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Is atmospheric oxidation capacity better in indicating tropospheric O3 formation?

by Zhang, Hongliang , Wang, Peng , Vrekoussis, Mihalis , Brasseur, Guy P. , Wang, Shuxiao , Zhu, Shengqiang

in China / Earth and Environmental Science / Environment / Frontier Progresses from Chinese-American Professors of Environmental Engineering and Science / Goodness of fit / human health / nitrogen / Nitrogen dioxide / Nitrogen oxides / Organic compounds / Oxidation / ozone / Photochemical reactions / Photochemicals / photochemistry / Pollutants / Short Communication / Temporal resolution / Troposphere / VOCs / Volatile organic compounds

2022

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Is atmospheric oxidation capacity better in indicating tropospheric O3 formation?

by Zhang, Hongliang , Wang, Peng , Vrekoussis, Mihalis , Brasseur, Guy P. , Wang, Shuxiao , Zhu, Shengqiang

2022

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Is atmospheric oxidation capacity better in indicating tropospheric O3 formation?

by Zhang, Hongliang , Wang, Peng , Vrekoussis, Mihalis , Brasseur, Guy P. , Wang, Shuxiao , Zhu, Shengqiang

2022

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Journal Article

Is atmospheric oxidation capacity better in indicating tropospheric O3 formation?

Zhang, Hongliang,

Wang, Peng,

Vrekoussis, Mihalis,

Brasseur, Guy P.,

Wang, Shuxiao,

Zhu, Shengqiang

2022

Overview

Tropospheric ozone (O 3 ) concentration is increasing in China along with dramatic changes in precursor emissions and meteorological conditions, adversely affecting human health and ecosystems. O 3 is formed from the complex nonlinear photochemical reactions from nitrogen oxides (NO x = NO + NO 2 ) and volatile organic compounds (VOCs). Although the mechanism of O 3 formation is rather clear, describing and analyzing its changes and formation potential at fine spatial and temporal resolution is still a challenge today. In this study, we briefly summarized and evaluated different approaches that indicate O 3 formation regimes. We identify that atmospheric oxidation capacity (AOC) is a better indicator of photochemical reactions leading to the formation of O 3 and other secondary pollutants. Results show that AOC has a prominent positive relationship to O 3 in the major city clusters in China, with a goodness of fit ( R 2 ) up to 0.6. This outcome provides a novel perspective in characterizing O 3 formation and has significant implications for formulating control strategies of secondary pollutants.

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Publisher

Higher Education Press,Springer Nature B.V

Subject

China

/ Earth and Environmental Science

/ Environment

/ Frontier Progresses from Chinese-American Professors of Environmental Engineering and Science

/ Goodness of fit

/ human health

/ nitrogen