Microbiological Safety of Drinking Water

Szewzyk, Ulrich; Szewzyk, Regine; Manz, Werner; Schleifer, Karl‐Heinz

doi:10.1146/annurev.micro.54.1.81

Cited by 474 publications

(348 citation statements)

References 198 publications

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“…Further, such methano-and methylotrophic primary production may generate organic carbon that supports growth of the observed heterotrophs in this oligotrophic ecosystem. Several core populations were classified to genera that were reported as facultative methylotrophs and also related to pathogenic species (i.e., Acinetobacter spp., Methylobacterium spp., Mycobacterium avium and Pseudomonas aeruginosa) (Szewzyk et al, 2000); thus, groundwatersourced drinking water systems with dissolved methane may expose to risks associated with certain methane-or methanol-utilizing opportunistic pathogens. Among the heterotrophic bacteria potentially supported by the aforementioned primary production, we identified diverse, abundant and prevalent OTUs classified to the family Comamonadaceae (Figures 4a and c).…”

Section: Discussionmentioning

confidence: 99%

“…Bacteria in this family are known as strictly aerobic, able to form biofilms and often observed in oligotrophic environments (Glaeser and Kampfer, 2014). They have long been observed in the chlorinated water environment (Szewzyk et al, 2000;Koskinen et al, 2000;Vaz-Moreira et al, 2011). Six OTUs were classified to the family Comamonadaceae (Figure 4a, red symbols), a diverse family that has been observed in many aquatic environments.…”

Section: Core Community Compositionmentioning

confidence: 99%

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Core-satellite populations and seasonality of water meter biofilms in a metropolitan drinking water distribution system

et al. 2015

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Drinking water distribution systems (DWDSs) harbor the microorganisms in biofilms and suspended communities, yet the diversity and spatiotemporal distribution have been studied mainly in the suspended communities. This study examined the diversity of biofilms in an urban DWDS, its relationship with suspended communities and its dynamics. The studied DWDS in Urbana, Illinois received conventionally treated and disinfected water sourced from the groundwater. Over a 2-year span, biomass were sampled from household water meters (n = 213) and tap water (n = 20) to represent biofilm and suspended communities, respectively. A positive correlation between operational taxonomic unit (OTU) abundance and occupancy was observed. Examined under a 'core-satellite' model, the biofilm community comprised 31 core populations that encompassed 76.7% of total 16 S rRNA gene pyrosequences. The biofilm communities shared with the suspended community highly abundant and prevalent OTUs, which related to methano-/methylotrophs (i.e., Methylophilaceae and Methylococcaceae) and aerobic heterotrophs (Sphingomonadaceae and Comamonadaceae), yet differed by specific core populations and lower diversity and evenness. Multivariate tests indicated seasonality as the main contributor to community structure variation. This pattern was resilient to annual change and correlated to the cyclic fluctuations of core populations. The findings of a distinctive biofilm community assemblage and methano-/methyltrophic primary production provide critical insights for developing more targeted water quality monitoring programs and treatment strategies for groundwater-sourced drinking water systems.

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Section: Discussionmentioning

confidence: 99%

Section: Core Community Compositionmentioning

confidence: 99%

Core-satellite populations and seasonality of water meter biofilms in a metropolitan drinking water distribution system

et al. 2015

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“…The reasons for the enrichment of mycobacteria are not clear. Mycobacteria readily form biofilms and, because of their generally waxy quality, may be particularly resistant to shear forces generated in shower operation (28)(29)(30)(31)(32)(33)(34)(35)(36). Furthermore, many species of biofilm-forming mycobacteria are chlorineresistant, and thus potentially can be enriched by chlorine disinfection protocols used by many municipalities (28,29,34,37,38).…”

