Exploring microbial diversity, antibiotic resistance, and their environmental drivers in urban and peri-urban riverbed sediments of sub-tropical river basins

dc.creatorPandey, N. K.
dc.creatorSimon, M.
dc.creatorVishwakarma, R. K.
dc.creatorSen, S.
dc.creatorJoshi, H.
dc.creatorYadav, Shweta
dc.creatorMateo-Sagasta, Javier
dc.creatorJampani, Mahesh
dc.creatorSikka, Alok
dc.creatorHazra, S.
dc.date2026-01-01
dc.date2025-10-31T05:41:05Z
dc.date2025-10-31T05:41:05Z
dc.date.accessioned2026-06-27T18:28:13Z
dc.descriptionRivers travel through diverse landscapes and carry natural and anthropogenic materials, which affect the dynamics of the biological and physicochemical properties of the river and riverbed sediments. Anthropological activities such as urbanization and industrialization release vast amounts of contaminants that can alter a river’s ecology and contribute to the emergence of drug resistance. This study explores two subtropical river basins in India, focusing on the main river Song (flowing through a peri-urban sub-basin) and joined by its tributaries, viz. Rispana, Bindal, and Suswa (flowing through a heavily urbanized sub-basin). A total of 27 sediment samples were collected from 9 sites in winter, summer, and monsoon seasons of the year 2024 to explore microbial diversity, antibiotic-resistant bacteria (ARB), physicochemical properties, antibiotic residues, and heavy metal concentrations. Results highlight that heavily urbanized sub-basins sediments carry more contaminants and a high load of antibiotic-resistant bacteria, ESKAPE pathogen genera, and Enterobacterales in comparison to periurban river basins. However, both sub-basins predominantly carry the bacterial phyla Pseudomonadota and Bacillota, including pathogenic genera such as Pseudomonas, Staphylococcus, and Acinetobacter. Our analysis demonstrated that elevated concentrations of heavy metals and antibiotics are closely associated with increased levels of antimicrobial resistance. Overall, this study provided comparative insights into the peri-urban and heavily urbanized sub-basin river sediments microbiome, antibiogram, and their drivers. The results and findings of this study may help to develop a basic framework of policy recommendations for better managing subtropical river basins in urbanized areas.
dc.identifierhttps://hdl.handle.net/10568/177455
dc.identifier.urihttp://hdl.handle.net/123456789/156840
dc.languageen
dc.publisherElsevier
dc.rightsLimited Access
dc.sourcePandey, N. K.; Simon, M.; Vishwakarma, R. K.; Sen, S.; Joshi, H.; Yadav, S.; Mateo-Sagasta, J.; Jampani, M.; Sikka, A.; Hazra, S. 2025. Exploring microbial diversity, antibiotic resistance, and their environmental drivers in urban and peri-urban riverbed sediments of sub-tropical river basins. Environmental Research, 288(Part 1):123174. (Online first). doi: https://doi.org/10.1016/j.envres.2025.123174
dc.subjectmicrobial diversity
dc.subjectresistance to antibiotics
dc.subjectriverbeds
dc.subjectriver basins
dc.subjectsediment
dc.subjecturban areas
dc.subjectperi-urban areas
dc.titleExploring microbial diversity, antibiotic resistance, and their environmental drivers in urban and peri-urban riverbed sediments of sub-tropical river basins
dc.typeJournal Article

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