + FullName: Lumped isoprene carbonyl-nitrates + Henry_CR: 9200.0 + Henry_K0: 1.70e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 145.13 + WD_RetFactor: 2.0e-2 +ICNOO: + Formula: C5H8NO7 + FullName: Peroxy radicals from ICN + Is_Gas: true + MW_g: 194.14 +ICPDH: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H10O5 + FullName: Isoprene dihydroxy hydroperoxycarbonyl + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 150.15 + WD_RetFactor: 2.0e-2 +IDC: + DD_F0: 0.0 + DD_Hstar: 4.0e+4 + Formula: C5H6O2 + FullName: Lumped isoprene dicarbonyls + Is_Advected: true + Is_DryDep: true + Is_Gas: true + MW_g: 98.11 +IDCHP: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H8O5 + FullName: Isoprene dicarbonyl hydroxy dihydroperoxide + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 148.13 + WD_RetFactor: 2.0e-2 +IDHDP: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H12O6 + FullName: Isoprene dihydroxy dihydroperoxide + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 168.17 + WD_RetFactor: 2.0e-2 +IDHNBOO: + Formula: C5H10NO7 + FullName: Peroxy radicals from INPB + Is_Gas: true + MW_g: 196.16 +IDHNDOO1: + Formula: C5H10NO7 + FullName: Peroxy radicals from INPD + Is_Gas: true + MW_g: 196.16 +IDHNDOO2: + Formula: C5H10NO7 + FullName: Peroxy radicals from INPD + Is_Gas: true + MW_g: 196.16 +IDHPE: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H10O5 + FullName: Isoprene dihydroxy hydroperoxy epoxide + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 150.15 + WD_RetFactor: 2.0e-2 +IDN: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H8N2O6 + FullName: Lumped isoprene dinitrates + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 192.15 + WD_RetFactor: 2.0e-2 +IDNOO: + Formula: C5H9N2O6 + FullName: IDNOO + Is_Gas: true + MW_g: 241.14 +IEPOXA: + DD_F0: 1.0 + DD_Hstar: 8.0e+7 + Formula: C4H10O3 + FullName: trans-Beta isoprene epoxydiol + Henry_CR: 0.0 + Henry_K0: 8.0e+7 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 106.14 + WD_RetFactor: 2.0e-2 +IEPOXAOO: + Formula: C5H8O5 + FullName: Peroxy radical from trans-Beta isoprene epoxydiol + Is_Gas: true + MW_g: 149.14 +IEPOXB: + DD_F0: 1.0 + DD_Hstar: 8.0e+7 + Formula: C4H10O3 + FullName: cis-Beta isoprene epoxydiol + Henry_CR: 0.0 + Henry_K0: 8.0e+7 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 106.14 + WD_RetFactor: 2.0e-2 +IEPOXBOO: + Formula: C5H9O5 + FullName: peroxy radical from cis-Beta isoprene epoxydiol + Is_Gas: true + MW_g: 149.14 +IEPOXD: + DD_F0: 1.0 + DD_Hstar: 8.0e+7 + Formula: C4H10O3 + FullName: Delta isoprene epoxydiol + Henry_CR: 0.0 + Henry_K0: 8.0e+7 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 106.14 + WD_RetFactor: 2.0e-2 +IHN1: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO4 + FullName: Isoprene-d-4,1-hydroxynitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 147.15 + WD_RetFactor: 2.0e-2 +IHN2: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO4 + FullName: Isoprene-b-1,2-hydroxynitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 147.15 + WD_RetFactor: 2.0e-2 +IHN3: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO4 + FullName: Isoprene-b-4,3-hydroxynitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 147.15 + WD_RetFactor: 2.0e-2 +IHN4: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO4 + FullName: Isoprene-d-4,1-hydroxynitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 147.15 + WD_RetFactor: 2.0e-2 +IHOO1: + Formula: C5H9O3 + FullName: Peroxy radical from OH addition to isoprene at C1 + Is_Gas: true + MW_g: 117.14 +IHOO4: + Formula: C5H9O3 + FullName: Peroxy radical from OH addition to isoprene at C4 + Is_Gas: true + MW_g: 117.14 +IHPNBOO: + Formula: C5H10NO8 + FullName: Peroxy radicals from INPB + Is_Gas: true + MW_g: 212.16 +IHPNDOO: + Formula: C5H10NO8 + FullName: Peroxy radicals from INPD + Is_Gas: true + MW_g: 212.16 +IHPOO1: + Formula: C5H11O6 + FullName: Peroxy radical from ISOPOOH + Is_Gas: true + MW_g: 167.16 +IHPOO2: + Formula: C5H11O6 + FullName: Peroxy radical from ISOPOOH + Is_Gas: true + MW_g: 167.16 +IHPOO3: + Formula: C5H11O6 + FullName: Peroxy radical from ISOPOOH + Is_Gas: true + MW_g: 167.16 +INA: + Formula: C5H8NO4 + FullName: Alkoxy radical from INO2D + Is_Gas: true + MW_g: 146.14 +INDIOL: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Generic aerosol-phase organonitrate hydrolysis product + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 102.0 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +INO: + Formula: INO + FullName: Nitrosyl iodide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 156.91 +INO2B: + Formula: C5H8NO5 + FullName: beta-peroxy radicals from isoprene + NO3 + Is_Gas: true + MW_g: 162.14 +INO2D: + Formula: C5H8NO5 + FullName: delta-peroxy radicals from isoprene + NO3 + Is_Gas: true + MW_g: 162.14 +INPB: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO5 + FullName: Lumped b-hydroperoxy isoprene nitrates + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 163.15 + WD_RetFactor: 2.0e-2 +INPD: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C5H9NO5 + FullName: Lumped d-hydroperoxy isoprene nitrates + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 163.15 + WD_RetFactor: 2.0e-2 +IO: + Formula: IO + FullName: Iodine monoxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 142.90 +IONITA: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Aer-phase organic nitrate from isoprene precursors + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 14.01 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +IONO: + DD_F0: 0.0 + DD_Hstar: 3.0e-1 + Formula: IONO + FullName: Nitryl iodide + Henry_CR: 7.2404e+3 + Henry_K0: 3.0e-1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 172.91 + WD_RetFactor: 2.0e-2 +IONO2: + DD_F0: 0.0 + DD_Hstar: 1.0e+20 + Formula: IONO2 + FullName: Iodine nitrate + Henry_CR: 3.98e+3 + Henry_K0: 1.0e+20 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 188.91 + WD_RetFactor: 1.0 +IPRNO3: + DD_F0: 0.1 + DD_Hstar: 7.9e-1 + Formula: C3H7ONO2 + FullName: Isopropyl nitrate + Henry_CR: 5400.0 + Henry_K0: 0.79 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 105.11 +ISALA: + << : *SALAproperties + Formula: I + FullName: Fine sea salt iodine + Is_HygroGrowth: false + MW_g: 126.90 +ISALC: + << : *SALCproperties + Formula: I + FullName: Coarse sea salt iodine + Is_HygroGrowth: false + MW_g: 126.90 + WD_CoarseAer: true +ISOP: + Formula: CH2=C(CH3)CH=CH2 + FullName: Isoprene + Henry_CR: 4400.0 + Henry_K0: 3.45e-2 + Is_Advected: true + Is_Gas: true + MW_g: 68.13 +ISOPNOO1: + Formula: C5H10NO7 + FullName: Peroxy radicals from IHN2 + Is_Gas: true + MW_g: 196.16 +ISOPNOO2: + Formula: C5H10NO7 + FullName: Peroxy radicals from IHN3 + Is_Gas: true + MW_g: 196.16 +ITCN: + DD_F0: 1.0 + DD_Hstar: 1.00e+8 + Formula: C5H9NO7 + FullName: lumped isoprene tetrafunctional carbonylnitrates + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 195.15 + WD_RetFactor: 2.0e-2 +ITHN: + DD_F0: 1.0 + DD_Hstar: 1.00e+8 + Formula: C5H11NO7 + FullName: Lumped isoprene tetrafunctional hydroxynitrates + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 197.17 + WD_RetFactor: 2.0e-2 +KF1: + << : *DST1properties + Formula: K + Fullname: Potassium on dust. Reff = 0.7 microns + MW_g: 39.10 + WD_CoarseAer: true +KF2: + << : *DST2properties + Formula: K + Fullname: Potassium on dust, Reff = 1.4 microns + MW_g: 39.10 +KC3: + << : *DST3properties + Formula: K + Fullname: Potassium on dust, Reff = 2.4 microns + MW_g: 39.10 +KC4: + << : *DST4properties + Formula: K + Fullname: Potassium on dust, Reff = 4.5 microns + MW_g: 39.10 +KO2: + Formula: C4H5O3 + FullName: Peroxy radical from >3 ketones + Is_Gas: true + MW_g: 101.09 +LBRO2H: + FullName: Dummy species to track oxidation of BRO2 by HO2 + Is_Gas: true + MW_g: 159.13 +LBRO2N: + FullName: Dummy species to track oxidation of BRO2 by NO + Is_Gas: true + MW_g: 159.13 +LCH4: + FullName: Dummy species to track loss rate of CH4 + Is_Gas: true + MW_g: 16.04 +LCO: + FullName: Dummy species to track loss rate of CO + Is_Gas: true + MW_g: 28.01 +LIMO: + DD_F0: 0.0 + DD_Hstar: 7.0e-2 + Formula: C10H16 + FullName: Limonene + Henry_CR: 0.0 + Henry_K0: 7.0e-2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 136.26 + WD_RetFactor: 2.0e-2 +LIMO2: + Formula: C10H17O3 + FullName: Peroxy radical from LIMO + Is_Gas: true + MW_g: 185.27 +LISOPNO3: + FullName: Dummy species to track oxidation of ISOP by NO3 + Is_Gas: true + MW_g: 68.13 +LISOPOH: + FullName: Dummy species to track oxidation of ISOP by OH + Is_Gas: true + MW_g: 68.13 +LNRO2H: + FullName: Dummy species to track oxidation of NRO2 by HO2 + Is_Gas: true + MW_g: 159.17 +LNRO2N: + FullName: Dummy species to track oxidation of NRO2 by NO + Is_Gas: true + MW_g: 159.17 +LOx: + FullName: Dummy species to track loss rate of Ox + Is_Gas: true + MW_g: 48.00 +LTRO2H: + FullName: Dummy species to track oxidation of TRO2 by HO2 + Is_Gas: true + MW_g: 173.16 +LTRO2N: + FullName: Dummy species to track oxidation of TRO2 by NO + Is_Gas: true + MW_g: 173.16 +LVOC: + DD_F0: 1.0 + DD_Hstar: 1.0e+8 + Formula: C5H14O5 + FullName: Gas-phase low-volatility non-IEPOX product of RIP ox + Henry_CR: 7200.0 + Henry_K0: 1.0e+8 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 154.19 + WD_RetFactor: 2.0e-2 +LVOCOA: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C5H14O5 + FullName: Aer-phase low-volatility non-IEPOX product of RIP ox + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 154.19 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +LXRO2H: + FullName: Dummy species to track oxidation of XRO2 by HO2 + Is_Gas: true + MW_g: 187.19 +LXRO2N: + FullName: Dummy species to track oxidation of XRO2 by NO + Is_Gas: true + MW_g: 187.19 +MACR: + DD_F0: 1.0 + DD_Hstar: 6.5 + Formula: CH2=C(CH3)CHO + FullName: Methacrolein + Henry_CR: 4300.0 + Henry_K0: 4.86 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 70.10 +MACR1OO: + Formula: CH2=C(CH3)C(O)OO + FullName: Peroxyacyl radical from MACR + OH + Is_Gas: true + MW_g: 101.09 +MACR1OOH: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH2=C(CH3)C(O)OOH + FullName: Peracid from MACR + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 102.10 + WD_RetFactor: 2.0e-2 +MACRNO2: + Formula: C4H6NO7 + FullName: Product of MCRHN + OH + Is_Gas: true + MW_g: 180.10 +MAP: + DD_F0: 1.0 + DD_Hstar: 8.4e+2 + Formula: CH3C(O)OOH + FullName: Peroxyacetic acid + Henry_CR: 5300.0 + Henry_K0: 8.4e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 76.06 + WD_RetFactor: 2.0e-2 +MCO3: + Formula: CH3C(O)OO + FullName: Peroxyacetyl radical + Is_Gas: true + MW_g: 75.05 +MCRDH: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: C4H8O3 + FullName: Dihydroxy-methacrolein + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 104.12 + WD_RetFactor: 2.0e-2 +MCRENOL: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: C4H6O2 + FullName: Lumped enols from MVK/MACR + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 86.10 + WD_RetFactor: 2.0e-2 +MCRHN: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: HOCH2C(ONO2)(CH3)CHO + FullName: Nitrate from MACR + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 149.11 + WD_RetFactor: 2.0e-2 +MCRHNB: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: O2NOCH2C(OH)(CH3)CHO + FullName: Nitrate from MACR + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 149.11 + WD_RetFactor: 2.0e-2 +MCRHP: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: HOCH2C(OOH)(CH3)CHO + FullName: Hydroxy-hydroperoxy-methacrolein + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 120.12 + WD_RetFactor: 2.0e-2 +MCROHOO: + Formula: C4H7O4 + FullName: Peroxy radical from MACR + OH + Is_Gas: true + MW_g: 119.11 +MCT: + DD_F0: 1.0 + DD_Hstar: 4.2e+2 + Formula: C7H8O2 + FullName: Catechols and methyl catechols + Henry_CR: 8500.0 + Henry_K0: 4.2e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 124.0 + WD_RetFactor: 2.0e-2 +MEK: + Formula: RC(O)R + FullName: Methyl Ethyl Ketone + Henry_CR: 5700.0 + Henry_K0: 1.82e+1 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 72.11 + WD_RetFactor: 2.0e-2 +MENO3: + DD_F0: 0.1 + DD_Hstar: 2.0 + Formula: CH3ONO2 + FullName: Methyl nitrate + Henry_CR: 4700.0 + Henry_K0: 1.1e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 77.05 +MgF1: + << : *DST1properties + Formula: Mg + Fullname: Magnesium on dust. Reff = 0.7 microns + MW_g: 24.31 + WD_CoarseAer: true +MgF2: + << : *DST2properties + Formula: Mg + Fullname: Magnesium on dust, Reff = 1.4 microns + MW_g: 24.31 +MgC3: + << : *DST3properties + Formula: Mg + Fullname: Magnesium on dust, Reff = 2.4 microns + MW_g: 24.31 +MgC4: + << : *DST4properties + Formula: Mg + Fullname: Magnesium on dust, Reff = 4.5 microns + MW_g: 24.31 +MGLY: + DD_F0: 1.0 + DD_Hstar: 3.7e+3 + Formula: CH3COCHO + FullName: Methylglyoxal + Henry_CR: 6200.0 + Henry_K0: 3.24e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 72.07 + WD_RetFactor: 2.0e-2 +MnF1: + << : *DST1properties + Formula: Mn + Fullname: Manganese on dust. Reff = 0.7 microns + MW_g: 54.94 + WD_CoarseAer: true +MnF2: + << : *DST2properties + Formula: Mn + Fullname: Manganese on dust, Reff = 1.4 microns + MW_g: 54.94 +MO2: + Background_VV: 4.0e-15 + Formula: CH3O2 + FullName: Methylperoxy radical + Is_Gas: true + MW_g: 47.04 +MOH: + DD_F0: 1.0 + DD_Hstar: 2.03e+2 + Formula: CH3OH + FullName: Methanol + Henry_CR: 5600.0 + Henry_K0: 2.03e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 32.05 + WD_RetFactor: 2.0e-2 +MONITA: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Aer-phase organic nitrate from monoterpene precursors + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 14.01 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +MONITS: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C10H17NO4 + FullName: Saturated 1st gen monoterpene organic nitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 215.28 + WD_RetFactor: 2.0e-2 +MONITU: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: C10H17NO4 + FullName: Unsaturated 1st gen monoterpene organic nitrate + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 215.28 + WD_RetFactor: 2.0e-2 +MOPI: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + Formula: C + FullName: Hydrophilic marine organic carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +MOPO: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + