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Atmospheric Chemistry and Physics An interactive open-access journal of the European Geosciences Union
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Volume 17, issue 15 | Copyright
Atmos. Chem. Phys., 17, 9485-9518, 2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Review article 08 Aug 2017

Review article | 08 Aug 2017

A review of current knowledge concerning PM2. 5 chemical composition, aerosol optical properties and their relationships across China

Jun Tao1, Leiming Zhang2, Junji Cao3, and Renjian Zhang4 Jun Tao et al.
  • 1South China Institute of Environmental Sciences, Ministry of Environmental Protection, Guangzhou, China
  • 2Air Quality Research Division, Science and Technology Branch, Environment and Climate Change Canada, Toronto, Canada
  • 3Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth Environment, Chinese Academy of Sciences, Xi'an, China
  • 4Key Laboratory of Regional Climate-Environment for Temperate East Asia, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China

Abstract. To obtain a thorough knowledge of PM2. 5 chemical composition and its impact on aerosol optical properties across China, existing field studies conducted after the year 2000 are reviewed and summarized in terms of geographical, interannual and seasonal distributions. Annual PM2. 5 was up to 6 times the National Ambient Air Quality Standards (NAAQS) in some megacities in northern China. Annual PM2. 5 was higher in northern than southern cities, and higher in inland than coastal cities. In a few cities with data longer than a decade, PM2. 5 showed a slight decrease only in the second half of the past decade, while carbonaceous aerosols decreased, sulfate (SO42−) and ammonium (NH4+) remained at high levels, and nitrate (NO3) increased. The highest seasonal averages of PM2. 5 and its major chemical components were typically observed in the cold seasons. Annual average contributions of secondary inorganic aerosols to PM2. 5 ranged from 25 to 48%, and those of carbonaceous aerosols ranged from 23 to 47%, both with higher contributions in southern regions due to the frequent dust events in northern China. Source apportionment analysis identified secondary inorganic aerosols, coal combustion and traffic emission as the top three source factors contributing to PM2. 5 mass in most Chinese cities, and the sum of these three source factors explained 44 to 82% of PM2. 5 mass on annual average across China. Biomass emission in most cities, industrial emission in industrial cities, dust emission in northern cities and ship emission in coastal cities are other major source factors, each of which contributed 7–27% to PM2. 5 mass in applicable cities.

The geographical pattern of scattering coefficient (bsp) was similar to that of PM2. 5, and that of aerosol absorption coefficient (bap) was determined by elemental carbon (EC) mass concentration and its coating. bsp in ambient condition of relative humidity (RH) = 80% can be amplified by about 1.8 times that under dry conditions. Secondary inorganic aerosols accounted for about 60% of aerosol extinction coefficient (bext) at RH greater than 70%. The mass scattering efficiency (MSE) of PM2. 5 ranged from 3.0 to 5.0m2g−1 for aerosols produced from anthropogenic emissions and from 0.7 to 1.0m2g−1 for natural dust aerosols. The mass absorption efficiency (MAE) of EC ranged from 6.5 to 12.4m2g−1 in urban environments, but the MAE of water-soluble organic carbon was only 0.05 to 0.11m2g−1. Historical emission control policies in China and their effectiveness were discussed based on available chemically resolved PM2. 5 data, which provides the much needed knowledge for guiding future studies and emissions policies.

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In this study, studies on PM2.5 chemical composition, source apportionment and its impact on aerosol optical properties across China are thoroughly reviewed, and historical emission control policies in China and their effectiveness in reducing PM2.5 are discussed.
In this study, studies on PM2.5 chemical composition, source apportionment and its impact on...