Atmospheric Reactive Halogens Reshaped by the Clean Energy Policy and Agricultural Activity in a Rural Area of the North China Plain
Xiaorui Chen, Yifan Jiang, Zheng Zong, Yanan Wang, Weihang Sun, Y.-W. Wang, Men Xia, Liwei Guan, Pengfei Liu, Chenglong Zhang, Jianmin Chen, Yujing Mu, Tao Wang
Abstract
Reactive halogen species (RHS) play important roles in air pollution and climate change. Observational evidence has identified coal and biomass burning as an important source of RHS in polluted continental regions, including the North China Plain (NCP). Over the past ten years, the Chinese government has enacted various mitigation measures to control air pollutant emissions, including a clean energy initiative in the NCP. Here we report recent measurements of RHS at an NCP’s rural site where extraordinary levels of RHS were observed during the winter of 2017. We show that reactive bromines like BrCl and Br 2 largely diminished after the implementation of the clean energy policy, but high levels of reactive chlorine persisted. A surprising finding in the recent field study is a potentially new chlorine source, likely from chlorine-based fertilizers. Moreover, the changes in aerosol acidity and the NO 3 production rate led to a large increase in ClNO 2 production with an inhibition of Cl 2 . The high ClNO 2 levels (average: 150 pptv, peak: 3.8 ppbv) accounted for 43% of the oxidation of alkanes, increased conventional radicals (OH, HO 2, RO 2 ) by 4–8%, and net ozone production by 8–11%. Our study suggests more attention to crop fertilization as a potentially important source of atmospheric chlorine.