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| __FORCETOC__ | | __FORCETOC__ |
| '''''[[Tagged O3 simulation|Previous]] | [[Guide to GEOS-Chem simulations|Next]] | [[Guide to GEOS-Chem simulations]]''''' | | '''''[[Tagged O3 simulation|Previous]] | [[Guide to GEOS-Chem simulations|Next]] | [[Guide to GEOS-Chem simulations]]''''' |
| #[[GEOS-Chem chemistry mechanisms|Simulations using KPP-built mechanisms]] | | #[[GEOS-Chem chemistry mechanisms|Simulations using KPP-built mechanisms (carbon, fullchem, Hg)]] |
| #[[Aerosol-only simulation]] | | #[[Aerosol-only simulation]] |
| #[[CH4 simulation]] | | #[[CH4 simulation]] |
| #[[CO2 simulation]] | | #[[CO2 simulation]] |
| | #[[Metals simulation]] |
| #[[Mercury|Hg simulation]] | | #[[Mercury|Hg simulation]] |
| #[[POPs simulation]] | | #[[POPs simulation]] |
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| This page contains information about the Radon-Lead-Beryllium (and optional passive species) simulation in GEOS-Chem. | | This page contains information about the TransportTracers (formerly Rn-Pb-Be) simulation in GEOS-Chem. |
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| == Overview == | | == Overview == |
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| The Rn-Pb-Be simulation in GEOS-Chem was based on that of the old Harvard/GISS CTM model. The current simulation follows [http://acmg.seas.harvard.edu/publications/2001/liu2001.pdf Liu et al (2001)]. | | The Rn-Pb-Be simulation in GEOS-Chem was based on that of the old Harvard/GISS CTM model. The current simulation follows [http://acmg.seas.harvard.edu/publications/2001/liu2001.pdf Liu et al (2001)]. |
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| In [[GEOS-Chem 12#12.2.0|GEOS-Chem 12.2.0]] the Rn-Pb-Be simulation was extended to include additional passive species for benchmarking purposes and for diagnosing transport in GEOS-Chem. At this time the simulation was renamed to the **TransportTracer simulation**. | | In [[GEOS-Chem 12#12.2.0|GEOS-Chem 12.2.0]] the Rn-Pb-Be simulation was extended to include additional passive species for benchmarking purposes and for diagnosing transport in GEOS-Chem. At this time the simulation was renamed to the '''''TransportTracer simulation'''''. |
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| In [[GEOS-Chem 14.2.0]] the TransportTracers simulation was further modified so that species names and definitions are now consistent with GMAO's tracer gridded component (aka TR_GridComp). This will facilitate comparison of transport within GEOS-Chem, GCHP, and GEOS. | | In [[GEOS-Chem 14.2.0]] the TransportTracers simulation was further modified so that species names and definitions are now consistent with GMAO's tracer gridded component (aka TR_GridComp). This will facilitate comparison of transport within GEOS-Chem, GCHP, and GEOS. |
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| === List of species === | | === List of species === |
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| {| border=1 cellspacing=0 cellpadding=5 | | {| border=1 cellspacing=0 cellpadding=5 |
| |-bgcolor="#CCCCCC" | | |-bgcolor="#CCCCCC" |
| !width="200px"|Species name | | !width="100px"|Species name |
| !width="200px"|Description | | !width="200px"|Description |
| !width="400px"|Source | | !width="300px"|Source |
| !width="400px"|Sink | | !width="300px"|Sink |
| !width="200px"|Purpose | | !width="300px"|Purpose |
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| |-valign="top" | | |-valign="top" |
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| |Pb210s | | |Pb210s |
| |Lead-210 isotope stratospheric-source tracer | | |Lead-210 isotope stratospheric-source tracer |
| |Same as Pb210 (restricted to the stratosphere) | | | |
| |Same as Pb210 | | *Same as Pb210 (restricted to the stratosphere) |
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| | *Same as Pb210 |
| |Used to evaluate strat-trop exchange | | |Used to evaluate strat-trop exchange |
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| |Be7s | | |Be7s |
| |Beryllium-7 isotope stratospheric source tracer | | |Beryllium-7 isotope stratospheric source tracer |
| |Same as Be7 (restricted to the stratosphere) | | | |
