| Title | The environmental contribution to the dissemination of carbapenem and (fluoro)quinolone resistance genes by discharged and reused wastewater effluents: The role of cellular and extracellular DNA |
|---|---|
| ID_Doc | 15582 |
| Authors | Oliveira, M; Nunes, M; Crespo, MTB; Silva, AF |
| Title | The environmental contribution to the dissemination of carbapenem and (fluoro)quinolone resistance genes by discharged and reused wastewater effluents: The role of cellular and extracellular DNA |
| Year | 2020 |
| Published | |
| Abstract | Wastewater treatment plants (WWTPs) are major reservoirs and sources for the dissemination of antibiotic resistance into the environment. In this study, the population dynamics of two full-scale WWTPs was characterized along different sampling points, including the reused effluents, in both cellular and extracellular DNA samples. The analysis was performed by high throughput sequencing targeting the 16S rRNA V4 gene region and by three in-house TaqMan multiplex qPCR assays that detect and quantify the most clinically relevant and globally distributed carbapenem (bla) and (fluoro)quinolone (qnr) resistance genes. The obtained results identify the biological treatment as the crucial step on tailoring the wastewater bacterial community, which is thereafter maintained in both discharged and reused effluents. The influent bacterial community does not alter the WWTP core community, although it clearly contributes for the introduction and spread of antibiotic resistance to the in-house bacteria. The presence of high concentrations of bla and qnr genes was not only detected in the wastewater influents and discharged effluents, but also in the reused effluents, which therefore represent another gateway for antibiotic resistant bacteria and genes into the environment and directly to the human populations. Moreover, and together with the study of the cellular DNA, it was described for the first time the role of the extracellular DNA in the dissemination of carbapenem and (fluoro)quinolone resistance, as well as the impact of the wastewater treatment process on this DNA fraction. Altogether, the results prove that the current wastewater treatments are inefficient in the removal of antibiotic resistant bacteria and genes and reinforce that targeted treatments must be developed and implemented at full-scale in the WWTPs for wastewater reuse to become a safe and sustainable practice, able to be implemented in areas such as agricultural irrigation. (C) 2020 Elsevier Ltd. All rights reserved. |
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