Increase of High Molecular Weight Organosulfate With Intensifying Urban Air Pollution in the Megacity Beijing | Zendy

Xie Qiaorong | Zendy; Li Ying | Zendy; Yue Siyao | Zendy; Su Sihui | Zendy; Cao Dong | Zendy; Xu Yisheng | Zendy; Chen Jing | Zendy; Tong Haijie | Zendy; Su Hang | Zendy; Cheng Yafang | Zendy; Zhao Wanyu | Zendy; Hu Wei | Zendy; Wang Zhe | Zendy; Yang Ting | Zendy; Pan Xiaole | Zendy; Sun Yele | Zendy; Wang Zifa | Zendy; Liu CongQiang | Zendy; Kawamura Kimitaka | Zendy; Jiang Guibin | Zendy; Shiraiwa Manabu | Zendy; Fu Pingqing | Zendy

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Increase of High Molecular Weight Organosulfate With Intensifying Urban Air Pollution in the Megacity Beijing

Author(s) -

Xie Qiaorong,

Li Ying,

Yue Siyao,

Su Sihui,

Cao Dong,

Xu Yisheng,

Chen Jing,

Tong Haijie,

Su Hang,

Cheng Yafang,

Zhao Wanyu,

Hu Wei,

Wang Zhe,

Yang Ting,

Pan Xiaole,

Sun Yele,

Wang Zifa,

Liu CongQiang,

Kawamura Kimitaka,

Jiang Guibin,

Shiraiwa Manabu,

Fu Pingqing

Publication year - 2020

Publication title -

journal of geophysical research: atmospheres

Language(s) - English

Resource type - Journals

eISSN - 2169-8996

pISSN - 2169-897X

DOI - 10.1029/2019jd032200

Subject(s) - beijing , environmental chemistry , pollution , fourier transform ion cyclotron resonance , degree of unsaturation , environmental science , volatility (finance) , aerosol , air pollution , atmosphere (unit) , chemistry , megacity , nox , mass spectrometry , meteorology , geography , organic chemistry , combustion , ecology , economy , archaeology , china , economics , biology , chromatography , financial economics

Organosulfates (OSs), a key component of secondary organic aerosols (SOA), account for up to one third of organic matter in the atmosphere. However, high molecular weight (HMW, 500–800 Da) OSs in ambient aerosols are poorly characterized at a molecular level, due to experimental difficulties. With Fourier transform‐ion cyclotron resonance mass spectrometry (FT‐ICRMS), we are able to identify more than 8,000 OSs in wintertime aerosols in Beijing. We found that both the number and signal magnitudes of HMW OSs with low H/C and O/C ratios and degrees of unsaturation were greatly enhanced during hazy days, indicating that most HMW OSs were freshly formed during stagnant air pollution episodes. They are most likely to be the oxidation products of semivolatility to low‐volatility precursors (e.g., polycyclic aromatic hydrocarbons and fatty acids) and have showed a strong influence of anthropogenic emissions. The molecular corridor analysis suggests that the high abundance of HMW aromatic‐like and aliphatic OSs considerably decreases the volatility of organic aerosols in the urban atmosphere.

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