Distinct responses of airborne abundant and rare microbial communities to atmospheric changes associated with Chinese New Year

Li, Hu; Hong, You‐Wei; Gao, Meng‐Ke; An, Xin‐Li; Yang, Xiao‐Ru; Zhu, Yong‐Guan; Chen, Jin‐Sheng; Su, Jian‐Qiang

doi:10.1002/imt2.140

Cited by 5 publications

(2 citation statements)

References 75 publications

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“…Recently, the indirect way of atmospheric pollutants leading to human health risks through simulating health-related microorganisms has been widely discovered. ,, AMPs could accelerate the transmission of pathogens and antibiotic resistance genes in indoor air . Our results confirmed the size of ambient AMPs with environmentally realistic abundance was significantly correlated with the relative abundance of pathogenic gene families in the airborne bacterial community.…”

Section: Results and Discussionsupporting

confidence: 70%

Human Exposure to Ambient Atmospheric Microplastics in a Megacity: Spatiotemporal Variation and Associated Microorganism-Related Health Risk

Xu,

Bai,

et al. 2024

Environ. Sci. Technol.

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Microplastics are found in various human tissues and are considered harmful, raising concerns about human exposure to microplastics in the environment. Existing research has analyzed indoor and occupational scenarios, but long-term monitoring of ambient atmospheric microplastics (AMPs), especially in highly polluted urban regions, needs to be further investigated. This study estimated human environmental exposure to AMPs by considering inhalation, dust ingestion, and dermal exposure in three urban functional zones within a megacity. The annual exposure quantity was 7.37 × 10 4 items for children and 1.06 × 10 5 items for adults, comparable with the human microplastic consumption from food and water. Significant spatiotemporal differences were observed in the characteristics of AMPs that humans were exposed to, with wind speed and rainfall frequency mainly driving these changes. The annual human AMP exposure quantity in urban green land spaces, which were recognized as relatively low polluted zones, was comparable with that in public service zones and residential zones. Notably, significant positive correlations between the AMP characteristics and the pathogenicity of the airborne bacterial community were discovered. AMP size and immune-mediated disease risks brought by atmospheric microbes showed the most significant relationship, where Sphingomonas might act as the potential key mediator.

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Section: Results and Discussionsupporting

confidence: 70%

Human Exposure to Ambient Atmospheric Microplastics in a Megacity: Spatiotemporal Variation and Associated Microorganism-Related Health Risk

Xu,

Bai,

et al. 2024

Environ. Sci. Technol.

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“…Overall, there were still a large proportion of variations could not be explained, indicating that some other factors might shape airborne pathogenic community. For example, some biotoxin substances absorbed on atmospheric particulate matter, such as heavy metals and volatile organic compounds, have been reported to have impacts on airborne microbial community ( Li et al, 2023 ; Ma et al, 2023 ). Our findings can advance people’s knowledge of the health risks of airborne particles and manage daily production more pertinently to reduce the health risks.…”

Section: Discussionmentioning

confidence: 99%

Seasonal distribution of human-to-human pathogens in airborne PM2.5 and their potential high-risk ARGs

Zuo,

Pan,

Huang

et al. 2024

Front. Microbiol.

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Airborne microorganisms, an emerging global health threat, have attracted extensive studies. However, few attentions have been paid to the seasonal distribution of airborne pathogens, in particular their associations with antibiotic resistance genes (ARGs). To this end, two-week daily PM2.5 samples were consecutively collected from Nanchang in four seasons, and the human-to-human pathogens were screened based on high-throughput sequencing. The results showed that there were 20 pathogenic taxa in PM2.5 in Nanchang, and the highest relative abundance of pathogens was observed in winter (5.84%), followed by summer (3.51%), autumn (2.66%), and spring (1.80%). Although more than half of pathogenic taxa were shared by the four seasons, the analysis of similarities showed that pathogenic community was shaped by season (r = 0.16, p < 0.01). Co-occurrence network analysis disclosed significant interactions among pathogens in each season. Moreover, some dominant pathogens such as Plesiomonas shigelloides, Bacteroides fragilis, and Escherichia-Shigella were hub pathogens. In addition, PICRUSt2 predicted that there were 35 high-risk ARG subtypes in PM2.5, and the pathogens had strongly positive correlations with these ARGs. Even some pathogens like Plesiomonas shigelloides, Bacteroides fragilis, Aeromonas, Citrobacter, may be multi-drug resistant pathogens, including beta-lactam, aminoglycosides, chloramphenicol and multi-drug resistances, etc. Both air pollutants and meteorological conditions contributed to the seasonal variation of airborne pathogenic bacteria (r = 0.15, p < 0.01), especially CO, O3, PM2.5, temperature and relative humidity. This study furthers our understanding of airborne pathogens and highlights their associations with ARGs.

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Spatial distribution and community composition of endophytic fungi within Mussaenda pubescens stems

Xi,

Wang,

Yang

et al. 2024

Fungal Biology

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Distinct responses of airborne abundant and rare microbial communities to atmospheric changes associated with Chinese New Year

Cited by 5 publications

References 75 publications

Human Exposure to Ambient Atmospheric Microplastics in a Megacity: Spatiotemporal Variation and Associated Microorganism-Related Health Risk

Human Exposure to Ambient Atmospheric Microplastics in a Megacity: Spatiotemporal Variation and Associated Microorganism-Related Health Risk

Seasonal distribution of human-to-human pathogens in airborne PM2.5 and their potential high-risk ARGs

Spatial distribution and community composition of endophytic fungi within Mussaenda pubescens stems

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