Tropospheric chemistry mechanism: Difference between revisions

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On this page we discuss various aspects of GEOS-Chem's standard NOx-Ox-hydrocarbon-aerosol simulation (aka the "full-chemistry" simulation).
On this page you can find information on GEOS-Chem's tropospheric chemistry mechanism (formerly referred to as "NOx-Ox-HC-aerosol-Br").


== Recent chemistry updates ==
== Recent chemistry updates ==


The following table lists notable updates to the GEOS-Chem "full-chemistry" mechanism.  For more information about a particular feature, click on the appropriate link below.
The following table lists notable updates to the GEOS-Chem tropospheric chemistry ("tropchem") mechanism.  For more information about a particular feature, click on the appropriate link below.


{| border="1" cellspacing="0" cellpadding="5"
{| border="1" cellspacing="0" cellpadding="5"
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!width="150px"|Version
!width="150px"|Version
!width="650px"|Features
!width="650px"|Features
|-valign="top"
|[[GEOS-Chem 12#12.0.0|GEOS-Chem 12.0.0]]<br>(aka "v11-02-final")
|
*[[Halogen_chemistry_mechanism|Halogen chemistry]]
*[[GEOS-Chem_chemistry_mechanisms#Updated_isoprene_and_monoterpene_chemistry|Updated isoprene & monoterpene chemistry]]
*[[Secondary_organic_aerosols#Simple_SOA_scheme|Simple SOA scheme]]
*[[PAN|Updated PAN chemistry]]
|-valign="top"
|[[GEOS-Chem v11-01]]
|
*[[FlexChem]]


|-valign="top"
|-valign="top"
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|
|
*[[#HO2_uptake|HO2 uptake]]
*[[#HO2_uptake|HO2 uptake]]
*[http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v5.pdf Updated reaction rates and photolysis rates]
*Updated reaction rates and photolysis rates
|}
|}


--[[User:Bmy|Bob Y.]] 16:30, 30 September 2013 (EDT)
--[[User:Bmy|Bob Y.]] ([[User talk:Bmy|talk]]) 21:07, 27 May 2015 (UTC)
 
== Photolysis ==
 
[[GEOS-Chem v10-01]] and newer versions now use the [[FAST-JX v7.0 photolysis mechanism]].  Prior versions used the older [[FAST-J photolysis mechanism]].
 
--[[User:Bmy|Bob Y.]] ([[User talk:Bmy|talk]]) 21:03, 27 May 2015 (UTC)
 
== CH4 concentrations ==
 
=== Latitude bands ===
 
<span style="color:green">'''''Katherine Travis has added CH4 latitudinal data for years 2007 through 2013 in GEOS-Chem v10-01 (approved 15 Jun 2015).  For more information, please see [[GEOS-Chem_v10-01#Update_CH4_latitude_bands|this post on our ''GEOS-Chem v10-01'' wiki page]].'''''</span>
 
<span style="color:green">'''''Katherine Travis has added CH4 latitudinal data for years 2014 through 2016 in GEOS-Chem v11-02d. For more information, please see [[GEOS-Chem_v11-02#Update_CH4_latitude_bands__for_2014-2016|this post on our ''GEOS-Chem v11-02'' wiki page]].'''''</span>
 
'''''[mailto:cbuten@pdx.edu Chris Buten] wrote:'''''
 
:When running the NOxOxHC simulation, I presume that CH4 concentration is specified as an input and not determined by emissions and transport (and therefore not a tracer). If so, is there a way to easily visualize or extract these input concentrations?
 
'''''[mailto:yantosca@seas.harvard.edu Bob Yantosca] wrote:'''''
 
:Yes, in the full chemistry mechanism, CH4 is a constant.  The values for years and latitude bands are set by routine <code>GeosCore/get_global_ch4.F</code>.
 
--[[User:Bmy|Bob Y.]] 09:52, 14 July 2008 (EDT)
 
'''''[http://www.ldeo.columbia.edu/~ltmurray/ Lee Murray] wrote:'''''
 
:The methane concentrations used for non-UCX full chemistry runs in GEOS-Chem (fixed throughout the troposphere to annual zonal mean values in four bands) have not have their values updated since 2008, which was the tail end of the hiatus in the growth rate.  I can provide updated values through the present. This is something we should flag as necessary for every public model release — it's trivial to do, I'm happy to be point person.
 
