Armstrong Andrew M, Sobsey Mark D, Casanova Lisa M
Department of Environmental Sciences and Engineering, Gillings School of Global Public Health CB7431, University of North Carolina Chapel Hill, Chapel Hill, NC, 27599, USA.
Water Mission, 1150 Kinzer Street, Building 1605, North Charleston, SC, 29405-1484, USA.
Appl Microbiol Biotechnol. 2017 Sep;101(18):6891-6897. doi: 10.1007/s00253-017-8419-x. Epub 2017 Jul 30.
Households that lack piped water supply are often forced to meet water needs by storing in the home, leaving water vulnerable to contamination by viruses. Storage in copper containers can potentially prevent this type of contamination, but the inactivation kinetics of viruses by copper need to be described to make appropriate storage recommendations. This work characterized inactivation kinetics of bacteriophage MS2 as a surrogate for enteric viruses by dissolved ionic copper in water. Reduction of MS2 increased with increasing doses of copper. At 0.3 mg/L, there was a 1.8-log reduction of MS2 within 6 h. At 1 and 3 mg/L, 2-2.5 log inactivation could be achieved between 6 and 24 h. Parameters for the Chick-Watson, Hom, and One Hit-Two Population models of inactivation were calculated and evaluated, all of which demonstrated strong goodness-of-fit and predictability at various contact times. Copper inactivates MS2 under controlled conditions at doses between 0.3 and 3 mg/L. Although requiring longer contact times than conventional disinfectants, it is a candidate for improving the safety of stored drinking water.
缺乏管道供水的家庭往往被迫在家中储存水来满足用水需求,这使得水容易受到病毒污染。储存在铜容器中可能会防止此类污染,但需要描述铜对病毒的灭活动力学,以便给出合适的储存建议。这项研究通过水中溶解的离子铜对作为肠道病毒替代物的噬菌体MS2的灭活动力学进行了表征。随着铜剂量的增加,MS2的减少量也增加。在0.3毫克/升时,6小时内MS2减少了1.8个对数级。在1毫克/升和3毫克/升时,6至24小时内可实现2至2.5个对数级的灭活。计算并评估了Chick-Watson、Hom和One Hit-Two Population灭活模型的参数,所有这些模型在不同接触时间都显示出很强的拟合优度和可预测性。在受控条件下,0.3至3毫克/升剂量的铜可使MS2失活。尽管所需的接触时间比传统消毒剂长,但它是提高储存饮用水安全性的一个候选方法。