| |Same as Be7 | | *Same as Be7 (restricted to the stratosphere) |
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| | *Same as Be7 |
| |Used to evaluate strat-trop exchange | | |Used to evaluate strat-trop exchange |
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| |Be10s | | |Be10s |
| |Beryllium-10 isotope stratospheric source tracer | | |Beryllium-10 isotope stratospheric source tracer |
| |Same as Be10 (restricted to the stratosphere) | | | |
| |Same as Be10 | | *Same as Be10 (restricted to the stratosphere) |
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| | *Same as Be10 |
| |Used to evaluate strat-trop exchange | | |Used to evaluate strat-trop exchange |
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| |PassiveTracer | | |PassiveTracer |
| |Passive tracer with initial concentration of 100 ppb | | |Passive tracer with initial concentration of 100 ppb |
| |None | | | |
| |None | | *None |
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| | *None |
| |Used to evaluate mass conservation in transport | | |Used to evaluate mass conservation in transport |
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| |SF6 | | |SF6 |
| |Sulfur hexafluoride | | |Sulfur hexafluoride |
| |Anthropogenic emissions from EDGAR v4.2 | | | |
| |None | | *Anthropogenic emissions from EDGAR v4.2 |
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| | *None |
| |Used to evaluate inter-hemispheric transport of anthropogenic emissions | | |Used to evaluate inter-hemispheric transport of anthropogenic emissions |
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| |CH3I | | |CH3I |
| |Methyl iodide | | |Methyl iodide |
| |Emissions over the oceans of 1 molec/cm2/s | | | |
| |5-day e-folding lifetime | | *Emissions over the oceans of 1 molec/cm2/s |
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| | *5-day e-folding lifetime |
| |Used to evaluate marine convection | | |Used to evaluate marine convection |
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| |CO_25 | | |CO_25 |
| |Anthropogenic CO 25-day tracer | | |Anthropogenic CO 25-day tracer |
| |Emissions from CEDS v2 | | | |
| |25-day e-folding lifetime | | *Emissions from CEDS v2 |
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| | *25-day e-folding lifetime |
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| |CO_50 | | |CO_50 |
| |Anthropogenic CO 50-day tracer | | |Anthropogenic CO 50-day tracer |
| |Emissions from CEDS v2 | | | |
| |50-day e-folding lifetime | | *Emissions from CEDS v2 |
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| | *50-day e-folding lifetime |
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| |e90 | | |e90 |
| |Constant burden 90-day tracer | | |Constant burden 90-day tracer |
| |Emitted globally at the surface such that the mixing ratio is maintained at 100 ppbv | | | |
| |90-day e-folding lifetime | | *Emitted globally at the surface such that the mixing ratio is maintained at 100 ppbv |
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| | *90-day e-folding lifetime |
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| |e90_n | | |e90_n |
| |Constant burden Northern Hemisphere 90-day tracer | | |Constant burden Northern Hemisphere 90-day tracer |
| |Emitted at the surface such that the mixing ratio is maintained at 100 ppbv. Emissions source is restricted to 40N - 90N. | | | |
| |90-day e-folding lifetime | | *Emitted at the surface such that the mixing ratio is maintained at 100 ppbv. Emissions source is restricted to 40N - 90N. |
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| | *90-day e-folding lifetime |
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| |e90_s | | |e90_s |
| |Constant burden Southern Hemisphere 90-day tracer | | |Constant burden Southern Hemisphere 90-day tracer |
| |Emitted at the surface such that the mixing ratio is maintained at 100 ppbv. Emissions source is restricted to 90S - 40S. | | | |
| |90-day e-folding lifetime | | *Emitted at the surface such that the mixing ratio is maintained at 100 ppbv. Emissions source is restricted to 90S - 40S. |
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| | *90-day e-folding lifetime |
