Difference between revisions of "Monoterpene nitrate scheme"

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(Created page with "This page documents the monoterpene nitrate mechanism used in Fisher et al., 2016 (under review in ''Atmospheric Chemistry and Physics''). This is an experimental mechanism th...")
 
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This page documents the monoterpene nitrate mechanism used in Fisher et al., 2016 (under review in ''Atmospheric Chemistry and Physics''). This is an experimental mechanism that has not yet been included in the standard GEOS-Chem simulation.
 
This page documents the monoterpene nitrate mechanism used in Fisher et al., 2016 (under review in ''Atmospheric Chemistry and Physics''). This is an experimental mechanism that has not yet been included in the standard GEOS-Chem simulation.
  
==Basis of the Implementation==
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== Basis of the Implementation ==
 
This chemistry is largely based on the scheme developed by Browne et al. (2014) for use in WRF-Chem, which was built on the RACM2 scheme developed by Goliff et al. (2013).
 
This chemistry is largely based on the scheme developed by Browne et al. (2014) for use in WRF-Chem, which was built on the RACM2 scheme developed by Goliff et al. (2013).
  
 +
== Species Information ==
  
==References==
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The following table lists the '''new''' species included in the mechanism, their name in Browne et al. (2014), and whether they are treated as transported tracers:
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 +
=== Species ===
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{| border="1" cellspacing="0" cellpadding="5"
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|-bgcolor="#cccccc"
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!width="100pt" |'''Species'''
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!width="100pt" |'''Browne Species'''
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!width="100pt" |'''Transported Tracer?'''
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!width="400pt" |'''Note'''
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|-
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|API ||API || Yes || alpha-pinene & other cyclic terpenes with one double bond
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|}
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== References ==
 
#Browne, E. C., Wooldridge, P. J., Min, K.-E., and Cohen, R. C.: ''On the role of monoterpene chemistry in the remote continental boundary layer'', Atmospheric Chemistry and Physics, 14, 1225–1238, doi:10.5194/acp-14-1225-2014, http://dx.doi.org/10.5194/acp-14-1225-2014, 2014.
 
#Browne, E. C., Wooldridge, P. J., Min, K.-E., and Cohen, R. C.: ''On the role of monoterpene chemistry in the remote continental boundary layer'', Atmospheric Chemistry and Physics, 14, 1225–1238, doi:10.5194/acp-14-1225-2014, http://dx.doi.org/10.5194/acp-14-1225-2014, 2014.
 
#Fisher, J.A., D.J. Jacob, K.R. Travis, P.S. Kim, E.A. Marais, C. Chan Miller, K. Yu, L. Zhu, R.M. Yantosca, M.P. Sulprizio, J. Mao, P.O. Wennberg, J.D. Crounse, A.P. Teng, T.B. Nguyen, J.M. St Clair, R.C. Cohen, P. Romer, B.A. Nault, P.J. Wooldridge, J.L. Jimenez, P. Campuzano-Jost, D.A. Day, P.B. Shepson, F. Xiong, D.R. Blake, A.H. Goldstein, P.K. Misztal, T.F. Hanisco, G.M. Wolfe, T.B. Ryerson, A. Wisthaler, T. Mikoviny: ''Organic nitrate chemistry and its implications for nitrogen budgets in an isoprene- and monoterpene-rich atmosphere: constraints from aircraft (SEAC4RS) and ground-based (SOAS) observations in the Southeast US'', submitted to Atmospheric Chemistry & Physics, 2016.
 
#Fisher, J.A., D.J. Jacob, K.R. Travis, P.S. Kim, E.A. Marais, C. Chan Miller, K. Yu, L. Zhu, R.M. Yantosca, M.P. Sulprizio, J. Mao, P.O. Wennberg, J.D. Crounse, A.P. Teng, T.B. Nguyen, J.M. St Clair, R.C. Cohen, P. Romer, B.A. Nault, P.J. Wooldridge, J.L. Jimenez, P. Campuzano-Jost, D.A. Day, P.B. Shepson, F. Xiong, D.R. Blake, A.H. Goldstein, P.K. Misztal, T.F. Hanisco, G.M. Wolfe, T.B. Ryerson, A. Wisthaler, T. Mikoviny: ''Organic nitrate chemistry and its implications for nitrogen budgets in an isoprene- and monoterpene-rich atmosphere: constraints from aircraft (SEAC4RS) and ground-based (SOAS) observations in the Southeast US'', submitted to Atmospheric Chemistry & Physics, 2016.
 
#Goliff, W. S., Stockwell, W. R., and Lawson, C. V.: ''The regional atmospheric chemistry mechanism, version 2'', Atmospheric Environment, 68, 174 – 185, http://dx.doi.org/10.1016/j.atmosenv.2012.11.038, 2013.
 
#Goliff, W. S., Stockwell, W. R., and Lawson, C. V.: ''The regional atmospheric chemistry mechanism, version 2'', Atmospheric Environment, 68, 174 – 185, http://dx.doi.org/10.1016/j.atmosenv.2012.11.038, 2013.

Revision as of 06:09, 15 January 2016

This page documents the monoterpene nitrate mechanism used in Fisher et al., 2016 (under review in Atmospheric Chemistry and Physics). This is an experimental mechanism that has not yet been included in the standard GEOS-Chem simulation.

Basis of the Implementation

This chemistry is largely based on the scheme developed by Browne et al. (2014) for use in WRF-Chem, which was built on the RACM2 scheme developed by Goliff et al. (2013).

Species Information

The following table lists the new species included in the mechanism, their name in Browne et al. (2014), and whether they are treated as transported tracers:

Species

Species Browne Species Transported Tracer? Note
API API Yes alpha-pinene & other cyclic terpenes with one double bond

References

  1. Browne, E. C., Wooldridge, P. J., Min, K.-E., and Cohen, R. C.: On the role of monoterpene chemistry in the remote continental boundary layer, Atmospheric Chemistry and Physics, 14, 1225–1238, doi:10.5194/acp-14-1225-2014, http://dx.doi.org/10.5194/acp-14-1225-2014, 2014.
  2. Fisher, J.A., D.J. Jacob, K.R. Travis, P.S. Kim, E.A. Marais, C. Chan Miller, K. Yu, L. Zhu, R.M. Yantosca, M.P. Sulprizio, J. Mao, P.O. Wennberg, J.D. Crounse, A.P. Teng, T.B. Nguyen, J.M. St Clair, R.C. Cohen, P. Romer, B.A. Nault, P.J. Wooldridge, J.L. Jimenez, P. Campuzano-Jost, D.A. Day, P.B. Shepson, F. Xiong, D.R. Blake, A.H. Goldstein, P.K. Misztal, T.F. Hanisco, G.M. Wolfe, T.B. Ryerson, A. Wisthaler, T. Mikoviny: Organic nitrate chemistry and its implications for nitrogen budgets in an isoprene- and monoterpene-rich atmosphere: constraints from aircraft (SEAC4RS) and ground-based (SOAS) observations in the Southeast US, submitted to Atmospheric Chemistry & Physics, 2016.
  3. Goliff, W. S., Stockwell, W. R., and Lawson, C. V.: The regional atmospheric chemistry mechanism, version 2, Atmospheric Environment, 68, 174 – 185, http://dx.doi.org/10.1016/j.atmosenv.2012.11.038, 2013.