AI Article Synopsis
- Microplastics (MPs) in rivers are becoming a major concern because they may harbor antibiotic resistance genes (ARGs) and pathogens, especially in areas impacted by human activities.
- A study conducted on the Houxi River found that ARGs, mobile genetic elements (MGEs), and pathogens increased significantly in densely populated areas compared to sparsely populated ones, with human fecal markers indicating a link to human activity.
- The research identifies various socio-environmental factors influencing the spread of ARGs and suggests that different types of plastic, like polyvinylchloride, create more favorable conditions for pathogens than others, underlining the ecological risks posed by MPs in urban settings.
Article Abstract
Microplastics (MPs) are of increasing concern due to their role as reservoirs for antibiotic resistance genes (ARGs) and pathogens. To date, few studies have explored the influence of anthropogenic activities on ARGs and mobile genetic elements (MGEs) within various riverine MPs, in comparison to their natural counterparts. Here an in-situ incubation was conducted along heavily anthropogenically-impacted Houxi River to characterize the geographical pattern of antibiotic resistome, mobilome and pathogens inhabiting MPs- and leaf-biofilms. The metagenomics result showed a clear urbanization-driven profile in the distribution of ARGs, MGEs and pathogens, with their abundances sharply increasing 4.77 to 19.90 times from sparsely to densely populated regions. The significant correlation between human fecal marker crAssphage and ARG (R = 0.67, P=0.003) indicated the influence of anthropogenic activity on ARG proliferation in plastisphere and natural leaf surfaces. And mantel tests and random forest analysis revealed the impact of 17 socio-environmental factors, e.g., population density, antibiotic concentrations, and pore volume of materials, on the dissemination of ARGs. Partial least squares-path modeling further unveiled that intensifying human activities not only directly boosted ARGs abundance but also exerted a comparable indirect impact on ARGs propagation. Furthermore, the polyvinylchloride plastisphere created a pathogen-friendly habitat, harboring higher abundances of ARGs and MGEs, while polylactic acid are not likely to serve as vectors for pathogens in river, with a lower resistome risk score than that in leaf-biofilms. This study highlights the diverse ecological risks associated with the dissemination of ARGs and pathogens in varied MPs, offering insights for the policymaking of usage and control of plastics within urbanization.
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| http://dx.doi.org/10.1016/j.envint.2024.108946 | DOI Listing |
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