Formula: C + FullName: Hydrophobic marine organic carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_RainoutEff: [0.0, 0.0, 0.0] +MP: + Background_VV: 4.0e-15 + Formula: CH3OOH + FullName: Methyl hydro peroxide + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 48.05 + WD_RetFactor: 2.0e-2 +MPAN: + DD_F0: 1.0 + DD_Hstar: 1.72 + Formula: CH2=C(CH3)C(O)OONO2 + FullName: Peroxymethacroyl nitrate (PMN) + Henry_CR: 0.0 + Henry_K0: 1.72 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 147.10 + WD_RetFactor: 2.0e-2 +MPN: + Formula: CH3O2NO2 + FullName: Methyl peroxy nitrate + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 93.05 + WD_RetFactor: 2.0e-2 +MSA: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: CH4SO3 + FullName: Methyl sulfonic acid + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 96.10 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +MTPA: + DD_F0: 0.0 + DD_Hstar: 4.9e-2 + FullName: a-pinene, b-pinene, sabinene, carene + Henry_CR: 0.0 + Henry_K0: 4.9e-2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 136.26 + WD_RetFactor: 2.0e-2 +MTPO: + DD_F0: 0.0 + DD_Hstar: 4.9e-2 + FullName: Terpinene, terpinolene, myrcene, ocimene, other monoterpenes + Henry_CR: 0.0 + Henry_K0: 4.9e-2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 136.26 + WD_RetFactor: 2.0e-2 +MVK: + DD_F0: 1.0 + DD_Hstar: 4.4e+1 + Formula: CH2=CHC(=O)CH3 + FullName: Methyl vinyl ketone + Henry_CR: 4800.0 + Henry_K0: 2.63e+1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 70.09 + WD_RetFactor: 2.0e-2 +MVKDH: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: HOCH2CH2OHC(O)CH3 + FullName: dihydroxy-MVK + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 105.13 + WD_RetFactor: 2.0e-2 +MVKHC: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: C4H6O3 + FullName: MVK hydroxy-carbonyl + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 102.10 + WD_RetFactor: 2.0e-2 +MVKHCB: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: C4H6O3 + FullName: MVK hydroxy-carbonyl + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 102.10 + WD_RetFactor: 2.0e-2 +MVKHP: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: C4H8O4 + FullName: MVK hydroxy-hydroperoxide + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 120.12 + WD_RetFactor: 2.0e-2 +MVKN: + DD_F0: 1.0 + DD_Hstar: 2.0e+6 + Formula: HOCH2CH(ONO2)C(=O)CH3 + FullName: Nitrate from MVK + Henry_CR: 9200.0 + Henry_K0: 1.7e+4 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 149.12 + WD_RetFactor: 2.0e-2 +MVKOHOO: + Formula: C4H7O4 + FullName: Peroxy radical from MVK + OH + Is_Gas: true + MW_g: 119.11 +MVKPC: + DD_F0: 1.0 + DD_Hstar: 1.4e+6 + Formula: OCHCH(OOH)C(O)CH3 + FullName: MVK hydroperoxy-carbonyl + Henry_CR: 7200.0 + Henry_K0: 1.4e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 118.10 + WD_RetFactor: 2.0e-2 +N: + Background_VV: 4.0e-20 + Formula: N + FullName: Atomic nitrogen + Is_Gas: true + MW_g: 14.01 +N2: + Background_VV: 7.808e-1 + Formula: N2 + FullName: Molecular nitrogen + Is_Gas: true + MW_g: 28.02 +N2O: + Background_VV: 3.0e-7 + Formula: N2O + FullName: Nitrous oxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 44.02 +N2O5: + Background_VV: 4.0e-15 + DD_F0: 0.0 + DD_Hstar: 1.0e+14 + Formula: N2O5 + FullName: Dinitrogen pentoxide + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 108.02 +NAP: + Formula: C10H8 + FullName: Naphtalene/IVOC surrogate + Is_Advected: true + Is_Gas: true + MW_g: 128.18 +nh_PROP: &nhproperties + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Snk_Horiz: all + Snk_Mode: efolding + Snk_Vert: all + Src_Add: false + Src_Mode: constant + Src_Horiz: lat_zone + Src_Lats: [30.0, 50.0] + Src_Units: ppbv + Src_Value: 100 + Src_Vert: all +nh_5: + << : *nhproperties + FullName: Northern Hemisphere 5 day tracer + Snk_Period: 5 +nh_50: + << : *nhproperties + FullName: Northern Hemisphere 50 day tracer + Snk_Period: 50 +NH3: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.2, 0.3] + DD_DvzMinVal_Luo: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 2.0e+4 + Formula: NH3 + FullName: Ammonia + Henry_CR: 4100.0 + Henry_CR_Luo: 4200.0 + Henry_K0: 3.3e+6 + Henry_K0_Luo: 59.78175 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 17.04 + WD_RetFactor: 5.0e-2 + WD_LiqAndGas: true + WD_ConvFacI2G: 6.17395e-1 +NH4: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: NH4 + FullName: Ammonium + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 18.05 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +NiF1: + << : *DST1properties + Formula: Ni + Fullname: Nickel on dust. Reff = 0.7 microns + MW_g: 58.69 + WD_CoarseAer: true +NiF2: + << : *DST2properties + Formula: Ni + Fullname: Nickel on dust, Reff = 1.4 microns + MW_g: 58.69 +NIT: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Inorganic nitrates + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 62.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +NITD1: + << : *DST1properties + FullName: Nitrate on dust, Reff = 0.7 microns + MW_g: 29.0 +NITD2: + << : *DST2properties + FullName: Nitrate on dust, Reff = 1.4 microns + MW_g: 29.0 +NITD3: + << : *DST3properties + FullName: Nitrate on dust, Reff = 2.4 microns + MW_g: 29.0 +NITD4: + << : *DST4properties + FullName: Nitrate on dust, Reff = 4.5 microns + MW_g: 29.0 +NITs: + << : *SALCproperties + FullName: Inorganic nitrates on surface of seasalt aerosol + Is_Photolysis: true + MW_g: 31.4 + WD_CoarseAer: true +'NO': + Background_VV: 4.0e-13 + Formula: 'NO' + FullName: Nitrogen oxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 30.01 +NO2: + Background_VV: 4.0e-13 + DD_F0: 0.1 + DD_Hstar: 1.0e-2 + Formula: NO2 + FullName: Nitrogen dioxide + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 46.01 +NO3: + Background_VV: 4.0e-15 + Formula: NO3 + FullName: Nitrate radical + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 62.01 +NPHEN: + DD_F0: 1.0 + DD_Hstar: 2.3e+3 + Formula: C6H5NO3 + FullName: Nitrophenols + Henry_CR: 0.0 + Henry_K0: 2.3e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 139.11 + WD_RetFactor: 2.0e-2 +NPRNO3: + DD_F0: 0.1 + DD_Hstar: 1.1 + Formula: C3H7ONO2 + FullName: n-propyl nitrate + Henry_CR: 5500.0 + Henry_K0: 1.1 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 105.11 +NRO2: + Formula: C10H7O2 + FullName: Peroxy radical from NAP oxidation + Is_Gas: true + MW_g: 159.17 +O: + Formula: O(3P) + FullName: Ground state atomic oxygen + Is_Gas: true + MW_g: 16.00 +O1D: + Background_VV: 1.0e-15 + Formula: O(1D) + FullName: Excited atomic oxygen (1D) + Is_Gas: true + MW_g: 16.00 +O2: + Background_VV: 2.095e-1 + Formula: O2 + FullName: Molecular oxygen + Is_Gas: true + Is_Photolysis: true + MW_g: 32.0 +O3_PROP: &O3properties + DD_F0: 1.0 + DD_Hstar: 1.0e-2 + Formula: O3 + FullName: Ozone + Henry_CR: 2800.0 + Henry_K0: 0.0101325e0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + MW_g: 48.00 +O3: + << : *O3properties + Background_VV: 2.0e-8 + FullName: Ozone + Henry_CR: 2800.0 + Henry_K0: 0.0101325e0 + Is_DryAlt: true +O3afbl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the African boundary layer +O3asbl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the Asian boundary layer +O3atbl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the Atlantic Ocean boundary layer +O3eubl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the European boundary layer +O3init: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone from the initial condition +O3mt: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the middle troposphere +O3nabl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the North America boundary layer +O3pcbl: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the Pacific Ocean boundary layer +O3row: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the rest of the world +O3Strat: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the stratosphere +O3usa: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced over the United States in PBL +O3ut: + << : *O3properties + Background_VV: 1.0e-20 + FullName: Ozone produced in the upper troposphere +OClO: + Formula: OClO + FullName: Chlorine dioxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 67.45 +OCPI: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + FullName: Hydrophilic organic carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_HygroGrowth: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_KcScaleFac_Luo: [0.5, 0.25, 0.5] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 0.5] +OCPO: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + FullName: Hydrophobic organic carbon aerosol + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_KcScaleFac_Luo: [0.0, 0.0, 0.0] + WD_RainoutEff: [0.0, 0.0, 0.0] +OCS: + Background_VV: 9.0e-15 + Formula: COS + FullName: Carbonyl sulfide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 60.07 +OH: + Background_VV: 4.0e-15 + Formula: OH + FullName: Hydroxyl radical + Is_Gas: true + MW_g: 17.01 +OIO: + Formula: OIO + FullName: Iodine dioxide + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 158.90 +OLND: + Formula: C10H16NO5 + FullName: Monoterpene-derived NO3-alkene adduct + Is_Gas: true + MW_g: 230.27 +OLNN: + Formula: C10H16NO5 + FullName: Monoterpene-derived NO3 adduct + Is_Gas: true + MW_g: 230.27 +OPOA1: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Lumped aerosol product of SVOC oxidation + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +OPOA2: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Lumped aerosol product of SVOC oxidation + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +OPOG1: + DD_F0: 0.0 + DD_Hstar: 1.0e+5 + FullName: Lumped gas product of SVOC oxidation + Henry_CR: 6039.0 + Henry_K0: 1.0e+5 + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 12.01 + WD_RetFactor: 2.0e-2 +OPOG2: + DD_F0: 0.0 + DD_Hstar: 1.0e+5 + FullName: Lumped gas product of SVOC oxidation + Henry_CR: 6039.0 + Henry_K0: 1.0e+5 + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 12.01 + WD_RetFactor: 2.0e-2 +OTHRO2: + Formula: CH3CH2OO + FullName: Other C2 RO2 not from C2H6 oxidation + Is_Gas: true + MW_g: 61.07 +PAN: + DD_F0: 1.0 + DD_Hstar: 3.6 + Formula: CH3C(O)OONO2 + FullName: Peroxyacetyl nitrate + Henry_CR: 5700.0 + Henry_K0: 2.94 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 121.06 + WD_RetFactor: 2.0e-2 +PassiveTracer: + Background_VV: 1.0e-7 + FullName: Passive tracer for mass conservation evaluation + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Snk_Mode: none + Src_Mode: none +Pb210_PROP: &Pbproperties + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: Pb210 + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_RadioNuclide: true + Is_Tracer: true + Is_WetDep: true + MW_g: 210.0 +# Comment out tracer-specific code for now and use RnPbBe_mod.F90 +# Snk_Horiz: all +# Snk_Mode: efolding +# Snk_Period: 11742.8 +# Snk_Vert: all +# Src_Add: true +# Src_Mode: HEMCO +# Src_Mode: decay_of_another_species +# Src_Species: Rn222 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +Pb210: + << : *Pbproperties + FullName: Lead-210 isotope +# Src_Vert: all +Pb210s: + << : *Pbproperties + FullName: Lead-210 isotope stratospheric-source tracer +# Src_Vert: stratosphere +PbF1: + << : *DST1properties + Formula: Pb + Fullname: Lead on dust. Reff = 0.7 microns + MW_g: 210.0 + WD_CoarseAer: true +PbF2: + << : *DST2properties + Formula: Pb + Fullname: Lead on dust, Reff = 1.4 microns + MW_g: 210.0 +PCO: + FullName: Dummy species to track production rate of CO + Is_Gas: true + MW_g: 28.01 +pFe: + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: Fe + FullName: Anthropogenic iron + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 55.85 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +PH2O2: + FullName: Dummy species to track production rate of H2O2 + Is_Gas: true + MW_g: 34.02 +PH2SO4: + FullName: SO4 from gas-phase chemistry + Is_Gas: true + MW_g: 96.06 +PHEN: + DD_F0: 1.0 + DD_Hstar: 2.8e+3 + Formula: C6H6O + FullName: Phenol + Henry_CR: 2700.0 + Henry_K0: 2.8e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 94.11 + WD_RetFactor: 2.0e-2 +PIO2: + Formula: C10H17O3 + FullName: Peroxy radical from MTPA + Is_Gas: true + MW_g: 185.27 +PIP: + Formula: C10H18O3 + FullName: Peroxide from MTPA + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 186.28 +PO2: + Formula: HOCH2CH(OO)CH3 + FullName: Peroxy radical from propene + Is_Gas: true + MW_g: 91.10 +POA1: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + FullName: Lumped aerosol primary SVOCs + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_HygroGrowth: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_KcScaleFac_Luo: [0.0, 0.0, 0.0] + WD_RainoutEff: [0.0, 0.0, 0.0] +POA2: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1300.0 + FullName: Lumped aerosol primary SVOCs + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 12.01 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_KcScaleFac_Luo: [0.0, 0.0, 0.0] + WD_RainoutEff: [0.0, 0.0, 0.0] +POG1: + DD_F0: 0.0 + DD_Hstar: 9.5 + FullName: Lumped gas primary SVOCs + Henry_CF: 4700.0 + Henry_K0: 9.5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 12.01 + WD_RetFactor: 2.0e-2 +POG2: + DD_F0: 0.0 + DD_Hstar: 9.5 + FullName: Lumped gas primary SVOCs + Henry_CF: 4700.0 + Henry_K0: 9.5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 12.01 + WD_RetFactor: 2.0e-2 +POPG_BaP: + DD_F0: 0.0 + DD_Hstar: 1319.354829 # 1.0 / 3.10e-5 * 0.0409 + DD_KOA: 9.88144e+9 # 3.02e+11 * 0.0409 * 0.8 + Formula: C20H12 + FullName: Benzo(a)pyrene (gas phase) + Henry_CR: 5168.269231 # 43.0 / 8.32e-3 + Henry_K0: 1318.496208 # 1.0 / 3.10e-5 / 8.21e-2 / 298.0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 252.32 + WD_RetFactor: 0.0 +POPG_PHE: + DD_F0: 0.0 + DD_Hstar: 23.50574713 # 1.0 / 1.74e-3 * 0.0409 + DD_KOA: 1.429864e+6 # 4.37e+7 * 0.0409 * 0.8 + Formula: C14H10 + FullName: Phenanthrene (gas phase) + Henry_CR: 5649.038462 # 47.0/ 8.32e-3 + Henry_K0: 23.49044968 # 1.0 / 1.74e-3 / 8.21e-2 / 298.0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 178.24 + WD_RetFactor: 0.0 +POPG_PYR: + DD_F0: 0.0 + DD_Hstar: 76.16387337 # 1.0 / 5.37e-4 * 0.0409 + DD_KOA: 2.368928e+7 # 7.24e+8 * 0.0409 * 0.8 + Formula: C16H10 + FullName: Pyrene (gas phase) + Henry_CR: 5168.269231 # 43.0 / 8.32e-3 + Henry_K0: 