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| |aoa | | |aoa |
| |Age of air uniform source tracer | | |Age of air uniform source tracer |
| |Increases by a value of 1 each emissions timestep | | | |
| |Sink at the surface | | *Increases by a value of 1 each emissions timestep |
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| | *Sink at the surface |
| |Used for evaluating residual circulation and mixing | | |Used for evaluating residual circulation and mixing |
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| |aoa_bl | | |aoa_bl |
| |Age of air uniform source tracer with sink restricted to the boundary layer | | |Age of air uniform source tracer with sink restricted to the boundary layer |
| |Increases by a value of 1 each emissions timestep | | | |
| |Sink in the boundary layer | | *Increases by a value of 1 each emissions timestep |
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| | *Sink in the boundary layer |
| |Used for evaluating residual circulation and mixing | | |Used for evaluating residual circulation and mixing |
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| |aoa_nh | | |aoa_nh |
| |Age of air uniform source tracer with sink restricted to a zone in the Northern Hemisphere | | |Age of air uniform source tracer with sink restricted to a zone in the Northern Hemisphere |
| |Increases by a value of 1 each emissions timestep | | | |
| |Sink at 30N - 50N | | *Increases by a value of 1 each emissions timestep |
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| | *Sink at 30N - 50N |
| |Used for evaluating residual circulation and mixing | | |Used for evaluating residual circulation and mixing |
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| |nh_5 | | |nh_5 |
| |Northern Hemisphere 5-day tracer | | |Northern Hemisphere 5-day tracer |
| |Constant source of 100 ppbv at latitudes 30N - 50N | | | |
| |5-day e-folding lifetime | | *Constant source of 100 ppbv at latitudes 30N - 50N |
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| | *5-day e-folding lifetime |
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| |nh_50 | | |nh_50 |
| |Northern Hemisphere 50-day tracer | | |Northern Hemisphere 50-day tracer |
| |Constant source of 100 ppbv at latitudes 30N - 50N | | | |
| |50-day e-folding lifetime | | *Constant source of 100 ppbv at latitudes 30N - 50N |
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| | *50-day e-folding lifetime |
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| |st80_25 | | |st80_25 |
| |Stratospheric source 25-day tracer | | |Stratospheric source 25-day tracer |
| |Constant source of 200 ppbv above 80 hPa | | | |
| |25-day e-folding lifetime | | *Constant source of 200 ppbv above 80 hPa |
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| | *25-day e-folding lifetime |
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| |} | | |} |
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| == Non-local PBL mixing ==
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| Capability to use the [[Boundary_layer_mixing#VDIFF|non-local PBL mixing scheme]] was added in [[GEOS-Chem v9-02]]. Code updates were provided by [mailto:jlin5@pku.edu.cn Jintai Lin].
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| Karen Yu evaluated the non-local PBL mixing scheme in the Rn-Pb-Be simulation using [[GEOS-5]] and [[GEOS-FP]] met fields. Please see [http://wiki.seas.harvard.edu/geos-chem/images/RnPbBe_nonlocalPBL.pdf these plots] comparing the simulation with and without the non-local PBL mixing scheme.
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| --[[User:Bmy|Bob Yantosca]] ([[User talk:Bmy|talk]]) 16:43, 8 January 2016 (UTC)
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| == 1-year benchmark simulations ==
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| === Benchmark overview ===
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| 1-year Rn-Pb-Be benchmark simulations are completed at the request of the Transport Working Group or whenever an update is introduced into the code that will impact transport and/or wet deposition. Each of these benchmarks involve a 4-year spinup period, followed by the 1-year run used for evaluation.
