Tropospheric bromine chemistry: implications for present and pre-industrial ozone and mercury

Tropospheric bromine chemistry: implications for present and pre-industrial ozone and mercury

We present a new model for the global tropospheric chemistry of inorganic bromine (Bry) coupled to oxidant-aerosol chemistry in the GEOS-Chem chemical transport model (CTM). Sources of tropospheric Bry include debromination of sea-salt aerosol, photolysis and oxidation of short-lived bromocarbons, a...

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Veröffentlicht in:Atmospheric chemistry and physics 2012-08, Vol.12 (15), p.6723-6740
Hauptverfasser: Parrella, J. P, Jacob, D. J, Liang, Q, Zhang, Y, Mickley, L. J, Miller, B, Evans, M. J, Yang, X, Pyle, J. A, Theys, N, Van Roozendael, M
Format: Artikel
Sprache:eng
Schlagworte:
Air pollution
Analysis
Atmospheric ozone
Bromine compounds
Environmental aspects
Hydrogen bonds
Middle atmosphere
Pollution control
Tropospheric chemistry
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Beschreibung
Zusammenfassung:We present a new model for the global tropospheric chemistry of inorganic bromine (Bry) coupled to oxidant-aerosol chemistry in the GEOS-Chem chemical transport model (CTM). Sources of tropospheric Bry include debromination of sea-salt aerosol, photolysis and oxidation of short-lived bromocarbons, and transport from the stratosphere. Comparison to a GOME-2 satellite climatology of tropospheric BrO columns shows that the model can reproduce the observed increase of BrO with latitude, the northern mid-latitudes maximum in winter, and the Arctic maximum in spring. This successful simulation is contingent on the HOBr + HBr reaction taking place in aqueous aerosols and ice clouds. Bromine chemistry in the model decreases tropospheric ozone mixing ratios by
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-12-6723-2012