76.11430621 # 1.0 / 5.37e-4 / 8.21e-2 / 298.0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 202.26 + WD_RetFactor: 0.0 +POPPBCPI_BaP: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C20H12 + FullName: Benzo(a)pyrene particles on hydrophilic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 252.32 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [ 0.4, 0.0, 1.0] +POPPBCPI_PHE: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C14H10 + FullName: Phenanthrene particles on hydrophilic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 178.24 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [ 0.4, 0.0, 1.0] +POPPBCPI_PYR: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C16H10 + FullName: Pyrene particles on hydrophilic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 202.26 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [ 0.4, 0.0, 1.0] +POPPBCPO_BaP: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C20H12 + FullName: Benzo(a)pyrene particles on hydrophobic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 252.32 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 1.0, 0.5] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [0.4, 1.0, 0.0] +POPPBCPO_PHE: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C14H10 + FullName: Phenanthrene particles on hydrophobic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 178.24 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 1.0, 0.5] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [0.4, 1.0, 0.0] +POPPBCPO_PYR: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C16H10 + FullName: Pyrene particles on hydrophobic black carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 202.26 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 1.0, 0.5] + WD_RainoutEff: [1.0, 1.0, 0.0] + WD_RainoutEff_Luo: [0.4, 1.0, 0.0] +POPPOCPI_BaP: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C20H12 + FullName: Benzo(a)pyrene particles on hydrophilic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 252.32 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +POPPOCPI_PHE: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C14H10 + FullName: Phenanthrene particles on hydrophilic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 178.24 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +POPPOCPI_PYR: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C16H10 + FullName: Pyrene particles on hydrophilic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 202.26 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +POPPOCPO_BaP: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C20H12 + FullName: Benzo(a)pyrene particles on hydrophobic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 252.32 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_RainoutEff: [0.0, 0.0, 0.0] +POPPOCPO_PHE: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C14H10 + FullName: Phenanthrene particles on hydrophobic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 178.24 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_RainoutEff: [0.0, 0.0, 0.0] +POPPOCPO_PYR: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C16H10 + FullName: Pyrene particles on hydrophobic organic carbon + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 202.26 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [0.5, 0.5, 0.5] + WD_RainoutEff: [0.0, 0.0, 0.0] +POx: + FullName: Dummy species to track production rate of Ox + Is_Gas: true + MW_g: 48.00 +PP: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: HOCH2CH(OOH)CH3 + FullName: Peroxide from PO2 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 92.11 + WD_RetFactor: 2.0e-2 +PPN: + DD_F0: 1.0 + DD_Hstar: 3.6 + Formula: CH3CH2C(O)OONO2 + FullName: Lumped peroxypropionyl nitrate + Henry_CR: 0.0 + Henry_K0: 2.94 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 135.08 + WD_RetFactor: 2.0e-2 +PRN1: + Formula: O2NOCH2CH(OO)CH3 + FullName: Peroxy radical from propene + NO3 + Is_Gas: true + MW_g: 136.09 +PROPNN: + DD_F0: 1.0 + DD_Hstar: 5.0e+5 + Formula: CH3C(=O)CH2ONO2 + FullName: Propanone nitrate + Henry_CR: 0.0 + Henry_K0: 1.0e+3 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 119.08 + WD_RetFactor: 2.0e-2 +PRPE: + Formula: C3H6 + FullName: Lumped >= C3 alkenes + Henry_CR: 3400.0 + Henry_K0: 7.4e-3 + Is_Advected: true + Is_Gas: true + Is_WetDep: true + MW_g: 42.09 + WD_RetFactor: 2.0e-2 +PRPN: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: O2NOCH2CH(OOH)CH3 + FullName: Peroxide from PRN1 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 137.11 + WD_RetFactor: 2.0e-2 +PSO4: + FullName: Dummy species to track production of SO4 + Is_Gas: true + MW_g: 96.06 +PSO4AQ: + FullName: SO4 from cloud chemistry + Is_Gas: true + MW_g: 96.06 +PYAC: + DD_F0: 1.0 + DD_Hstar: 3.14e+5 + Formula: C3H4O3 + FullName: Pyruvic acid + Henry_CR: 5100.0 + Henry_K0: 3.14e+5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 88.07 + WD_RetFactor: 2.0e-2 +R4N1: + Formula: C4H8NO5 + FullName: Peroxy radical from R4N2 + Is_Gas: true + MW_g: 150.13 +R4N2: + DD_F0: 1.0 + DD_Hstar: 1.7e+4 + Formula: RO2NO + FullName: Lumped alkyl nitrate + Henry_CR: 5800.0 + Henry_K0: 1.0 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 119.10 + WD_RetFactor: 2.0e-2 +R4O2: + Formula: C4H9O2 + FullName: Peroxy radical from ALK4 + Is_Gas: true + MW_g: 89.13 +R4P: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3CH2CH2CH2OOH + FullName: Peroxide from R4O2 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 90.14 + WD_RetFactor: 2.0e-2 +RA3P: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3CH2CH2OOH + FullName: Peroxide from A3O2 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 76.11 + WD_RetFactor: 2.0e-2 +RB3P: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3CH(OOH)CH3 + FullName: Peroxide from B3O2 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 76.11 + WD_RetFactor: 2.0e-2 +RCHO: + Formula: CH3CH2CHO + FullName: Lumped aldehyde >= C3 + Henry_CR: 0.0 + Henry_K0: 1.0e+1 + Is_Advected: true + Is_Gas: true + Is_Photolysis: true + MW_g: 58.09 + WD_RetFactor: 2.0e-2 +RCO3: + Formula: CH3CH2C(O)OO + FullName: Peroxypropionyl radical + Is_Gas: true + MW_g: 89.08 +RCOOH: + Formula: C2H5C(O)OH + FullName: '> C2 organic acids' + Is_Gas: true + MW_g: 74.09 +RIPA: + DD_F0: 1.0 + DD_Hstar: 1.7e+6 + Formula: C5H10O3 + FullName: 1,2-ISOPOOH + Henry_CR: 0.0 + Henry_K0: 1.7e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 118.15 + WD_RetFactor: 2.0e-2 +RIPB: + DD_F0: 1.0 + DD_Hstar: 1.7e+6 + Formula: C5H10O3 + FullName: 4,3-ISOPOOH + Henry_CR: 0.0 + Henry_K0: 1.7e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 118.15 + WD_RetFactor: 2.0e-2 +RIPC: + DD_F0: 1.0 + DD_Hstar: 1.7e+6 + Formula: C5H10O3 + FullName: d-1,4-ISOPOOH + Henry_CR: 0.0 + Henry_K0: 1.7e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 118.15 + WD_RetFactor: 2.0e-2 +RIPD: + DD_F0: 1.0 + DD_Hstar: 1.7e+6 + Formula: C5H10O3 + FullName: d-4,1-ISOPOOH + Henry_CR: 0.0 + Henry_K0: 1.7e+6 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 118.15 + WD_RetFactor: 2.0e-2 +Rn222: + Formula: Rn222 + FullName: Radon-222 isotope + Is_Advected: true + Is_Aerosol: true + Is_RadioNuclide: true + Is_Tracer: true + MW_g: 222.0 +# Comment out tracer-specific code for now and use RnPbBe_mod.F90 +# Snk_Horiz: all +# Snk_Mode: efolding +# Snk_Period: 5.5 +# Snk_Vert: all +# Src_Add: true +# Src_Mode: HEMCO +# Src_Mode: decay_of_another_species +# Src_Species: Rn222 +ROH: + Formula: C3H7OH + FullName: '> C2 alcohols' + Is_Gas: true + MW_g: 60.11 +RP: + DD_F0: 1.0 + DD_Hstar: 2.94e+2 + Formula: CH3CH2C(O)OOH + FullName: Peroxide from RCO3 + Henry_CR: 5200.0 + Henry_K0: 2.94e+2 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 90.09 + WD_RetFactor: 2.0e-2 +S: + Formula: S + FullName: Atomic sulfur + MW_g: 32.06 +SALA: + << : *SALAproperties + FullName: Fine (0.01-0.05 microns) sea salt aerosol + Is_HygroGrowth: true + MW_g: 31.4 +SALAAL: + << : *SALAproperties + FullName: Accumulation mode sea salt alkalinity + Is_HygroGrowth: false + MW_g: 31.4 +SALACL: + << : *SALAproperties + FullName: Chloride in Accumulation mode sea salt aerosol + Is_HygroGrowth: false + MW_g: 35.45 +SALC: + << : *SALCproperties + FullName: Coarse (0.5-8 microns) sea salt aerosol + Is_HygroGrowth: true + MW_g: 31.4 + WD_CoarseAer: true +SALCAL: + << : *SALCproperties + FullName: Coarse mode sea salt alkalinity + Is_HygroGrowth: false + MW_g: 31.4 + WD_CoarseAer: true +SALCCL: + << : *SALCproperties + FullName: Chloride in Coarse mode sea salt aerosol + Is_HygroGrowth: false + MW_g: 35.45 + WD_CoarseAer: true +SF6: + Background_VV: 1.0e-20 + Formula: SF6 + FullName: Sulfur hexafluoride + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 146.06 + Snk_Mode: none + Src_Add: true + Src_Mode: HEMCO +SiF1: + << : *DST1properties + Fullname: Silicon on dust, Reff = 0.7 microns + MW_g: 28.09 + WD_CoarseAer: true +SiF2: + << : *DST2properties + Fullname: Silicon on dust, Reff = 1.4 microns + MW_g: 28.09 +SO2: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.2, 0.3] + DD_DvzMinVal_Luo: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 1.0e+5 + Formula: SO2 + FullName: Sulfur dioxide + Henry_CR_Luo: 3100.0 + Henry_K0_Luo: 1.22 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 64.04 + WD_AerScavEff: 1.0 + WD_Is_SO2: true + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] + WD_RetFactor_Luo: 5.0e-2 + WD_LiqAndGas_Luo: true + WD_ConvFacI2G_Luo: 6.17395e-1 +SO3mm: + Formula: SO3-- + FullName: Sulfite + Is_Gas: true + MW_g: 80.07 +SO4: + DD_DvzAerSnow: 0.03 + DD_DvzMinVal: [0.01, 0.01] + DD_F0: 0.0 + DD_Hstar: 0.0 + Density: 1700.0 + Formula: SO4 + FullName: Sulfate + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_HygroGrowth: true + Is_Photolysis: true + Is_WetDep: true + MW_g: 96.06 + WD_AerScavEff: 1.0 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [1.0, 0.0, 1.0] + WD_RainoutEff_Luo: [0.4, 0.0, 1.0] +SO4D1: + << : *DST1properties + FullName: Sulfate on dust, Reff = 0.7 microns + MW_g: 29.0 +SO4D2: + << : *DST2properties + FullName: Sulfate on dust, Reff = 1.4 microns + MW_g: 29.0 +SO4D3: + << : *DST3properties + FullName: Sulfate on dust, Reff = 2.4 microns + MW_g: 29.0 +SO4D4: + << : *DST4properties + FullName: Sulfate on dust, Reff = 4.5 microns + MW_g: 29.0 +SO4H1: + Formula: SO4 + FullName: Sulfate produced by HOBr + Is_Gas: true + MW_g: 96.06 +SO4H2: + Formula: SO4 + FullName: Sulfate produced by HOBr + Is_Gas: true + MW_g: 96.06 +SO4H3: + Formula: SO4 + FullName: Sulfate produced by HOCl + Is_Gas: true + MW_g: 96.06 +SO4H4: + Formula: SO4 + FullName: Sulfate produced by HOCl + Is_Gas: true + MW_g: 96.06 +SO4s: + << : *SALCproperties + FullName: Sulfate on surface of seasalt aerosol + MW_g: 31.4 + WD_CoarseAer: true +SOAGX: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C2H2O2 + FullName: Aerosol-phase glyoxal + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 58.04 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +SOAIE: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + Formula: C5H10O3 + FullName: Aerosol-phase IEPOX + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 118.15 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +SOAP: + FullName: SOA Precursor - lumped species for simplified SOA parameterization + Is_Advected: true + Is_Gas: true + MW_g: 150.0 +SOAS: + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: SOA Simple - simplified non-volatile SOA parameterization + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 150.0 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +st80_25: + FullName: Stratosphere source 25 day tracer + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Snk_Horiz: all + Snk_Mode: efolding + Snk_Period: 25 + Snk_Vert: troposphere + Src_Add: false + Src_Horiz: all + Src_Mode: constant + Src_Pressures: [0, 80] + Src_Units: ppbv + Src_Value: 200 + Src_Vert: pressures +stOX: + FullName: Tracer with O3 values in stratosphere and O3 loss applied in troposphere + Is_Advected: true + Is_Gas: true + Is_Tracer: true + MW_g: 1.0 # Use value of 1.0 to get past checks for missing MW_g + Loss_Species: O3 + Snk_Horiz: all + Snk_Mode: chemical_loss + Snk_Vert: troposphere + Src_Add: false + Src_Horiz: all + Src_Mode: model_field + Src_Vert: stratosphere +TiF1: + << : *DST1properties + Formula: Ti + Fullname: Titanium on dust, Reff = 0.7 microns + MW_g: 47.87 + WD_CoarseAer: true +TiF2: + << : *DST2properties + Formula: Ti + Fullname: Titanium on dust, Reff = 1.4 microns + MW_g: 47.87 +TOLU: + Formula: C7H8 + FullName: Toluene + Is_Advected: true + Is_Gas: true + MW_g: 92.15 +TRO2: + Formula: C7H9O5 + FullName: Peroxy radical from TOLU oxidation + Is_Gas: true + MW_g: 173.16 +TSOA_PROP: &TSOAproperties + DD_DvzAerSnow: 0.03 + DD_F0: 0.0 + DD_Hstar: 0.0 + FullName: Lumped semivolatile aerosol products of monoterpene + sesquiterpene oxidation + Is_Advected: true + Is_Aerosol: true + Is_DryDep: true + Is_WetDep: true + MW_g: 150.0 + WD_AerScavEff: 0.8 + WD_KcScaleFac: [1.0, 0.5, 1.0] + WD_RainoutEff: [0.8, 0.0, 0.8] + WD_RainoutEff_Luo: [0.4, 0.0, 0.8] +TSOA0: + << : *TSOAproperties +TSOA1: + << : *TSOAproperties +TSOA2: + << : *TSOAproperties +TSOA3: + << : *TSOAproperties +TSOG_PROP: &TSOGproperties + DD_F0: 0.0 + DD_Hstar: 1.0e+5 + FullName: Lumped semivolatile gas products of monoterpene + sesquiterpene oxidation + Henry_CR: 6039.0 + Henry_K0: 1.0e+5 + Is_Advected: true + Is_DryDep: true + Is_Gas: true + Is_WetDep: true + MW_g: 150.0 + WD_RetFactor: 2.0e-2 +TSOG0: + << : *TSOGproperties +TSOG1: + << : *TSOGproperties +TSOG2: + << : *TSOGproperties +TSOG3: + << : *TSOGproperties +XRO2: + Formula: C8H11O5 + FullName: Peroxy radical from TOLU oxidation + Is_Gas: true + MW_g: 187.19 +XYLE: + Formula: C8H10 + FullName: Xylene + Is_Advected: true + Is_Gas: true + MW_g: 106.18 From 0c1f5b94d53b5661214cfa50c5e3eee6de00cafa Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 16:00:09 +0000 Subject: [PATCH 02/36] Add dev utils --- {.github/dev => .dev}/config/HEMCO_Config.rc | 0 {.github/dev => .dev}/config/HEMCO_Diagn.rc | 0 {.github/dev => .dev}/config/HISTORY.rc | 0 .../dev => .dev}/config/geoschem_config.yml | 0 .../dev => .dev}/config/species_database.yml | 0 .dev/utils/DEBUGGING_FLAGS.patch | 61 ++++++++++ .dev/utils/build.sh | 106 ++++++++++++++++++ .dev/utils/run.sh | 53 +++++++++ .dev/utils/setup.sh | 42 +++++++ 9 files changed, 262 insertions(+) rename {.github/dev => .dev}/config/HEMCO_Config.rc (100%) rename {.github/dev => .dev}/config/HEMCO_Diagn.rc (100%) rename {.github/dev => .dev}/config/HISTORY.rc (100%) rename {.github/dev => .dev}/config/geoschem_config.yml (100%) rename {.github/dev => .dev}/config/species_database.yml (100%) create mode 100644 .dev/utils/DEBUGGING_FLAGS.patch create mode 100755 .dev/utils/build.sh create mode 100755 .dev/utils/run.sh create mode 100755 .dev/utils/setup.sh diff --git a/.github/dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc similarity index 100% rename from .github/dev/config/HEMCO_Config.rc rename to .dev/config/HEMCO_Config.rc diff --git a/.github/dev/config/HEMCO_Diagn.rc b/.dev/config/HEMCO_Diagn.rc similarity index 100% rename from .github/dev/config/HEMCO_Diagn.rc rename to .dev/config/HEMCO_Diagn.rc diff --git a/.github/dev/config/HISTORY.rc b/.dev/config/HISTORY.rc similarity index 100% rename from .github/dev/config/HISTORY.rc rename to .dev/config/HISTORY.rc diff --git a/.github/dev/config/geoschem_config.yml b/.dev/config/geoschem_config.yml similarity index 100% rename from .github/dev/config/geoschem_config.yml rename to .dev/config/geoschem_config.yml diff --git a/.github/dev/config/species_database.yml b/.dev/config/species_database.yml similarity index 100% rename from .github/dev/config/species_database.yml rename to .dev/config/species_database.yml diff --git a/.dev/utils/DEBUGGING_FLAGS.patch b/.dev/utils/DEBUGGING_FLAGS.patch new file mode 100644 index 0000000..74757c4 --- /dev/null +++ b/.dev/utils/DEBUGGING_FLAGS.patch @@ -0,0 +1,61 @@ +diff --git a/config/compiler.gfortran.mk b/config/compiler.gfortran.mk +index 007a335..3fdf8e4 100644 +--- a/config/compiler.gfortran.mk ++++ b/config/compiler.gfortran.mk +@@ -24,7 +24,7 @@ endif + + FMAKEDEP = $(SCRIPTS_DIR)/sfmakedepend + CPPFLAGS += -DCOMPILER_G95 +-FFLAGS = -g -cpp -fconvert=big-endian -O2 -fno-range-check -fallow-argument-mismatch ++FFLAGS = -g -cpp -fconvert=big-endian -O0 -Wall -fcheck=bounds -fcheck=do -fcheck=mem -fcheck=recursion -fbacktrace -fallow-argument-mismatch + F90FLAGS = $(FFLAGS) -ffree-line-length-none + LFLAGS = + ifeq ($(MP),YES) +diff --git a/config/rules.mk b/config/rules.mk +index d981c80..87ef4f2 100644 +--- a/config/rules.mk ++++ b/config/rules.mk +@@ -62,7 +62,7 @@ I = I + # by default assume that fortran compiler can do cpp + EXTERNAL_CPP = NO + # assume that C compiler understands basic gcc flags +-CFLAGS = -O2 ++CFLAGS = -O0 + # check if ABI was specified + ifneq ($(ABI),) + CFLAGS += -m$(ABI) +@@ -430,7 +430,7 @@ endif + $(CPP) $(CPPFLAGS) $< > $@ + + %.o: %.c +- $(CC) -c -O2 -m64 $< ++ $(CC) -c -O0 -Wall -fcheck=bounds -fcheck=do -fcheck=mem -fcheck=recursion -g -fbacktrace -fallow-argument-mismatch -m64 $< + + %.f: %.m4f + -rm -f $@ +diff --git a/decks/Makefile b/decks/Makefile +index 4d2791a..c167dc6 100644 +--- a/decks/Makefile ++++ b/decks/Makefile +@@ -140,7 +140,7 @@ ifeq ($(GC),YES) + -DCMAKE_Fortran_COMPILER="$(F90)" \ + -DCMAKE_Fortran_FLAGS="$(F90FLAGS)" \ + -DCMAKE_EXE_LINKER_FLAGS="$(CTM_LFLAGS)" +- cd $(GC_BUILD_DIR) && make -j install ++ cd $(GC_BUILD_DIR) && make VERBOSE=1 -j install + cp $(GC_BUILD_DIR)/mod/*.mod $(MODEL_DIR)/mod/ + cp $(GC_BUILD_DIR)/src/HEMCO/mod/*.mod $(MODEL_DIR)/mod/ + cp $(GC_BUILD_DIR)/src/Cloud-J/mod/*.mod $(MODEL_DIR)/mod/ +diff --git a/modele-control.pyar b/modele-control.pyar +index cf10239..1d78b27 100644 +--- a/modele-control.pyar ++++ b/modele-control.pyar +@@ -3447,7 +3447,7 @@ macro(modele_set_flags) + add_definitions(-DCOMPILER_G95) + # This breaks if you try to wrap the long line in the obvious way. + set (CMAKE_Fortran_FLAGS_RELEASE "${CPPFLAGS} -O2 -g -fconvert=big-endian -fno-range-check -ffree-line-length-none") +- set (CMAKE_Fortran_FLAGS_DEBUG "${CPPFLAGS} -O -g -fbacktrace -fconvert=big-endian -fno-range-check -ffree-line-length-none -fcheck=bounds -fcheck=do -fcheck=mem -fcheck=recursion") ++ set (CMAKE_Fortran_FLAGS_DEBUG "${CPPFLAGS} -O0 -g -fbacktrace -fconvert=big-endian -fno-range-check -ffree-line-length-none -fcheck=bounds -fcheck=do -fcheck=mem -fcheck=recursion") + + + if (CMAKE_BUILD_TYPE MATCHES Release) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh new file mode 100755 index 0000000..f061ad4 --- /dev/null +++ b/.dev/utils/build.sh @@ -0,0 +1,106 @@ +#!/usr/bin/bash + +# Set up the environment used by GISS-GC +# NOTE: Path may need to be edited for your system +source ${HOME}/software/GISS-GC/setup.sh + +# Default values +FRESH=false +OPENMP=false +GISS_ONLY=false +DEBUG=false + +# Function to display help text +show_help() { + echo "Usage: $0 [MP=YES|NO] [--openmp] [--giss-only] [-f] [--debug]" + echo + echo "Options:" + echo " --help Show this help message and exit." + echo " --openmp Compile with OpenMP enabled." + echo " --giss-only Build without GEOS-Chem coupling." + echo " -f Fresh rebuild of the model." + echo " --debug Run with debugging turned on." +} + +# Check for --help option +if [ "$1" = "--help" ]; then + show_help + exit 0 +fi + +# Parse arguments +for arg in "$@"; do + case $arg in + NP=*) + NP="${arg#*=}" + ;; + --openmp) + OPENMP=true + shift + ;; + -f) + FRESH=true + shift + ;; + --giss-only) + GISS_ONLY=true + shift + ;; + --debug) + DEBUG=true + shift + ;; + *) + echo "Unknown argument: $arg" + show_help + exit 1 + ;; + esac +done + +if [ "${GISS_ONLY}" = true ]; then + GC=NO + RUNID=GISS_ONLY +else + GC=YES + RUNID=GISS_GC_14 + # Copy over configuration files + HUGE_SPACE=${HOME}/data/giss-gc/huge_space/${RUNID} + PROD_RUNS=${HOME}/run/giss-gc/prod_runs/${RUNID} + for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do + ln -s -f ${GISS_HOME}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml + ln -s -f ${GISS_HOME}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc + ln -s -f ${GISS_HOME}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc + ln -s -f ${GISS_HOME}/HISTORY.rc ${RUNDIR}/HISTORY.rc + ln -s -f ${GISS_HOME}/species_database.yml ${RUNDIR}/species_database.yml + done + # Create output directories + mkdir -p ${HUGE_SPACE}/OutputDir + mkdir -p ${PROD_RUNS}/OutputDir +fi + +# Print the values for verification +echo "NP=${NP}" +echo "OPENMP=${OPENMP}" +echo "GC=${GC}" +echo "FRESH=${FRESH}" +echo "DEBUG=${DEBUG}" + +# Conditionally fresh rebuild of the model +cd ${GISS_HOME}/decks/ +cp ${GISS_HOME}/.github/rundecks/${RUNID}.R . +if [ "${FRESH}" = true ]; then + make clean + make clean_all +fi + +# Compile +if [ "${DEBUG}" = true ]; then + git apply .github/utils/DEBUGGING_FLAGS.patch + make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ + TYPE=Debug DEBUG=YES COMPILE_WITH_TRAPS=YES TRACEBACK=YES OVERWRITE=YES + git apply -R .github/utils/DEBUGGING_FLAGS.patch +else + make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ + TYPE=Release +fi diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh new file mode 100755 index 0000000..36b3444 --- /dev/null +++ b/.dev/utils/run.sh @@ -0,0 +1,53 @@ +#!/usr/bin/sh + +# Default values +NP=1 +GISS_ONLY=false + +# Function to display help text +show_help() { + echo "Usage: $0 [NP=] [--giss-only]" + echo + echo "Arguments:" + echo " NP Set number of MPI processes (default: 1). Must be an integer." + echo + echo "Options:" + echo " --help Show this help message and exit." + echo " --giss-only Build without GEOS-Chem coupling." +} + +# Check for --help option +if [ "$1" = "--help" ]; then + show_help + exit 0 +fi + +# Parse arguments +for arg in "$@"; do + case $arg in + NP=*) + NP="${arg#*=}" + ;; + --giss-only) + GISS_ONLY=true + shift + ;; + *) + echo "Unknown argument: $arg" + show_help + exit 1 + ;; + esac +done + +# Set RUNID appropriately +if [ "${GISS_ONLY}" = true ]; then + RUNID=GISS_ONLY +else + RUNID=GISS_GC_14 +fi + +# Navigate to the run directory and run the model for one hour +cd ~/run/giss-gc/prod_runs/${RUNID} +./${RUNID}ln +mpiexec -np ${NP} ./${RUNID}.exe -i I -cold-restart diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh new file mode 100755 index 0000000..187912c --- /dev/null +++ b/.dev/utils/setup.sh @@ -0,0 +1,42 @@ +#!/usr/bin/bash +# ============================================================================ # +# Activate the Python and spack environments used by GISS-GC. # +# ============================================================================ # + +# Envronment variables for GISS modelE +# NOTE: Path may need to be edited for your system +export GISS_HOME=${SOFTWARE}/GISS-GC +export ModelE_Support=${HOME}/run/giss-gc +mkdir -p ${ModelE_Support} +# Environment variables for compiler +export CC=gcc +export CXX=g++ +export FC=gfortran +export F90=${FC} +export F77=${FC} +# Misc. enviroment variables +export F_UFMTENDIAN=big +export KMP_STACKSIZE=100000000 +export OMP_NUM_THREADS=1 + +# Spack setup +spack env activate -p giss-gc +export MPI_ROOT=${HOME}/software/spack/opt/spack/linux-ubuntu22.04-skylake/gcc-11.4.0/openmpi-4.1.6-s3fu5gvaasgjy4jecnb6rvemx7oofexx + +# Environment variables for passing NetCDF-C paths to GEOS-Chem +export NETCDF_HOME=$(nc-config --prefix) +export GC_BIN=${NETCDF_HOME}/bin +export GC_INCLUDE=${NETCDF_HOME}/include +export GC_LIB=${NETCDF_HOME}/lib + +# Environment variables for passing NetCDF-Fortran paths to GEOS-Chem +export NETCDF_F_HOME=$(nf-config --prefix) +export GC_F_BIN=${NETCDF_F_HOME}/bin +export GC_F_INCLUDE=${NETCDF_F_HOME}/include +export GC_F_LIB=${NETCDF_F_HOME}/lib + +# GEOS-Chem input data +export ROOT=${DATA}/gcclassic/ExtData/HEMCO/ + +# Put tools in the path +export PATH=${SOFTWARE}/tools/mk_diags:${PATH} From 3ee66d9e172ceea5debb55bca6a1918d44905cf5 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 16:19:02 +0000 Subject: [PATCH 03/36] Notes and some generalisation --- .dev/utils/build.sh | 4 ++-- .dev/utils/run.sh | 2 +- .dev/utils/setup.sh | 11 +++++++---- 3 files changed, 10 insertions(+), 7 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index f061ad4..d865909 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -65,8 +65,8 @@ else GC=YES RUNID=GISS_GC_14 # Copy over configuration files - HUGE_SPACE=${HOME}/data/giss-gc/huge_space/${RUNID} - PROD_RUNS=${HOME}/run/giss-gc/prod_runs/${RUNID} + HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} + PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do ln -s -f ${GISS_HOME}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml ln -s -f ${GISS_HOME}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh index 36b3444..c59d459 100755 --- a/.dev/utils/run.sh +++ b/.dev/utils/run.sh @@ -48,6 +48,6 @@ else fi # Navigate to the run directory and run the model for one hour -cd ~/run/giss-gc/prod_runs/${RUNID} +cd ${ModelE_Support}/prod_runs/${RUNID} ./${RUNID}ln mpiexec -np ${NP} ./${RUNID}.exe -i I -cold-restart diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 187912c..605c83b 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -6,12 +6,13 @@ # Envronment variables for GISS modelE # NOTE: Path may need to be edited for your system export GISS_HOME=${SOFTWARE}/GISS-GC +# NOTE: Path may need to be edited for your system export ModelE_Support=${HOME}/run/giss-gc mkdir -p ${ModelE_Support} # Environment variables for compiler -export CC=gcc -export CXX=g++ -export FC=gfortran +export CC=gcc # NOTE: C compiler may need to be modified for your system +export CXX=g++ # NOTE: C++ compiler may need to be modified for your system +export FC=gfortran # NOTE: Fortran compiler may need to be modified for your system export F90=${FC} export F77=${FC} # Misc. enviroment variables @@ -20,8 +21,10 @@ export KMP_STACKSIZE=100000000 export OMP_NUM_THREADS=1 # Spack setup +# NOTE: This section may need to be edited for your setup spack env activate -p giss-gc -export MPI_ROOT=${HOME}/software/spack/opt/spack/linux-ubuntu22.04-skylake/gcc-11.4.0/openmpi-4.1.6-s3fu5gvaasgjy4jecnb6rvemx7oofexx +MPIF90=$(find ${SPACK_ENV} -name mpif90 | head -n 1) +export MPI_ROOT=${MPIF90%/bin/mpif90} # Environment variables for passing NetCDF-C paths to GEOS-Chem export NETCDF_HOME=$(nc-config --prefix) From 66b2dc6e82b4a971ef7238991d5aa5afd6782250 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 16:22:52 +0000 Subject: [PATCH 04/36] Add README --- .dev/README.md | 13 +++++++++++++ 1 file changed, 13 insertions(+) create mode 100644 .dev/README.md diff --git a/.dev/README.md b/.dev/README.md new file mode 100644 index 0000000..7d93e2a --- /dev/null +++ b/.dev/README.md @@ -0,0 +1,13 @@ +# Developer utils + +**CODE IN THIS SUBDIRECTORY IS NOT INTENDED FOR GENERAL USERS** + +Recommended approach: +``` +cp .dev/utils/*.sh . +source setup.sh +./build.sh --help +# Then build with the options you want +./run.sh --help +# Then run with the options you want +``` From 05e4ae744a023fd4d055d61a9199440ef5b52f57 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 16:22:59 +0000 Subject: [PATCH 05/36] Fix path to configs --- .dev/utils/build.sh | 11 ++++++----- 1 file changed, 6 insertions(+), 5 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index d865909..91acf66 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -67,12 +67,13 @@ else # Copy over configuration files HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} + CONFIG=${GISS_HOME}/.dev/config for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do - ln -s -f ${GISS_HOME}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml - ln -s -f ${GISS_HOME}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc - ln -s -f ${GISS_HOME}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc - ln -s -f ${GISS_HOME}/HISTORY.rc ${RUNDIR}/HISTORY.rc - ln -s -f ${GISS_HOME}/species_database.yml ${RUNDIR}/species_database.yml + ln -s -f ${CONFIG}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml + ln -s -f ${CONFIG}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc + ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc + ln -s -f ${CONFIG}/HISTORY.rc ${RUNDIR}/HISTORY.rc + ln -s -f ${CONFIG}/species_database.yml ${RUNDIR}/species_database.yml done # Create output directories mkdir -p ${HUGE_SPACE}/OutputDir From e7a4d1751c71aa6cdefa59db76387d92b34a6613 Mon Sep 17 00:00:00 2001 From: Joe Wallwork <22053413+jwallwork23@users.noreply.github.com> Date: Mon, 25 Nov 2024 16:27:08 +0000 