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 18:06, 20 May 2015 (UTC)
 
=== Monthly mean surface distributions ===
 
<span style="color:green">'''''This update was included in [[GEOS-Chem v11-02#v11-02e|v11-02e]] (approved 24 Mar 2018).'''''</span>
 
'''''[http://www.sas.rochester.edu/ees/atmos/ Lee Murray] wrote:'''''
 
:I have prepared spatially kriged (interpolated) monthly mean surface methane distributions from the NOAA GMD flask observations from the early 1980s through the present in a NetCDF file. This allows for seasonality in the methane concentrations and local maxima (e.g., south central US; western Russia) and minima.  It is not appropriate to use these surface distributions fixed throughout the entire column (spatial heterogeneity will be reduced in the free troposphere), but I use them in all my current simulations to fix surface concentrations and advect methane at the cost of an additional transported tracer. Since the surface concentration is fixed, tropospheric chemistry equilibrates much faster than if we were to have online methane emissions, on the time-scale of tropospheric mixing. UCX does the same thing for its treatment of methane by default, but with a single mean surface value. Fixing surface concentrations and allowing advection is common treatment in other atmospheric chemistry models.
 
:It is now generally standard practice for global models to prescribe surface methane concentrations and allow it to advect.  It doesn’t have large impacts on the short-lived chemistry, but my maps eliminate the artificial step gradients that the zonal bands impose and introduce realistic and dynamic spatial gradients in the troposphere. I think it is worth putting in tropchem as an advected tracer, but at the very least, we should use my mean meridional gradients to impose the fixed concentrations.
 
:It’s no more work to maintain than the current treatment, which is constantly falling behind (and the UCX surface data is even further behind than tropchem).
:The NetCDF methane files are ready and contain observations from Feb 1983 through Dec 2016, with extrapolated trends for 1979-2020.
 
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 16:49, 28 November 2017 (UTC)
 
== Bromine chemistry ==
 
Please see our [[Bromine chemistry mechanism]] wiki page for complete information about the bromine species used in this mechanism.
 
--[[User:Bmy|Bob Y.]] ([[User talk:Bmy|talk]]) 21:07, 27 May 2015 (UTC)
 
== Removal of NOx and Ox partitioning ==
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02h|v9-02h]] and approved on 15 May 2013.'''''</span>
 
Family tracers NOx and Ox have been removed and are now replaced with their individual constituents: NO, NO2, NO3, HNO2, and O3. In order to remove NOx and Ox, the following updates were also made:
   
#NOx emissions are now NO emissions and Ox emissions are now O3 emissions. This is consistent with the previous treatment of NOx and Ox emissions. Previously, in the Tracer Menu of input.geos, NO and O3 were denoted with parentheses, indicating NOx was emitted as NO and Ox was emitted as O3.
#Dry deposition of NOx is now dry deposition of NO2.
#Routine <code>OHSAVE</code> has been updated to remove <code>FRACO3, FRACNO, FRACNO2, SAVENO, SAVENO2,</code> and <code>SAVENO3</code>. These are no longer needed because O3, NO, NO2, and NO3 are now tracers.
#Routine <code>PARTITION</code> has been updated to remove partitioning of NOx and Ox.
 
--[[User:Melissa Payer|Melissa Payer]] 15:21, 1 April 2013 (EDT)


== Evolution of mean OH ==
== Evolution of mean OH ==


Please see our [[Mean OH lifetime in GEOS-Chem|wiki page which tracks the evolution of the mean OH lifetime]] taken from the [http://acmg.seas.harvard.edu/geos/geos_1yr_plots.html GEOS-Chem 1-year benchmark simulations].
Please see our [[Mean OH concentration|wiki page which tracks the evolution of the mean OH concentration]] taken from the GEOS-Chem 1-year benchmark simulations.


--[[User:Bmy|Bob Y.]] 12:56, 16 February 2010 (EST)
--[[User:Bmy|Bob Y.]] 12:56, 16 February 2010 (EST)
Line 95: Line 173:


== Updates to chemistry mechanism ==
== Updates to chemistry mechanism ==
<span style="color:green">'''''NOTE: These [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v5.pdf updated reaction rates] were released in [[GEOS-Chem v8-02-01]] in May 2009.'''''</span>


'''''[mailto:Pinder.Rob@epamail.epa.gov Rob Pinder] wrote:'''''
'''''[mailto:Pinder.Rob@epamail.epa.gov Rob Pinder] wrote:'''''
Line 103: Line 183:


:I updated most of the reactions according to JPL06 and IUPAC06.  Please find  [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/updated_rxns_jingqiu_mao.pdf a document with the revised reaction rates].
:I updated most of the reactions according to JPL06 and IUPAC06.  Please find  [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/updated_rxns_jingqiu_mao.pdf a document with the revised reaction rates].
'''''NOTE: These [http://acmg.seas.harvard.edu/geos/wiki_docs/chemistry/chemistry_updates_v5.pdf updated reaction rates] were released in [[GEOS-Chem v8-02-01]] in May 2009.'''''


