Difference between revisions of "Benchmark/GEOS-FP 5.25"

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__FORCETOC__
 
__FORCETOC__
  
This page includes information about benchmark simulations comparing GEOS-FP 5.22 meteorology to GEOS-FP 5.25 meteorology using [[GEOS-Chem 12#12.8.0|GEOS-Chem 12.8.0]].
+
This page includes information about benchmark simulations comparing GEOS-FP 5.22.0 meteorology to GEOS-FP 5.25.1 meteorology using [[GEOS-Chem 12#12.8.0|GEOS-Chem 12.8.0]].
  
 
== Major update to GEOS-FP meteorology ==
 
== Major update to GEOS-FP meteorology ==
Line 8: Line 8:
 
#New convection scheme: The RAS convection scheme used to date has now been replaced with Grell & Freitas deep convection plus Park & Bretherton shallow convection.
 
#New convection scheme: The RAS convection scheme used to date has now been replaced with Grell & Freitas deep convection plus Park & Bretherton shallow convection.
 
#New radiation scheme: The Chou-Suarez shortwave model has been replaced by RRTMG.
 
#New radiation scheme: The Chou-Suarez shortwave model has been replaced by RRTMG.
For more details, please read the full announcement about the update to GEOS-FP 5.25.1. Because the GEOS-FP meteorological product is an operational dataset, system changes and updates such as these are made at regular intervals. This ensures that the GEOS-FP data product reflects the state of the science. If you use GEOS-FP met fields to drive GEOS-Chem simulations for model dates after January 30, 2020, note that the convection and radiation variables might show substantial differences with respect to prior dates.
 
  
The benchmark simulations below can be used to assess the impacts of this GEOS-FP system update.  
+
For more details, please read the [https://gmao.gsfc.nasa.gov/news/geos_system_news/2020/GEOS_FP_upgrade_5_25_1.php full announcement about the update to GEOS-FP 5.25.1].  
  
If you would prefer using a meteorology product that does not contain any system changes, then consider using the GMAO [[MERRA-2]] reanalysis product. MERRA-2 has a native resolution of 0.5 degree x 0.625 degree native resolution, and is generated with a “frozen” assimilation system based on the GEOS GCM version 5.12.4. There are more than 30 years of assimilated MERRA-2 data available (~1980-present) for you to use with GEOS-Chem.
+
Because the GEOS-FP meteorological product is an operational dataset, system changes and updates such as these are made at regular intervals. This ensures that the GEOS-FP data product reflects the state of the science. If you use GEOS-FP met fields to drive GEOS-Chem simulations for model dates after January 30, 2020, note that the convection and radiation variables might show substantial differences with respect to prior dates.
  
== 1-month full-chemistry benchmark ==
+
The benchmark simulations below can be used to assess the impacts of this GEOS-FP system update. The simulations were completed for January 2020 using parallel streams of the GEOS-FP 5.22.0 and 5.25.1 products provided by GMAO.
  
=== Benchmark plots ===
+
''NOTE: If you would prefer using a meteorology product that does not contain any system changes, then consider using the GMAO [[MERRA-2]] reanalysis product. MERRA-2 has a native resolution of 0.5 degree x 0.625 degree native resolution, and is generated with a “frozen” assimilation system based on the GEOS GCM version 5.12.4. There are more than 30 years of assimilated MERRA-2 data available (~1980-present) for you to use with GEOS-Chem.''
 +
 
 +
== 1-month full-chemistry benchmark plots ==
  
 
Enable PDF bookmarks<sup>1</sup> in the files linked below to navigate between species. See the [[Species in GEOS-Chem]] wiki page for species definitions and details.
 
Enable PDF bookmarks<sup>1</sup> in the files linked below to navigate between species. See the [[Species in GEOS-Chem]] wiki page for species definitions and details.
Line 163: Line 164:
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/BioBurn_Emissions.pdf Biomass Burning],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/BioBurn_Emissions.pdf Biomass Burning],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Biogenic_Emissions.pdf Biogenic],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Biogenic_Emissions.pdf Biogenic],
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Lightning_Emissions.pdf Lightning],
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Lightning_Emissions.pdf Lightning*],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Natural_Emissions.pdf Natural],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Natural_Emissions.pdf Natural],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Ocean_Emissions.pdf Ocean],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Ocean_Emissions.pdf Ocean],
Line 170: Line 171:
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Ship_Emissions.pdf Ship],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Ship_Emissions.pdf Ship],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Soil_Emissions.pdf Soil],
 