Subject: [PATCH 06/36] Improve clarity of README.md --- .dev/README.md | 15 +++++++++++---- 1 file changed, 11 insertions(+), 4 deletions(-) diff --git a/.dev/README.md b/.dev/README.md index 7d93e2a..9f2a595 100644 --- a/.dev/README.md +++ b/.dev/README.md @@ -2,12 +2,19 @@ **CODE IN THIS SUBDIRECTORY IS NOT INTENDED FOR GENERAL USERS** -Recommended approach: +First, ensure that any existing `setup.sh`, `build.sh`, or `run.sh` scripts are backed up / moved to another location. +Alternatively, skip any step that isn't needed. + +Starting from the location where you cloned GISS-GC (i.e., `${GISS_HOME}`): ``` -cp .dev/utils/*.sh . +cp .dev/utils/setup.sh . source setup.sh + +cp .dev/utils/build.sh . ./build.sh --help -# Then build with the options you want +# This should show some options. Build with the options you want. + +cp .dev/utils/run.sh . ./run.sh --help -# Then run with the options you want +# This should show some options. Run with the options you want. ``` From 5996a0273cace818de4168a3d225f2cb9d5092e9 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 25 Nov 2024 17:22:21 +0000 Subject: [PATCH 07/36] Minor fix for intel compiler missed in #62 --- config/compiler.intel.mk | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/config/compiler.intel.mk b/config/compiler.intel.mk index 9f1fde9..a73a4fe 100644 --- a/config/compiler.intel.mk +++ b/config/compiler.intel.mk @@ -14,7 +14,7 @@ FFLAGS += -qopenmp F90FLAGS += -qopenmp LFLAGS += -qopenmp endif -CTM_FLAGS = $(LFLAGS) +CTM_LFLAGS = $(LFLAGS) ifeq ($(GC),YES) CTM_LFLAGS += -nostartfiles -nofor-main endif From f4a7d67e268b117d4a81ff8cd51f44d6f412644b Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 09:43:49 +0000 Subject: [PATCH 08/36] Improve README --- .dev/README.md | 35 ++++++++++++++++++++++++++++++----- 1 file changed, 30 insertions(+), 5 deletions(-) diff --git a/.dev/README.md b/.dev/README.md index 9f2a595..20088cb 100644 --- a/.dev/README.md +++ b/.dev/README.md @@ -2,19 +2,44 @@ **CODE IN THIS SUBDIRECTORY IS NOT INTENDED FOR GENERAL USERS** -First, ensure that any existing `setup.sh`, `build.sh`, or `run.sh` scripts are backed up / moved to another location. -Alternatively, skip any step that isn't needed. +This directory contains three shell scripts that streamline the development +process, as described in the following. -Starting from the location where you cloned GISS-GC (i.e., `${GISS_HOME}`): +The first one is the `setup.sh` script, which sets up your environment for +building and running GISS-GC. This includes setting environment variables +and activating a Spack environment. It's likely that this script will need +some modification to be usable on your system. (Open the script and check the +parts marked by `NOTE`.) To use the `setup.sh` script, navigate to the directory +where you cloned GISS-GC (which is set as `${GISS_HOME}` in the script) and run ``` cp .dev/utils/setup.sh . source setup.sh +``` +The second utility is the `build.sh` script, which builds the model with given +configuration options. From the same location, run +``` cp .dev/utils/build.sh . ./build.sh --help -# This should show some options. Build with the options you want. +``` +This should print some help text to the screen that describes what options may +be passed to the script and what they mean. The options can be combined. For +example, running +``` +./build.sh --giss-only -f +``` +will build GISS Model E *without* GEOS-Chem support and it will remove any +existing builds before doing so. Note that if you run the build script once with +the `--giss-only` option and once without then it will create two separate +builds. + +The third utility is the `run.sh` script, which runs a model configuration that +has been built. +Again, you may run the following to get help text on how to use this script: +``` cp .dev/utils/run.sh . ./run.sh --help -# This should show some options. Run with the options you want. ``` +Note that in order to run the model with `--giss-only` or not, you will need to +have built the model in the same way. From b77342a511ae11aceebcebe4344f4f58f34192ea Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 09:48:59 +0000 Subject: [PATCH 09/36] Add text on config files, too --- .dev/README.md | 26 ++++++++++++++++++++++---- 1 file changed, 22 insertions(+), 4 deletions(-) diff --git a/.dev/README.md b/.dev/README.md index 20088cb..4b365d5 100644 --- a/.dev/README.md +++ b/.dev/README.md @@ -1,9 +1,11 @@ -# Developer utils +# Developer Zone -**CODE IN THIS SUBDIRECTORY IS NOT INTENDED FOR GENERAL USERS** +**NOTE: CODE IN THIS SUBDIRECTORY IS NOT INTENDED FOR GENERAL USERS** -This directory contains three shell scripts that streamline the development -process, as described in the following. +## Developer utilities + +The `.dev/utils` subdirectory contains three shell scripts that streamline the +development process, as described in the following. The first one is the `setup.sh` script, which sets up your environment for building and running GISS-GC. This includes setting environment variables @@ -43,3 +45,19 @@ cp .dev/utils/run.sh . ``` Note that in order to run the model with `--giss-only` or not, you will need to have built the model in the same way. + +## Configuration scripts + +The `.dev/config` subdirectory contains five configuration files for GEOS-Chem +and the HEMCO emissions module that provide good starting points for GISS-GC +development. (Again, these are not intended for general users as they may not +produce scientifically interesting output.) The configuration scripts are +automatically picked up by the developer utility scripts mentioned in the +previous section. + +The configuration scripts are: +* `geoschem_config.yml` - top level configuration file for GEOS-Chem. +* `HEMCO_Config.rc` - top level configuration file for HEMCO. +* `HISTORY.rc` - output configuration for GEOS-Chem. +* `HEMCO_Diagn.rc` - output configuration for HEMCO. +* `species_database.yml` - configuration file for species used by GEOS-Chem. From f4ae8bd50656440c71fb6131dc5675f81b37e92d Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 09:51:10 +0000 Subject: [PATCH 10/36] NOTEs for modifications --- .dev/utils/build.sh | 4 ---- .dev/utils/setup.sh | 1 + 2 files changed, 1 insertion(+), 4 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 91acf66..317ef2c 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -1,9 +1,5 @@ #!/usr/bin/bash -# Set up the environment used by GISS-GC -# NOTE: Path may need to be edited for your system -source ${HOME}/software/GISS-GC/setup.sh - # Default values FRESH=false OPENMP=false diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 605c83b..9220857 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -39,6 +39,7 @@ export GC_F_INCLUDE=${NETCDF_F_HOME}/include export GC_F_LIB=${NETCDF_F_HOME}/lib # GEOS-Chem input data +# NOTE: Path may need to be edited for your system export ROOT=${DATA}/gcclassic/ExtData/HEMCO/ # Put tools in the path From fb40de53832b111a5dabadd8a815f263b8487b48 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 09:56:21 +0000 Subject: [PATCH 11/36] Add headers for build and run scripts --- .dev/utils/build.sh | 3 +++ .dev/utils/run.sh | 3 +++ 2 files changed, 6 insertions(+) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 317ef2c..3b8d11f 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -1,4 +1,7 @@ #!/usr/bin/bash +# ============================================================================ # +# Build GISS Model E with (or without) GEOS-Chem support. # +# ============================================================================ # # Default values FRESH=false diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh index c59d459..3276569 100755 --- a/.dev/utils/run.sh +++ b/.dev/utils/run.sh @@ -1,4 +1,7 @@ #!/usr/bin/sh +# ============================================================================ # +# Run GISS Model E with (or without) GEOS-Chem support. # +# ============================================================================ # # Default values NP=1 From aee1211c001df43aac162b8a63a557a6a9a2336e Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 09:59:21 +0000 Subject: [PATCH 12/36] Use build script in CI --- .github/workflows/test_suite.yml | 22 +++++++--------------- 1 file changed, 7 insertions(+), 15 deletions(-) diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index 04d1307..6b340a9 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -116,26 +116,21 @@ jobs: - name: Build GISS with GISS_ONLY rundeck run: | . /opt/spack-environment/activate.sh - export RUNID=GISS_ONLY # Environment variables for passing NetCDF-C and NetCDF-Fortran export NETCDF_HOME=$(nc-config --prefix) export NETCDF_F_HOME=$(nf-config --prefix) # Environment variable for OpenMPI build MPIF90=$(find /opt/software -name mpif90 | head -n 1) export MPI_ROOT=${MPIF90%/bin/mpif90} - # Copy over rundeck and modelErc - cp .github/rundecks/${RUNID}.R decks + # Copy over modelErc cp .github/modelErc ~/.modelErc - # Build the model - cd ${GISS_HOME}/decks - make clean - make clean_all - make -j setup RUN=${RUNID} F90=mpif90 GC=NO MECH=carbon + # Build the model without GEOS-Chem support + cp .dev/utils/build.sh . + ./build.sh --giss-only - name: Build GISS-GC with GISS_GC_14 rundeck run: | . /opt/spack-environment/activate.sh - export RUNID=GISS_GC_14 # Environment variables for passing NetCDF-C paths to GEOS-Chem export NETCDF_HOME=$(nc-config --prefix) export GC_BIN=${NETCDF_HOME}/bin @@ -149,11 +144,8 @@ jobs: # Environment variable for OpenMPI build MPIF90=$(find /opt/software -name mpif90 | head -n 1) export MPI_ROOT=${MPIF90%/bin/mpif90} - # Copy over rundeck and modelErc - cp .github/rundecks/${RUNID}.R decks + # Copy over modelErc cp .github/modelErc ~/.modelErc # Build the model - cd ${GISS_HOME}/decks - make clean - make clean_all - make -j setup RUN=${RUNID} F90=mpif90 GC=YES MECH=carbon + cp .dev/utils/build.sh . + ./build.sh From 057f75cb98c8992dd4e7fb3bb4ea2ffcb3950d10 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 11:29:18 +0000 Subject: [PATCH 13/36] Reorder build to set up configuration files afterwards --- .dev/utils/build.sh | 31 +++++++++++++++++-------------- 1 file changed, 17 insertions(+), 14 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 3b8d11f..3f2e1de 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -63,20 +63,6 @@ if [ "${GISS_ONLY}" = true ]; then else GC=YES RUNID=GISS_GC_14 - # Copy over configuration files - HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} - PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} - CONFIG=${GISS_HOME}/.dev/config - for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do - ln -s -f ${CONFIG}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml - ln -s -f ${CONFIG}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc - ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc - ln -s -f ${CONFIG}/HISTORY.rc ${RUNDIR}/HISTORY.rc - ln -s -f ${CONFIG}/species_database.yml ${RUNDIR}/species_database.yml - done - # Create output directories - mkdir -p ${HUGE_SPACE}/OutputDir - mkdir -p ${PROD_RUNS}/OutputDir fi # Print the values for verification @@ -104,3 +90,20 @@ else make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Release fi + +if [ "${GISS_ONLY}" = false ]; then + # Copy over configuration files + HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} + PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} + CONFIG=${GISS_HOME}/.dev/config + for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do + ln -s -f ${CONFIG}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml + ln -s -f ${CONFIG}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc + ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc + ln -s -f ${CONFIG}/HISTORY.rc ${RUNDIR}/HISTORY.rc + ln -s -f ${CONFIG}/species_database.yml ${RUNDIR}/species_database.yml + done + # Create output directories + mkdir -p ${HUGE_SPACE}/OutputDir + mkdir -p ${PROD_RUNS}/OutputDir +fi From 0c08d8bc55f90859dc0d9013bc6ba1127771bd4e Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 11:36:05 +0000 Subject: [PATCH 14/36] Fix path to debugging flags --- .dev/utils/build.sh | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 3f2e1de..a2a8319 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -82,10 +82,10 @@ fi # Compile if [ "${DEBUG}" = true ]; then - git apply .github/utils/DEBUGGING_FLAGS.patch + git apply ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Debug DEBUG=YES COMPILE_WITH_TRAPS=YES TRACEBACK=YES OVERWRITE=YES - git apply -R .github/utils/DEBUGGING_FLAGS.patch + git apply -R ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch else make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Release From b5795c13316a9e217e776042e49b055c07181762 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 11:38:07 +0000 Subject: [PATCH 15/36] Add CI job for debug mode --- .github/workflows/test_suite.yml | 22 ++++++++++++++++++++++ 1 file changed, 22 insertions(+) diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index 6b340a9..eee5801 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -149,3 +149,25 @@ jobs: # Build the model cp .dev/utils/build.sh . ./build.sh + + - name: Build GISS-GC with GISS_GC_14 rundeck in debug mode + run: | + . /opt/spack-environment/activate.sh + # Environment variables for passing NetCDF-C paths to GEOS-Chem + export NETCDF_HOME=$(nc-config --prefix) + export GC_BIN=${NETCDF_HOME}/bin + export GC_INCLUDE=${NETCDF_HOME}/include + export GC_LIB=${NETCDF_HOME}/lib + # Environment variables for passing NetCDF-Fortran paths to GEOS-Chem + export NETCDF_F_HOME=$(nf-config --prefix) + export GC_F_BIN=${NETCDF_F_HOME}/bin + export GC_F_INCLUDE=${NETCDF_F_HOME}/include + export GC_F_LIB=${NETCDF_F_HOME}/lib + # Environment variable for OpenMPI build + MPIF90=$(find /opt/software -name mpif90 | head -n 1) + export MPI_ROOT=${MPIF90%/bin/mpif90} + # Copy over modelErc + cp .github/modelErc ~/.modelErc + # Remove the previous build and rebuild the model in debug mode + cp .dev/utils/build.sh . + ./build.sh -f --debug From 0bfb776d25eaaf6a3dec598c67c530921330c46e Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 12:57:24 +0000 Subject: [PATCH 16/36] Copy rundeck for debug mode --- .dev/utils/build.sh | 2 ++ .github/workflows/test_suite.yml | 4 ++-- 