氮化学增强促进氯化学对冬季臭氧形成的贡献增加。
Increasing Contribution of Chlorine Chemistry to Wintertime Ozone Formation Promoted by Enhanced Nitrogen Chemistry.
作者信息
Chen Gaojie, Xu Lingling, Yu Shaocai, Xue Likun, Lin Ziyi, Yang Chen, Ji Xiaoting, Fan Xiaolong, Tham Yee Jun, Wang Haichao, Hong Youwei, Li Mengren, Seinfeld John H, Chen Jinsheng
机构信息
Center for Excellence in Regional Atmospheric Environment, Institute of Urban Environment, Chinese Academy of Sciences, Xiamen 361021, China.
Fujian Key Laboratory of Atmospheric Ozone Pollution Prevention, Institute of Urban Environment, Chinese Academy of Sciences, Xiamen 361021, China.
出版信息
Environ Sci Technol. 2024 Dec 24;58(51):22714-22721. doi: 10.1021/acs.est.4c09523. Epub 2024 Nov 25.
Chlorine (Cl) radicals strongly affect atmospheric oxidation and the fate of pollutants. Despite several observations, the potential impacts of nitrogen chemistry associated with NO on Cl chemistry are poorly understood. Here, we provided direct field evidence that the nitrogen chemistry enhancements triggered by the increased NO drove daytime nitrate (NO) photolysis and nighttime NO-NO reactions, significantly promoting the increases in the concentrations of ClNO and Cl after the Chinese Spring Festival. The enhancement in the Cl chemistry facilitated the elevations of both O and atmospheric oxidation capacity during the winter daytime. Our findings highlighted the importance of nitrogen chemistry induced by the increased NO in enhanced Cl chemistry.
氯(Cl)自由基对大气氧化和污染物的归宿有强烈影响。尽管有多项观测,但与一氧化氮(NO)相关的氮化学对氯化学的潜在影响仍知之甚少。在此,我们提供了直接的现场证据,表明春节后,由NO增加引发的氮化学增强推动了白天硝酸盐(NO₃)的光解和夜间NO-NO₂反应,显著促进了ClNO₂和Cl浓度的增加。氯化学的增强促进了冬季白天O₃和大气氧化能力的升高。我们的研究结果突出了NO增加引起的氮化学在增强氯化学中的重要性。
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