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| === Benchmark plots ===
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| {| border=1 cellspacing=0 cellpadding=5
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| |- bgcolor="#CCCCCC"
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| !width="100px"|Version
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| !width="900px"|Link
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| |'''[[GEOS-Chem_12#12.8.0|12.8.0]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/GC_12/12.8.0/</tt>
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| |'''[[GEOS-Chem_12_benchmark_history#12.2.0-TransportTracers|12.2.0]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/GC_12/12.2.0/TransportTracers/output/</tt>
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| |'''[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run2|v11-02e]]<br>w/ GEOS-FP''' (2016 met)
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-02/v11-02e/RnPbBePasv-Run2/NLPBL/output/</tt>
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| |'''[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run1|v11-02e]]<br>w/ GEOS-FP''' (72 levels)
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-02/v11-02e/RnPbBePasv-Run1/NLPBL/output/</tt>
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| |'''[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run0|v11-02e]]<br>w/ GEOS-FP''' (2013 met)
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-02/v11-02e/RnPbBePasv-Run0/NLPBL/output/</tt>
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| |'''[[GEOS-Chem_v11-02 benchmark_history#v11-02b-RnPbBePasv|v11-02b]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-02/v11-02b/RnPbBePasv/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01i|v11-01i]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01i/RnPbBePasv/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01h|v11-01h]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01h/RnPbBePasv/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]<br>w/ MERRA-2'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01f/MERRA2/RnPbBe/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01f/GEOSFP/RnPbBe/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01d|v11-01d]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01d/RnPbBe/RnPbBePasv_VDIFF/output/</tt>
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| |'''[[GEOS-Chem_v11-01 benchmark_history#v11-01b|v11-01b]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v11-01/v11-01b/RnPbBe/output/</tt>
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| |'''[[GEOS-Chem_v10-01 benchmark_history#v10-01-public-release|v10-01]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v10-01/v10-01-public-release/RnPbBe/output/</tt>
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| |'''[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]<br>w/ GEOS-FP'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v9-02/v9-02r/geosfp/RnPbBe/output/pdf/</tt>
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| |'''[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]<br>w/ GEOS-5'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v9-02/v9-02r/geos5/RnPbBe/output/pdf/</tt>
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| |'''[[GEOS-Chem v9-01-03 benchmark history#v9-01-03e_2|v9-01-03e]]<br>w/ GEOS-5'''
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| |<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1yr_benchmarks/v9-01-03/v9-01-03e/geos5/2005/RnPbBe/output/pdf/</tt>
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| |'''[[GEOS-Chem v9-01-02|v9-01-02]]<br>w/ GEOS-5'''
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| |<tt>http://wiki.seas.harvard.edu/geos-chem/index.php/Rn-Pb-Be_simulation#Comparison_plots</tt>
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| |}
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| === Budget of Pb210 ===
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| In this table we plot the budgets of Pb<sup>210</sup> obtained from 1-year benchmark simulations at 4° x 5° resolution done with various GEOS-Chem versions.
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| {| border=1 cellspacing=0 cellpadding=5
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| |- bgcolor="#CCCCCC"
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| !width="75px" rowspan="3"|Version
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| !width="75px" rowspan="3"|Met Field
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| !width="75px" rowspan="3"|Year
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| !width="100px" rowspan="3"|Tropospheric burden [g]
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| !width="100px" rowspan="3"|Tropospheric lifetime against deposition [days]
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| !width="150px" colspan="2"|Sources [g day -1]
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| !width="375px" colspan="5"|Sinks [g day-1]
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| |-bgcolor="#CCCCCC"
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| !width="75px" rowspan="2"|From Stratosphere
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| !width="75px" rowspan="2"|From Troposphere
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| !width="75px" rowspan="2"|Dry Deposition
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| !width="225px" colspan="3"|Wet Deposition
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| !width="75px" rowspan="2"|Radioactive decay
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| |-bgcolor="#CCCCCC"
