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Hauptverfasser: Beltrán de Heredia, Irene, Sbaffi, Tomasa, González-Gaya, Belén, Di Cesare, Andrea, Sabatino, Raffaella, Alkorta, Itziar, Ruiz-Romera, Estilita
Format: Artículo científico
Sprache:en
Veröffentlicht: Journal of hazardous materials 2025
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Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/40682875/
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author Beltrán de Heredia, Irene
Sbaffi, Tomasa
González-Gaya, Belén
Di Cesare, Andrea
Sabatino, Raffaella
Alkorta, Itziar
Ruiz-Romera, Estilita
author_facet Beltrán de Heredia, Irene
Sbaffi, Tomasa
González-Gaya, Belén
Di Cesare, Andrea
Sabatino, Raffaella
Alkorta, Itziar
Ruiz-Romera, Estilita
Beltrán de Heredia, Irene
Sbaffi, Tomasa
González-Gaya, Belén
Di Cesare, Andrea
Sabatino, Raffaella
Alkorta, Itziar
Ruiz-Romera, Estilita
collection PubMed - marine biology
contents Comparative analysis of planktonic and sessile microbiomes and associated resistomes in a freshwater ecosystem impacted by municipal wastewater treatment plant discharge. Beltrán de Heredia, Irene Sbaffi, Tomasa González-Gaya, Belén Di Cesare, Andrea Sabatino, Raffaella Alkorta, Itziar Ruiz-Romera, Estilita Microbiota Wastewater Biofilms Plankton Fresh Water Rivers Ecosystem Waste Disposal, Fluid Water Microbiology Bacteria Water Pollutants, Chemical Wastewater treatment plants (WWTPs) disrupt freshwater ecosystems and are recognised as hotspots for antimicrobial resistance. This study assessed the effect of treated municipal wastewater discharge on both planktonic and sessile freshwater microbial communities. A monitoring network was established in a Spanish urban river basin during 2022 dry season, with sampling points upstream and downstream of a WWTP. Artificial glass-based substrates enabled biofilm colonisation, while river water and effluent samples were collected during biofilm harvesting. Chemical exposure was assessed by characterising nutrients and antimicrobial concentrations in water, while shotgun metagenomics revealed taxonomic composition and resistome pools in both matrices. River water exhibited greater genus richness and pathobiome diversity than biofilms. Wastewater discharge shaped microbial composition, leading to shifts in less dominant groups, with partial attenuation of this effect downstream. Resistome richness was higher in river water compared to biofilm, though the latter displayed greater total abundances and distinct resistance profiles suggesting their role as genetic reservoirs. While no consistent resistome trends were linked to sampling location, higher total resistance abundances occurred in river water at sites impacted by wastewaters. Background resistance levels found upstream likely persisted downstream due to pollutant-driven selection. Lower resistome richness in effluent water suggests downstream abundances may also result from microbiome shifts and environmental factors. Assembly-based analysis revealed resistance genetic contexts and indicators of gene dissemination.
format Artículo científico
id pubmed_40682875
institution PubMed
language en
publishDate 2025
publisher Journal of hazardous materials
record_format pubmed
spellingShingle Comparative analysis of planktonic and sessile microbiomes and associated resistomes in a freshwater ecosystem impacted by municipal wastewater treatment plant discharge.
Beltrán de Heredia, Irene
Sbaffi, Tomasa
González-Gaya, Belén
Di Cesare, Andrea
Sabatino, Raffaella
Alkorta, Itziar
Ruiz-Romera, Estilita
Microbiota
Wastewater
Biofilms
Plankton
Fresh Water
Rivers
Ecosystem
Waste Disposal, Fluid
Water Microbiology
Bacteria
Water Pollutants, Chemical
Comparative analysis of planktonic and sessile microbiomes and associated resistomes in a freshwater ecosystem impacted by municipal wastewater treatment plant discharge. Beltrán de Heredia, Irene Sbaffi, Tomasa González-Gaya, Belén Di Cesare, Andrea Sabatino, Raffaella Alkorta, Itziar Ruiz-Romera, Estilita Microbiota Wastewater Biofilms Plankton Fresh Water Rivers Ecosystem Waste Disposal, Fluid Water Microbiology Bacteria Water Pollutants, Chemical Wastewater treatment plants (WWTPs) disrupt freshwater ecosystems and are recognised as hotspots for antimicrobial resistance. This study assessed the effect of treated municipal wastewater discharge on both planktonic and sessile freshwater microbial communities. A monitoring network was established in a Spanish urban river basin during 2022 dry season, with sampling points upstream and downstream of a WWTP. Artificial glass-based substrates enabled biofilm colonisation, while river water and effluent samples were collected during biofilm harvesting. Chemical exposure was assessed by characterising nutrients and antimicrobial concentrations in water, while shotgun metagenomics revealed taxonomic composition and resistome pools in both matrices. River water exhibited greater genus richness and pathobiome diversity than biofilms. Wastewater discharge shaped microbial composition, leading to shifts in less dominant groups, with partial attenuation of this effect downstream. Resistome richness was higher in river water compared to biofilm, though the latter displayed greater total abundances and distinct resistance profiles suggesting their role as genetic reservoirs. While no consistent resistome trends were linked to sampling location, higher total resistance abundances occurred in river water at sites impacted by wastewaters. Background resistance levels found upstream likely persisted downstream due to pollutant-driven selection. Lower resistome richness in effluent water suggests downstream abundances may also result from microbiome shifts and environmental factors. Assembly-based analysis revealed resistance genetic contexts and indicators of gene dissemination.
title Comparative analysis of planktonic and sessile microbiomes and associated resistomes in a freshwater ecosystem impacted by municipal wastewater treatment plant discharge.
topic Microbiota
Wastewater
Biofilms
Plankton
Fresh Water
Rivers
Ecosystem
Waste Disposal, Fluid
Water Microbiology
Bacteria
Water Pollutants, Chemical
url https://pubmed.ncbi.nlm.nih.gov/40682875/