Secondary organic aerosol formed by condensing anthropogenic vapours over China’s megacities

气溶胶 蒸汽 环境化学 化学 分数(化学) 特大城市 污染 环境科学 有机化学 生态学 生物 神经科学
作者
Wei Nie,Chao Yan,Dan Dan Huang,Zhe Wang,Yuliang Liu,Xiaohui Qiao,Yishuo Guo,Linhui Tian,Penggang Zheng,Zhengning Xu,Yuanyuan Li,Zheng Xu,Ximeng Qi,Peng Sun,Jiaping Wang,Feixue Zheng,Xiaoxiao Li,Rujing Yin,Kaspar Rudolf Dällenbach,Federico Bianchi
出处
期刊:Nature Geoscience [Nature Portfolio]
卷期号:15 (4): 255-261 被引量:209
标识
DOI:10.1038/s41561-022-00922-5
摘要

Secondary organic aerosol contributes a significant fraction to aerosol mass and toxicity. Low-volatility organic vapours are critical intermediates connecting the oxidation of volatile organic compounds to secondary organic aerosol formation. However, the direct measurement of intermediate vapours poses a great challenge. Here we present coordinated measurements of oxygenated organic molecules in the three most urbanized regions of China and determine their likely precursors, enabling us to connect secondary organic aerosol formation to various volatile organic compounds. We show that the oxidation of anthropogenic volatile organic compounds dominates oxygenated organic molecule formation, with an approximately 40% contribution from aromatics and a 40% contribution from aliphatic hydrocarbons (predominantly alkanes), a previously under-accounted class of volatile organic compounds. The irreversible condensation of these anthropogenic oxygenated organic molecules increases significantly in highly polluted conditions, accounting for a major fraction of the production of secondary organic aerosol. We find that the distribution of oxygenated organic molecules and their formation pathways are largely the same across the urbanized regions. This suggests that uniform mitigation strategies could be effective in solving air pollution issues across these highly populated city clusters. The formation of secondary organic aerosol in Chinese megacities is dominated by the condensation of anthropogenic organic vapours, according to measurements across three urbanized regions.
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