气溶胶
化学
环境化学
相对湿度
氨基酸
甘氨酸
氮气
干旱
环境科学
大气科学
植被(病理学)
大气化学
湿度
生物量(生态学)
大气(单位)
生物气溶胶
质谱法
亮氨酸
降级(电信)
气团(太阳能)
有机质
微粒
氮同位素
降水
作者
Mei-Ju Yin,Yu Xu,Ren-Guo Zhu,Yao Wang,Qi-Bin Sun,Lin Gui,Yu-Cheng You,Tao Jiang,Hong‐Wei Xiao,Hao Xiao,Hua-Yun Xiao
标识
DOI:10.1021/acs.est.5c12980
摘要
Proteinaceous matter (PrM), including combined and free amino acids (CAAs and FAAs), represents an abundant component of bioaerosols. Observations in nonarid areas suggested significant influences from aqueous-phase oxidation on FAA compositions and abundances. However, the origins and processing of aerosol PrM in arid and dusty areas remain poorly understood. The characterizations of CAAs and FAAs in PM2.5 and dust from leaf surfaces, roads, and buildings were investigated throughout the cold seasons in arid Lanzhou (northwest China). Leucine dominated CAAs in both PM2.5 and dust samples. This finding, combined with evidence from amino acid nitrogen isotope signal and Mantel test analysis, strongly suggests that soil (/dust) is the main contributor (up to 38%) to total aerosol amino acids in Lanzhou, followed by vegetation and biomass burning. Glycine dominated aerosol FAAs during winter (relative humidity = 50 ± 14%) and correlated significantly with atmospheric oxidation levels, while these patterns were absent during the drier spring with higher atmospheric oxidation capacity. We propose that low relative humidity (33 ± 15%), rather than weak aerosol acidity (pH = 8.1 ± 1.0), constrains PrM degradation during spring, leading to a significant reduction in free glycine mass fraction. This study presents the first observational evidence for constrained PrM degradation under dry conditions.
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