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dc.contributor.authorAbberton, Cathy L.
dc.contributor.authorBereschenko, Ludmila
dc.contributor.authorvan der Wielen, Paul W. J. J.
dc.contributor.authorSmith, Cindy J.
dc.date.accessioned2018-09-20T15:58:26Z
dc.date.available2018-09-20T15:58:26Z
dc.date.issued2016-06-24
dc.identifier.citationAbberton, Cathy L. Bereschenko, Ludmila; van der Wielen, Paul W. J. J.; Smith, Cindy J. (2016). Survival, biofilm formation, and growth potential of environmental and enteric escherichia coli strains in drinking water microcosms. Applied and Environmental Microbiology 82 (17), 5320-5331
dc.identifier.issn0099-2240,1098-5336
dc.identifier.urihttp://hdl.handle.net/10379/10062
dc.description.abstractEscherichia coli is the most commonly used indicator for fecal contamination in drinking water distribution systems (WDS). The assumption is that E. coli bacteria are of enteric origin and cannot persist for long outside their host and therefore act as indicators of recent contamination events. This study investigates the fate of E. coli in drinking water, specifically addressing survival, biofilm formation under shear stress, and regrowth in a series of laboratory-controlled experiments. We show the extended persistence of three E. coli strains (two enteric isolates and one soil isolate) in sterile and nonsterile drinking water microcosms at 8 and 17 degrees C, with T-90 (time taken for a reduction in cell number of 1 log(10) unit) values ranging from 17.4 +/- 1.8 to 149 +/- 67.7 days, using standard plate counts and a series of (reverse transcription-) quantitative PCR [(RT-)Q-PCR] assays targeting 16S rRNA, tuf, uidA, and rodA genes and transcripts. Furthermore, each strain was capable of attaching to a surface and replicating to form biofilm in the presence of nutrients under a range of shear stress values (0.6, 2.0, and 4.4 dynes [dyn] cm(-2); BioFlux system; Fluxion); however, cell numbers did not increase when drinking water flowed over the biofilm (P>0.05 by t test). Finally, E. coli regrowth within drinking water microcosms containing polyethylene PE-100 pipe wall material was not observed in the biofilm or water phase using a combination of culturing and Q-PCR methods for E. coli. The results of this work highlight that when E. coli enters drinking water it has the potential to survive and attach to surfaces but that regrowth within drinking water or biofilm is unlikely. IMPORTANCE The provision of clean, safe drinking water is fundamental to society. WDS deliver water to consumers via a vast network of pipes. E. coli is used as an indicator organism for recent contamination events based on the premise that it cannot survive for long outside its host. A key public health concern therefore arises around the fate of E. coli on entering a WDS; its survival, ability to form a biofilm, and potential for regrowth. In particular, if E. coli bacteria have the ability to incorporate and regrow within the pipe wall biofilm of a WDS, they could reinoculate the water at a later stage. This study sheds light on the fate of environmental and enteric strains of E. coli in drinking water showing extended survival, the potential for biofilm formation under shear stress, and importantly, that regrowth in the presence of an indigenous microbial community is unlikely.
dc.publisherAmerican Society for Microbiology
dc.relation.ispartofApplied and Environmental Microbiology
dc.subjectpolymerase-chain-reaction
dc.subjectdistribution-system biofilms
dc.subjectribosomal-rna genes
dc.subjectlong-term survival
dc.subjectdistribution networks
dc.subjecttotal bacteria
dc.subjectpotable water
dc.subjecto157-h7
dc.subjectsamples
dc.subjectsoil
dc.titleSurvival, biofilm formation, and growth potential of environmental and enteric escherichia coli strains in drinking water microcosms
dc.typeArticle
dc.identifier.doi10.1128/aem.01569-16
dc.local.publishedsourcehttp://aem.asm.org/content/82/17/5320.full.pdf
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