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/Soil_Emissions.pdf Soil],
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/VolcDegas_Emissions.pdf Degassing Volcanoes],  
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/VolcDegas_Emissions.pdf Degassing Volcanoes*],  
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/VolcErupt_Emissions.pdf Erupting Volcanoes]
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Emissions/VolcErupt_Emissions.pdf Erupting Volcanoes*]
 +
 
 +
<nowiki>*</nowiki> ''Lightning NOx and volcano emissions are off in both simulations because no data are available for January 2020.''
  
 
|-valign="top"
 
|-valign="top"
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|-valign="top"
 
|-valign="top"
 
|Budget tables
 
|Budget tables
|colspan="4"|
+
|colspan="6"|
 
Budget totals by vertical region
 
Budget totals by vertical region
 
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Budget/Budgets_After_Operations_PBL_Jan2020.txt PBL]
 
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/Budget/Budgets_After_Operations_PBL_Jan2020.txt PBL]
Line 202: Line 205:
 
<sup>2</sup>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/benchmark_categories.yml Species category] and [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/lumped_species.yml lumped species] definitions are simple to adjust. Updating them requires only editing the YAML files.
 
<sup>2</sup>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/benchmark_categories.yml Species category] and [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/FullChem/Plots/lumped_species.yml lumped species] definitions are simple to adjust. Updating them requires only editing the YAML files.
  
== 1-year Transport Tracers benchmarks ==
+
== 1-month transport tracer benchmark plots ==
  
Three 1-year [[Transport_Working_Group#Transport_Tracers_simulation|'''Transport Tracers benchmark simulation''']] were performed using [[GEOS-Chem_12#12.8.0|GEOS-Chem 12.8.0]]:
+
{| border=1 cellspacing=0 cellpadding=5
*GEOS-Chem Classic with the standard wet deposition scheme
+
*GEOS-Chem Classic with the Luo et al. (2019) wet deposition scheme
+
*GCHP with the standard wet deposition scheme
+
The GEOS-Chem Classic (w/ standard wetdep) simulation was spun up for 10 years, and the resulting restart file was used to initialize all three 1-year transport tracer benchmarks listed above. 
+
  
Both GEOS-Chem Classic simulations utilized 4&deg; x 5&deg; GEOS-FP met fields for the year 2016. These simulations can be used to validate the [https://www.geosci-model-dev.net/12/3439/2019/ Luo wet dep scheme] which is offered as an option starting in this version.
+
|-
 +
!colspan="1" bgcolor="#CCFFFF" width="325px"|Species Category<sup>2</sup>
 +
!colspan="4" bgcolor="#CCFFFF"|Plots
  
The GCHP simulation used 0.25&deg; x 0.3125&deg; global GEOS-FP met fields for 2016 and ran at c48 resolution.
+
|-
 +
!colspan="1"|
 +
!colspan="2"|Level Map
 +
!colspan="2"|Zonal Mean
  
For comparison of the Pb-210 and Be-7 budgets to previous versions, please see the following posts on the Rn-Pb-Be simulation wiki page:
+
|-valign="top"
#[[Rn-Pb-Be_simulation#Budget_of_Pb210|Budget of Pb210 from 1-year benchmark simulations]]
+
|'''RnPbBeTracers'''
#[[Rn-Pb-Be_simulation#Budget_of_Be7|Budget of Be7 from 1-year benchmark simulations]]
+
Rn222, Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/RnPbBeTracers/RnPbBeTracers_Surface.pdf sfc]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/RnPbBeTracers/RnPbBeTracers_500hPa.pdf 500hPa]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/RnPbBeTracers/RnPbBeTracers_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/RnPbBeTracers/RnPbBeTracers_Strat_ZonalMean.pdf stratosphere]
 +
 
 +
|-valign="top"
 +
|'''PassiveTracers'''
 +
PassiveTracer, SF6Tracer, CH3ITracer, COAnthroEmis25dayTracer, COAnthroEmis50dayTracer, COUniformEmis25dayTracer, GlobEmis90dayTracer, NHEmis90dayTracer, SHEmis90dayTracer
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/PassiveTracers/PassiveTracers_Surface.pdf sfc]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/PassiveTracers/PassiveTracers_500hPa.pdf 500hPa]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/PassiveTracers/PassiveTracers_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/PassiveTracers/PassiveTracers_Strat_ZonalMean.pdf stratosphere]
 +
 