--[[User:Bmy|Bob Y.]] 16:52, 16 February 2010 (EST)
--[[User:Bmy|Bob Y.]] 16:52, 16 February 2010 (EST)
Line 128: Line 206:
:I confirm the history version concerning the reason why we turned off the HO2 uptake, as decribed in Sauvage et al. ACP, 2007. It was based on simulations over the Tropics and comparison of GC ozone simulation versus observations (SHADOZ and MOZAIC).
:I confirm the history version concerning the reason why we turned off the HO2 uptake, as decribed in Sauvage et al. ACP, 2007. It was based on simulations over the Tropics and comparison of GC ozone simulation versus observations (SHADOZ and MOZAIC).


'''''NOTE: This update from Lyatt Jaegle was released in [[GEOS-Chem v8-02-01]].'''''
<span style="color:green">'''''NOTE: This update from Lyatt Jaegle was released in [[GEOS-Chem v8-02-01]].'''''</span>


--[[User:Bmy|Bob Y.]] 16:51, 16 February 2010 (EST)
--[[User:Bmy|Bob Y.]] 16:51, 16 February 2010 (EST)
Line 134: Line 212:
=== Improved HO2 uptake ===
=== Improved HO2 uptake ===


'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02j|v9-02j]] and approved on 28 May 2013.'''''
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02j|v9-02j]] and approved on 28 May 2013.'''''</span>


'''''[mailto:djacob@fas.harvard.edu Daniel Jacob] replied:'''''  
'''''[mailto:djacob@fas.harvard.edu Daniel Jacob] replied:'''''  
Line 155: Line 233:


--[[User:Bmy|Bob Y.]] 15:30, 8 June 2011 (EDT)
--[[User:Bmy|Bob Y.]] 15:30, 8 June 2011 (EDT)
== CH4 concentrations ==
=== Latitude bands ===
'''''[mailto:cbuten@pdx.edu Chris Buten] wrote:'''''
:When running the NOxOxHC simulation, I presume that CH4 concentration is specified as an input and not determined by emissions and transport (and therefore not a tracer). If so, is there a way to easily visualize or extract these input concentrations?
'''''[mailto:yantosca@seas.harvard.edu Bob Yantosca] wrote:'''''
:Yes, in the full chemistry mechanism, CH4 is a constant.  The values for years and latitude bands are set by routine <tt>get_global_ch4.f</tt>.
--[[User:Bmy|Bob Y.]] 09:52, 14 July 2008 (EDT)
'''''[http://www.ldeo.columbia.edu/~ltmurray/ Lee Murray] wrote:'''''
:The methane concentrations used for non-UCX full chemistry runs in GEOS-Chem (fixed throughout the troposphere to annual zonal mean values in four bands) have not have their values updated since 2008, which was the tail end of the hiatus in the growth rate.  I can provide updated values through the present. This is something we should flag as necessary for every public model release — it's trivial to do, I'm happy to be point person.
'''''This update is slated for inclusion in the [[GEOS-Chem v10-01#Fixes and updates added during the public comment period|GEOS-Chem v10-01 public release]].'''''
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 18:06, 20 May 2015 (UTC)
=== Monthly mean surface distributions ===
The following update has been proposed for [[GEOS-Chem v11-01]].
'''''[http://www.ldeo.columbia.edu/~ltmurray/ Lee Murray] wrote:'''''
:I have prepared spatially kriged (interpolated) monthly mean surface methane distributions from the NOAA GMD flask observations from the early 1980s through the present in a NetCDF file. This allows for seasonality in the methane concentrations and local maxima (e.g., south central US; western Russia) and minima.  It is not appropriate to use these surface distributions fixed throughout the entire column (spatial heterogeneity will be reduced in the free troposphere), but I use them in all my current simulations to fix surface concentrations and advect methane at the cost of an additional transported tracer. Since the surface concentration is fixed, tropospheric chemistry equilibrates much faster than if we were to have online methane emissions, on the time-scale of tropospheric mixing. UCX does the same thing for its treatment of methane by default, but with a single mean surface value. Fixing surface concentrations and allowing advection is common treatment in other atmospheric chemistry models. If the steering committee wants to transition toward this style of treating methane, then I will be happy to provide these maps.
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 18:06, 20 May 2015 (UTC)
== FAST-J Photolysis ==
NOTE: This discussion has now been moved to the [[Photolysis mechanism]] page.
== Removal of NOx and Ox partitioning ==
'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02h|v9-02h]] and approved on 15 May 2013.'''''
Family tracers NOx and Ox have been removed and are now replaced with their individual constituents: NO, NO2, NO3, HNO2, and O3. In order to remove NOx and Ox, the following updates were also made:
   
