4.7 Article

Exploring sources and health risks of metals in Beijing PM2.5: Insights from long-term online measurements

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 814, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.151954

Keywords

Multiple-metals; PM2.5; Source apportionment; Health risks; Hourly resolution; Beijing

Funding

  1. National Natural Science Foundation of China [91744310, 91744203]
  2. National Research Program for Key Issues in Air Pollution Control [DQGG0105]

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A comprehensive understanding of sources, health risks, and regional transport of PM2.5-bound metals in Beijing was obtained through continuous measurements and analysis. The study found significant seasonal variations in sources of different metals and investigated the characteristics of metals during haze episodes. Results showed higher metal concentrations and health risks during haze episodes, with different sources and types of haze events in different seasons.
To gain a comprehensive understanding of sources, health risks, and regional transport of PM2.5-bound metals in Beijing, one-year continuous measurement (K, Fe, Ca, Zn, Pb, Mn, Ba, Cu, As, Sc, Cr, and Ni) was conducted from December 2016 to November 2017 and Positive Matrix Factorization analysis (PMF) was applied for source apportionment. It was found that the seasonal variation of sources could vary significantly among metals. Sources of Ca, Ba, As, Sc, and Cr did not show much seasonal variations, with the contribution of its predominant source higher than 35% in each season. however, the major sources of K, Fe, Zn, Pb, Mn, Cu, and Ni exhibited obvious seasonal variations. In addition, the characteristics of metals in haze episodes were comprehensively investigated. l laze episodes in Beijing were characterized by higher metal concentrations and health risks, which were about 2- 6 times higher than non-haze periods. Moreover, the types of haze episode were different in winter and spring. Haze episodes in winter were mostly influenced by coal combustion, the contribution of which increased greatly and accounted for about 30% of PM2.5. The metals such as K, Zn, Pb, As, and Se significantly increased, which were mainly transported from south of Beijing. During haze episodes in spring, dust was an important source, which contributed to higher concentrations of crustal metals that transported from northwest of Beijing. To quickly and effectively identify source regions of metals in Beijing during haze episodes, a new diagnostic ratio method using Ca as a reference was developed. The ratios of some anthropogenic metals to Ca significantly increased when air mass was mainly from south of Beijing during haze episodes while the ratios remained constantly low in non-haze periods, when local emissions dominated. This method could be useful for rapid identification and control of metal pollution in Beijing.

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