上海的夜空真菌和细菌群落及潜在病原体的健康风险†.

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
Xueyun Geng, Changliang Nie, Hui Chen, Xu Tang, Min Wei, Yi Wang, Huanxiang Gao, Dan Li, Mingliang Fang, Ruiting Ju, Bo Li, Haidong Kan, Renjie Chen, Jinzhuo Zhao, Lin Wang and Jianmin Chen
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引用次数: 0

摘要

受城市化影响的空气传播微生物和大城市生物气溶胶因其在大气环境中的重要性而备受关注。本文通过不依赖培养的方法和形态学分析,揭示了 PM2.5 中空气传播微生物的昼夜变化。结果表明,在空气质量改善的情况下,空气中的真菌值为 8636 个拷贝/立方米(白天)和 9443 个拷贝/立方米(夜间),细菌值为 38 725 个拷贝/立方米(白天)和 38 613 个拷贝/立方米(夜间)。在经常性的昼夜循环中,空气中真菌和细菌的浓度没有明显差异。空气中的微生物群落结构显示出稳健性,其中以甲壳纲、丝核菌纲、曲霉科、根瘤菌科、球菌科和毛霉科为主。LefSE 分析显示,Sistotrema、Moesziomyces 和 Acinetobacter 是昼间生物标志物,Cercospora 和 Blastomonas 是夜间生物标志物。在评估潜在病原体的健康风险时,夜间样本中真菌的相对丰度较高(38.52%),而昼间样本中潜在致病细菌的比例较高(21.92%)。二氧化硫对真菌浓度有明显的抑制作用。扫描电子显微镜(SEM)对真菌的观察显示了完整的细胞结构,推测其属于子囊菌目(Basidiomycota)和子囊菌目(Ascomycota),并作为独立的大气颗粒物质,其表面含有化学成分。这项研究结合高通量测序技术和低PM2.5浓度下的形态观察,对大都市空气中的真菌和细菌提供了重要的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Nycterohemeral airborne fungal and bacterial communities and health risks of potential pathogens in Shanghai†

Nycterohemeral airborne fungal and bacterial communities and health risks of potential pathogens in Shanghai†

Urbanization-influenced airborne microorganisms and megacity bioaerosols have garnered particular attention due to their importance in the atmospheric environment. Herein, the diurnal variation of airborne microbes in PM2.5 between day and night was unveiled by a culture-independent approach and morphological analyses. The results demonstrated that airborne fungi, with values of 8636 copies per m3 (daytime) and 9443 copies per m3 (nighttime), and bacteria, with values of 38 725 copies per m3 (daytime) and 38 613 copies per m3 (nighttime), were observed under improved air quality. The recurrent diel cycle's airborne fungal and bacterial concentrations had no discernible difference. The airborne microbial community structure displayed robustness, in which Formitopsidaceae, Meruliaceae, Aspergillaceae, Rhizobiaceae, Caulobacteraceae, and Moraxellaceae dominated. The LefSE analysis revealed Sistotrema, Moesziomyces and Acinetobacter as diurnal biomarkers and Cercospora and Blastomonas as nocturnal biomarkers. In assessing the health risks of potential pathogens, the nocturnal samples contained a higher fungal relative abundance (38.52%), and diurnal samples had a higher proportion of potentially pathogenic bacteria (21.92%). SO2 inhibited the fungal concentrations significantly. The observation of fungi by Scanning Electron Microscope (SEM) revealed the intact cell structure presumably annotated to Basidiomycota and Ascomycota and acted as the independent atmospheric particle matters of which surface harboured chemical composition. This study offers important insights into airborne fungi and bacteria in metropolitan cities, coupled with high throughput sequencing technologies and morphological observation under low PM2.5 concentration.

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