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Potential Effect of Halogens on Atmospheric Oxidation and Air Quality in China

AuthorsLi, Qinyi; Badia, Alba; Wang, Tao; Sarwar, Golam; Fu, Xiao; Zhang, Li; Zhang, Qiang; Fung, Jimmy; Cuevas, Carlos A.; Wang, Shanshan; Zhou, Bin; Saiz-Lopez, A.
KeywordsReactive halogen
Air qualityS
Issue Date19-Apr-2020
PublisherAmerican Geophysical Union
CitationJournal of Geophysical Research - Part D - Atmospheres 125, e2019JD032058
AbstractAir pollution has been a hazard in China over recent decades threatening the health of half a billion people. Much effort has been devoted to mitigating air pollution in China leading to a significant reduction in primary pollutants emissions from 2013 to 2017, while a continuously worsening trend of surface ozone (O3, a secondary pollutant and greenhouse gas) was observed over the same period. Atmospheric oxidation, dominated by daytime reactions involving hydroxyl radicals (OH), is the critical process to convert freshly‐emitted compounds into secondary pollutants, and is underestimated in current models of China's air pollution. Halogens (chlorine, bromine, and iodine) are known to profoundly influence oxidation chemistry in the marine environment; however, their impact on atmospheric oxidation and air pollution in China is unknown. In the present study, we report for the first time that halogens substantially enhance the total atmospheric oxidation capacity in polluted areas of China, typically 10% to 20% (up to 87% in winter) and mainly by significantly increasing OH level. The enhanced oxidation along the coast is driven by oceanic emissions, and that over the inland areas by anthropogenic emission. The extent and seasonality of halogen impact are largely explained by the dynamics of Asian monsoon, location and intensity of halogen emissions, and O3 formation regime. The omission of halogen emissions and chemistry may lead to significant errors in historical re‐assessments and future projections of the evolution of atmospheric oxidation in polluted regions.
Description21 pags.,11 figs, 1 tab.
Publisher version (URL)https://doi.org/10.1029/2019JD032058
Appears in Collections:(IQFR) Artículos
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