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Seasonal variation in oxygenated organic molecules in urban Beijing and their contribution to secondary organic aerosol
Guo, Yishuo1; Yan, Chao1,2,3; Liu, Yuliang2; Qiao, Xiaohui4; Zheng, Feixue1; Zhang, Ying1; Zhou, Ying1; Li, Chang1; Fan, Xiaolong1; Lin, Zhuohui1; Feng, Zemin1; Zhang, Yusheng5,6; Zheng, Penggang1; Tian, Linhui7; Nie, Wei2; Wang, Zhe5; Huang, Dandan8; Daellenbach, Kaspar R.3,9; Yao, Lei1,3; Dada, Lubna3,9; Bianchi, Federico3; Jiang, Jingkun4; Liu, Yongchun1; Kerminen, Veli Matti3; Kulmala, Markku1,3
2022-08-05
Source PublicationAtmospheric Chemistry and Physics
ISSN1680-7316
Volume22Issue:15Pages:10077-10097
Abstract

Oxygenated organic molecules (OOMs) are crucial for atmospheric new particle formation and secondary organic aerosol (SOA) growth. Therefore, understanding their chemical composition, temporal behavior, and sources is of great importance. Previous studies on OOMs mainly focus on environments where biogenic sources are predominant, yet studies on sites with dominant anthropogenic emissions, such as megacities, have been lacking. Here, we conducted long-term measurements of OOMs, covering four seasons of the year 2019, in urban Beijing. The OOM concentration was found to be the highest in summer (1.6×108 cm-3), followed by autumn (7.9×107 cm-3), spring (5.7×107 cm-3) and winter (2.3×107 cm-3), suggesting that enhanced photo-oxidation together with the rise in temperature promote the formation of OOMs. Most OOMs contained 5 to 10 carbon atoms and 3 to 7 effective oxygen atoms (nOeff=nO-2×nN). The average nOeff increased with increasing atmospheric photo-oxidation capacity, which was the highest in summer and the lowest in winter and autumn. By performing a newly developed workflow, OOMs were classified into the following four types: aromatic OOMs, aliphatic OOMs, isoprene OOMs, and monoterpene OOMs. Among them, aromatic OOMs (29%-41%) and aliphatic OOMs (26%-41%) were the main contributors in all seasons, indicating that OOMs in Beijing were dominated by anthropogenic sources. The contribution of isoprene OOMs increased significantly in summer (33%), which is much higher than those in the other three seasons (8%-10%). Concentrations of isoprene (0.2-5.3×107 cm-3) and monoterpene (1.1-8.4×106 cm-3) OOMs in Beijing were lower than those reported at other sites, and they possessed lower oxygen and higher nitrogen contents due to high NOx levels (9.5-38.3 ppbv - parts per billion by volume) in Beijing. With regard to the nitrogen content of the two anthropogenic OOMs, aromatic OOMs were mainly composed of CHO and CHON species, while aliphatic OOMs were dominated by CHON and CHON2 ones. Such prominent differences suggest varying formation pathways between these two OOMs. By combining the measurements and an aerosol dynamic model, we estimated that the SOA growth rate through OOM condensation could reach 0.64, 0.61, 0.41, and 0.30 μg m-3 h-1 in autumn, summer, spring, and winter, respectively. Despite the similar concentrations of aromatic and aliphatic OOMs, the former had lower volatilities and, therefore, showed higher contributions (46%-62%) to SOA than the latter (14%-32%). By contrast, monoterpene OOMs and isoprene OOMs, limited by low abundances or high volatilities, had low contributions of 8%-12% and 3%-5%, respectively. Overall, our results improve the understanding of the concentration, chemical composition, seasonal variation, and potential atmospheric impacts of OOMs, which can help formulate refined restriction policy specific to SOA control in urban areas.

DOI10.5194/acp-22-10077-2022
URLView the original
Indexed BySCIE
Language英語English
WOS Research AreaEnvironmental Sciences & Ecology ; Meteorology & Atmospheric Sciences
WOS SubjectEnvironmental Sciences ; Meteorology & Atmospheric Sciences
WOS IDWOS:000836330300001
Scopus ID2-s2.0-85135622583
Fulltext Access
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Cited Times [WOS]:1   [WOS Record]     [Related Records in WOS]
Document TypeJournal article
CollectionUniversity of Macau
Affiliation1.Aerosol and Haze Laboratory, Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology, Beijing, China
2.Joint International Research Laboratory of Atmospheric and Earth System Research, School of Atmospheric Sciences, Nanjing University, Nanjing, China
3.Institute for Atmospheric and Earth System Research/Physics, Faculty of Science, University of Helsinki, Helsinki, Finland
4.State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University, Beijing, China
5.Division of Environment and Sustainability, The Hong Kong University of Science and Technology, Hong Kong
6.Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hong Kong
7.Department of Civil and Environmental Engineering, Faculty of Science and Technology, University of Macau, Taipa, Macao
8.State Environmental Protection Key Lab. of Formation and Prevention of Urban Air Pollution Complex, Shanghai Academy of Environmental Sciences, Shanghai, China
9.Laboratory of Atmospheric Chemistry, Paul Scherrer Institute, Villigen, Switzerland
Recommended Citation
GB/T 7714
Guo, Yishuo,Yan, Chao,Liu, Yuliang,et al. Seasonal variation in oxygenated organic molecules in urban Beijing and their contribution to secondary organic aerosol[J]. Atmospheric Chemistry and Physics,2022,22(15):10077-10097.
APA Guo, Yishuo.,Yan, Chao.,Liu, Yuliang.,Qiao, Xiaohui.,Zheng, Feixue.,Zhang, Ying.,Zhou, Ying.,Li, Chang.,Fan, Xiaolong.,Lin, Zhuohui.,Feng, Zemin.,Zhang, Yusheng.,Zheng, Penggang.,Tian, Linhui.,Nie, Wei.,Wang, Zhe.,Huang, Dandan.,Daellenbach, Kaspar R..,Yao, Lei.,...&Kulmala, Markku.(2022).Seasonal variation in oxygenated organic molecules in urban Beijing and their contribution to secondary organic aerosol.Atmospheric Chemistry and Physics,22(15),10077-10097.
MLA Guo, Yishuo,et al."Seasonal variation in oxygenated organic molecules in urban Beijing and their contribution to secondary organic aerosol".Atmospheric Chemistry and Physics 22.15(2022):10077-10097.
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