Rapid mass growth and enhanced light extinction of atmospheric aerosols during the heating season haze episodes in Beijing revealed by aerosol-chemistry-radiation-boundary layer interaction

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http://hdl.handle.net/10138/334785

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Lin , Z , Wang , Y , Zheng , F , Zhou , Y , Guo , Y , Feng , Z , Li , C , Zhang , Y , Hakala , S , Chan , T , Yan , C , Dällenbach , K , Chu , B , Dada , L , Kangasluoma , J , Yao , L , Fan , X , Du , W , Cai , J , Cai , R , Kokkonen , T V , Zhou , P , Wang , L , Petäjä , T , Bianchi , F , Kerminen , V-M , Liu , Y & Kulmala , M 2021 , ' Rapid mass growth and enhanced light extinction of atmospheric aerosols during the heating season haze episodes in Beijing revealed by aerosol-chemistry-radiation-boundary layer interaction ' , Atmospheric Chemistry and Physics , vol. 21 , no. 16 , pp. 12173-12187 . https://doi.org/10.5194/acp-21-12173-2021

Julkaisun nimi: Rapid mass growth and enhanced light extinction of atmospheric aerosols during the heating season haze episodes in Beijing revealed by aerosol-chemistry-radiation-boundary layer interaction
Tekijä: Lin, Zhuohui; Wang, Yonghong; Zheng, Feixue; Zhou, Ying; Guo, Yishuo; Feng, Zemin; Li, Chang; Zhang, Yusheng; Hakala, Simo; Chan, Tommy; Yan, Chao; Dällenbach, Kaspar; Chu, Biwu; Dada, Lubna; Kangasluoma, Juha; Yao, Lei; Fan, Xiaolong; Du, Wei; Cai, Jing; Cai, Runlong; Kokkonen, Tom V.; Zhou, Putian; Wang, Lili; Petäjä, Tuukka; Bianchi, Federico; Kerminen, Veli-Matti; Liu, Yongchun; Kulmala, Markku
Tekijän organisaatio: INAR Physics
Institute for Atmospheric and Earth System Research (INAR)
Air quality research group
Polar and arctic atmospheric research (PANDA)
Faculty of Science
Global Atmosphere-Earth surface feedbacks
Päiväys: 2021-08-16
Kieli: eng
Sivumäärä: 15
Kuuluu julkaisusarjaan: Atmospheric Chemistry and Physics
ISSN: 1680-7316
DOI-tunniste: https://doi.org/10.5194/acp-21-12173-2021
URI: http://hdl.handle.net/10138/334785
Tiivistelmä: Despite the numerous studies investigating haze formation mechanism in China, it is still puzzling that intensive haze episodes could form within hours directly following relatively clean periods. Haze has been suggested to be initiated by the variation of meteorological parameters and then to be substantially enhanced by aerosol-radiation-boundary layer feedback. However, knowledge on the detailed chemical processes and the driving factors for extensive aerosol mass accumulation during the feedback is still scarce. Here, the dependency of the aerosol number size distribution, mass concentration and chemical composition on the daytime mixing layer height (MLH) in urban Beijing is investigated. The size distribution and chemical composition-resolved dry aerosol light extinction is also explored. The results indicate that the aerosol mass concentration and fraction of nitrate increased dramatically when the MLH decreased from high to low conditions, corresponding to relatively clean and polluted conditions, respectively. Particles having their dry diameters in the size of similar to 400-700 nm, and especially particle-phase ammonium nitrate and liquid water, contributed greatly to visibility degradation during the winter haze periods. The dependency of aerosol composition on the MLH revealed that ammonium nitrate and aerosol water content increased the most during low MLH conditions, which may have further triggered enhanced formation of sulfate and organic aerosol via heterogeneous reactions. As a result, more sulfate, nitrate and water-soluble organics were formed, leading to an enhanced water uptake ability and increased light extinction by the aerosols. The results of this study contribute towards a more detailed understanding of the aerosol-chemistry-radiation-boundary layer feedback that is likely to be responsible for explosive aerosol mass growth events in urban Beijing.
Avainsanat: 114 Physical sciences
1172 Environmental sciences
Vertaisarvioitu: Kyllä
Tekijänoikeustiedot: cc_by
Pääsyrajoitteet: openAccess
Rinnakkaistallennettu versio: publishedVersion


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