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| !width="100px"|Total
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| !width="100px"|Stratiform
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| !width="100px"|Convective
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| |[[GEOS-Chem 12#12.8.0|12.8.0]]<br>(with [https://github.com/geoschem/geos-chem/pull/95 Luo2019] wetdep)
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| |[[GEOS-FP]] (72L)
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| |2016
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| |105.1827
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| |3.2461
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| |0.2690
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| |32.1142
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| |2.3068
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| |30.0303
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| |25.4236
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| |4.6067
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| |0.0088608
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| |-valign="top"
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| |[[GEOS-Chem 12#12.8.0|12.8.0]]
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| |[[GEOS-FP]] (72L)
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| |2016
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| |211.6465
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| |6.5363
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| |0.2690
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| |32.1142
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| |3.9521
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| |28.4142
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| |19.9437
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| |8.4705
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| |0.0178018
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| |[[GEOS-Chem_12_benchmark_history#12.2.0-TransportTracers|12.2.0]]
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| |[[GEOS-FP]] (72L)
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| |2016
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| |218.330
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| |6.71344
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| |0.236801
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| |32.2602
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| |3.95678
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| |28.5218
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| |20.0439
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| |8.47787
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| |0.0183735
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| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run2|v11-02e]]
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| |[[GEOS-FP]] (72L)
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| |'''2016'''
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| |217.941
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| |6.71192
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| |0.224000
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| |32.2206
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| |3.94971
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| |28.4770
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| |20.0147
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| |8.46232
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| |0.0183407
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| |-valign="top"
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| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run1|v11-02e]]
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| |[[GEOS-FP]] '''(72L)'''
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| |2013
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| |229.338
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| |7.10583
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| |0.219856
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| |32.0661
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| |3.90212
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| |28.3646
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| |19.9166
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| |8.44793
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| |0.0192987
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| |-valign="top"
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| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run0|v11-02e]]
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| |[[GEOS-FP]]
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| |2013
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| |229.338
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| |7.10583
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| |0.219864
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| |32.0661
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| |3.90212
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| |28.3646
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| |19.9166
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| |8.44793
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| |0.0192987
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| |-valign="top"
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| |[[GEOS-Chem_v11-02 benchmark_history#v11-02b-RnPbBePasv|v11-02b]]
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| |[[GEOS-FP]]
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| |2013
