Assessment and characterization of bioaerosols from an indoor environment-operated wastewater management facility: unraveling pathogenicity in research laboratories

IF 2.2 3区 环境科学与生态学 Q2 BIOLOGY Aerobiologia Pub Date : 2022-11-04 DOI:10.1007/s10453-022-09763-6
Nitin Kumar Singh, Gaurav Sanghvi, Manish Yadav, Hirendrasinh Padhiyar, Abhishek Gupta, Johnson Christian, Arti Thanki
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Abstract

Exposure to wastewater treatment system (WWTS)-associated bioaerosols is not only linked with macro/field scale systems but also facilities which are operated in micro- and/or indoor environment such as university campus and research institutions. In this context, investigations on a laboratory-scale WWTS, adopting a sequential batch biofilm process and fed with synthetic municipal wastewater, were done in terms of its global treatment performance and characterization of emitted bioaerosols species. The microbial diversity of captured bioaerosols, collected through conventional particulate matter samplers, was identified on the basis of their metabolic properties using analytical profile index, biochemical tests, and other media specific growth patterns. Monitoring and analysis results of air quality in control and experimental period revealed that particulate emission from bioreactor increased the concentration of PM10 and PM2.5 up to 26.49 ± 4.18 µg/m3 and 12.84 ± 2.48 µg/m3 from an initial level of 17.26 ± 4.58 µg/m3 and 8.70 ± 1.84 µg/m3, respectively. Microscopic observations and staining characteristics revealed that cocci shape gram-negative and bacilli shape gram-positive bacteria dominated the bioaerosols with quantitative contribution as 70% and 9%, respectively. Based on the morphological and biochemical characterization, dominant isolated genera of opportunistic pathogenic bacteria in bioaerosols were identified as Escherichia coli, Bacillus cereus, Bacillus subtilis and Pseudomonas sp. with % dominance as 38.46, 13.46, 9.61 and 25, respectively. Overall, the findings of this study reiterate the concern of biological air pollution in research laboratories and represent an inevitable aspect for the validation of bioaerosol exposure in laboratory-scale WWTS workplaces.

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室内环境操作废水管理设施中生物气溶胶的评估和表征:研究实验室中的致病性
接触废水处理系统(WWTS)相关的生物气溶胶不仅与宏观/现场规模的系统有关,还与在微观和/或室内环境中运行的设施有关,如大学校园和研究机构。在这种情况下,对实验室规模的WWTS进行了研究,采用顺序分批生物膜工艺,并加入合成城市废水,就其全球处理性能和排放的生物气溶胶物种的特征进行了研究。通过常规颗粒物采样器收集的捕获生物气溶胶的微生物多样性是根据其代谢特性,使用分析图谱指数、生化测试和其他特定培养基生长模式来确定的。控制期和试验期空气质量监测分析结果表明,生物反应器排放的颗粒物使PM10和PM2.5浓度升高至26.49 ± 4.18µg/m3和12.84 ± 2.48µg/m3,初始水平为17.26 ± 4.58µg/m3和8.70 ± 1.84µg/m3。显微镜观察和染色特征显示,球菌形革兰氏阴性菌和杆菌形革兰氏阳性菌在生物气溶胶中占主导地位,其数量贡献分别为70%和9%。根据形态学和生物化学特征,生物气溶胶中机会致病菌的优势分离属分别为大肠杆菌、蜡样芽孢杆菌、枯草芽孢杆菌和假单胞菌。优势度分别为38.46、13.46、9.61和25。总的来说,这项研究的结果重申了对研究实验室生物空气污染的担忧,并代表了实验室规模WWTS工作场所生物气溶胶暴露验证的一个不可避免的方面。
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来源期刊
Aerobiologia
Aerobiologia 环境科学-环境科学
CiteScore
4.50
自引率
15.00%
发文量
37
审稿时长
18-36 weeks
期刊介绍: Associated with the International Association for Aerobiology, Aerobiologia is an international medium for original research and review articles in the interdisciplinary fields of aerobiology and interaction of human, plant and animal systems on the biosphere. Coverage includes bioaerosols, transport mechanisms, biometeorology, climatology, air-sea interaction, land-surface/atmosphere interaction, biological pollution, biological input to global change, microbiology, aeromycology, aeropalynology, arthropod dispersal and environmental policy. Emphasis is placed on respiratory allergology, plant pathology, pest management, biological weathering and biodeterioration, indoor air quality, air-conditioning technology, industrial aerobiology and more. Aerobiologia serves aerobiologists, and other professionals in medicine, public health, industrial and environmental hygiene, biological sciences, agriculture, atmospheric physics, botany, environmental science and cultural heritage.
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