氯
生物膜
自来水
流动条件
污染
剪切(地质)
环境化学
流量(数学)
化学
环境工程
环境科学
材料科学
化学工程
细菌
复合材料
地质学
生物
冶金
生态学
机械
古生物学
物理
工程类
作者
E. Tsagkari,William Sloan
出处
期刊:Microorganisms
[MDPI AG]
日期:2023-10-31
卷期号:11 (11): 2680-2680
被引量:1
标识
DOI:10.3390/microorganisms11112680
摘要
Water companies make efforts to reduce the risk of microbial contamination in drinking water. A widely used strategy is to introduce chlorine into the drinking water distribution system (DWDS). A subtle potential risk is that non-lethal chlorine residuals may select for chlorine resistant species in the biofilms that reside in DWDS. Here, we quantify the thickness, density, and coverage of naturally occurring multi-species biofilms grown on slides in tap water with and without chlorine, using fluorescence microscopy. We then place the slides in an annular rotating reactor and expose them to fluid-wall shears, which are redolent of those on pipe walls in DWDS. We found that biofilms in chlorine experiment were thicker, denser and with higher coverage than in non-chlorine conditions under all flow regimes and during incubation. This suggests that the formation and development of biofilms was promoted by chlorine. Surprisingly, for both chlorinated and non-chlorinated conditions, biofilm thickness, density and coverage were all positively correlated with shear stress. More differences were detected in biofilms under the different flow regimes in non-chlorine than in chlorine experiments. This suggests a more robust biofilm under chlorine conditions. While this might imply less mobilization of biofilms in high shear events in pipe networks, it might also provide refuge from chlorine residuals for pathogens.
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