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| |229.061
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| |7.09725
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| |0.219669
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| |32.0661
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| |3.93661
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| |28.3299
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| |19.8931
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| |8.43679
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| |0.0192754
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| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01i|v11-01i]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |229.335
| |
| |7.10581
| |
| |0.219894
| |
| |32.0656
| |
| |3.90206
| |
| |28.3642
| |
| |19.9163
| |
| |8.44786
| |
| |0.0192984
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01h|v11-01h]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |205.551
| |
| |6.37603
| |
| |0.200768
| |
| |32.0656
| |
| |3.32588
| |
| |28.9232
| |
| |22.2968
| |
| |6.62642
| |
| |0.0173020
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]
| |
| |'''[[MERRA-2]]'''
| |
| |2013
| |
| |199.426
| |
| |6.20202
| |
| |0.237400
| |
| |31.9437
| |
| |3.26365
| |
| |28.9007
| |
| |21.7525
| |
| |7.14814
| |
| |0.0167875
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |204.931
| |
| |6.37746
| |
| |0.225323
| |
| |31.9356
| |
| |3.32210
| |
| |28.8216
| |
| |22.2060
| |
| |6.61553
| |
| |0.0172499
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01d|v11-01d]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |210.371
| |
| |6.54296
| |
| |0.225956
| |
| |31.9538
| |
| |3.41587
| |
| |28.7451
| |
| |21.9070
| |
| |6.83813
| |
| |0.0177696
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01b|v11-01b]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |212.655
| |
| |6.60214
| |
| |0.228550
| |
| |31.9528
| |
| |3.49478
| |
| |28.6686
| |
| |22.0420
| |
| |6.62657
| |
| |0.0179612
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v10-01 benchmark_history#v10-01-public-release|v10-01]]
| |
| |[[GEOS-FP]]
| |
| |'''2013'''
| |
| |250.912
| |
| |7.77516
| |
| |0.0832825
| |
| |32.2152
| |
| |3.51910
| |
| |28.7582
| |
| |22.0207
| |
| |6.73749
| |
| |0.0211769
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]
| |
| |'''[[GEOS-FP]]'''
| |
| |2012/2013
| |
| |247.630
| |
| |7.71356
| |
| |0.143133
| |
| |31.9904
| |
| |3.15887
| |
| |28.9538
| |
| |22.5351
| |
| |6.41867
| |
| |0.0208565
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]
| |
| |[[GEOS-5]]
| |
| |'''2012/2013'''
| |
| |305.699
| |
| |9.25835
| |
| |0.419521
| |
| |32.6109
| |
| |3.42747
| |
| |29.5772
| |
| |20.2059
| |
| |9.37127
| |
| |0.0257354
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-03 benchmark history#v9-01-03e_2|v9-01-03e]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |314.790
| |
| |9.51050
| |
| |0.128670
| |
| |32.9831
| |
| |3.48612
| |
| |29.5991
| |
| |20.8285
| |
| |8.77061
| |
| |0.0265495
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-02|v9-01-02]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |317.884
| |
| |9.60957
| |
| |0.121441
| |
| |32.9831
| |
| |3.49208
| |
| |29.5857
| |
| |19.5148
| |
| |10.0709
| |
| |0.0268078
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-01|v9-01-01]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |316.253
| |
| |9.55568
| |
| |0.129852
| |
| |32.9831
| |
| |3.66397
| |
| |29.4223
| |
| |19.4090
| |
| |10.0134
| |
| |0.0251665
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v8-03-02|v8-03-02]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |298.318
| |
| |9.01288
| |
| |0.129642
| |
| |32.9831
| |
| |3.21013
| |
| |29.8775
| |
| |21.3283
| |
| |8.54923
| |
| |0.0266710
| |
|
| |
| |}
| |
|
| |
| NOTES:
| |
| *'''Bolded''' text denotes change in meteorology product and/or meteorology year.
| |
| *The simulations that utilized GEOS-5 met fields were done for year 2005, with a 4-year spinup. (Computed by [mailto:hongyu.liu-1@nasa.gov Hongyu Liu])
| |
| *The benchmark simulations for [[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]] were done for June 2012–May 2013, with a 2-month spinup. This was due to data availability of the [[GEOS-FP]] met fields at the time of the simulation. (Completed by [mailto:kyu@seas.harvard.edu Karen Yu])
| |
| *The simulations for [[GEOS-Chem v10-01]] and later versions utilized GEOS-FP met fields for the year 2013, with a 4-year spinup. The results reported here are for simulations using the non-local PBL mixing ([[Boundary_layer_mixing#VDIFF|VDIFF]]) scheme. (Completed by the [[GCST|GEOS-Chem Support Team]])
| |
| *The simulations for [[GEOS-Chem 12#12.2.0|GEOS-Chem 12.2.0]] and later versions utilized GEOS-FP met fields for the year 2016, with a 10-year spinup. The results reported here are for simulations using the non-local PBL mixing ([[Boundary_layer_mixing#VDIFF|VDIFF]]) scheme. (Completed by the [[GCST|GEOS-Chem Support Team]])
| |
| *'''''<span style="color:darkorange">Hongyu Liu and Bo Zhang are investigating the low Pb tropospheric lifetime against deposition observed in v11-01b using GEOS-FP. A quick fix was tested in v11-01d, but subsequently removed because of the high impact on aerosols. For more information, see [[Wet_deposition#Low_tropospheric_210Pb_lifetime_against_deposition_in_v11-01b|this discussion on the ''Wet deposition'' wiki page]].</span>
| |
|
| |
| === Budget of Be7 ===
| |
|
| |
| In this table we plot the budgets of Be<sup>7</sup> obtained from 1-year benchmark simulations at 4° x 5° resolution done with various GEOS-Chem versions.