 +
|-valign="top"
 +
|'''WetLossConv'''
 +
Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossConv/WetLossConv_Surface.pdf sfc]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossConv/WetLossConv_500hPa.pdf 500 hPa]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossConv/WetLossConv_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossConv/WetLossConv_Strat_ZonalMean.pdf strat]
 +
 
 +
|-valign="top"
 +
|'''WetLossLS'''
 +
Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossLS/WetLossLS_Surface.pdf sfc]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossLS/WetLossLS_500hPa.pdf 500 hPa]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossLS/WetLossLS_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/WetLossLS/WetLossLS_Strat_ZonalMean.pdf strat]
 +
 
 +
|-valign="top"
 +
!colspan="5" bgcolor="#CCCCCC"|&nbsp;
 +
 
 +
|-valign="top"
 +
|'''Pb-Be Budgets'''
 +
|colspan="2"|GEOS-FP 5.22.0 (Ref):
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.22.Pb-Be_budget_troposphere_2020.txt Troposphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.22.Pb-Be_budget_stratosphere_2020.txt Stratosphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.22.Pb-Be_budget_trop_strat_2020.txt Troposhpere + Stratosphere]
 +
|colspan="2"|GEOS-FP 5.25.1 (Dev):
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.25.Pb-Be_budget_troposphere_2020.txt Troposphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.25.Pb-Be_budget_stratosphere_2020.txt Stratosphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.25.Pb-Be_budget_trop_strat_2020.txt Troposhpere + Stratosphere]
 +
 
 +
|-valign="top"
 +
|'''Operation budgets'''
 +
|colspan="4"|
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/Budgets_After_Operations_Full_2020.txt Full column]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/Budgets_After_Operations_Trop_2020.txt Troposphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/Budgets_After_Operations_Strat_2020.txt Stratosphere]
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/Budgets_After_Operations_PBL_2020.txt PBL]
 +
 
 +
|-valign="top"
 +
|'''Strat-trop exchange'''
 +
|colspan="2"|GEOS-FP 5.22 (Ref):
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.22.strat_trop_exchange_2020.txt Jan 2020 values]
 +
|colspan="2"|GEOS-FP 5.25 (Dev):
 +
*[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.8.0_GEOSFP_5.25/Transport/Plots/Tables/GC_12.8.0_GEOSFP_5.25.strat_trop_exchange_2020.txt Jan 2020 values]
 +
 
 +
|}

Latest revision as of 15:03, 28 May 2020


This page includes information about benchmark simulations comparing GEOS-FP 5.22.0 meteorology to GEOS-FP 5.25.1 meteorology using GEOS-Chem 12.8.0.

Major update to GEOS-FP meteorology

NASA’s Global Modeling and Assimilation Office (GMAO) announced a major update to the GEOS-FP (“Forward-processing”) data stream. The switchover to GEOS-FP version 5.25.1 occurred on January 30, 2020. This new version contains the following updates to the GCM:

  1. New convection scheme: The RAS convection scheme used to date has now been replaced with Grell & Freitas deep convection plus Park & Bretherton shallow convection.
  2. New radiation scheme: The Chou-Suarez shortwave model has been replaced by RRTMG.

For more details, please read the full announcement about the update to GEOS-FP 5.25.1.

Because the GEOS-FP meteorological product is an operational dataset, system changes and updates such as these are made at regular intervals. This ensures that the GEOS-FP data product reflects the state of the science. If you use GEOS-FP met fields to drive GEOS-Chem simulations for model dates after January 30, 2020, note that the convection and radiation variables might show substantial differences with respect to prior dates.

The benchmark simulations below can be used to assess the impacts of this GEOS-FP system update. The simulations were completed for January 2020 using parallel streams of the GEOS-FP 5.22.0 and 5.25.1 products provided by GMAO.

NOTE: If you would prefer using a meteorology product that does not contain any system changes, then consider using the GMAO MERRA-2 reanalysis product. MERRA-2 has a native resolution of 0.5 degree x 0.625 degree native resolution, and is generated with a “frozen” assimilation system based on the GEOS GCM version 5.12.4. There are more than 30 years of assimilated MERRA-2 data available (~1980-present) for you to use with GEOS-Chem.

1-month full-chemistry benchmark plots

Enable PDF bookmarks1 in the files linked below to navigate between species. See the Species in GEOS-Chem wiki page for species definitions and details.

