Differences in BVOC oxidation and SOA formation above and below the forest canopy

Differences in BVOC oxidation and SOA formation above and below the forest canopy

Gas-phase biogenic volatile organic compounds (BVOCs) are oxidized in the troposphere to produce secondary pollutants such as ozone (O3), organic nitrates (RONO2), and secondary organic aerosol (SOA). Two coupled zero-dimensional models have been used to investigate differences in oxidation and SOA...

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Veröffentlicht in:Atmospheric chemistry and physics 2017-02, Vol.17 (3), p.1805-1828
Hauptverfasser: Schulze, Benjamin C, Wallace, Henry W, Flynn, James H, Lefer, Barry L, Erickson, Matt H, Jobson, B. Tom, Dusanter, Sebastien, Griffith, Stephen M, Hansen, Robert F, Stevens, Philip S, VanReken, Timothy, Griffin, Robert J
Format: Artikel
Sprache:eng
Schlagworte:
Atmospheric aerosols
Atmospheric boundary layer
Atmospheric chemistry
Canopies
Canopy
Chemical reactions
Chemistry
Computer simulation
Daytime
Emissions
Environmental engineering
Environmental Sciences
Forest canopy
Forests
Gases
Isoprene
Mass
Mixing ratio
Nitrates
Nitrogen dioxide
Ordinary differential equations
Organic compounds
Organic nitrates
Oxidation
Ozone
Pollutants
Pollution levels
Rural environments
Secondary aerosols
Transport
Troposphere
Urban forests
VOCs
Volatile organic compounds
Volatility
α-Pinene
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Zusammenfassung:Gas-phase biogenic volatile organic compounds (BVOCs) are oxidized in the troposphere to produce secondary pollutants such as ozone (O3), organic nitrates (RONO2), and secondary organic aerosol (SOA). Two coupled zero-dimensional models have been used to investigate differences in oxidation and SOA production from isoprene and α-pinene, especially with respect to the nitrate radical (NO3), above and below a forest canopy in rural Michigan. In both modeled environments (above and below the canopy), NO3 mixing ratios are relatively small (
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-17-1805-2017