#NOx emissions are now NO emissions and Ox emissions are now O3 emissions. This is consistent with the previous treatment of NOx and Ox emissions. Previously, in the Tracer Menu of input.geos, NO and O3 were denoted with parentheses, indicating NOx was emitted as NO and Ox was emitted as O3.
#Dry deposition of NOx is now dry deposition of NO2.
#Routine <tt>OHSAVE</tt> has been updated to remove <tt>FRACO3, FRACNO, FRACNO2, SAVENO, SAVENO2,</tt> and <tt>SAVENO3</tt>. These are no longer needed because O3, NO, NO2, and NO3 are now tracers.
#Routine <tt>PARTITION</tt> has been updated to remove partitioning of NOx and Ox.
--[[User:Melissa Payer|Melissa Payer]] 15:21, 1 April 2013 (EDT)
== Previous issues that are now resolved ==
NOTE: Please also see our list of [[Bugs and fixes|GEOS-Chem bugs and the versions in which they were fixed]] for the latest information.
=== Variable Tropopause ===
Please see the following links for more information about issues with the dynamic tropopause that have since been fixed.
# [[Dynamic tropopause#Buggy implementation in v7-04-12|Buggy implementation in v7-04-12]]
# [[Dynamic tropopause#Polar cap|Polar cap @ 200 hPa is now applied]]
=== Other errors in SMVGEAR ===
# May Fu and Philippe Le Sager fixed [[GEOS-Chem v7-04-13#smvgear.f|a bug in SMVGEAR that caused concentrations of certain tracers in STT to go to zero.]]  This bug was fixed in [[GEOS-Chem v7-04-13]]. 
# Lok Lamsal reported a bug with NaN's in SMVGEAR.  Bob Yantosca recommended a fix for this error.  [[GEOS-Chem v7-04-10#NaN's in smvgear.f|Visit the discussion here]].
--[[User:Bmy|Bob Y.]] 12:52, 13 September 2010 (EDT)

Latest revision as of 20:53, 20 September 2022

On this page you can find information on GEOS-Chem's tropospheric chemistry mechanism (formerly referred to as "NOx-Ox-HC-aerosol-Br").

Recent chemistry updates

The following table lists notable updates to the GEOS-Chem tropospheric chemistry ("tropchem") mechanism. For more information about a particular feature, click on the appropriate link below.

Version Features
GEOS-Chem 12.0.0
(aka "v11-02-final")
GEOS-Chem v11-01
GEOS-Chem v10-01
GEOS-Chem v9-02
GEOS-Chem v9-01-03
GEOS-Chem v8-03-01
GEOS-Chem v8-02-04
GEOS-Chem v8-02-03
GEOS-Chem v8-02-01
  • HO2 uptake
  • Updated reaction rates and photolysis rates

--Bob Y. (talk) 21:07, 27 May 2015 (UTC)

Photolysis

GEOS-Chem v10-01 and newer versions now use the FAST-JX v7.0 photolysis mechanism. Prior versions used the older FAST-J photolysis mechanism.

--Bob Y. (talk) 21:03, 27 May 2015 (UTC)

CH4 concentrations

Latitude bands

Katherine Travis has added CH4 latitudinal data for years 2007 through 2013 in GEOS-Chem v10-01 (approved 15 Jun 2015). For more information, please see this post on our GEOS-Chem v10-01 wiki page.

Katherine Travis has added CH4 latitudinal data for years 2014 through 2016 in GEOS-Chem v11-02d. For more information, please see this post on our GEOS-Chem v11-02 wiki page.

