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Shotgun metagenomics assessment of the resistome, mobilome, pathogen dynamics and their ecological control modes in full-scale urban wastewater treatment plants

dc.creatorKaraolia P., Vasileiadis S., G. Michael S., G. Karpouzas D., Fatta-Kassinos D.en
dc.date.accessioned2023-01-31T08:31:23Z
dc.date.available2023-01-31T08:31:23Z
dc.date.issued2021
dc.identifier10.1016/j.jhazmat.2021.126387
dc.identifier.issn03043894
dc.identifier.urihttp://hdl.handle.net/11615/74419
dc.description.abstractThe conventional activated sludge (CAS) process has limited capacity to remove pathogenic microorganisms and antibiotic resistance genes (ARGs), compared to membrane bioreactors (MBRs). However, the full extent of pathogenic microbial fraction, resistome (antibiotic and biocide resistance genes, ARGs and BRGs) and mobilome (mobile genetic elements, MGE) of urban wastewater treatment plant (UWTP) influents and effluents remains unknown. Thus, the fate of putative pathogenic bacteria, ARGs and potential co-occurrence patterns with BRGs, MGEs and bacterial-predatory microorganisms was determined in two full-scale UWTPs, a MBR and a CAS system, using shotgun metagenomics. Both UWTPs significantly reduced the BOD5 (99.4–99.9%), COD (97.6–99.4%) and TSS (98.9–99.9%). MBR was more effective in reducing the abundance and diversity of pathogen-containing taxa, with 4 and 30 taxa enriched in MBR and CAS effluents, respectively. MBR treatment favored resistance genes associated with triclosan, whereas CAS effluents contained ARGs associated with antibiotics of clinical importance. Correlations between putative pathogenic bacteria, ARG/BRGs/MGEs and bacterial-predatory microorganisms suggested that: (i) opportunistic pathogens (Clostridia, Nocardia) may acquire ARGs against first-line treatments and (ii) bacteriophages may act as a biogenic mechanism of pathogen removal. These findings reinforce the MBR capacity to retain pathogenic components, hence reducing potential health risks associated with treated wastewater reuse. © 2021 Elsevier B.V.en
dc.language.isoenen
dc.sourceJournal of Hazardous Materialsen
dc.source.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85108100428&doi=10.1016%2fj.jhazmat.2021.126387&partnerID=40&md5=7bf6c50499057a1cf1c4d01b5b053e02
dc.subjectActivated sludge processen
dc.subjectBacteriaen
dc.subjectBacteriophagesen
dc.subjectBiocidesen
dc.subjectBioreactorsen
dc.subjectEffluentsen
dc.subjectGenesen
dc.subjectHealth risksen
dc.subjectPathogensen
dc.subjectSewage pumping plantsen
dc.subjectWastewater reclamationen
dc.subjectWastewater treatmenten
dc.subjectWater treatment plantsen
dc.subjectAntibiotic resistance geneen
dc.subjectAntibiotic resistance genesen
dc.subjectBiocide resistanceen
dc.subjectBiocide resistance geneen
dc.subjectConventional activated sludgeen
dc.subjectConventional activated sludgesen
dc.subjectMembrane bioreactoren
dc.subjectMetagenomicsen
dc.subjectResistance genesen
dc.subjectShotgun metagenomicen
dc.subjectAntibioticsen
dc.subjectaminoglycosideen
dc.subjectammoniaen
dc.subjectantibiotic agenten
dc.subjectbacitracinen
dc.subjectbacterial DNAen
dc.subjectbeta lactamen
dc.subjectbicozamycinen
dc.subjectfosmidomycinen
dc.subjectglycopeptideen
dc.subjectnitrogenen
dc.subjectnucleosideen
dc.subjectoxazolidinone derivativeen
dc.subjectpleuromutilinen
dc.subjectpolymyxinen
dc.subjectpseudomonic aciden
dc.subjectquinoline derived antiinfective agenten
dc.subjectrifamycinen
dc.subjectRNA 16Sen
dc.subjectsulfonamideen
dc.subjecttetracenomycin Cen
dc.subjecttetracyclineen
dc.subjecttriclosanen
dc.subjectantiinfective agenten
dc.subjectantibiotic resistanceen
dc.subjectbacteriumen
dc.subjecteffluenten
dc.subjectgene expressionen
dc.subjectgenomicsen
dc.subjectmicroorganismen
dc.subjectpathogenen
dc.subjectpesticideen
dc.subjecturban areaen
dc.subjectwastewater treatment planten
dc.subjectAcinetobacteren
dc.subjectAeromonasen
dc.subjectantibiotic resistanceen
dc.subjectantibiotic resistomeen
dc.subjectArcobacteren
dc.subjectArticleen
dc.subjectbacteriophageen
dc.subjectBdellovibrioen
dc.subjectbiochemical oxygen demanden
dc.subjectBurkholderiaen
dc.subjectCampylobacteren
dc.subjectchoanoflagellateen
dc.subjectCitrobacteren
dc.subjectClostridiumen
dc.subjectDNA sequencingen
dc.subjectecologyen
dc.subjecteffluenten
dc.subjectEnterobacteren
dc.subjectEnterococcusen
dc.subjectEubacteriumen
dc.subjectHaemophilusen
dc.subjecthorizontal gene transferen
dc.subjectinfectious agenten
dc.subjectLegionellaen
dc.subjectListeriaen
dc.subjectmetagenomicsen
dc.subjectmicrobial diversityen
dc.subjectmycobacteriophageen
dc.subjectMycobacteriumen
dc.subjectNeisseriaen
dc.subjectnonhumanen
dc.subjectOomycetesen
dc.subjectphysical chemistryen
dc.subjectPseudomonasen
dc.subjectShigellaen
dc.subjectStaphylococcusen
dc.subjectStreptococcusen
dc.subjectVibrioen
dc.subjectwaste water treatment planten
dc.subjectYersiniaen
dc.subjectbacterial geneen
dc.subjectgeneticsen
dc.subjectwastewateren
dc.subjectwater managementen
dc.subjectBacteria (microorganisms)en
dc.subjectClostridiaen
dc.subjectNocardiaen
dc.subjectAnti-Bacterial Agentsen
dc.subjectDrug Resistance, Microbialen
dc.subjectGenes, Bacterialen
dc.subjectMetagenomicsen
dc.subjectWaste Wateren
dc.subjectWater Purificationen
dc.subjectElsevier B.V.en
dc.titleShotgun metagenomics assessment of the resistome, mobilome, pathogen dynamics and their ecological control modes in full-scale urban wastewater treatment plantsen
dc.typejournalArticleen


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