Size-segregated characteristics of bioaerosols during foggy and non-foggy days of winter, meteorological implications, and health risk assessment

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL Environmental science. Advances Pub Date : 2024-07-15 DOI:10.1039/D4VA00108G
Yogesh Kumar Vishwakarma, Kirpa Ram, Mukunda Madhab Gogoi, Tirthankar Banerjee and Ram Sharan Singh
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Abstract

Fog is a common atmospheric event in northern India. Frequently, dense and prolonged fog envelops the entire Indo-Gangetic Plain (IGP), especially in the winter season. During winter, conducive atmospheric conditions also facilitate the accumulation of airborne particulates near the earth surface, significantly reducing atmospheric visibility in the presence of water vapour and gases. Besides, fog formation can also change the characteristics of the biological component of the air (bioaerosols). The Anderson six-stage bioaerosol cascade impactor was therefore used to collect bioaerosols during winter-specific foggy and non-foggy days to assess how fog formation affects the loading and characteristic of bioaerosols. It has been found that the concentration of bioaerosols increases during foggy days (2223 ± 553 CFU m−3) compared to non-foggy days (days including both before and after fog; 1478 ± 490 CFU m−3). Nearly, a 50% rise in the total culturable microbe concentration was noted during foggy days as compared to non-foggy days in an urban habitat over the central IGP. Approximately 46% and 55% increase in bacterial and fungal bioaerosol concentration, respectively, was found to be associated with foggy days. The size of bioaerosols also varied with the change in atmospheric conditions. During foggy days, bacterial and fungal concentration increased in the coarse size fraction (4.7–7.0 μm) compared to fine (0.65–7.0 μm) particles. The presence of bacteria such as Bacillus; Enterobacter; Cocci and fungi such as Aspergillus, Cladosporium and Penicillium were found during foggy days. The measured concentration of bioaerosols did not exhibit strong association with meteorological variables and other atmospheric co-pollutants. Health risk assessment of the exposure to bioaerosols revealed strong possibility to cause adverse human health effects in the exposed population.

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冬季雾天和非雾天生物气溶胶的粒度分布特征、气象影响和健康风险评估
雾是印度北部常见的大气现象。浓雾经常长时间笼罩着整个印度-甘肃平原(IGP),尤其是在冬季。在冬季,有利的大气条件也有利于空气中的颗粒物在地表附近聚集,在水蒸气和气体的作用下,大大降低了大气能见度。此外,雾的形成还会改变空气中生物成分(生物气溶胶)的特性。因此,我们使用安德森六级生物气溶胶级联影响器收集冬季特定雾天和非雾天的生物气溶胶,以评估雾的形成如何影响生物气溶胶的负荷和特征。研究发现,与非雾天(包括雾前和雾后;1478 ± 490 CFU m-3)相比,雾天的生物气溶胶浓度增加(2223 ± 553 CFU m-3)。在 IGP 中部的城市栖息地,与非雾天相比,雾天的可培养微生物总浓度几乎上升了 50%。在雾天,细菌和真菌生物气溶胶浓度分别增加了约 46% 和 55%。生物气溶胶的大小也随着大气条件的变化而变化。与细颗粒(0.65-7.0 微米)相比,在雾天,细菌和真菌在粗颗粒(4.7-7.0 微米)中的浓度有所增加。在雾天发现了细菌(如芽孢杆菌、肠杆菌属、球菌属)和真菌(如曲霉、梭菌属和青霉属)。测得的生物气溶胶浓度与气象变量和其他大气共污染物并无密切联系。对接触生物气溶胶进行的健康风险评估显示,生物气溶胶极有可能对接触人群的健康造成不利影响。
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