Difference between revisions of "Sandbox"

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== feel free to experiment here ==
+
=== Species added ===
  
== AQAST Newsletter, February 2014==
+
Species added between versions 14.5.0-alpha.5 and 14.5.0-alpha.9:
  
== AQAST Semiannual Meetings ==
+
{| border=1 cellspacing=0 cellpadding=5
 +
!width='100px' bgcolor='#CCCCCC'|Name
 +
!width='100px' bgcolor='#CCCCCC'|Formula
 +
!width='200px' bgcolor='#CCCCCC'|Fullname
 +
!width='30px' bgcolor='#CCCCCC'|Advected
 +
!width='30px' bgcolor='#CCCCCC'|Dry deposited
 +
!width='30px' bgcolor='#CCCCCC'|Gas
 +
!width='30px' bgcolor='#CCCCCC'|Photolyzed
 +
!width='30px' bgcolor='#CCCCCC'|Wet deposited
  
AQAST meetings are held on a semiannual schedule and bring together team members, air quality managers, and research and applications partners. Our last meeting was held on January 15-17, 2014 at Rice University in Houston. You can access the agenda and presentations from that meeting [http://acmg.seas.harvard.edu/aqast/meetings/2014_jan/program.html here].
+
|-valign='top'
 +
|ACO3
 +
|C3H3O3
 +
|Peroxyacetyl radical for APAN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|ACR
 +
|C3H4O
 +
|Acrolein
 +
|X
 +
|X
 +
|X
 +
|X
 +
|
 +
 +
|-valign='top'
 +
|ACRO2
 +
|C3H5O4
 +
|Peroxy radical from ACR
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|ALK7
 +
|C7H16
 +
|Lumped >= C6 Alkanes
 +
|X
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|APAN
 +
|C3H3NO5
 +
|Peroxyacryloyl nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|APINN
 +
|C10H17NO4
 +
|1st gen organic nitrate from APIN
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|APINO2
 +
|C10H17O3
 +
|Peroxy radical from APIN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|APINP
 +
|C10H18O3
 +
|Hydroperoxide from APIN
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|AROMCHO
 +
|C5H6O4
 +
|ACCOMECHO from MCM
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|AROMCO3
 +
|C5H5O6
 +
|Lumped aromatic peroxyacetyl radical
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|AROMPN
 +
|C5H5NO8
 +
|Lumped PN from aromatics
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|BPINN
 +
|C10H17NO4
 +
|Saturated 1st gen BPIN organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|BPINO
 +
|C9H14O
 +
|Ketone from BPIN
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|BPINO2
 +
|C10H17O3
 +
|Peroxy radical from BPIN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|BPINON
 +
|C9H13NO4
 +
|Saturated 2nd gen BPIN organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|BPINOO2
 +
|C10H17O3
 +
|2nd-gen peroxy radical from BPIN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|BPINOOH
 +
|C9H14O3
 +
|2nd-gen peroxide from BPIN
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|BPINP
 +
|C10H18O3
 +
|Peroxide from BPIN
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|BUTN
 +
|C4H7NO4
 +
|C4H6 alkyl nitrate
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|BUTO2
 +
|C4H7O3
 +
|peroxy radical from C4H6
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|C4H6
 +
|C4H6
 +
|1,3-butadiene
 +
|X
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|C96N
 +
|C9H15NO4
 +
|Saturated 2nd gen monoterpene organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|C96O2
 +
|C10H17O3
 +
|2nd-gen peroxy radical from APIN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|C96O2H
 +
|C9H16O3
 +
|Peroxide from APIN 2nd gen
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|EBZ
 +
|C8H10
 +
|Ethylbenzene
 +
|X
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|GCO3
 +
|HOCH2CO3
 +
|Peroxyacetyl radical for PHAN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|HACTA
 +
|HOCH2CO2H
 +
|Hydroxyacetic/glycolic acid
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMAL
 +
|C10H16O2
 +
|Aldehyde from limonene
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMKB
 +
|C10H16O3
 +
|2nd gen ketone from limonene
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMKET
 +
|C10H16O2
 +
|Ketone from limonene
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMKO2
 +
|C10H17O3
 +
|2nd-gen peroxy radical from LIMO
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|LIMN
 +
|C10H17NO4
 +
|Saturated 1st gen limonene organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|LIMNB
 +
|C10H15NO4
 +
|Saturated 1st gen LIMO organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|LIMO2H
 +
|C10H18O3
 +
|Acid from LIMO
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMO3
 +
|C10H17O3
 +
|Acylperoxy radical from LIMO
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|LIMO3H
 +
|C10H18O4
 +
|Peracid from LIMO
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|LIMPAN
 +
|C10H17NO4
 +
|PAN from LIMO
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|MEKCO3
 +
|C3H5O4
 +
|False
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|MEKPN
 +
|C3H5NO6
 +
|MEK peroxyacetyl nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|MYRCO
 +
|C10H18O3
 +
|Aldehyde or ketone from myrcene
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|PHAN
 +
|C2H3NO6
 +
|Peroxyhydroxyacetic nitric anhydride
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|PIN
 +
|C10H17NO4
 +
|Saturated 1st gen monoterpene organic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|PINAL
 +
|C10H16O2
 +
|Pinonaldehyde
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|PINO3
 +
|C10H17O3
 +
|Acylperoxy radical from APIN
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|PINO3H
 +
|C10H18O4
 +
|Pinonic peracid
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|PINONIC
 +
|C10H18O3
 +
|Pinonic acid
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|PINPAN
 +
|C10H17NO4
 +
|PAN from pinonaldehyde
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|R7N1
 +
|C7H15NO5
 +
|Peroxy radical from R7N2
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|R7N2
 +
|RO2NO
 +
|C7 Lumped alkyl nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|R7O2
 +
|C7H15O2
 +
|Peroxy radical from ALK7
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|R7P
 +
|C7H16O2
 +
|Peroxide from R7O2
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|RNO3
 +
|RO2NO
 +
|Lumped aromatic nitrate
 +
|X
 +
|X
 +
|X
 +
|X
 +
|X
 +
 +
|-valign='top'
 +
|STYR
 +
|C8H8
 +
|Styrene
 +
|X
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|TLFUO2
 +
|C5H7O5
 +
|False
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|TLFUONE
 +
|C5H6O2
 +
|Aromatic furanones
 +
|X
 +
|X
 +
|X
 +
|
 +
|X
 +
 +
|-valign='top'
 +
|TMB
 +
|C8H10
 +
|Trimethylbenzenes
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|-valign='top'
 +
|ZRO2
 +
|C7H9O5
 +
|RO2 for making lumped aromatic nitrate
 +
|
 +
|
 +
|X
 +
|
 +
|
 +
 +
|}
  
