Organosulfates in Ambient Aerosol: State of Knowledge and Future Research Directions on Formation, Abundance, Fate, and Importance

气溶胶 硫酸盐 丰度(生态学) 环境科学 大气化学 大气(单位) 生物量(生态学) 环境化学 生物质燃烧 地球科学 化学 大气科学 生态学 气象学 地质学 地理 生物 有机化学 臭氧
作者
Martin Brüggemann,Rongshuang Xu,Andreas Tilgner,Kai Chung Kwong,Anke Mutzel,Hon Yin Poon,Tobias Otto,Thomas Schaefer,Laurent Poulain,Man Nin Chan,Hartmut Herrmann
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:54 (7): 3767-3782 被引量:271
标识
DOI:10.1021/acs.est.9b06751
摘要

Organosulfates (OSs), also referred to as organic sulfate esters, are well-known and ubiquitous constituents of atmospheric aerosol particles. Commonly, they are assumed to form upon mixing of air masses of biogenic and anthropogenic origin, that is, through multiphase reactions between organic compounds and acidic sulfate particles. However, in contrast to this simplified picture, recent studies suggest that OSs may also originate from purely anthropogenic precursors or even directly from biomass and fossil fuel burning. Moreover, besides classical OS formation pathways, several alternative routes have been discovered, suggesting that OS formation possibly occurs through a wider variety of formation mechanisms in the atmosphere than initially expected. During the past decade, OSs have reached a constantly growing attention within the atmospheric science community with evermore studies reporting on large numbers of OS species in ambient aerosol. Nonetheless, estimates on OS concentrations and implications on atmospheric physicochemical processes are still connected to large uncertainties, calling for combined field, laboratory, and modeling studies. In this Critical Review, we summarize the current state of knowledge in atmospheric OS research, discuss unresolved questions, and outline future research needs, also in view of reductions of anthropogenic sulfur dioxide (SO2) emissions. Particularly, we focus on (1) field measurements of OSs and measurement techniques, (2) formation pathways of OSs and their atmospheric relevance, (3) transformation, reactivity, and fate of OSs in atmospheric particles, and (4) modeling efforts of OS formation and their global abundance.
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