极端寒冷驱动下大气细颗粒物水相生成及中和作用增强

Enhanced aqueous formation and neutralization of fine atmospheric particles driven by extreme cold.

作者信息

Campbell James R, Dingilian Kayane K, Cesler-Maloney Meeta, Simpson William R, Robinson Ellis S, DeCarlo Peter F, Temime-Roussel Brice, D'Anna Barbara, Holen Andrew L, Wu Judy, Pratt Kerri A, Dibb Jack E, Nenes Athanasios, Weber Rodney J, Mao Jingqiu

机构信息

Geophysical Institute and Department of Chemistry and Biochemistry, University of Alaska Fairbanks, Fairbanks, AK 99775, USA.

School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA 30332, USA.

出版信息

Sci Adv. 2024 Sep 6;10(36):eado4373. doi: 10.1126/sciadv.ado4373. Epub 2024 Sep 4.

DOI:10.1126/sciadv.ado4373

PMID:39231233

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11421654/

Abstract

The prevailing view for aqueous secondary aerosol formation is that it occurs in clouds and fogs, owing to the large liquid water content compared to minute levels in fine particles. Our research indicates that this view may need reevaluation due to enhancements in aqueous reactions in highly concentrated small particles. Here, we show that low temperature can play a role through a unique effect on particle pH that can substantially modulate secondary aerosol formation. Marked increases in hydroxymethanesulfonate observed under extreme cold in Fairbanks, Alaska, demonstrate the effect. These findings provide insight on aqueous chemistry in fine particles under cold conditions expanding possible regions of secondary aerosol formation that are pH dependent beyond conditions of high liquid water.

摘要

关于水性二次气溶胶形成的主流观点是，它发生在云和雾中，这是因为与细颗粒中的微量水平相比，云中有大量液态水。我们的研究表明，由于高浓度小颗粒中水性反应的增强，这一观点可能需要重新评估。在此，我们表明低温可通过对颗粒pH值产生独特影响发挥作用，而这种影响可显著调节二次气溶胶的形成。在阿拉斯加费尔班克斯极端寒冷条件下观察到的羟甲基磺酸盐显著增加证明了这种影响。这些发现为寒冷条件下细颗粒中的水性化学提供了见解，拓展了二次气溶胶形成的可能区域，这些区域除了高液态水条件外还依赖于pH值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/224f/11421654/6ddf25d47abb/sciadv.ado4373-f1.jpg

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极端寒冷驱动下大气细颗粒物水相生成及中和作用增强

Enhanced aqueous formation and neutralization of fine atmospheric particles driven by extreme cold.

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