Species Category2 Plots Additional Information
Level Map Zonal Mean Emissions
Oxidants

O3, CO, OH, NOx

sfc 500hPa full column stratosphere sfc
Aerosols

DST1, DST2, DST3, DST4, NH4, NIT, SO4, BCPI, BCPO, OCPI, OCPO, AERI, BrSALA, BrSALC, ISALA, ISALC, NITs, SALA, SALC, SO4s, Simple_SOA, Complex_SOA

sfc 500hPa full column stratosphere sfc AOD
Bromine

Bry, BrOx, Br, Br2, BrCl, BrNO2, BrNO3, BrO, CH3Br, CH2Br2, CHBr3, HOBr, HBr

sfc 500hPa full column stratosphere sfc
Chlorine

Cly, ClOx, Cl, ClO, Cl2, Cl2O2, ClOO, ClNO2, ClNO3, CCl4, CFCs, CH3Cl, CH2Cl2, CH3CCl3, CHCl3, HOCl, HCl, Halons, HCFCs, OClO

sfc 500hPa full column stratosphere --
Iodine

Iy, IxOy, I, I2, IBr, ICl, IO, IONO, IONO2, CH3I, CH2I2, CH2ICl, CH2IBr, HI, HOI, OIO

sfc 500hPa full column stratosphere sfc
Nitrogen

NOy, NOx, HNO2, HNO3, HNO4, MPAN, NIT, NO, NO2, NO3, N2O5, MPN, PAN, PPN, N2O, NHx, NH3, NH4, MENO3, ETNO3, IPRNO3, NPRNO3

sfc 500hPa full column stratosphere sfc
Primary Organics

EOH, MOH, ISOP, MTPA, MTPO, LIMO, ALK4, BENZ, CH4, C2H6, C3H8, PRPE, TOLU, XYLE

sfc 500hPa full column stratosphere sfc
Secondary Organics

ACTA, ALD2, CH2O, HPALDs, MACR, IEPOX, ACET, MEK, MVK, ISOPN, GLYX, HCOOH, MAP, RCHO, MP

sfc 500hPa full column stratosphere sfc
Secondary Organic Aerosols

TSOA0, TSOA1, TSOA2, TSOA3, ASOA1, ASOA2, ASOA3, ASOAN, TSOG0, TSOG1, TSOG2, TSOG3, ASOG1, ASOG2, ASOG3, INDIOL, LVOCOA, SOAIE, SOAGX, SOAP, SOAS

sfc 500hPa full column stratosphere sfc
Sulfur

SOx, DMS, OCS, SO2, SO4

sfc 500hPa full column stratosphere sfc
ROy

H2O2, H, H2, H2O, HO2, O1D, OH, RO2

sfc 500hPa full column stratosphere --
J-values sfc 500hPa full column stratosphere -- --
 
Emissions by HEMCO category Total

Aircraft, Anthropogenic, Biomass Burning, Biogenic, Lightning*, Natural, Ocean, Seabirds, Decaying Plants, Ship, Soil, Degassing Volcanoes*, Erupting Volcanoes*

* Lightning NOx and volcano emissions are off in both simulations because no data are available for January 2020.

Emission totals Tables by species

Tables by inventory

Global mass Entire atmosphere

Troposphere only

Metrics OH concentration, MCF lifetime, CH4 lifetime
Budget tables

Budget totals by vertical region

1All plots created with GCPy have PDF bookmarks. If you do not see them in your browser try using a different browser (not Safari) or installing an Adobe Acrobat plug-in.

2Species category and lumped species definitions are simple to adjust. Updating them requires only editing the YAML files.

1-month transport tracer benchmark plots

Species Category2 Plots
Level Map Zonal Mean
RnPbBeTracers

Rn222, Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat

sfc 500hPa full column stratosphere
PassiveTracers

PassiveTracer, SF6Tracer, CH3ITracer, COAnthroEmis25dayTracer, COAnthroEmis50dayTracer, COUniformEmis25dayTracer, GlobEmis90dayTracer, NHEmis90dayTracer, SHEmis90dayTracer

sfc 500hPa full column stratosphere
WetLossConv

Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat

sfc 500 hPa full column strat
WetLossLS

Pb210, Pb210Strat, Be7, Be7Strat, Be10, Be10Strat

sfc 500 hPa full column strat
 
Pb-Be Budgets GEOS-FP 5.22.0 (Ref): GEOS-FP 5.25.1 (Dev):
Operation budgets
Strat-trop exchange GEOS-FP 5.22 (Ref): GEOS-FP 5.25 (Dev):
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