Seasonal Changes in the Oxidative Potential of Urban Air Pollutants: The Influence of Emission Sources and Proton- and Ligand-Mediated Dissolution of Transition Metals.

ACS ES&T Air Pub Date : 2024-08-29 eCollection Date: 2024-10-11 DOI:10.1021/acsestair.4c00093
Pourya Shahpoury, Steven Lelieveld, Deepchandra Srivastava, Andrea Baccarini, Jacob Mastin, Thomas Berkemeier, Valbona Celo, Ewa Dabek-Zlotorzynska, Tom Harner, Gerhard Lammel, Athanasios Nenes
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Abstract

The inhalation of fine particulate matter (PM2.5) is a major contributor to adverse health effects from air pollution worldwide. An important toxicity pathway is thought to follow oxidative stress from the formation of exogenous reactive oxygen species (ROS) in the body, a proxy of which is oxidative potential (OP). As redox-active transition metals and organic species are important drivers of OP in urban environments, we investigate how seasonal changes in emission sources, aerosol chemical composition, acidity, and metal dissolution influence OP dynamics. Using a kinetic model of the lung redox chemistry, we predicted ROS (O2 •-, H2O2, OH) formation with input parameters comprising the ambient concentrations of PM2.5, water-soluble Fe and Cu, secondary organic matter, nitrogen dioxide, and ozone across two years and two urban sites in Canada. Particulate species were the largest contributors to ROS production. Soluble Fe and Cu had their highest and lowest values in summer and winter, and changes in Fe solubility were closely linked to seasonal variations in chemical aging, the acidity of aerosol, and organic ligand levels. The results indicate three conditions that influence OP across various seasons: (a) low aerosol pH and high organic ligand levels leading to the highest OP in summer, (b) opposite trends leading to the lowest OP in winter, and (c) intermediate conditions corresponding to moderate OP in spring and fall. This study highlights how atmospheric chemical aging modifies the oxidative burden of urban air pollutants, resulting in a seasonal cycle with a potential effect on population health.

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城市空气污染物氧化潜能的季节性变化:排放源及质子和配体介导的过渡金属溶解的影响。
吸入细颗粒物(PM2.5)是全球空气污染对健康造成不良影响的主要原因。一个重要的毒性途径被认为是体内外源性活性氧(ROS)形成的氧化应激,其代表物质是氧化电位(OP)。由于氧化还原活性过渡金属和有机物是城市环境中氧化潜势的重要驱动因素,我们研究了排放源、气溶胶化学成分、酸度和金属溶解的季节性变化对氧化潜势动态的影响。利用肺氧化还原化学动力学模型,我们预测了 ROS(O2--、H2O2、-OH)的形成,输入参数包括 PM2.5、水溶性铁和铜、次生有机物、二氧化氮和臭氧在加拿大两个城市地点两年的环境浓度。颗粒物是产生 ROS 的最大因素。可溶性铁和铜的最高值和最低值分别出现在夏季和冬季,铁溶解度的变化与化学老化、气溶胶酸度和有机配体水平的季节性变化密切相关。研究结果表明,有三种条件会影响不同季节的 OP:(a)气溶胶 pH 值低、有机配体含量高,导致夏季 OP 值最高;(b)趋势相反,导致冬季 OP 值最低;(c)中间条件下,春季和秋季 OP 值适中。这项研究强调了大气化学老化如何改变城市空气污染物的氧化负担,从而形成可能影响人口健康的季节性循环。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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