Physicochemical metamorphosis of re-aerosolized urban PM2.5

IF 3.9 3区 环境科学与生态学 Q2 ENGINEERING, CHEMICAL
Fanny Bergman , Axel C. Eriksson , Marten Spanne , Lena Ohlsson , Irma Mahmutovic Persson , Lena Uller , Jenny Rissler , Christina Isaxon
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引用次数: 0

Abstract

The toxicity of particulate matter (PM) is dependent on particle physical and chemical properties and is commonly studied using in vivo and in vitro approaches. PM to be used for in vivo and in vitro studies is often collected on filters and then extracted from the filter surface using a solvent. During extraction and further PM sample handling, particle properties change, but this is often neglected in toxicology studies, with possible implications for health effect assessment. To address the current lack of knowledge and investigate changes in particle properties further, ambient PM with diameter less than 2.5 μm (PM2.5) was collected on filters at an urban site and extracted using a standard methanol protocol. After extraction, the PM was dried, dispersed in water and subsequently nebulized. The resulting aerosol properties were then compared to those of the ambient PM2.5. The number size distribution for the nebulized aerosol resembled the ambient in terms of the main mode diameter, and >90 % of particle mass in the nebulized size distribution was still in the PM2.5 range. Black carbon made up a similar fraction of PM mass in nebulized as in ambient aerosol. The sulfate content in the nebulized aerosol seemed depleted and the chemical composition of the organic fraction was altered, but it remains unclear to what extent other non-refractory components were affected by the extraction process. Trace elements were not distributed equally across size fractions, neither in ambient nor nebulized PM. Change in chemical form was studied for zinc, copper and iron. The form did not appear to be different between the ambient and nebulized PM for iron and copper, but seemed altered for zinc. Although many of the studied properties were reasonably well preserved, it is clear that the PM2.5 collection and re-aerosolization process affects particles, and thus potentially also their health effects. Because of this, the effect of the particle collection and extraction process must be considered when evaluating cellular and physiological outcomes upon PM2.5 exposure.

再气溶胶城市 PM2.5 的物理化学蜕变
颗粒物(PM)的毒性取决于颗粒物的物理和化学特性,通常采用体内和体外方法进行研究。用于体内和体外研究的可吸入颗粒物通常收集在过滤器上,然后用溶剂从过滤器表面提取出来。在提取和进一步处理可吸入颗粒物样本的过程中,颗粒物的特性会发生变化,但这一点在毒理学研究中往往被忽视,可能会对健康影响评估产生影响。为了解决目前知识匮乏的问题并进一步研究颗粒特性的变化,我们在一个城市地点的过滤器上收集了直径小于 2.5 μm(PM2.5)的环境可吸入颗粒物,并使用标准甲醇方案进行提取。萃取后,将可吸入颗粒物干燥,分散在水中,然后进行雾化。然后将所得到的气溶胶特性与环境 PM2.5 的特性进行比较。就主要模式直径而言,雾化气溶胶的粒度分布与环境气溶胶相似,雾化粒度分布中 90% 的颗粒质量仍在 PM2.5 范围内。在雾化气溶胶中,黑碳占可吸入颗粒物质量的比例与环境气溶胶相似。雾化气溶胶中的硫酸盐含量似乎减少了,有机部分的化学成分也发生了变化,但其他非难降解成分在多大程度上受到了萃取过程的影响仍不清楚。无论是在环境还是雾化可吸入颗粒物中,痕量元素在不同大小的组分中分布不均。对锌、铜和铁的化学形态变化进行了研究。铁和铜的化学形态在环境和雾化可吸入颗粒物中似乎并无不同,但锌的化学形态似乎有所改变。虽然研究的许多特性都得到了很好的保留,但很明显,PM2.5 的收集和再雾化过程会影响颗粒物,因此也可能影响它们对健康的影响。因此,在评估接触 PM2.5 后的细胞和生理结果时,必须考虑颗粒收集和提取过程的影响。
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来源期刊
Journal of Aerosol Science
Journal of Aerosol Science 环境科学-工程:化工
CiteScore
8.80
自引率
8.90%
发文量
127
审稿时长
35 days
期刊介绍: Founded in 1970, the Journal of Aerosol Science considers itself the prime vehicle for the publication of original work as well as reviews related to fundamental and applied aerosol research, as well as aerosol instrumentation. Its content is directed at scientists working in engineering disciplines, as well as physics, chemistry, and environmental sciences. The editors welcome submissions of papers describing recent experimental, numerical, and theoretical research related to the following topics: 1. Fundamental Aerosol Science. 2. Applied Aerosol Science. 3. Instrumentation & Measurement Methods.
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