Monoterpenes are the largest source of summertime organic aerosol in the southeastern United States

Monoterpenes are the largest source of summertime organic aerosol in the southeastern United States

The chemical complexity of atmospheric organic aerosol (OA) has caused substantial uncertainties in understanding its origins and environmental impacts. Here, we provide constraints on OA origins through compositional characterization with molecular-level details. Our results suggest that secondary...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2018-02, Vol.115 (9), p.2038-2043
Hauptverfasser: Zhang, Haofei, Yee, Lindsay D., Lee, Ben H., Curtis, Michael P., Worton, David R., Isaacman-VanWertz, Gabriel, Offenberg, John H., Lewandowski, Michael, Kleindienst, Tadeusz E., Beaver, Melinda R., Holder, Amara L., Lonneman, William A., Docherty, Kenneth S., Jaoui, Mohammed, Pye, Havala O. T., Hu, Weiwei, Day, Douglas A., Campuzano-Jost, Pedro, Jimenez, Jose L., Guo, Hongyu, Weber, Rodney J., de Gouw, Joost, Koss, Abigail R., Edgerton, Eric S., Brune, William, Mohr, Claudia, Lopez-Hilfiker, Felipe D., Lutz, Anna, Kreisberg, Nathan M., Spielman, Steve R., Hering, Susanne V., Wilson, Kevin R., Thornton, Joel A., Goldstein, Allen H.
Format: Artikel
Sprache:eng
Schlagworte:
Aerosol source apportionment
Aerosols
Aerosols - chemistry
Air Pollutants - chemistry
Analytical Chemistry
Analytisk kemi
Anthropogenic factors
Biogenic volatile organic compound oxidation
Chemical Sciences
Climate change
Climate Science
Earth and Related Environmental Sciences
Emissions
Environmental impact
ENVIRONMENTAL SCIENCES
Fysikalisk kemi
Geovetenskap och relaterad miljövetenskap
Human influences
Kemi
Klimatvetenskap
Miljövetenskap
Monoterpenes
Monoterpenes - chemistry
Nitric oxide
Nitrogen oxides
Organic chemicals
Origins
Oxidation
Oxides
Photochemicals
Physical Chemistry
Physical Sciences
Seasons
Southeastern United States
Studies
Time Factors
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Beschreibung
Zusammenfassung:The chemical complexity of atmospheric organic aerosol (OA) has caused substantial uncertainties in understanding its origins and environmental impacts. Here, we provide constraints on OA origins through compositional characterization with molecular-level details. Our results suggest that secondary OA (SOA) from monoterpene oxidation accounts for approximately half of summertime fine OA in Centreville, AL, a forested area in the southeastern United States influenced by anthropogenic pollution. We find that different chemical processes involving nitrogen oxides, during days and nights, play a central role in determining the mass of monoterpene SOA produced. These findings elucidate the strong anthropogenic–biogenic interaction affecting ambient aerosol in the southeastern United States and point out the importance of reducing anthropogenic emissions, especially under a changing climate, where biogenic emissions will likely keep increasing.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1717513115