德里 PM2.5 中冬季水溶性有机气溶胶产生的活性氧物种

IF 3.8 Q2 ENVIRONMENTAL SCIENCES Atmospheric Environment: X Pub Date : 2024-04-01 DOI:10.1016/j.aeaoa.2024.100262
Himadri S. Bhowmik , Sachchida N. Tripathi , Joseph V. Puthussery , Vishal Verma , Jay Dave , Neeraj Rastogi
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引用次数: 0

摘要

在本研究中,我们评估了德里冬季 PM2.5 中各种水溶性有机气溶胶(WSOA)来源的相对氧化还原活性,重点关注它们产生活性氧(ROS)的能力。利用离线气溶胶质谱仪(AMS)和正矩阵因式分解法(PMF),我们确定了两个氧化因子--氧化程度较高的含氧有机气溶胶(MO-OOA)和氧化程度较低的含氧有机气溶胶(LO-OOA)--以及三个主要因子,即富氮碳氢化合物类有机气溶胶(NHOA)、生物质燃烧有机气溶胶(BBOA)和固体燃料燃烧有机气溶胶(SFC-OA)。我们使用基于二硫苏糖醇(DTT)测定法的实时氧化电位(OP)测量系统对 PM2.5 产生 ROS 的能力进行了评估。我们采用多元线性回归技术(MLR)探讨了水溶性 PM2.5 的 DTT 活性与这些已识别因素之间的关联。我们发现BBOA、SFCOA和MO-OOA对体积归一化OP有显著贡献,其内在水溶性活性分别为39±11、106±31和160±43 pmol/min/μg。MO-OOA 主要来自非化石前体,可作为老化生物质燃烧的替代物,冬季生物质燃烧加剧,并对 DTT 活性产生重大影响。此外,OP 还受到 WSOA 的显著影响,WSOA 来自当地的不完全固体燃料燃烧源,包括用于家庭烹饪和取暖的煤炭和木材燃烧、树叶燃烧、可生物降解废物和路边垃圾。有趣的是,水溶性金属(锰、铜和铁)对 OP 没有明显的影响。这些发现突出表明,需要针对当地燃烧过程和无管制的生物质燃烧采取有针对性的减缓战略,以有效减少德里的可吸入颗粒物健康暴露。
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Reactive oxygen species generation from winter water-soluble organic aerosols in Delhi's PM2.5

In this study, we evaluate the relative redox activity of various water-soluble organic aerosol (WSOA) sources in Delhi's winter PM2.5, focusing on their capacity to generate reactive oxygen species (ROS). Using offline-aerosol mass spectrometry (AMS) and positive matrix factorization (PMF), we identified two oxidized factors—more oxidized oxygenated organic aerosol (MO-OOA) and less oxidized oxygenated organic aerosol (LO-OOA)—and three primary factors, namely nitrogen-enriched hydrocarbon-like organic aerosol (NHOA), biomass-burning organic aerosol (BBOA), and solid-fuel combustion organic aerosol (SFC-OA). The ROS-generating capability of PM2.5 was assessed using a real-time oxidative potential (OP) measurement system based on the dithiothreitol (DTT) assay. We employed multivariate linear regression technique (MLR) to explore the association between the DTT activity of water-soluble PM2.5 and these identified factors. We found BBOA, SFCOA, and MO-OOA significantly contributed to volume-normalized OP, with intrinsic water-soluble activities of 39 ± 11, 106 ± 31 and 160 ± 43 pmol/min/μg, respectively. MO-OOA, primarily from non-fossil precursors, serves as a proxy for aged biomass burning, which intensifies during winter and significantly influences the DTT activity. Additionally, OP is significantly influenced by WSOA derived from local incomplete solid fuel combustion sources, including coal and wood burning for household cooking and heating, burning of leaves, biodegradable waste, and garbage along the roadside. Interestingly, water-soluble metals (Mn, Cu, and Fe) showed no discernible contribution to the OP. These findings highlight the need for targeted mitigation strategies addressing local combustion processes and unregulated biomass burning to effectively reduce PM health exposure in Delhi.

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来源期刊
Atmospheric Environment: X
Atmospheric Environment: X Environmental Science-Environmental Science (all)
CiteScore
8.00
自引率
0.00%
发文量
47
审稿时长
12 weeks
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