=== 7th AQAST Meeting (AQAST7): June 17-19, 2014 at Harvard University ===
+
 +
=== Species removed===
  
The next AQAST meeting (AQAST7) will be held June 17-19, 2014 (Wednesday-Friday) at Harvard University in Cambridge, MA, hosted by [http://acmg.seas.harvard.edu/aqast/members.html Dan Cohan]. The meeting is free and open to the public. Air quality managers are especially encouraged to participate. Go to the [http://acmg.seas.harvard.edu/aqast/meetings/2014_jun/index.html meeting website] for more information and to register. Indicate when you register if you would like to give a presentation. We look forward to seeing you in Cambridge in June!
+
Species removed between versions 14.5.0-alpha.5 and 14.5.0-alpha.9:
  
== AQAST Highlights ==
+
{| border=1 cellspacing=0 cellpadding=5
 +
!width='100px' bgcolor='#CCCCCC'|Name
 +
!width='100px' bgcolor='#CCCCCC'|Formula
 +
!width='200px' bgcolor='#CCCCCC'|Fullname
 +
!width='30px' bgcolor='#CCCCCC'|Advected
 +
!width='30px' bgcolor='#CCCCCC'|Dry deposited
 +
!width='30px' bgcolor='#CCCCCC'|Gas
 +
!width='30px' bgcolor='#CCCCCC'|Photolyzed
 +
!width='30px' bgcolor='#CCCCCC'|Wet deposited
  
=== AQAST Special Issue of <I>Environmental Manager ===
+
|}
 
+
<I>Environmental Manager</I>, the monthly magazine of the Air & Waste Management Association, devoted its February 2014 issue to a presentation of AQAST activities in service of air quality management. The issue features an AQAST overview and six feature articles written by AQAST members. [http://acmg.seas.harvard.edu/aqast/highlight_em_2014.html Access the full issue here].
+
 
+
=== Q&A Session with Johnson County (Iowa) AQ managers ===
+
 
+
AQAST member Scott Spak led a Q&A session on Johnson County air quality, recent trends, and regulatory updates with the Joint Meeting of the Johnson County Boards of Directors and Public Health, Iowa City, October 23, 2013.
+
 
