Enterobacteria in anaerobic digestion of dairy cattle wastewater: Assessing virulence and resistance for one health security

Enterobacteria in anaerobic digestion of dairy cattle wastewater: Assessing virulence and resistance for one health security

•Physicochemical analysis revealed stable anaerobic digestion in varying seasons.•Total bacteria and coliform counts decreased significantly during anaerobic digestion.•Biofilm-forming capacity was observed in a majority of isolated strains.•Seasonal variations affected antimicrobial resistance in i...

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Veröffentlicht in:Water research (Oxford) 2024-03, Vol.252, p.121192-121192, Article 121192
Hauptverfasser: Menezes, Kássia Vidal, Duarte, Carlos Eduardo de Souza, Moreira, Myleny Goularte, Moreno, Talita de Jesus Cattem, Pereira, Vitor José da Silva, Ucella-Filho, João Gilberto Meza, Otenio, Marcelo Henrique, Ignacchiti, Mariana Drummond Costa, Resende, Juliana Alves
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Biocides
Biodigestion
Biofilm
E. coli
Multidrug-resistant phenotypes
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container_title Water research (Oxford)
container_volume 252
creator Menezes, Kássia Vidal
Duarte, Carlos Eduardo de Souza
Moreira, Myleny Goularte
Moreno, Talita de Jesus Cattem
Pereira, Vitor José da Silva
Ucella-Filho, João Gilberto Meza
Otenio, Marcelo Henrique
Ignacchiti, Mariana Drummond Costa
Resende, Juliana Alves
description •Physicochemical analysis revealed stable anaerobic digestion in varying seasons.•Total bacteria and coliform counts decreased significantly during anaerobic digestion.•Biofilm-forming capacity was observed in a majority of isolated strains.•Seasonal variations affected antimicrobial resistance in isolated strains.•Biofertilizers harbored multidrug-resistant strains, posing potential risks to public health. Samples from a dairy cattle waste-fed anaerobic digester were collected across seasons to assess sanitary safety for biofertilizer use. Isolated enterobacteria (suggestive of Escherichia coli) were tested for susceptibility to biocides, antimicrobials, and biofilm-forming capability. Results revealed a decrease in total bacteria, coliforms, and enterobacteria in biofertilizer compared to the effluent. Among 488 isolates, 98.12 % exhibited high biofilm formation. Biofertilizer isolates exhibited a similar biofilm formation capability as effluent isolates in summer, but greater propensity in winter. Resistance to biocides and antimicrobials varied, with tetracycline resistance reaching 19 %. Of the isolates, 25 were multidrug-resistant (MDR), with 64 % resistant to three drugs. Positive correlations were observed between MDR and increased biofilm formation capacity in both samples, while there was negative correlation between MDR and increased biocide resistance. A higher number of MDR bacteria were found in biofertilizer compared to the effluent, revealing the persistence of E. coli resistance, posing challenges to food safety and public health. [Display omitted]
doi_str_mv 10.1016/j.watres.2024.121192
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Samples from a dairy cattle waste-fed anaerobic digester were collected across seasons to assess sanitary safety for biofertilizer use. Isolated enterobacteria (suggestive of Escherichia coli) were tested for susceptibility to biocides, antimicrobials, and biofilm-forming capability. Results revealed a decrease in total bacteria, coliforms, and enterobacteria in biofertilizer compared to the effluent. Among 488 isolates, 98.12 % exhibited high biofilm formation. Biofertilizer isolates exhibited a similar biofilm formation capability as effluent isolates in summer, but greater propensity in winter. Resistance to biocides and antimicrobials varied, with tetracycline resistance reaching 19 %. Of the isolates, 25 were multidrug-resistant (MDR), with 64 % resistant to three drugs. Positive correlations were observed between MDR and increased biofilm formation capacity in both samples, while there was negative correlation between MDR and increased biocide resistance. 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Samples from a dairy cattle waste-fed anaerobic digester were collected across seasons to assess sanitary safety for biofertilizer use. Isolated enterobacteria (suggestive of Escherichia coli) were tested for susceptibility to biocides, antimicrobials, and biofilm-forming capability. Results revealed a decrease in total bacteria, coliforms, and enterobacteria in biofertilizer compared to the effluent. Among 488 isolates, 98.12 % exhibited high biofilm formation. Biofertilizer isolates exhibited a similar biofilm formation capability as effluent isolates in summer, but greater propensity in winter. Resistance to biocides and antimicrobials varied, with tetracycline resistance reaching 19 %. Of the isolates, 25 were multidrug-resistant (MDR), with 64 % resistant to three drugs. Positive correlations were observed between MDR and increased biofilm formation capacity in both samples, while there was negative correlation between MDR and increased biocide resistance. A higher number of MDR bacteria were found in biofertilizer compared to the effluent, revealing the persistence of E. coli resistance, posing challenges to food safety and public health. 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subjects Biocides
Biodigestion
Biofilm
E. coli
Multidrug-resistant phenotypes
title Enterobacteria in anaerobic digestion of dairy cattle wastewater: Assessing virulence and resistance for one health security
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