Abstract
BackgroundExcesses of antibiotic resistance genes (ARGs), which are regarded as emerging environmental pollutants, have been observed in various environments. The incidence of ARGs in drinking water causes potential risks to human health and receives more attention from the public. However, ARGs harbored in drinking water remain largely unexplored. In this study, we aimed at establishing an antibiotic resistome catalogue in drinking water samples from a wide range of regions and to explore the potential hosts of ARGs.ResultsA catalogue of antibiotic resistome in drinking water was established, and the host-tracking of ARGs was conducted through a large-scale survey using metagenomic approach. The drinking water samples were collected at the point of use in 25 cities in mainland China, Hong Kong, Macau, Taiwan, South Africa, Singapore and the USA. In total, 181 ARG subtypes belonging to 16 ARG types were detected with an abundance range of 2.8 × 10−2 to 4.2 × 10−1 copies of ARG per cell. The highest abundance was found in northern China (Henan Province). Bacitracin, multidrug, aminoglycoside, sulfonamide, and beta-lactam resistance genes were dominant in drinking water. Of the drinking water samples tested, 84% had a higher ARG abundance than typical environmental ecosystems of sediment and soil. Metagenomic assembly-based host-tracking analysis identified Acidovorax, Acinetobacter, Aeromonas, Methylobacterium, Methyloversatilis, Mycobacterium, Polaromonas, and Pseudomonas as the hosts of ARGs. Moreover, potential horizontal transfer of ARGs in drinking water systems was proposed by network and Procrustes analyses.ConclusionsThe antibiotic resistome catalogue compiled using a large-scale survey provides a useful reference for future studies on the global surveillance and risk management of ARGs in drinking water.Graphical abstract.
Highlights
Excesses of antibiotic resistance genes (ARGs), which are regarded as emerging environmental pollutants, have been observed in various environments
Forsberg et al found that soil bacteria structures resistomes across habitats, indicating the horizontal gene transfer (HGT) of ARGs between soil bacteria was in low frequency, in contrast to human pathogens [12]
The in-depth investigation of ARGs and bacterial community profiles in large-scale drinking water samples is central to understanding the overall picture, which is essential for decision-making about water management to control antibiotic resistance in drinking water systems
Summary
Excesses of antibiotic resistance genes (ARGs), which are regarded as emerging environmental pollutants, have been observed in various environments. The incidence of ARGs in drinking water causes potential risks to human health and receives more attention from the public. Disinfection resistant microorganisms may carry more ARGs after drinking water treatment, causing potential risks and deserving more public attention. The molecular study of the microbial community and ARGs in drinking water at the user end has been mainly restricted by the following difficulties: (1) low biomass concentration for DNA extraction, (2) sample collection logistics, and (3) sampling standardization. Because of these difficulties, few studies have been conducted regarding the spatial variations of ARGs and microbial communities in drinking water at the point of use. The in-depth investigation of ARGs and bacterial community profiles in large-scale drinking water samples is central to understanding the overall picture, which is essential for decision-making about water management to control antibiotic resistance in drinking water systems
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