+
== New AQAST publications (with links) ==
+
 
+
=== PM trends seen from space ===
+
 
+
Hu, X., L. A. Waller, A. Lyapustin, Y. Wang, and Y. Liu (2013), 10 yr spatial and temporal trends of PM2.5 concentrations in the southeastern US estimated using high-resolution satellite data, Atmos. Chem. Phys. Discuss., 13(10), 25617-25648, doi:10.5194/acpd-13-25617-2013. [http://www.atmos-chem-phys-discuss.net/13/25617/2013/acpd-13-25617-2013.html Article]
+
 
+
=== NOx emission trends seen from space ===
+
 
+
Duncan, B., Y. Yoshida, B. de Foy, L. Lamsal, D. Streets, Z. Lu, K. Pickering, and N. Krotkov, The observed response of Ozone Monitoring Instrument (OMI) NO2 columns to NOx emission controls on power plants in the United States: 2005-2011, Atmos. Environ., 81, p. 102-111, doi:10.1016/jatmosenv.2013.08.068, 2013. [http://acmg.seas.harvard.edu/publications/aqast/articles/Duncan2013.pdf Article]
+
 
+
=== GLIMPSE decision tool for energy and air quality policy ===
+
 
+
Akhtar, F., R. W. Pinder, D. H. Loughlin, and D. K. Henze, GLIMPSE: a rapid decision framework for energy and environmental policy, Environ. Sci Tech, doi:10.1021/es402283j, in press. [http://acmg.seas.harvard.edu/publications/aqast/articles/Akhtar2013.pdf Article]
+
 
+
 
+
=== Aerosol optical depths over the US ===
+
 
+
Li, S., L. Chen, M. Garay, and Y. Liu (2014), Comparison of GEOS-Chem aerosol optical depth with AERONET and MISR data over the contiguous United States, JGR-Atmosphere, 118, 1-14. [http://acmg.seas.harvard.edu/publications/aqast/articles/Li2013.pdf Article]
+
 
+
=== Nitrogen deposition in national parks ===
+
 
+
Ellis, R.A., D.J. Jacob, M.P. Sulprizio, L. Zhang, C.D. Holmes, B.A. Schichtel, T. Blett, E. Porter, L.H. Pardo, and J.A. Lynch, Present and future nitrogen deposition to national parks in the United States: critical load exceedances, Atmos. Chem. Phys., 13, 9083-9095, 2013. [http://acmg.seas.harvard.edu/publications/ellis2013.pdf Article]
+
 
+
=== Background influences on western US air quality ===
+
 
+
Huang, M. , G. R. Carmichael, T. Chai, R. B. Pierce, S. J. Oltmans, D. A. Jaffe, K. W. Bowman, A. Kaduwela, C. Cai, S. N. Spak, A. J. Weinheimer, L. G. Huey, and G. S. Diskin, Impacts of transported background pollutants on summertime western US air quality: model evaluation, sensitivity analysis and data assimilation, Atmos. Chem. Phys., 13, 359-391, 2013. [http://www.atmos-chem-phys.net/13/359/2013/acp-13-359-2013.html Article]
+
 
+
=== Fire emissions from MODIS ===
+
 
+
Peterson, D., J. Wang, C. Ichoku, E. Hyer, and V. Ambrosia, A sub-pixel-based calculation of fire radiative power from MODIS observations: 1: Algorithm development and initial assessment, Remote Sensing of Environment, 129, 262-279, 15 Feb 2013. [http://www.sciencedirect.com/science/article/pii/S0034425712004300 Article]
+
 
+
=== Emission trends in India ===
+
 
+
Lu, Zifeng. David G. Streets, Benjamin de Foy, and Nikolay. A. Krotkov, OMI Observations of Interannual Increase in SO2 Emissions from Indian Coal-Fired Power Plants during 2005−2012, Env. Sci. Tech, submitted, 2013. [http://acmg.seas.harvard.edu/publications/aqast/articles/Indian_Power_SO2_submitted_to_EST.pdf Article]
+
 
+
=== Ammonia pollution from food export ===
+
 
+
Paulot F, D.J. Jacob, Hidden cost of U.S. agricultural exports: particulate matter from ammonia emissions, submitted to Environ. Sci. Technol., 2013. [http://acmg.seas.harvard.edu/publications/paulot2013c.pdf Article]
+
 
+
=== Future fires and PM in the western US ===
+
 
+
Yue, X., L.J. Mickley, and J.A. Logan, Projection of wildfire activity in
+
southern California in the mid-21st century, submitted to Clim. Dyn., 2013.
+
[http://acmg.seas.harvard.edu/publications/Yue_submitted_2013b.pdf Full paper]
+
 