| |
|
| |
| {| border=1 cellspacing=0 cellpadding=5
| |
| |- bgcolor="#CCCCCC"
| |
| !width="150px" rowspan="3"|Version
| |
| !width="75px" rowspan="3"|Met Field
| |
| !width="75px" rowspan="3"|Year
| |
| !width="100px" rowspan="3"|Tropospheric burden [g]
| |
| !width="100px" rowspan="3"|Tropospheric lifetime against deposition [days]
| |
| !width="150px" colspan="2"|Sources [g day -1]
| |
| !width="375px" colspan="5"|Sinks [g day-1]
| |
|
| |
| |-bgcolor="#CCCCCC"
| |
| !width="75px" rowspan="2"|From Stratosphere
| |
| !width="75px" rowspan="2"|From Troposphere
| |
| !width="75px" rowspan="2"|Dry Deposition
| |
| !width="225px" colspan="3"|Wet Deposition
| |
| !width="75px" rowspan="2"|Radioactive decay
| |
|
| |
| |-bgcolor="#CCCCCC"
| |
| !width="75px"|Total
| |
| !width="75px"|Stratiform
| |
| !width="75px"|Convective
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem 12#12.8.0|12.8.0]]<br>(with [https://github.com/geoschem/geos-chem/pull/95 Luo2019] wetdep)
| |
| |[[GEOS-FP]] (72L)
| |
| |2016
| |
| |1.1882
| |
| |9.5228
| |
| |0.2882
| |
| |0.1149
| |
| |0.0052
| |
| |0.1188
| |
| |0.1029
| |
| |0.0159
| |
| |0.0154770
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem 12#12.8.0|12.8.0]]
| |
| |[[GEOS-FP]] (72L)
| |
| |2016
| |
| |2.8927
| |
| |20.5842
| |
| |0.2882
| |
| |0.1149
| |
| |0.0095
| |
| |0.1305
| |
| |0.1047
| |
| |0.0258
| |
| |0.0376572
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_12_benchmark_history#12.2.0-TransportTracers|12.2.0]]
| |
| |[[GEOS-FP]] (72L)
| |
| |2016
| |
| |3.55540
| |
| |24.5959
| |
| |0.0541444
| |
| |0.136303
| |
| |0.00952537
| |
| |0.134645
| |
| |0.108871
| |
| |0.0257736
| |
| |0.0462768
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run2|v11-02e]]
| |
| |[[GEOS-FP]] (72L)
| |
| |'''2016'''
| |
| |3.56036
| |
| |24.6000
| |
| |0.0543652
| |
| |0.136303
| |
| |0.00955045
| |
| |0.134776
| |
| |0.108970
| |
| |0.0258063
| |
| |0.0463413
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run1|v11-02e]]
| |
| |[[GEOS-FP]] '''(72L)'''
| |
| |2013
| |
| |3.50286
| |
| |24.9516
| |
| |0.0529614
| |
| |0.132687
| |
| |0.0102709
| |
| |0.129784
| |
| |0.103733
| |
| |0.0260514
| |
| |0.0455928
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-02 benchmark_history#v11-02e-RnPbBePasv-Run0|v11-02e]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.51047
| |
| |24.9816
| |
| |0.0531919
| |
| |0.132687
| |
| |0.0102796
| |
| |0.129907
| |
| |0.103831
| |
| |0.0260759
| |
| |0.0456918
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-02 benchmark_history#v11-02b-RnPbBePasv|v11-02b]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.51002
| |
| |24.9773
| |
| |0.0531920
| |
| |0.132688
| |
| |0.0103364
| |
| |0.129856
| |
| |0.103796
| |
| |0.0260605
| |
| |0.0456861
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01i|v11-01i]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.51044
| |
| |24.9815
| |
| |0.0531920
| |
| |0.132685
| |
| |0.0102795
| |
| |0.129907
| |
| |0.103831
| |
| |0.0260760
| |
| |0.0456914
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01h|v11-01h]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.27337
| |
| |22.7988
| |
| |0.0531059
| |
| |0.132685
| |
| |0.00626941
| |
| |0.136914
| |
| |0.124153
| |
| |0.0127610
| |
| |0.0426082
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]
| |
| |'''[[MERRA-2]]'''
| |
| |2013
| |
| |3.12435
| |
| |21.2728
| |
| |0.0538848
| |
| |0.133202
| |
| |0.00650753
| |
| |0.139910
| |
| |0.124784
| |
| |0.0151255
| |
| |0.0406699
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01f|v11-01f]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.27720
| |
| |22.8066
| |
| |0.0531204
| |
| |0.132842
| |