Chris Buten wrote:

When running the NOxOxHC simulation, I presume that CH4 concentration is specified as an input and not determined by emissions and transport (and therefore not a tracer). If so, is there a way to easily visualize or extract these input concentrations?

Bob Yantosca wrote:

Yes, in the full chemistry mechanism, CH4 is a constant. The values for years and latitude bands are set by routine GeosCore/get_global_ch4.F.

--Bob Y. 09:52, 14 July 2008 (EDT)

Lee Murray wrote:

The methane concentrations used for non-UCX full chemistry runs in GEOS-Chem (fixed throughout the troposphere to annual zonal mean values in four bands) have not have their values updated since 2008, which was the tail end of the hiatus in the growth rate. I can provide updated values through the present. This is something we should flag as necessary for every public model release — it's trivial to do, I'm happy to be point person.

--Melissa Sulprizio (talk) 18:06, 20 May 2015 (UTC)

Monthly mean surface distributions

This update was included in v11-02e (approved 24 Mar 2018).

Lee Murray wrote:

I have prepared spatially kriged (interpolated) monthly mean surface methane distributions from the NOAA GMD flask observations from the early 1980s through the present in a NetCDF file. This allows for seasonality in the methane concentrations and local maxima (e.g., south central US; western Russia) and minima. It is not appropriate to use these surface distributions fixed throughout the entire column (spatial heterogeneity will be reduced in the free troposphere), but I use them in all my current simulations to fix surface concentrations and advect methane at the cost of an additional transported tracer. Since the surface concentration is fixed, tropospheric chemistry equilibrates much faster than if we were to have online methane emissions, on the time-scale of tropospheric mixing. UCX does the same thing for its treatment of methane by default, but with a single mean surface value. Fixing surface concentrations and allowing advection is common treatment in other atmospheric chemistry models.
It is now generally standard practice for global models to prescribe surface methane concentrations and allow it to advect. It doesn’t have large impacts on the short-lived chemistry, but my maps eliminate the artificial step gradients that the zonal bands impose and introduce realistic and dynamic spatial gradients in the troposphere. I think it is worth putting in tropchem as an advected tracer, but at the very least, we should use my mean meridional gradients to impose the fixed concentrations.
It’s no more work to maintain than the current treatment, which is constantly falling behind (and the UCX surface data is even further behind than tropchem).
The NetCDF methane files are ready and contain observations from Feb 1983 through Dec 2016, with extrapolated trends for 1979-2020.

--Melissa Sulprizio (talk) 16:49, 28 November 2017 (UTC)

Bromine chemistry

Please see our Bromine chemistry mechanism wiki page for complete information about the bromine species used in this mechanism.

--Bob Y. (talk) 21:07, 27 May 2015 (UTC)

Removal of NOx and Ox partitioning

This update was tested in the 1-month benchmark simulation v9-02h and approved on 15 May 2013.

Family tracers NOx and Ox have been removed and are now replaced with their individual constituents: NO, NO2, NO3, HNO2, and O3. In order to remove NOx and Ox, the following updates were also made:

  1. NOx emissions are now NO emissions and Ox emissions are now O3 emissions. This is consistent with the previous treatment of NOx and Ox emissions. Previously, in the Tracer Menu of input.geos, NO and O3 were denoted with parentheses, indicating NOx was emitted as NO and Ox was emitted as O3.
  2. Dry deposition of NOx is now dry deposition of NO2.
  3. Routine OHSAVE has been updated to remove FRACO3, FRACNO, FRACNO2, SAVENO, SAVENO2, and SAVENO3. These are no longer needed because O3, NO, NO2, and NO3 are now tracers.
  4. Routine PARTITION has been updated to remove partitioning of NOx and Ox.

--Melissa Payer 15:21, 1 April 2013 (EDT)

Evolution of mean OH

Please see our wiki page which tracks the evolution of the mean OH concentration taken from the GEOS-Chem 1-year benchmark simulations.

--Bob Y. 12:56, 16 February 2010 (EST)

Isoprene papers

Mat Evans wrote:

I thought it would be useful to put together all the isoprene papers that are coming out at the moment.

New papers

Mat Evans wrote:

This page is somewhere to put comments about new papers that have a relevance to the chemistry scheme in GEOS-Chem and assocated parameters.

