污染
水消毒
人类健康
持久性(不连续性)
水生环境
微生物学
生物
环境科学
环境工程
环境卫生
医学
生态学
岩土工程
工程类
作者
Chengsong Ye,Chenlan Chen,Mingbao Feng,Ranwen Ou,Xin Yu
标识
DOI:10.1016/j.jhazmat.2023.132666
摘要
Disinfection is essential for the control of waterborne pathogens (WPs), especially during the COVID-19 pandemic. WP can enter the viable but non-culturable (VBNC) state to evade disinfection, seriously threatening water safety. VBNC WPs should be considered as an emerging contaminant to ensure a higher level of safety of the water environment. Here, this study systematically reviewed the water disinfection methods that could induce WPs into the VBNC state, and clarified the risks of different species of VBNC WPs in the relevant water environment. The physicochemical and physiological properties of VBNC cells (e.g., morphology, physiology, and resuscitation potential) were then evaluated to better understand their potential health risks. In addition, the dominant detection methods of VBNC WPs were discussed, and real-time and label-free technologies were recommended for the study of VBNC WPs in the aquatic environment. The possible mechanisms of formation and persistence at the genetic level were highlighted. It concluded that the VBNC state has a deeper level of dormancy than the persistent state, which is associated with the general stress response and stringent response systems, and its persistence is also associated with the active efflux of harmful substances. Finally, the current shortcomings and research perspectives of VBNC bacteria were summarized. This review provides new insights into the characteristics, detection methods, persistence mechanisms, and potential health risks of VBNC WPs induced by water disinfection processes, and also serves as a basis for microbial risk control in the aquatic environment. Environmental Implication Water disinfection-induced bacteria were able to enter the VBNC state and could become culturable and remain pathogenic again. The VBNC pathogens (WPs), which can’t be detected by existing standards, could be resuscitated and cause outbreaks of waterborne diseases. The VBNC WPs, as emerging contaminants in the water environment, pose a great challenge to the optimization of water treatment processes and the innovation of the detection methods, as well as the definition of dead cells in the future. It is necessary to review these emerging microbial contaminants to promote the development of disinfection technology and the optimization of disinfection efficiency.
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