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Nitrate isotopic composition in precipitation at a Chinese megacity: Seasonal variations, atmospheric processes and implications for sources

  我组成员在 Earth and Space Science上发表文章:Zhengjie Li , Wendell W. Walters, Meredith G. Hastings, et al. Nitrate isotopic composition in precipitation at a Chinese megacity: Seasonal variations, atmospheric processes and implications for sources. Earth and Space Science. 2019.  

  文章链接:https://agupubs.onlinelibrary.wiley.com/doi/pdfdirect/10.1029/2019EA000759 

  Nitrogen stable isotope composition (δ 15N) of nitrate (NO3-) deposition can aid in source apportionment of its precursor emissions, nitrogen oxides (NOx), with implications in mitigation policy to address serious air pollution. However, potential δ15N fractionation during atmospheric NO3- formation may hinder accurate quantification of NOx contributions. Previously, NOx photochemical reactions have been suggested to be the dominant δ15N fractionation process in NO3- formation. Here, we have quantified the potential fractionation effects associated with NOx photochemical reactions based upon δ15N‐NO3- measured in 1 year of daily‐based bulk deposition samples in Shenyang, a megacity with distinct seasonal fossil fuel combustion in northeastern China. The mean δ15N was 0.9 ± 4.0‰ and ranged from 4.9 to 8.3, with the lowest and highest values observed during summer and winter, respectively. Calculated NOx photochemical equilibrium fractionation may account for up to 42% of the observed seasonal δ15N change in NO3- deposition. However, the relative NOx source contribution trends, estimated based upon a δ15N Bayesian mixing model, were insensitive to NOx photochemical fractionation considerations. Overall, NOx source partitioning based upon averaged year‐long δ15N of bulk NO3- deposition estimated the following relative trend in NOx emission sources: coal combustion > biomass burning = vehicle emissions >> soil emissions. Seasonally, the increase of coal combustion emissions from summer to winter drives the seasonality of δ15N in NO3- deposition, indicating a necessity to control NOx emissions from coal combustion to improve wintertime air quality. 


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