Section: Discussionmentioning

confidence: 99%

Opportunistic pathogens enriched in showerhead biofilms

Feazel

Baumgartner²,

Peterson³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

481

364

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The environments we humans encounter daily are sources of exposure to diverse microbial communities, some of potential concern to human health. In this study, we used culture-independent technology to investigate the microbial composition of biofilms inside showerheads as ecological assemblages in the human indoor environment. Showers are an important interface for human interaction with microbes through inhalation of aerosols, and showerhead waters have been implicated in disease. Although opportunistic pathogens commonly are cultured from shower facilities, there is little knowledge of either their prevalence or the nature of other microorganisms that may be delivered during shower usage. To determine the composition of showerhead biofilms and waters, we analyzed rRNA gene sequences from 45 showerhead sites around the United States. We find that variable and complex, but specific, microbial assemblages occur inside showerheads. Particularly striking was the finding that sequences representative of non-tuberculous mycobacteria (NTM) and other opportunistic human pathogens are enriched to high levels in many showerhead biofilms, >100-fold above background water contents. We conclude that showerheads may present a significant potential exposure to aerosolized microbes, including documented opportunistic pathogens. The health risk associated with showerhead microbiota needs investigation in persons with compromised immune or pulmonary systems.bioaerosols ͉ Mycobacterium avium complex ͉ Non-tuberculous mycobacteria ͉ public health ͉ rRNA metagenomics

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“…bacteriophages to simulate viruses, and microspheres to simulate bacteria and protozoans (e.g. Auckenthaler et al 2002;Craun et al 2002;DeBorde et al 1998;Edberg et al 1997;Flanigan and Rodgers 2003;Flynn 2003;Golas et al 2002;Herwaldt et al 1992;Lillis and Bissonnette 2001;Lisle and Rose 1995;Mahler et al 2000;Nasser et al 1993;Rossi et al 1998;Schaffter and Parriaux 2002;Szewzyk et al 2000).…”

Section: Introductionmentioning

confidence: 99%

Review: Microbial biocenoses in pristine aquifers and an assessment of investigative methods

2006

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The current knowledge of microbial biocenoses (communities) in pristine aquifers is presented in a review, which also discusses their relevance for questions of groundwater protection. Aquifers are heterogeneous on all scales and structured in a variety of habitats. The void spaces in many aquifers are small. The biocenoses are thus predominantly composed of microorganisms and, often, microinvertebrates. Larger voids and macroorganisms occur in karst cavities. Due to the absence of light, the biocenoses depend on chemical energy resources, which are, however, scarce in non-contaminated groundwater. The microorganisms thus show small cell sizes, low population densities and reduced activity; they developed specific strategies to survive oligotrophic conditions. The review also discusses the impact of contamination on the biocenoses, and the potential use of the biocenoses or specific organisms as indicators for groundwater quality, and the limits of this approach. Bacteria are either planktonic or attached to aquifer material, which requires both fluid and solid phase sampling. Most groundwater bacteria are viable but non-culturable. Consequently, cultivation techniques give an incomplete picture of the biocenoses, while methods from molecular microbiology provide genetic fingerprints of the entire community. Different analytical methods are available to count microorganisms, identify species, characterise microbial diversity, and measure activity.Résumé Cette revue expose l'état actuel des connaissances concernant les biocénoses microbiennes présentes dans les aquifères oligotrophes. L'impact d'une contamination sur les biocénoses est discuté, ainsi que le potentiel que Les bactéries sont planctoniques ou attachées aux matériaux de l'aquifère, ce qui demande unéchantillonnagè a la fois de l'eau et du substrat. De nombreuses méthodes sont aujourd'hui disponibles pour le comptage, l'identification et la caractérisation de la diversité, ainsi que la mesure des activités des organismes des aquifères. Comme la grande majorité des bactéries est viable mais non cultivable, les techniques de cultures actuelles ne donnent qu'une image incomplète des communautés, alors que les méthodes moléculaires développées récemment offrent la possibilité d'obtenir un profil de la communauté plus complet.Resumen Se presentauna reseña crítica del conocimiento actual de biocenosis microbiana (comunidades) en acuíferos prístinos la cual también discute su relevancia en términos de protección de aguas subterráneas. Los acuíferos son heterogéneos en todas las escalas y estructurados en una variedad de habitats. Los espacios vacíos en muchos acuíferos son pequeños. La biocenosis está por lo tanto compuesta predominantemente por microorganismos y, frecuentemente, microinvertebrados. Espacios más grandes y macroorganismos ocurren en cavidades kársticas. Debido a la ausencia de luz la biocenosis depende de recursos energéticos químicos los cuales, sin embargo, son escasos en agua subterránea no contaminada. Los microorganismos muestran...

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Microbiological Safety of Drinking Water

Cited by 474 publications

References 198 publications

Core-satellite populations and seasonality of water meter biofilms in a metropolitan drinking water distribution system

Core-satellite populations and seasonality of water meter biofilms in a metropolitan drinking water distribution system

Opportunistic pathogens enriched in showerhead biofilms

Review: Microbial biocenoses in pristine aquifers and an assessment of investigative methods

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