Acetone treatment in GEOS-Chem

Bryan Duncanwrote:

I've asked you before about how you treat acetone in GEOS-Chem, but I thought to ask you again since Eric Nielson is implementing the GMI Combo chemistry package into the NASA GEOS-5 Chemistry Climate Model (Steven Pawson/Rich Stolarski = PIs). In the Combo CTM, we simply read in static acetone fields, instead of having acetone emissions. We did this a while back following Harvard's lead. So, I'd like to know if there has been any change to the treatment of acetone that we should adopt?

Daniel Jacob replied:

We still read the same static acetone fields (from Jacob et al. 2002) in the standard full-chemistry version of GEOS-Chem and I recommend that you still do that too in GMI. The reason is that there's a 300 ppt acetone background in the atmosphere that we don't understand and can't model. In my 2002 paper I tried to simulate it with an ocean source but subsequent work showed that the ocean is more often a sink (so much for that). At least the 2002 paper has a good simulation of observed concentrations, even if it's for the wrong reason.

--Bob Y. 09:09, 2 December 2008 (EST)

Updates to chemistry mechanism

NOTE: These updated reaction rates were released in GEOS-Chem v8-02-01 in May 2009.

Rob Pinder wrote:

We downloaded the code from the latest version of GEOS-Chem (v8-01-01), but the documentation that we found is from version 5-07-08. Do you know if these rate constants have been overhauled recently, especially to reflect guidance from JPL 2006 ?

Jingqiu Mao replied:

I updated most of the reactions according to JPL06 and IUPAC06. Please find a document with the revised reaction rates.

--Bob Y. 16:52, 16 February 2010 (EST)

HO2 uptake

Original implementation

Helen MacIntyre wrote:

I noticed that in the new version of the model, HO2 uptake has been switched off to 'give better results over the tropics'. I would be very grateful if you could give me some more information regarding this issue, or point me in the direction of some.

Daniel Jacob replied:

Here's the history of HO2 uptake in GC:
  1. Old versions of the model had an HO2 reactive uptake coefficient of 0.1 as per Jacob (AE 2000)
  2. Then results started coming out of Jon Abbatt's lab showing that HO2 uptake was much slower than that. At the same time, Randall Martin and Bastien told me that they were getting better results with HO2 uptake shut off. So that's what we did.
  3. Most recently, Lyatt Jaegle worked with Joel Thornton on inclusion of HO2 uptake in GC by the aqueous-phase recombination mechanism. That paper is now published in JGR (Thornton et al., 2008) and Lyatt was going to give us the code for including it in GC.

Bastien Sauvage replied:

I confirm the history version concerning the reason why we turned off the HO2 uptake, as decribed in Sauvage et al. ACP, 2007. It was based on simulations over the Tropics and comparison of GC ozone simulation versus observations (SHADOZ and MOZAIC).

NOTE: This update from Lyatt Jaegle was released in GEOS-Chem v8-02-01.

--Bob Y. 16:51, 16 February 2010 (EST)

Improved HO2 uptake

This update was tested in the 1-month benchmark simulation v9-02j and approved on 28 May 2013.

Daniel Jacob replied:

I have conferred with Jingqiu and Mat on this latest update and we agreed that using gamma_HO2 = 1 in the standard model is too high since it is given in Mao et al. 2013 as an upper limit (and obviously is). We will use instead gamma_HO2 = 0.2 giving H2O, which can be citable as Jacob [2000] (for the gamma) and Mao et al. [2013] (for the yield).

--Melissa Payer 11:08, 22 May 2013 (EDT)

One thing I would like to add is, the effective gamma_HO2 could be higher than 1, if one considers the uptake of H2O2 induced by HO2 uptake (shown in our paper). This remains largely uncertain.

--Jmao 09:54, 8 November 2013 (EST)

gamma = 0.2 (instead of previous 0.07) is consistent with our independent analysis on Cu and Fe mass fractions in Chinese aerosols (e.g., Cu fraction in China is a factor of 1.6-12 higher than the U.S. mean; shown in our 2012 ACP paper). The number is also in line with the campaign measurements over China (0.13-0.34 over Mt. Tai and 0.09-0.40 over Mt. Mang; shown in Taketani et al. 2012 paper).

--Jintai Lin 0:05, 23 Decemeber 2013 (EST)

Methyl chloroform lifetime

This content has now been moved to the separate Methyl chloroform lifetime wiki page.

--Bob Y. 15:30, 8 June 2011 (EDT)