1. Local production, downward and regional transport aggravated surface ozone pollution during the historical orange-alert large-scale ozone episode in eastern China
- Author
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Yibo Zhang, Shaocai Yu, Xue Chen, Zhen Li, Mengying Li, Zhe Song, Weiping Liu, Pengfei Li, Xiaoye Zhang, Eric Lichtfouse, Daniel Rosenfeld, Zhejiang University, Agricultural University of Hebei, Centre européen de recherche et d'enseignement des géosciences de l'environnement (CEREGE), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Xi'an Jiaotong University (Xjtu), and The Hebrew University of Jerusalem (HUJ)
- Subjects
China ,photochemical reactions ,source apportionment modelling ,ozone pollution ,[SDE]Environmental Sciences ,Human health ,Environmental Chemistry ,[SDU.STU]Sciences of the Universe [physics]/Earth Sciences ,northwestern winds ,vertical downward transport - Abstract
National audience; Increasing severe and persistent ozone pollution in China has resulted in serious harm to human health in recent years, yet the precise pollution sources are poorly known because there is few knowledge on large-scale extreme ozone episodes. Here, we studied the formation of the historical orange-alert regional ozone episode in eastern China on 6 June, 2021, by combining process analysis, integrated source apportionment modelling, and chemical and meteorological data. Results show that during the pollution episode, 94% of cities in eastern China suffered ozone pollution, and 39% had dailymaximum 8-h average ozone concentrations higher than 100 ppb. This is explained by favorable local ozone formation and transports provided by the prevailing northwestern winds in the upper air, and by sinking atmospheric motions favoring the persistence of high surface ozone concentrations. During daytime, local photochemical production induced an ozone increase of 0.3–28.4 ppb/h and vertical transport induced an ozone increase of 0.4–56.1 ppb/h. As a consequence, vertical downward transport of ozone generated in the upper air by photochemical reactions aggravated surface ozone pollution. Surface ozone concentrations include 25.8–53.9% of ozone from local provincial emissions, 0–42.6% of ozone from inter-regional transports from neigh-boring regions, 4.6–23.1% of ozone from outer-regional transport, and 13.6-52.9% of ozone from boundary conditions in the selected cities. Overall, our findings show that favorable meteorological conditions promoted the chemical productions of ozone on the surface and at high altitudes, thus resulting in this heavy ozone pollution. In addition, regional and vertical downward transports of aloft ozone further aggravated the surface ozone pollution, leading to the large-scale extreme ozone pollution episode.
- Published
- 2022
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