+
Yue, X., L. J. Mickley, J. A. Logan, and J. O. Kaplan, Ensemble projections of wildfire activity and carbonaceous aerosol concentrations over the western United States in the mid-21st century, Atmos. Env., 77, 767-780, 2013. [http://acmg.seas.harvard.edu/publications/Yue_ae_2013.pdf Article]
+
 
+
=== Effect of rising CO<sub>2</sub> on isoprene emission and air quality implications ===
+
 
+
Tai, A.P.K., L.J. Mickley, C.L. Heald, S. Wu, Effect of CO2 inhibition on biogenic isoprene emission: Implications for air quality under 2000-to-2050 changes in climate, vegetation, and land use, Geophys. Res. Let., 40, 3479-3483, 2013. [http://acmg.seas.harvard.edu/publications/Tai_grl_2013.pdf Article]
+
 
+
=== Detecting emissions from space: a review ===
+
 
+
Streets, D., T. Canty, G. Carmichael, B. de Foy, R. Dickerson,, B. Duncan, D. Edwards, J. Haynes, D. Henze, M. Houyoux, D. Jacob, N. Krotkov, L. Lamsal, Y. Liu, Z. Lu, R. Martin, Pfister, R. Pinder, R. Salawitch, and K. Wecht, Emissions estimation from satellite retrievals: A review of current capability, Atmos. Environ., 77, 1011-1042, 2013.[http://www.sciencedirect.com/science/article/pii/S1352231013004007 Article]
+
 
+
=== Use of satellite observations for PM forecasts ===
+
 
+
Saide, P. E., Carmichael, G. R., Liu, Z., Schwartz, C. S., Lin, H. C., da Silva, A. M., and Hyer, E.: Aerosol optical depth assimilation for a size-resolved sectional model: impacts of observationally constrained, multi-wavelength and fine mode retrievals on regional scale forecasts, Atmos. Chem. Phys. Discuss., 13, 12213-12261, doi:10.5194/acpd-13-12213-2013, 2013.
+
[http://www.atmos-chem-phys-discuss.net/13/12213/2013/acpd-13-12213-2013.html Full paper]
+
 
+
=== Air quality modeling with coupled meteorology-chemistry models ===
+
 
+
Baklanov, A. Schluenzen, P. Suppan, J. Baldasano, D. Brunner, S. Aksoyoglu, G. Carmichael, et al., Online coupled regional meteorology-chemistry models in Europe: current status and prospects, Atmos. Chem. Phys. Discuss., 13, 12541–12724, , 2013. [ http://www.atmos-chem-phys-discuss.net/13/12541/2013/acpd-13-12541-2013.html Article]
+
 
+
=== High ozone on hot days ===
+
 
+
H. He, L. Hembeck, R. J. Salawitch, K. M. Hosley, and R. R. Dickerson, High ozone concentrations on hot days: The role of electric power demand and NOx emissions, Geophys. Res. Lett, 40, 1–4, doi:10.1002/grl.50967, 2013. [http://acmg.seas.harvard.edu/publications/aqast/articles/he_etal_GRLproof_2013.pdf Article]
+
 
+
=== Improved ammonia emission inventory for the US ===
+
 
+
Paulot F., Jacob, D.J., Pinder R.W., Bash J.O., Travis, K., Henze D.K., Ammonia emissions in the United States, Europe, and China derived by high-resolution inversion of ammonium wet deposition data: Interpretation with a new agricultural emissions inventory (MASAGE_NH3), submitted to J. Geophys. Res., 2013. [http://acmg.seas.harvard.edu/publications/paulot_2013b.pdf Full paper]
+
 
+
=== Older publications ===
+
 
+
See the [http://acmg.seas.harvard.edu/aqast/publications.html AQAST publications webpage] for the full list of AQAST publications.
+
 
+
== New AQAST presentations (with links) ==
+
 
+
=== [http://acmg.seas.harvard.edu/aqast/meetings/2014_jan/program.html Presentations from the 6th AQAST Meeting, Houston, January 2014 ===
+
 
+
=== Beyond the Stability Index—Fire management & forecasting tools for air quality, weather & climate impacts of prescribed fires ===
+
Webinar presented by Scott Spak at the Tallgrass Prairie & Oak Savanna Regional Fire Science Consortium Webinar, 15 October 2013[http://vimeo.com/77241318]
+
 
+
=== Review of the Air Quality Applied Sciences Team (AQAST) and Year 2 Highlights ===
+
presented by Daniel J. Jacob at the NASA Applied Science Program Review, Washington, DC, July 18, 2013.
+
[http://acmg.seas.harvard.edu/presentations/powerpoints/djj2013/aqast_overview_asp.ppt Powerpoint]
+