2 files changed, 4 insertions(+), 2 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index a2a8319..af98f0e 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -82,6 +82,8 @@ fi # Compile if [ "${DEBUG}" = true ]; then + ln -s -f $(pwd)/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R + RUNID="${RUNID}_DEBUG" git apply ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Debug DEBUG=YES COMPILE_WITH_TRAPS=YES TRACEBACK=YES OVERWRITE=YES diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index eee5801..0b8448f 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -168,6 +168,6 @@ jobs: export MPI_ROOT=${MPIF90%/bin/mpif90} # Copy over modelErc cp .github/modelErc ~/.modelErc - # Remove the previous build and rebuild the model in debug mode + # Build the model in debug mode cp .dev/utils/build.sh . - ./build.sh -f --debug + ./build.sh --debug From 7a641a09e0bb31ec1c86468f98909a6770524dee Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 12:57:32 +0000 Subject: [PATCH 17/36] Raise error if scripts fail --- .dev/utils/build.sh | 4 +++- .dev/utils/run.sh | 2 ++ .dev/utils/setup.sh | 2 ++ 3 files changed, 7 insertions(+), 1 deletion(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index af98f0e..2f1d348 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -3,6 +3,8 @@ # Build GISS Model E with (or without) GEOS-Chem support. # # ============================================================================ # +set -e + # Default values FRESH=false OPENMP=false @@ -74,7 +76,7 @@ echo "DEBUG=${DEBUG}" # Conditionally fresh rebuild of the model cd ${GISS_HOME}/decks/ -cp ${GISS_HOME}/.github/rundecks/${RUNID}.R . +ln -s -f ${GISS_HOME}/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}.R if [ "${FRESH}" = true ]; then make clean make clean_all diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh index 3276569..9d732fc 100755 --- a/.dev/utils/run.sh +++ b/.dev/utils/run.sh @@ -3,6 +3,8 @@ # Run GISS Model E with (or without) GEOS-Chem support. # # ============================================================================ # +set -e + # Default values NP=1 GISS_ONLY=false diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 9220857..d79d746 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -3,6 +3,8 @@ # Activate the Python and spack environments used by GISS-GC. # # ============================================================================ # +set -e + # Envronment variables for GISS modelE # NOTE: Path may need to be edited for your system export GISS_HOME=${SOFTWARE}/GISS-GC From d54f50f2f5451291c40d98dd65e89c3d769aeba6 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 12:59:43 +0000 Subject: [PATCH 18/36] Symlink config files into GISS_HOME, too --- .dev/utils/build.sh | 12 ++++++------ 1 file changed, 6 insertions(+), 6 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 2f1d348..e7651e1 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -100,12 +100,12 @@ if [ "${GISS_ONLY}" = false ]; then HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} CONFIG=${GISS_HOME}/.dev/config - for RUNDIR in ${HUGE_SPACE} ${PROD_RUNS}; do - ln -s -f ${CONFIG}/geoschem_config.yml ${RUNDIR}/geoschem_config.yml - ln -s -f ${CONFIG}/HEMCO_Config.rc ${RUNDIR}/HEMCO_Config.rc - ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${RUNDIR}/HEMCO_Diagn.rc - ln -s -f ${CONFIG}/HISTORY.rc ${RUNDIR}/HISTORY.rc - ln -s -f ${CONFIG}/species_database.yml ${RUNDIR}/species_database.yml + for DIR in ${GISS_HOME} ${HUGE_SPACE} ${PROD_RUNS}; do + ln -s -f ${CONFIG}/geoschem_config.yml ${DIR}/geoschem_config.yml + ln -s -f ${CONFIG}/HEMCO_Config.rc ${DIR}/HEMCO_Config.rc + ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${DIR}/HEMCO_Diagn.rc + ln -s -f ${CONFIG}/HISTORY.rc ${DIR}/HISTORY.rc + ln -s -f ${CONFIG}/species_database.yml ${DIR}/species_database.yml done # Create output directories mkdir -p ${HUGE_SPACE}/OutputDir From 639e0ceb60d2a377613cd4bea651baa261c84f9f Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 13:03:12 +0000 Subject: [PATCH 19/36] Drop options that we don't have inputs for --- .dev/config/HEMCO_Config.rc | 62 ++++++++++++++++++------------------- 1 file changed, 31 insertions(+), 31 deletions(-) diff --git a/.dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc index b43f04f..300c3e2 100644 --- a/.dev/config/HEMCO_Config.rc +++ b/.dev/config/HEMCO_Config.rc @@ -62,20 +62,20 @@ VerboseOnCores: root # Accepted values: root all --> NEI2016_MONMEAN : false # 2002-2020 --> DICE_Africa : false # 2013 # ----- GLOBAL INVENTORIES ---------------------------------------------------- - --> CEDSv2 : true # 1750-2019 + --> CEDSv2 : false # 1750-2019 --> CEDS_GBDMAPS : false # 1970-2017 --> CEDS_GBDMAPS_byFuelType: false # 1970-2017 --> EDGARv43 : false # 1970-2010 --> HTAPv3 : false # 2000-2018 - --> GEIA_NH3 : true # 1990 - --> SEABIRD_NH3 : true # 1990 + --> GEIA_NH3 : false # 1990 + --> SEABIRD_NH3 : false # 1990 --> POET_EOH : false # 1985 - --> TZOMPASOSA_C2H6 : true # 2010 - --> XIAO_C3H8 : true # 1985 - --> LIANG_BROMOCARB : true # 2000 - --> ORDONEZ_IODOCARB : true # 2000 - --> DECAYING_PLANTS : true # 1985 - --> AFCID : true # 2015 + --> TZOMPASOSA_C2H6 : false # 2010 + --> XIAO_C3H8 : false # 1985 + --> LIANG_BROMOCARB : false # 2000 + --> ORDONEZ_IODOCARB : false # 2000 + --> DECAYING_PLANTS : false # 1985 + --> AFCID : false # 2015 # ----- AIRCRAFT EMISSIONS ---------------------------------------------------- # There are 3 switches: # @@ -107,11 +107,11 @@ VerboseOnCores: root # Accepted values: root all # See additional notes in the AEIC scale factor section below. #------------------------------------------------------------------------------ --> AEIC2019_DAILY : false # 2019 (daily data) - --> AEIC2019_MONMEAN : true # 2019 (monthly-mean data) - --> AEIC_SCALE_1990_2019 : true # Scale to year in 1990-2019 + --> AEIC2019_MONMEAN : false # 2019 (monthly-mean data) + --> AEIC_SCALE_1990_2019 : false # Scale to year in 1990-2019 # ----- SHIP EMISSIONS -------------------------------------------------------- - --> SHIP : true - --> CEDSv2_SHIP : true # 1750-2017 + --> SHIP : false + --> CEDSv2_SHIP : false # 1750-2017 --> CEDS_GBDMAPS_SHIP : false # 1970-2017 --> CEDS_GBDMAPS_SHIP_byFuelType: false # 1970-2017 --> HTAPv3_SHIP : false # 2000-2018 @@ -146,31 +146,31 @@ VerboseOnCores: root # Accepted values: root all # update ExtNr and Cat in HEMCO_Diagn.rc to properly save out emissions for # any affected species. #------------------------------------------------------------------------------ - --> OFFLINE_DUST : true # 1980-2019 - --> OFFLINE_BIOGENICVOC : true # 1980-2020 - --> OFFLINE_SEASALT : true # 1980-2019 - --> CalcBrSeasalt : true - --> OFFLINE_SOILNOX : true # 1980-2020 + --> OFFLINE_DUST : false # 1980-2019 + --> OFFLINE_BIOGENICVOC : false # 1980-2020 + --> OFFLINE_SEASALT : false # 1980-2019 + --> CalcBrSeasalt : false + --> OFFLINE_SOILNOX : false # 1980-2020 # ----- NON-EMISSIONS DATA ---------------------------------------------------- - --> UVALBEDO : true # 1985 + --> UVALBEDO : false # 1985 --> CCM_STRAT_Bry : false # 2007 --> GMI_OH : false # 2005 --> GMI_PROD_LOSS : false # 2005 --> OMOC_RATIO : false # 2010 - --> GMD_SFC_CH4 : true # 1979-2020 + --> GMD_SFC_CH4 : false # 1979-2020 --> CMIP6_SFC_CH4 : false # 1750-1978 - --> OLSON_LANDMAP : true # 1985 + --> OLSON_LANDMAP : false # 1985 --> YUAN_MODIS_LAI : true # 2000-2020 --> RRTMG : false # 2002 - --> SfcVMR : true # 1750-2014 - --> OCEAN_O3_DRYDEP : true # 1985 + --> SfcVMR : false # 1750-2014 + --> OCEAN_O3_DRYDEP : false # 1985 # ----------------------------------------------------------------------------- 100 Custom : off - -101 SeaFlux : on DMS/ACET/ALD2/MENO3/ETNO3/MOH -102 ParaNOx : on NO/NO2/O3/HNO3 +101 SeaFlux : off DMS/ACET/ALD2/MENO3/ETNO3/MOH +102 ParaNOx : off NO/NO2/O3/HNO3 --> LUT data format : nc --> LUT source dir : $ROOT/PARANOX/v2015-02 -103 LightNOx : on NO +103 LightNOx : off NO --> LightningClimatology : false --> CDF table : $ROOT/LIGHTNOX/v2014-07/light_dist.ott2010.dat 104 SoilNOx : off NO @@ -194,7 +194,7 @@ VerboseOnCores: root # Accepted values: root all --> N per snowflake : 5.0 --> Model sea salt Br- : true --> Br- mass ratio : 2.11e-3 -108 MEGAN : on ISOP/ACET/PRPE/C2H4/ALD2/MOH/EOH/MTPA/MTPO/LIMO/SESQ/SOAP/SOAS +108 MEGAN : off ISOP/ACET/PRPE/C2H4/ALD2/MOH/EOH/MTPA/MTPO/LIMO/SESQ/SOAP/SOAS --> Isoprene scaling : 1.0 --> CO2 inhibition : true --> CO2 conc (ppmv) : 390.0 @@ -204,8 +204,8 @@ VerboseOnCores: root # Accepted values: root all --> Monoterp to SOAS : 0.050 --> Othrterp to SOAP : 0.050 --> Othrterp to SOAS : 0.050 -111 GFED : on NO/CO/ALK4/ACET/MEK/ALD2/PRPE/C2H2/C2H4/C3H8/CH2O/C2H6/SO2/NH3/BCPO/BCPI/OCPO/OCPI/POG1/POG2/MTPA/BENZ/TOLU/XYLE/NAP/EOH/MOH/SOAP/FURA/PHEN/MVK/ISOP/ACTA/MGLY/GLYX/RCHO - --> GFED4 : true +111 GFED : off NO/CO/ALK4/ACET/MEK/ALD2/PRPE/C2H2/C2H4/C3H8/CH2O/C2H6/SO2/NH3/BCPO/BCPI/OCPO/OCPI/POG1/POG2/MTPA/BENZ/TOLU/XYLE/NAP/EOH/MOH/SOAP/FURA/PHEN/MVK/ISOP/ACTA/MGLY/GLYX/RCHO + --> GFED4 : true --> GFED_daily : false --> GFED_3hourly : false --> Scaling_CO : 1.05 @@ -224,11 +224,11 @@ VerboseOnCores: root # Accepted values: root all --> hydrophilic OC : 0.5 --> FINN_subgrid_coag : false 115 DustAlk : off DSTAL1/DSTAL2/DSTAL3/DSTAL4 -117 Volcano : on SO2 +117 Volcano : off SO2 --> Volcano_Source : AeroCom --> Volcano_Table : $ROOT/VOLCANO/v2021-09/$YYYY/$MM/so2_volcanic_emissions_Carns.$YYYY$MM$DD.rc --> Volcano_Climatology : $ROOT/VOLCANO/v2021-09/so2_volcanic_emissions_CARN_v202005.degassing_only.rc -120 Inorg_Iodine : on HOI/I2 +120 Inorg_Iodine : off HOI/I2 --> Emit HOI : true --> Emit I2 : true 130 TOMAS_Jeagle : off SS01/SS02/SS03/SS04/SS05/SS06/SS07/SS08/SS09/SS10/SS11/SS12/SS13/SS14/SS15/SS16/SS17/SS18/SS19/SS20/SS21/SS22/SS23/SS24/SS25/SS26/SS27/SS28/SS29/SS30/SS31/SS32/SS33/SS34/SS35/SS36/SS37/SS38/SS39/SS40 From 70a3d0c2237d0c1c7811db2be6d15112695d837c Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 27 Nov 2024 13:17:22 +0000 Subject: [PATCH 20/36] Add debug option for run script --- .dev/README.md | 5 +++-- .dev/config/HEMCO_Config.rc | 4 ++-- .dev/utils/run.sh | 10 ++++++++++ 3 files changed, 15 insertions(+), 4 deletions(-) diff --git a/.dev/README.md b/.dev/README.md index 4b365d5..b9c6ab8 100644 --- a/.dev/README.md +++ b/.dev/README.md @@ -33,7 +33,8 @@ example, running will build GISS Model E *without* GEOS-Chem support and it will remove any existing builds before doing so. Note that if you run the build script once with the `--giss-only` option and once without then it will create two separate -builds. +builds. Similarly for `--debug`, which symlinks the rundeck but renames it as +`${RUNID}_DEBUG.R`. The third utility is the `run.sh` script, which runs a model configuration that has been built. @@ -44,7 +45,7 @@ cp .dev/utils/run.sh . ./run.sh --help ``` Note that in order to run the model with `--giss-only` or not, you will need to -have built the model in the same way. +have built the model in the same way. Similarly for `--debug`. ## Configuration scripts diff --git a/.dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc index 300c3e2..9a4f781 100644 --- a/.dev/config/HEMCO_Config.rc +++ b/.dev/config/HEMCO_Config.rc @@ -152,7 +152,7 @@ VerboseOnCores: root # Accepted values: root all --> CalcBrSeasalt : false --> OFFLINE_SOILNOX : false # 1980-2020 # ----- NON-EMISSIONS DATA ---------------------------------------------------- - --> UVALBEDO : false # 1985 + --> UVALBEDO : true # 1985 --> CCM_STRAT_Bry : false # 2007 --> GMI_OH : false # 2005 --> GMI_PROD_LOSS : false # 2005 @@ -160,7 +160,7 @@ VerboseOnCores: root # Accepted values: root all --> GMD_SFC_CH4 : false # 1979-2020 --> CMIP6_SFC_CH4 : false # 1750-1978 --> OLSON_LANDMAP : false # 1985 - --> YUAN_MODIS_LAI : true # 2000-2020 + --> YUAN_MODIS_LAI : false # 2000-2020 --> RRTMG : false # 2002 --> SfcVMR : false # 1750-2014 --> OCEAN_O3_DRYDEP : false # 1985 diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh index 9d732fc..942ed69 100755 --- a/.dev/utils/run.sh +++ b/.dev/utils/run.sh @@ -8,6 +8,7 @@ set -e # Default values NP=1 GISS_ONLY=false +DEBUG=false # Function to display help text show_help() { @@ -19,6 +20,7 @@ show_help() { echo "Options:" echo " --help Show this help message and exit." echo " --giss-only Build without GEOS-Chem coupling." + echo " --debug Run with debugging turned on." } # Check for --help option @@ -37,6 +39,10 @@ for arg in "$@"; do GISS_ONLY=true shift ;; + --debug) + DEBUG=true + shift + ;; *) echo "Unknown argument: $arg" show_help @@ -51,6 +57,10 @@ if [ "${GISS_ONLY}" = true ]; then else RUNID=GISS_GC_14 fi +if [ "${DEBUG}" = true ]; then + ln -s -f $(pwd)/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R + RUNID="${RUNID}_DEBUG" +fi # Navigate to the run directory and run the model for one hour cd ${ModelE_Support}/prod_runs/${RUNID} From 43b8379f97d98643159eaa5a666c902b61bac066 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Fri, 29 Nov 2024 09:36:40 +0000 Subject: [PATCH 21/36] More standard path for GISS_HOME --- .dev/utils/setup.sh | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index d79d746..5515394 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -7,7 +7,7 @@ set -e # Envronment variables for GISS modelE # NOTE: Path may need to be edited for your system -export GISS_HOME=${SOFTWARE}/GISS-GC +export GISS_HOME=${HOME}/software/GISS-GC # NOTE: Path may need to be edited for your system export ModelE_Support=${HOME}/run/giss-gc mkdir -p ${ModelE_Support} From c6735716f633bf13dd56094c312636430df1640e Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Fri, 29 Nov 2024 11:22:30 +0000 Subject: [PATCH 22/36] Account for restart file --- .dev/utils/build.sh | 8 +++++--- .dev/utils/setup.sh | 3 ++- .github/workflows/test_suite.yml | 2 ++ 3 files changed, 9 insertions(+), 4 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index e7651e1..6001e42 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -98,9 +98,8 @@ fi if [ "${GISS_ONLY}" = false ]; then # Copy over configuration files HUGE_SPACE=${ModelE_Support}/huge_space/${RUNID} - PROD_RUNS=${ModelE_Support}/prod_runs/${RUNID} CONFIG=${GISS_HOME}/.dev/config - for DIR in ${GISS_HOME} ${HUGE_SPACE} ${PROD_RUNS}; do + for DIR in ${GISS_HOME} ${HUGE_SPACE}; do ln -s -f ${CONFIG}/geoschem_config.yml ${DIR}/geoschem_config.yml ln -s -f ${CONFIG}/HEMCO_Config.rc ${DIR}/HEMCO_Config.rc ln -s -f ${CONFIG}/HEMCO_Diagn.rc ${DIR}/HEMCO_Diagn.rc @@ -109,5 +108,8 @@ if [ "${GISS_ONLY}" = false ]; then done # Create output directories mkdir -p ${HUGE_SPACE}/OutputDir - mkdir -p ${PROD_RUNS}/OutputDir + # Setup restarts + mkdir -p ${HUGE_SPACE}/Restarts + ln -s -f ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 \ + ${HUGE_SPACE}/Restarts/GEOSChem.Restart.20190701_0000z.nc4 fi diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 5515394..3c335e6 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -42,7 +42,8 @@ export GC_F_LIB=${NETCDF_F_HOME}/lib # GEOS-Chem input data # NOTE: Path may need to be edited for your system -export ROOT=${DATA}/gcclassic/ExtData/HEMCO/ +export GC_INPUTS=${HOME}/data/gcclassic +export ROOT=${GC_INPUTS}/ExtData/HEMCO/ # Put tools in the path export PATH=${SOFTWARE}/tools/mk_diags:${PATH} diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index 0b8448f..c368535 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -112,6 +112,8 @@ jobs: touch ${DATA}/nudging/merra2/vwnd.2015.MERRA2onGISSE2.nc4 touch ${DATA}/nudging/merra2/uwnd.2016.MERRA2onGISSE2.nc4 touch ${DATA}/nudging/merra2/vwnd.2016.MERRA2onGISSE2.nc4 + mkdir -p ${DATA}/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0 + touch ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 - name: Build GISS with GISS_ONLY rundeck run: | From 3136d6ced2e80cc66df745c3285a10f96ba67825 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Fri, 29 Nov 2024 11:35:27 +0000 Subject: [PATCH 23/36] Fix path for restart file in CI --- .github/workflows/test_suite.yml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index c368535..b1fb894 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -113,7 +113,7 @@ jobs: touch ${DATA}/nudging/merra2/uwnd.2016.MERRA2onGISSE2.nc4 touch ${DATA}/nudging/merra2/vwnd.2016.MERRA2onGISSE2.nc4 mkdir -p ${DATA}/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0 - touch ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 + touch ${HOME}/data/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 - name: Build GISS with GISS_ONLY rundeck run: | From 0b7918556638279dd911cb38ab8444ead9a2d1fe Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Fri, 29 Nov 2024 13:00:56 +0000 Subject: [PATCH 24/36] Another attempt to fix paths --- .dev/utils/setup.sh | 2 +- .github/workflows/test_suite.yml | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 3c335e6..9f7c9dd 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -42,7 +42,7 @@ export GC_F_LIB=${NETCDF_F_HOME}/lib # GEOS-Chem input data # NOTE: Path may need to be edited for your system -export GC_INPUTS=${HOME}/data/gcclassic +export GC_INPUTS=${DATA}/gcclassic export ROOT=${GC_INPUTS}/ExtData/HEMCO/ # Put tools in the path diff --git a/.github/workflows/test_suite.yml b/.github/workflows/test_suite.yml index b1fb894..b3fc46c 100644 --- a/.github/workflows/test_suite.yml +++ b/.github/workflows/test_suite.yml @@ -113,7 +113,7 @@ jobs: touch ${DATA}/nudging/merra2/uwnd.2016.MERRA2onGISSE2.nc4 touch ${DATA}/nudging/merra2/vwnd.2016.MERRA2onGISSE2.nc4 mkdir -p ${DATA}/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0 - touch ${HOME}/data/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 + touch ${DATA}/gcclassic/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 - name: Build GISS with GISS_ONLY rundeck run: | From b1a647ff8e707973e5539bd4c774f9407ec28bb6 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 5 Dec 2024 16:53:05 +0000 Subject: [PATCH 25/36] Fix typo; drop set -e --- .dev/utils/setup.sh | 4 +--- 1 file changed, 1 insertion(+), 3 deletions(-) diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 9f7c9dd..8c92267 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -3,9 +3,7 @@ # Activate the Python and spack environments used by GISS-GC. # # ============================================================================ # -set -e - -# Envronment variables for GISS modelE +# Environment variables for GISS modelE # NOTE: Path may need to be edited for your system export GISS_HOME=${HOME}/software/GISS-GC # NOTE: Path may need to be edited for your system From 761a522dab4fb1a07e6db222bb8f79b1858febc8 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 11 Dec 2024 14:52:03 +0000 Subject: [PATCH 26/36] Add OVERWRITE=YES --- .dev/utils/build.sh | 6 +++--- 1 file changed, 3 insertions(+), 3 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 6001e42..7064b1c 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -78,8 +78,8 @@ echo "DEBUG=${DEBUG}" cd ${GISS_HOME}/decks/ ln -s -f ${GISS_HOME}/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}.R if [ "${FRESH}" = true ]; then - make clean - make clean_all + make clean OVERWRITE=YES + make clean_all OVERWRITE=YES fi # Compile @@ -92,7 +92,7 @@ if [ "${DEBUG}" = true ]; then git apply -R ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch else make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ - TYPE=Release + TYPE=Release OVERWRITE=YES fi if [ "${GISS_ONLY}" = false ]; then From 29bc0e4fc0f8b7a5805dc0c19434b20de0d50768 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Wed, 11 Dec 2024 15:55:43 +0000 Subject: [PATCH 27/36] Fix path and set values in HISTORY.rc --- .dev/config/HEMCO_Config.rc | 2 +- .dev/config/HISTORY.rc | 90 ++++++++++++++++++------------------- 2 files changed, 46 insertions(+), 46 deletions(-) diff --git a/.dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc index 9a4f781..ed4cb36 100644 --- a/.dev/config/HEMCO_Config.rc +++ b/.dev/config/HEMCO_Config.rc @@ -25,7 +25,7 @@ ### BEGIN SECTION SETTINGS ############################################################################### -ROOT: /home/joe/data/giss-gc/ExtData/HEMCO +ROOT: /home/joe/data/gcclassic/ExtData/HEMCO GCAPSCENARIO: not_used GCAPVERTRES: 47 Logfile: * diff --git a/.dev/config/HISTORY.rc b/.dev/config/HISTORY.rc index 8835b7d..79c078a 100644 --- a/.dev/config/HISTORY.rc +++ b/.dev/config/HISTORY.rc @@ -1,6 +1,6 @@ ############################################################################### ### HISTORY.rc file for GEOS-Chem full chemistry simulations ### -### Contact: GEOS-Chem Support Team (geos-chem-support@g.harvard.edu) ### +### Contact: GEOS-Chem Support Team (geos-chem-supportg.harvard.edu) ### ############################################################################### #============================================================================ @@ -72,8 +72,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== Restart.filename: './Restarts/GEOSChem.Restart.%y4%m2%d2_%h2%n2z.nc4', - Restart.frequency: ${RUNDIR_HIST_INST_FREQ} - Restart.duration: ${RUNDIR_HIST_INST_DUR} + Restart.frequency: 00000100 000000 + Restart.duration: 00000100 000000 Restart.mode: 'instantaneous' Restart.fields: 'SpeciesRst_?ALL? ', 'Chem_AeroH2OSNA ', @@ -121,8 +121,8 @@ COLLECTIONS: 'Restart', # SpeciesConcMND [molec/cm3] #============================================================================== SpeciesConc.template: '%y4%m2%d2_%h2%n2z.nc4', - SpeciesConc.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - SpeciesConc.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + SpeciesConc.frequency: 00000100 000000 + SpeciesConc.duration: 00000100 000000 SpeciesConc.mode: 'time-averaged' SpeciesConc.fields: 'SpeciesConcVV_?ALL? ', ##'SpeciesConcMND_?ALL? ', @@ -135,8 +135,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== AdvFluxVert.template: '%y4%m2%d2_%h2%n2z.nc4', - AdvFluxVert.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - AdvFluxVert.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + AdvFluxVert.frequency: 00000100 000000 + AdvFluxVert.duration: 00000100 000000 AdvFluxVert.mode: 'time-averaged' AdvFluxVert.fields: 'AdvFluxVert_O3 ', :: @@ -148,8 +148,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry and aerosol-only simulations #============================================================================== AerosolMass.template: '%y4%m2%d2_%h2%n2z.nc4', - AerosolMass.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - AerosolMass.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + AerosolMass.frequency: 00000100 000000 + AerosolMass.duration: 00000100 000000 AerosolMass.mode: 'time-averaged' AerosolMass.fields: 'AerMassASOA ', 'AerMassBC ', @@ -180,8 +180,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry or aerosol-only simulations #============================================================================== Aerosols.template: '%y4%m2%d2_%h2%n2z.nc4', - Aerosols.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - Aerosols.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + Aerosols.frequency: 00000100 000000 + Aerosols.duration: 00000100 000000 Aerosols.mode: 'time-averaged' Aerosols.fields: 'AODDust ', 'AODDustWL1_?DUSTBIN? ', @@ -276,8 +276,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== Budget.template: '%y4%m2%d2_%h2%n2z.nc4', - Budget.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - Budget.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + Budget.frequency: 00000100 000000 + Budget.duration: 00000100 000000 Budget.mode: 'time-averaged' Budget.fields: 'BudgetEmisDryDepFull_?ADV? ', 'BudgetEmisDryDepTrop_?ADV? ', @@ -312,8 +312,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== CloudConvFlux.template: '%y4%m2%d2_%h2%n2z.nc4', - CloudConvFlux.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - CloudConvFlux.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + CloudConvFlux.frequency: 00000100 000000 + CloudConvFlux.duration: 00000100 000000 CloudConvFlux.mode: 'time-averaged' CloudConvFlux.fields: 'CloudConvFlux_?ADV? ', :: @@ -330,8 +330,8 @@ COLLECTIONS: 'Restart', # (3) This collection is best used with mode "instantaneous". #============================================================================== ConcAboveSfc.template: '%y4%m2%d2_%h2%n2z.nc4', - ConcAboveSfc.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - ConcAboveSfc.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ConcAboveSfc.frequency: 00000100 000000 + ConcAboveSfc.duration: 00000100 000000 ConcAboveSfc.mode: 'instantaneous' ConcAboveSfc.fields: 'DryDepRaALT1 ', 'DryDepVelForALT1_?DRYALT? ', @@ -348,8 +348,8 @@ COLLECTIONS: 'Restart', # O1D, O3P: Availalbe for full-chemistry simulations using UCX mechanism #============================================================================== ConcAfterChem.template: '%y4%m2%d2_%h2%n2z.nc4', - ConcAfterChem.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - ConcAfterChem.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ConcAfterChem.frequency: 00000100 000000 + ConcAfterChem.duration: 00000100 000000 ConcAfterChem.mode: 'time-averaged' ConcAfterChem.fields: 'OHconcAfterChem ', 'HO2concAfterChem ', @@ -364,8 +364,8 @@ COLLECTIONS: 'Restart', # Available for all simuations that have dry-depositing species #============================================================================== DryDep.template: '%y4%m2%d2_%h2%n2z.nc4', - DryDep.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - DryDep.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + DryDep.frequency: 00000100 000000 + DryDep.duration: 00000100 000000 DryDep.mode: 'time-averaged' DryDep.fields: 'DryDep_?DRY? ', 'DryDepVel_?DRY? ', @@ -380,8 +380,8 @@ COLLECTIONS: 'Restart', # Available for all full-chemistry simulations with photolysis #============================================================================== JValues.template: '%y4%m2%d2_%h2%n2z.nc4', - JValues.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - JValues.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + JValues.frequency: 00000100 000000 + JValues.duration: 00000100 000000 JValues.mode: 'time-averaged' JValues.fields: 'Jval_?PHO? ', 'JvalO3O1D ', @@ -406,8 +406,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry simulations (all variations) #============================================================================== KppDiags.template: '%y4%m2%d2_%h2%n2z.nc4', - KppDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - KppDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + KppDiags.frequency: 00000100 000000 + KppDiags.duration: 00000100 000000 KppDiags.mode: 'time-averaged' KppDiags.fields: 'KppIntCounts ', 'KppJacCounts ', @@ -429,8 +429,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry simulations only if auto-reduce is enabled. #============================================================================== KppARDiags.template: '%y4%m2%d2_%h2%n2z.nc4', - KppARDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - KppARDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + KppARDiags.frequency: 00000100 000000 + KppARDiags.duration: 00000100 000000 KppARDiags.mode: 'time-averaged' KppARDiags.fields: 'KppAutoReducerNVAR ', 'KppAutoReduceThres ', @@ -444,8 +444,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== LevelEdgeDiags.template: '%y4%m2%d2_%h2%n2z.nc4', - LevelEdgeDiags.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - LevelEdgeDiags.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + LevelEdgeDiags.frequency: 00000100 000000 + LevelEdgeDiags.duration: 00000100 000000 LevelEdgeDiags.mode: 'time-averaged' LevelEdgeDiags.fields: 'Met_CMFMC ', 'Met_PEDGE ', @@ -463,8 +463,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry, aerosol-only, tagO3, and tagCO simulations #============================================================================== ProdLoss.template: '%y4%m2%d2_%h2%n2z.nc4', - ProdLoss.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - ProdLoss.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + ProdLoss.frequency: 00000100 000000 + ProdLoss.duration: 00000100 000000 ProdLoss.mode: 'time-averaged' ProdLoss.fields: 'Prod_?PRD? ', 'ProdBCPIfromBCPO ', @@ -505,8 +505,8 @@ COLLECTIONS: 'Restart', # (4) Optics diagnostics have a reduced set of output species (no BASE, O3, ME) #============================================================================== RRTMG.template: '%y4%m2%d2_%h2%n2z.nc4', - RRTMG.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - RRTMG.