AI Article Synopsis
- The study explored the behavior of antibiotic resistance genes (ARGs) in wastewater treatment plants (WWTPs) and found significant variation in ARG responses, as they may either decrease or increase depending on the specific plant.
- Researchers used metagenomic sequencing on samples from 12 international WWTPs, identifying 1079 different ARGs, with overall decreases in ARG abundance observed at most sites, except for one where 40% of ARGs increased.
- The findings suggest that while WWTPs generally reduce antibiotic resistance loads, the increase in mobile genetic elements during treatment does not necessarily correlate with more transmissible ARGs, indicating a need for better wastewater surveillance strategies.
Article Abstract
It has been debated whether wastewater treatment plants (WWTPs) primarily act to attenuate or amplify antibiotic resistance genes (ARGs). However, ARGs are highly diverse with respect to their resistance mechanisms, mobilities, and taxonomic hosts and therefore their behavior in WWTPs should not be expected to be universally conserved. We applied metagenomic sequencing to wastewater influent and effluent samples from 12 international WWTPs to classify the behavior of specific ARGs entering and exiting WWTPs. In total, 1079 different ARGs originating from a variety of bacteria were detected. This included ARGs that could be mapped to assembled scaffolds corresponding to nine human pathogens. While the relative abundance (per 16S rRNA gene) of ARGs decreased during treatment at 11 of the 12 WWTPs sampled and absolute abundance (per mL) decreased at all 12 WWTPs, increases in relative abundance were observed for 40% of the ARGs detected at the 12th WWTP. Also, the relative abundance of mobile genetic elements (MGE) increased during treatment, but the fraction of ARGs known to be transmissible between species decreased, thus demonstrating that increased MGE prevalence may not be generally indicative of an increase in ARGs. A distinct conserved resistome was documented in both influent and effluent across samples, suggesting that well-functioning WWTPs generally attenuate influent antibiotic resistance loads. This work helps inform strategies for wastewater surveillance of antibiotic resistance, highlighting the utility of tracking ARGs as indicators of treatment performance and relative risk reduction.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11411718 | PMC |
| http://dx.doi.org/10.1021/acs.est.4c03726 | DOI Listing |
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