环境科学
特大城市
焊剂(冶金)
涡度相关法
大气科学
环境化学
臭氧
空气污染
污染物
分摊
挥发性有机化合物
污染
气溶胶
大气化学
城市生态系统
化学成分
异戊二烯
化学输运模型
无组织排放
空气污染物
作者
Xianjun He,Bin Yuan,Yibo Huangfu,Sihang Wang,Yubin Chen,Xiaoxiao Zhang,Yihua Sun,Thomas Karl,Min Shao
标识
DOI:10.1021/acs.est.5c16873
摘要
, which have significant health and environmental impacts. In urban areas, the complex emission patterns of VOCs─driven by diverse anthropogenic activities─present major challenges for accurate source characterization and quantification. In this study, we conducted eddy covariance flux measurements of VOC in a Chinese megacity to elucidate strengths and origins of VOC in urban region. The results revealed pronounced temporal and compositional differences between VOC fluxes and concentrations. By linking compositional differences between VOC fluxes (fresh emissions) and concentrations (chemically processed air), we provide direct evidence of the critical role of the chemical evolution in shaping atmospheric compositions of VOCs in urban air. We demonstrate the advantages of using flux data in source apportionment for emissions by comparing positive matrix factorization (PMF) analyses based on flux and concentration data sets. Flux-based source apportionment revealed that urban VOC tracers, such as toluene, are primarily associated with volatile chemical product (VCP) rather than traffic. The temperature-driven dynamics of biogenic and anthropogenic (average: 53% vs 47%) contributions to the total monoterpene fluxes are quantified, highlighting the shifting importance of anthropogenic and biogenic sources in urban environments. These findings underscore the value of integrating flux and concentration data sets to enhance understanding of urban VOC sources and their atmospheric evolution.
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