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Metagenomic analysis of microbiota and antibiotic resistome in household activated carbon drinking water purifiers
Graphical abstract Display Omitted
Highlights Microbes, ARGs and MGEs were profiled in six household drinking water purifiers. AC structure affects the profiles of microbes and ARGs in drinking water purifiers. AC biofilms contribute more microbes and ARGs in filtered water than tap water. Microbes and ARGs were co-occurred in water purifiers by network analysis.
Abstract Existing drinking water treatment systems have limited ability to control emerging contaminants such as antibiotic resistance genes (ARGs). Household activated carbon water purifiers (HWPs) are convenient measures to assure drinking water quality. However, ARGs distribution in HWPs has not been reported. Here, ARGs, mobile genetic elements (MGEs) and bacteria communities were profiled in tap water (TW), filter water (FW) and activated carbon (AC) biofilm from six kinds of HWPs after 80 days operation, using metagenomics. Results showed that the bacteria community diversities in FW and AC were higher than those in TW. A total of 88, 116 and 80 ARG subtypes were detected in TW, AC and FW, respectively. The AC structure was an important factor influencing the bacterial communities and ARG profiles in FW. The network analysis revealed the co-occurrence patterns between ARGs and bacteria. SourceTracker analyses showed AC biofilms were important contributors of microbes (29–79%) and ARGs (17–53%) in FW. Moreover, MGEs e.g. pBBta01, pMKMS02 and pMFLV01 plasmids, and ISMysp3 had significant co-occurrence patterns with ARGs in the AC biofilms. This study helps to understand the actual purification effect of HWPs and provides a theoretical reference for the management and control of ARGs pollution in domestic drinking water.
Metagenomic analysis of microbiota and antibiotic resistome in household activated carbon drinking water purifiers
Graphical abstract Display Omitted
Highlights Microbes, ARGs and MGEs were profiled in six household drinking water purifiers. AC structure affects the profiles of microbes and ARGs in drinking water purifiers. AC biofilms contribute more microbes and ARGs in filtered water than tap water. Microbes and ARGs were co-occurred in water purifiers by network analysis.
Abstract Existing drinking water treatment systems have limited ability to control emerging contaminants such as antibiotic resistance genes (ARGs). Household activated carbon water purifiers (HWPs) are convenient measures to assure drinking water quality. However, ARGs distribution in HWPs has not been reported. Here, ARGs, mobile genetic elements (MGEs) and bacteria communities were profiled in tap water (TW), filter water (FW) and activated carbon (AC) biofilm from six kinds of HWPs after 80 days operation, using metagenomics. Results showed that the bacteria community diversities in FW and AC were higher than those in TW. A total of 88, 116 and 80 ARG subtypes were detected in TW, AC and FW, respectively. The AC structure was an important factor influencing the bacterial communities and ARG profiles in FW. The network analysis revealed the co-occurrence patterns between ARGs and bacteria. SourceTracker analyses showed AC biofilms were important contributors of microbes (29–79%) and ARGs (17–53%) in FW. Moreover, MGEs e.g. pBBta01, pMKMS02 and pMFLV01 plasmids, and ISMysp3 had significant co-occurrence patterns with ARGs in the AC biofilms. This study helps to understand the actual purification effect of HWPs and provides a theoretical reference for the management and control of ARGs pollution in domestic drinking water.
Metagenomic analysis of microbiota and antibiotic resistome in household activated carbon drinking water purifiers
Zhou, Zhenchao (author) / Xu, Lan (author) / Zhu, Lin (author) / Liu, Yang (author) / Shuai, Xinyi (author) / Lin, Zejun (author) / Chen, Hong (author)
2021-01-09
Article (Journal)
Electronic Resource
English
Metagenomic Insight into The Global Dissemination of The Antibiotic Resistome
| Wiley | 2023