Characteristics of the NO-NO2-O3 system in different chemical regimes during the MIRAGE-Mex field campaign

X. Tie; S. R. Hall; C. A. Cantrell; R. E. Shetter; R. S. Anderson; D. J. Knapp; F. M. Flocke; S.-K. Song; S. Madronich; Z.-H. Shon

Atmospheric Chemistry and Physics (Dec 2008)

Characteristics of the NO-NO2-O3 system in different chemical regimes during the MIRAGE-Mex field campaign

X. Tie,
S. R. Hall,
C. A. Cantrell,
R. E. Shetter,
R. S. Anderson,
D. J. Knapp,
F. M. Flocke,
S.-K. Song,
S. Madronich,
Z.-H. Shon

Affiliations

X. Tie
S. R. Hall
C. A. Cantrell
R. E. Shetter
R. S. Anderson
D. J. Knapp
F. M. Flocke
S.-K. Song
S. Madronich
Z.-H. Shon

Journal volume & issue: Vol. 8, no. 23
pp. 7153 – 7164

Abstract

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The NO-NO2 system was analyzed in different chemical regimes/air masses based on observations of reactive nitrogen species and peroxy radicals made during the intensive field campaign MIRAGE-Mex (4 to 29 March 2006). The air masses were categorized into 5 groups based on combinations of macroscopic observations, geographical location, meteorological parameters, models, and observations of trace gases: boundary layer (labeled as "BL"), biomass burning ("BB"), free troposphere (continental, "FTCO" and marine, "FTMA"), and Tula industrial complex ("TIC"). In general, NO2/NO ratios in different air masses are near photostationary state. Analysis of this ratio can be useful for testing current understanding of tropospheric chemistry. The ozone production efficiency (OPE) for the 5 air mass categories ranged from 4.5 (TIC) to 8.5 (FTMA), consistent with photochemical aging of air masses exiting the Mexico City Metropolitan Area.

Published in Atmospheric Chemistry and Physics

ISSN: 1680-7316 (Print); 1680-7324 (Online)
Publisher: Copernicus Publications
Country of publisher: Germany
LCC subjects: Science: Physics; Science: Chemistry
Website: http://www.atmospheric-chemistry-and-physics.net/

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