| |0.00628201
| |
| |0.137021
| |
| |0.124239
| |
| |0.0127822
| |
| |0.0426591
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01d|v11-01d]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.32564
| |
| |23.2523
| |
| |0.0530363
| |
| |0.132914
| |
| |0.00664940
| |
| |0.135989
| |
| |0.122347
| |
| |0.0136424
| |
| |0.0433123
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v11-01 benchmark_history#v11-01b|v11-01b]]
| |
| |[[GEOS-FP]]
| |
| |2013
| |
| |3.33530
| |
| |23.3408
| |
| |0.0530463
| |
| |0.132914
| |
| |0.00698390
| |
| |0.135539
| |
| |0.1228950
| |
| |0.0126441
| |
| |0.0434378
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem_v10-01 benchmark_history#v10-01-public-release|v10-01]]
| |
| |[[GEOS-FP]]
| |
| |'''2013'''
| |
| |3.98942
| |
| |30.1194
| |
| |0.0512072
| |
| |0.132977
| |
| |0.00794288
| |
| |0.124298
| |
| |0.1101450
| |
| |0.0141529
| |
| |0.0519433
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]
| |
| |'''[[GEOS-FP]]'''
| |
| |2012/2013
| |
| |3.41039
| |
| |25.9787
| |
| |0.0630964
| |
| |0.112349
| |
| |0.00782526
| |
| |0.123206
| |
| |0.1093560
| |
| |0.0138500
| |
| |0.0444134
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]]
| |
| |[[GEOS-5]]
| |
| |'''2012/2013'''
| |
| |3.49564
| |
| |27.5376
| |
| |0.0674867
| |
| |0.104750
| |
| |0.00881422
| |
| |0.117906
| |
| |0.0844566
| |
| |0.0334494
| |
| |0.0455165
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-03 benchmark history#v9-01-03e_2|v9-01-03e]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |4.37787
| |
| |34.6750
| |
| |0.0504472
| |
| |0.132552
| |
| |0.00882144
| |
| |0.117156
| |
| |0.0858211
| |
| |0.0393817
| |
| |0.0570217
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-02|v9-01-02]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |4.39653
| |
| |34.8814
| |
| |0.0504253
| |
| |0.132552
| |
| |0.00936374
| |
| |0.116350
| |
| |0.0769681
| |
| |0.0393817
| |
| |0.0572633
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v9-01-01|v9-01-01]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |4.39407
| |
| |34.8514
| |
| |0.0504328
| |
| |0.132552
| |
| |0.00969345
| |
| |0.116060
| |
| |0.0767926
| |
| |0.0392671
| |
| |0.0572312
| |
|
| |
| |-valign="top"
| |
| |[[GEOS-Chem v8-03-02|v8-03-02]]
| |
| |[[GEOS-5]]
| |
| |2005
| |
| |4.31961
| |
| |33.9930
| |
| |0.0504585
| |
| |0.132552
| |
| |0.00808056
| |
| |0.118666
| |
| |0.0846774
| |
| |0.0339885
| |
| |0.0562636
| |
|
| |
| |}
| |
|
| |
| NOTES:
| |
| *'''Bolded''' text denotes change in meteorology product and/or meteorology year.
| |
| *The simulations that utilized GEOS-5 met fields were done for year 2005, with a 4-year spinup. (Computed by [mailto:hongyu.liu-1@nasa.gov Hongyu Liu])
| |
| *The benchmark simulations for [[GEOS-Chem v9-02 benchmark history#v9-02r|v9-02r]] were done for June 2012–May 2013, with a 2-month spinup. This was due to data availability of the [[GEOS-FP]] met fields at the time of the simulation. (Completed by [mailto:kyu@seas.harvard.edu Karen Yu])
| |
| *The simulations for [[GEOS-Chem v10-01]] and later versions utilized GEOS-FP met fields for the year 2013, with a 4-year spinup. The results reported here are for simulations using the non-local PBL mixing ([[Boundary_layer_mixing#VDIFF|VDIFF]]) scheme. (Completed by the [[GEOS-Chem Support Team]])
| |
| *The simulations for [[GEOS-Chem 12#12.2.0|GEOS-Chem 12.2.0]] and later versions utilized GEOS-FP met fields for the year 2016, with a 10-year spinup. The results reported here are for simulations using the non-local PBL mixing ([[Boundary_layer_mixing#VDIFF|VDIFF]]) scheme. (Completed by the [[GCST|GEOS-Chem Support Team]])
| |
|
| |
|
| == References == | | == References == |