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RRTMG.frequency: 00000100 000000 + RRTMG.duration: 00000100 000000 RRTMG.mode: 'time-averaged' RRTMG.fields: 'RadClrSkyLWSurf_BASE ', 'RadClrSkyLWSurf_O3 ', @@ -566,8 +566,8 @@ COLLECTIONS: 'Restart', # Available for the fullchem simulations. #============================================================================== RxnRates.template: '%y4%m2%d2_%h2%n2z.nc4', - RxnRates.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - RxnRates.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RxnRates.frequency: 00000100 000000 + RxnRates.duration: 00000100 000000 RxnRates.mode: 'time-averaged' RxnRates.fields: 'RxnRate_EQ001 ', 'RxnRate_EQ002 ', @@ -586,8 +586,8 @@ COLLECTIONS: 'Restart', # Available for the fullchem simulations. #============================================================================== RxnConst.template: '%y4%m2%d2_%h2%n2z.nc4', - RxnConst.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - RxnConst.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + RxnConst.frequency: 00000100 000000 + RxnConst.duration: 00000100 000000 RxnConst.mode: 'time-averaged' RxnConst.fields: 'RxnConst_EQ001 ', 'RxnConst_EQ002 ', @@ -686,8 +686,8 @@ COLLECTIONS: 'Restart', # Available for full-chemistry and aerosols-only simulations #============================================================================== StateChm.template: '%y4%m2%d2_%h2%n2z.nc4', - StateChm.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - StateChm.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + StateChm.frequency: 00000100 000000 + StateChm.duration: 00000100 000000 StateChm.mode: 'time-averaged' StateChm.fields: 'Chem_IsorropAeropHAccum ', 'Chem_IsorropAeropHCoarse ', @@ -720,8 +720,8 @@ COLLECTIONS: 'Restart', # Available for all simulations #============================================================================== StateMet.template: '%y4%m2%d2_%h2%n2z.nc4', - StateMet.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - StateMet.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + StateMet.frequency: 00000100 000000 + StateMet.duration: 00000100 000000 StateMet.mode: 'time-averaged' StateMet.fields: 'Met_AD ', 'Met_AIRDEN ', @@ -1320,8 +1320,8 @@ COLLECTIONS: 'Restart', # Available for all simulations that have soluble species #============================================================================== WetLossConv.template: '%y4%m2%d2_%h2%n2z.nc4', - WetLossConv.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - WetLossConv.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + WetLossConv.frequency: 00000100 000000 + WetLossConv.duration: 00000100 000000 WetLossConv.mode: 'time-averaged' WetLossConv.fields: 'WetLossConv_?WET? ', 'WetLossConvFrac_?WET? ', @@ -1335,8 +1335,8 @@ COLLECTIONS: 'Restart', #============================================================================== # Loss due to rainout and washout (per deposited species) WetLossLS.template: '%y4%m2%d2_%h2%n2z.nc4', - WetLossLS.frequency: ${RUNDIR_HIST_TIME_AVG_FREQ} - WetLossLS.duration: ${RUNDIR_HIST_TIME_AVG_DUR} + WetLossLS.frequency: 00000100 000000 + WetLossLS.duration: 00000100 000000 WetLossLS.mode: 'time-averaged' WetLossLS.fields: 'WetLossLS_?WET? ', :: From 20dc3761fa043650f8f8a5118e57b70ef598acf8 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Mon, 16 Dec 2024 15:15:16 +0000 Subject: [PATCH 28/36] Debugging flags for Intel --- .dev/utils/DEBUGGING_FLAGS.patch | 16 ++++++++++++++++ 1 file changed, 16 insertions(+) diff --git a/.dev/utils/DEBUGGING_FLAGS.patch b/.dev/utils/DEBUGGING_FLAGS.patch index 74757c4..e02c6f5 100644 --- a/.dev/utils/DEBUGGING_FLAGS.patch +++ b/.dev/utils/DEBUGGING_FLAGS.patch @@ -11,6 +11,22 @@ index 007a335..3fdf8e4 100644 F90FLAGS = $(FFLAGS) -ffree-line-length-none LFLAGS = ifeq ($(MP),YES) +diff --git a/config/compiler.intel.mk b/config/compiler.intel.mk +index a73a4fe..68839af 100644 +--- a/config/compiler.intel.mk ++++ b/config/compiler.intel.mk +@@ -4,9 +4,9 @@ IFORT_RELEASE := $(shell ifort --version | perl -e \ + 'while(<>){ if(/ifort.* (\d+\.\d+)/) { print "$$1"; } }') + FMAKEDEP = $(SCRIPTS_DIR)/sfmakedepend + CMP_MOD = $(SCRIPTS_DIR)/compare_module_file.pl -compiler INTEL-ifort-9-0-on-LINUX +-FFLAGS = -fpp -O2 -ftz -convert big_endian ++FFLAGS = -fpp -O0 -warn all -check bounds -check uninit -check pointers -traceback -assume byterecl -ftz -convert big_endian + F90FLAGS = $(FFLAGS) -free +-LFLAGS = -O2 -ftz ++LFLAGS = -O0 -ftz + CPPFLAGS += -DCOMPILER_Intel8 -DCONVERT_BIGENDIAN + F90_VERSION = $(shell $(F90) --version 2>&1) + ifeq ($(MP),YES) diff --git a/config/rules.mk b/config/rules.mk index d981c80..87ef4f2 100644 --- a/config/rules.mk From 58c25f4222e1f2f4964d92cba92abab2beec6c1f Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Fri, 20 Dec 2024 17:32:34 +0000 Subject: [PATCH 29/36] Update restart file name and add note --- .dev/utils/build.sh | 5 +++-- 1 file changed, 3 insertions(+), 2 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 7064b1c..ce4346a 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -110,6 +110,7 @@ if [ "${GISS_ONLY}" = false ]; then mkdir -p ${HUGE_SPACE}/OutputDir # Setup restarts mkdir -p ${HUGE_SPACE}/Restarts - ln -s -f ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.fullchem.20190701_0000z.nc4 \ - ${HUGE_SPACE}/Restarts/GEOSChem.Restart.20190701_0000z.nc4 + # NOTE: The restart file will need to have been saved in the following location + ln -s -f ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.20160701_0000z_Lee.nc4 \ + ${HUGE_SPACE}/Restarts/GEOSChem.Restart.20160701_0000z.nc4 fi From 3c14a00cbd1e1528fcf15e576a6a8207f3ea1689 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 10:16:20 +0000 Subject: [PATCH 30/36] .dev/config/geoschem_config.yml; update restart file name Fix start/end date/time in geoschem_config.yml --- .dev/config/geoschem_config.yml | 4 ++-- .dev/utils/build.sh | 2 +- 2 files changed, 3 insertions(+), 3 deletions(-) diff --git a/.dev/config/geoschem_config.yml b/.dev/config/geoschem_config.yml index c9cab55..ab5b5ce 100644 --- a/.dev/config/geoschem_config.yml +++ b/.dev/config/geoschem_config.yml @@ -10,8 +10,8 @@ #============================================================================ simulation: name: fullchem - start_date: [20190701, 000000] - end_date: [20190801, 000000] + start_date: [20160701, 000000] + end_date: [20160801, 000000] root_data_dir: /home/joe/data/gcclassic/ExtData met_field: MERRA2 species_database_file: ./species_database.yml diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index ce4346a..00482c2 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -111,6 +111,6 @@ if [ "${GISS_ONLY}" = false ]; then # Setup restarts mkdir -p ${HUGE_SPACE}/Restarts # NOTE: The restart file will need to have been saved in the following location - ln -s -f ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.20160701_0000z_Lee.nc4 \ + ln -s -f ${GC_INPUTS}/ExtData/GEOSCHEM_RESTARTS/GC_14.3.0/GEOSChem.Restart.20160701_0000z.LATEST.nc4 \ ${HUGE_SPACE}/Restarts/GEOSChem.Restart.20160701_0000z.nc4 fi From 2dd2f8b2cdc9f486a3b084d33b085a4eaa656627 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 10:39:03 +0000 Subject: [PATCH 31/36] Update paths for consistency with HPC --- .dev/config/HEMCO_Config.rc | 2 +- .dev/config/geoschem_config.yml | 6 +++--- .dev/utils/setup.sh | 4 ++-- 3 files changed, 6 insertions(+), 6 deletions(-) diff --git a/.dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc index ed4cb36..ae7afcb 100644 --- a/.dev/config/HEMCO_Config.rc +++ b/.dev/config/HEMCO_Config.rc @@ -25,7 +25,7 @@ ### BEGIN SECTION SETTINGS ############################################################################### -ROOT: /home/joe/data/gcclassic/ExtData/HEMCO +ROOT: /home/joe/data/GISS-GC/prod_input_files/ExtData/HEMCO GCAPSCENARIO: not_used GCAPVERTRES: 47 Logfile: * diff --git a/.dev/config/geoschem_config.yml b/.dev/config/geoschem_config.yml index ab5b5ce..66f00a1 100644 --- a/.dev/config/geoschem_config.yml +++ b/.dev/config/geoschem_config.yml @@ -12,7 +12,7 @@ simulation: name: fullchem start_date: [20160701, 000000] end_date: [20160801, 000000] - root_data_dir: /home/joe/data/gcclassic/ExtData + root_data_dir: /home/joe/data/GISS-GC/prod_input_files/ExtData met_field: MERRA2 species_database_file: ./species_database.yml species_metadata_output_file: OutputDir/geoschem_species_metadata.yml @@ -89,8 +89,8 @@ operations: photolysis: activate: true input_directories: - fastjx_input_dir: /home/joe/data/gcclassic/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ - cloudj_input_dir: /home/joe/data/gcclassic/ExtData/CHEM_INPUTS/CLOUD_J/v2023-05/ + fastjx_input_dir: /home/joe/data/GISS-GC/prod_input_files/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ + cloudj_input_dir: /home/joe/data/GISS-GC/prod_input_files/ExtData/CHEM_INPUTS/CLOUD_J/v2023-05/ overhead_O3: use_online_O3_from_model: true use_column_O3_from_met: true diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index 8c92267..d4cce40 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -7,7 +7,7 @@ # NOTE: Path may need to be edited for your system export GISS_HOME=${HOME}/software/GISS-GC # NOTE: Path may need to be edited for your system -export ModelE_Support=${HOME}/run/giss-gc +export ModelE_Support=${HOME}/run/GISS-GC mkdir -p ${ModelE_Support} # Environment variables for compiler export CC=gcc # NOTE: C compiler may need to be modified for your system @@ -40,7 +40,7 @@ export GC_F_LIB=${NETCDF_F_HOME}/lib # GEOS-Chem input data # NOTE: Path may need to be edited for your system -export GC_INPUTS=${DATA}/gcclassic +export GC_INPUTS=${DATA}/GISS-GC/prod_input_files export ROOT=${GC_INPUTS}/ExtData/HEMCO/ # Put tools in the path From ea7eb704f81b3024b641813f5bd10ac4595929b0 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 10:39:19 +0000 Subject: [PATCH 32/36] Use /bin/env bash shebang for scripts --- .dev/utils/build.sh | 2 +- .dev/utils/run.sh | 2 +- .dev/utils/setup.sh | 2 +- 3 files changed, 3 insertions(+), 3 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 00482c2..c1e0e8a 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -1,4 +1,4 @@ -#!/usr/bin/bash +#!/bin/env bash # ============================================================================ # # Build GISS Model E with (or without) GEOS-Chem support. # # ============================================================================ # diff --git a/.dev/utils/run.sh b/.dev/utils/run.sh index 942ed69..5f4d08e 100755 --- a/.dev/utils/run.sh +++ b/.dev/utils/run.sh @@ -1,4 +1,4 @@ -#!/usr/bin/sh +#!/bin/env bash # ============================================================================ # # Run GISS Model E with (or without) GEOS-Chem support. # # ============================================================================ # diff --git a/.dev/utils/setup.sh b/.dev/utils/setup.sh index d4cce40..f6c64db 100755 --- a/.dev/utils/setup.sh +++ b/.dev/utils/setup.sh @@ -1,4 +1,4 @@ -#!/usr/bin/bash +#!/bin/env bash # ============================================================================ # # Activate the Python and spack environments used by GISS-GC. # # ============================================================================ # From b410cf1d959e1917f6bc286a1266585504dc1f7a Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 11:21:16 +0000 Subject: [PATCH 33/36] Fix rundeck passing --- .dev/utils/build.sh | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index c1e0e8a..a552001 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -84,7 +84,7 @@ fi # Compile if [ "${DEBUG}" = true ]; then - ln -s -f $(pwd)/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R + ln -s -f $(pwd)/.github/rundecks/${RUNID}.R $(pwd)/decks/${RUNID}_DEBUG.R RUNID="${RUNID}_DEBUG" git apply ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ From 99175fae3eacc0f848418e2dde213ed0adb9645b Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 11:27:31 +0000 Subject: [PATCH 34/36] Fix path --- .dev/utils/build.sh | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index a552001..0c58e8e 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -84,7 +84,7 @@ fi # Compile if [ "${DEBUG}" = true ]; then - ln -s -f $(pwd)/.github/rundecks/${RUNID}.R $(pwd)/decks/${RUNID}_DEBUG.R + ln -s -f $(pwd)/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R RUNID="${RUNID}_DEBUG" git apply ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ From 8d87fbf266636b6f956aa83fd9168bb93be749fe Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 11:43:43 +0000 Subject: [PATCH 35/36] Handle rundeck symmetrically in debug mode --- .dev/utils/build.sh | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/.dev/utils/build.sh b/.dev/utils/build.sh index 0c58e8e..fa095be 100755 --- a/.dev/utils/build.sh +++ b/.dev/utils/build.sh @@ -76,7 +76,6 @@ echo "DEBUG=${DEBUG}" # Conditionally fresh rebuild of the model cd ${GISS_HOME}/decks/ -ln -s -f ${GISS_HOME}/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}.R if [ "${FRESH}" = true ]; then make clean OVERWRITE=YES make clean_all OVERWRITE=YES @@ -84,13 +83,14 @@ fi # Compile if [ "${DEBUG}" = true ]; then - ln -s -f $(pwd)/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R + ln -s -f ${GISS_HOME}/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}_DEBUG.R RUNID="${RUNID}_DEBUG" git apply ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Debug DEBUG=YES COMPILE_WITH_TRAPS=YES TRACEBACK=YES OVERWRITE=YES git apply -R ${GISS_HOME}/.dev/utils/DEBUGGING_FLAGS.patch else + ln -s -f ${GISS_HOME}/.github/rundecks/${RUNID}.R $(pwd)/${RUNID}.R make -j setup RUN=${RUNID} F90=mpif90 GC=${GC} MP=${OPENMP} MPI=YES MECH=carbon \ TYPE=Release OVERWRITE=YES fi From f5ac1e4ce71de83041e797f9b950728f71ce9670 Mon Sep 17 00:00:00 2001 From: Joe Wallwork Date: Thu, 9 Jan 2025 14:25:58 +0000 Subject: [PATCH 36/36] Turn OLSON_LANDMAP back on --- .dev/config/HEMCO_Config.rc | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/.dev/config/HEMCO_Config.rc b/.dev/config/HEMCO_Config.rc index ae7afcb..c964f32 100644 --- a/.dev/config/HEMCO_Config.rc +++ b/.dev/config/HEMCO_Config.rc @@ -159,7 +159,7 @@ VerboseOnCores: root # Accepted values: root all --> OMOC_RATIO : false # 2010 --> GMD_SFC_CH4 : false # 1979-2020 --> CMIP6_SFC_CH4 : false # 1750-1978 - --> OLSON_LANDMAP : false # 1985 + --> OLSON_LANDMAP : true # 1985 --> YUAN_MODIS_LAI : false # 2000-2020 --> RRTMG : false # 2002 --> SfcVMR : false # 1750-2014