环境科学
气溶胶
化石燃料
总有机碳
污染
大气(单位)
空气污染
环境化学
放射性碳年代测定
生物量(生态学)
中国
环境保护
地理
化学
气象学
地质学
生态学
海洋学
有机化学
考古
生物
作者
Yuxian Zhang,Fang Cao,Wenhuai Song,Xiaofang Jia,Tian Xie,Chang-Liu Wu,Yan Peng,Mingyuan Yu,Martin Rauber,Gary Salazar,Sönke Szidat,Yanlin Zhang
标识
DOI:10.1021/acs.est.3c08491
摘要
Carbonaceous aerosols (CA) from anthropogenic emissions have been significantly reduced in urban China in recent years. However, the relative contributions of fossil and nonfossil sources to CA in rural and background regions of China remain unclear. In this study, the sources of different carbonaceous fractions in fine aerosols (PM2.5) from five background sites of the China Meteorological Administration Atmosphere Watch Network during the winter of 2019 and 2020 were quantified using radiocarbon (14C) and organic markers. The results showed that nonfossil sources contributed 44–69% to total carbon at these five background sites. Fossil fuel combustion was the predominant source of elemental carbon at all sites (73 ± 12%). Nonfossil sources dominated organic carbon (OC) in these background regions (61 ± 13%), with biomass burning or biogenic-derived secondary organic carbon (SOC) as the most important contributors. However, the relative fossil fuel source to OC in China (39 ± 13%) still exceeds those at other regional/background sites in Asia, Europe, and the USA. SOC dominated the fossil fuel-derived OC, highlighting the impact of regional transport from anthropogenic sources on background aerosol levels. It is therefore imperative to develop and implement aerosol reduction policies and technologies tailored to both the anthropogenic and biogenic emissions to mitigate the environmental and health risks of aerosol pollution across China.
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