Latest revision as of 19:10, 3 October 2024

Species added

Species added between versions 14.5.0-alpha.5 and 14.5.0-alpha.9:

Name Formula Fullname Advected Dry deposited Gas Photolyzed Wet deposited
ACO3 C3H3O3 Peroxyacetyl radical for APAN X
ACR C3H4O Acrolein X X X X
ACRO2 C3H5O4 Peroxy radical from ACR X
ALK7 C7H16 Lumped >= C6 Alkanes X X
APAN C3H3NO5 Peroxyacryloyl nitrate X X X X X
APINN C10H17NO4 1st gen organic nitrate from APIN X X X X X
APINO2 C10H17O3 Peroxy radical from APIN X
APINP C10H18O3 Hydroperoxide from APIN X X X X
AROMCHO C5H6O4 ACCOMECHO from MCM X X X X
AROMCO3 C5H5O6 Lumped aromatic peroxyacetyl radical X
AROMPN C5H5NO8 Lumped PN from aromatics X X X X X
BPINN C10H17NO4 Saturated 1st gen BPIN organic nitrate X X X X X
BPINO C9H14O Ketone from BPIN X X X X
BPINO2 C10H17O3 Peroxy radical from BPIN X
BPINON C9H13NO4 Saturated 2nd gen BPIN organic nitrate X X X X X
BPINOO2 C10H17O3 2nd-gen peroxy radical from BPIN X
BPINOOH C9H14O3 2nd-gen peroxide from BPIN X X X X
BPINP C10H18O3 Peroxide from BPIN X X X X
BUTN C4H7NO4 C4H6 alkyl nitrate X X X X
BUTO2 C4H7O3 peroxy radical from C4H6 X
C4H6 C4H6 1,3-butadiene X X
C96N C9H15NO4 Saturated 2nd gen monoterpene organic nitrate X X X X X
C96O2 C10H17O3 2nd-gen peroxy radical from APIN X
C96O2H C9H16O3 Peroxide from APIN 2nd gen X X X X
EBZ C8H10 Ethylbenzene X X
GCO3 HOCH2CO3 Peroxyacetyl radical for PHAN X
HACTA HOCH2CO2H Hydroxyacetic/glycolic acid X X X X
LIMAL C10H16O2 Aldehyde from limonene X X X X
LIMKB C10H16O3 2nd gen ketone from limonene X X X X
LIMKET C10H16O2 Ketone from limonene X X X X
LIMKO2 C10H17O3 2nd-gen peroxy radical from LIMO X
LIMN C10H17NO4 Saturated 1st gen limonene organic nitrate X X X X X
LIMNB C10H15NO4 Saturated 1st gen LIMO organic nitrate X X X X X
LIMO2H C10H18O3 Acid from LIMO X X X X
LIMO3 C10H17O3 Acylperoxy radical from LIMO X
LIMO3H C10H18O4 Peracid from LIMO X X X X
LIMPAN C10H17NO4 PAN from LIMO X X X X X
MEKCO3 C3H5O4 False X
MEKPN C3H5NO6 MEK peroxyacetyl nitrate X X X X X
MYRCO C10H18O3 Aldehyde or ketone from myrcene X X X X
PHAN C2H3NO6 Peroxyhydroxyacetic nitric anhydride X X X X X
PIN C10H17NO4 Saturated 1st gen monoterpene organic nitrate X X X X X
PINAL C10H16O2 Pinonaldehyde X X X X
PINO3 C10H17O3 Acylperoxy radical from APIN X
PINO3H C10H18O4 Pinonic peracid X X X X
PINONIC C10H18O3 Pinonic acid X X X X
PINPAN C10H17NO4 PAN from pinonaldehyde X X X X X
R7N1 C7H15NO5 Peroxy radical from R7N2 X
R7N2 RO2NO C7 Lumped alkyl nitrate X X X X X
R7O2 C7H15O2 Peroxy radical from ALK7 X
R7P C7H16O2 Peroxide from R7O2 X X X X X
RNO3 RO2NO Lumped aromatic nitrate X X X X X
STYR C8H8 Styrene X X
TLFUO2 C5H7O5 False X
TLFUONE C5H6O2 Aromatic furanones X X X X
TMB C8H10 Trimethylbenzenes X
ZRO2 C7H9O5 RO2 for making lumped aromatic nitrate X


Species removed

Species removed between versions 14.5.0-alpha.5 and 14.5.0-alpha.9:

Name Formula Fullname Advected Dry deposited Gas Photolyzed Wet deposited
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