A Keystone Methylobacterium Strain in Biofilm Formation in Drinking Water

Tsagkari, E.; Keating, Ciara; Couto, Jillian M.; Sloan, William T.

doi:10.3390/w9100778

Cited by 13 publications

(11 citation statements)

References 79 publications

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“…This supports previous observations from UK DWDS, where a core bacterial community in biofilms was observed independently of the characteristics of the incoming water or localised conditions between sites (Douterelo et al, 2017(Douterelo et al, , 2018(Douterelo et al, , 2020. Similar observations were proposed by other researchers from different countries like Germany, USA Portugal or China studying mixed species biofilms (Henne et al, 2012;Kelly et al, 2014;Ling et al, 2016;Rickard et al, 2004;Simões et al, 2007Simões et al, , 2008Tsagkari et al, 2017). In these studies, bacteria belonging to genera like Acinetobacter, Burkholderia, Methylobacterium, Mycobacterium, Pseudomonas, Sphingomonas and Staphylococcus played an important role in the formation of biofilms and aggregates.…”

Section: Microbiological Characteristics Of the Water Samples Containing Materials Removed From Distribution Systemsupporting

confidence: 91%

The microbial ecology of a Mediterranean chlorinated drinking water distribution systems in the city of Valencia (Spain)

Olmo

Husband

Briones³

et al. 2021

Science of The Total Environment

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Section: Microbiological Characteristics Of the Water Samples Containing Materials Removed From Distribution Systemsupporting

confidence: 91%

The microbial ecology of a Mediterranean chlorinated drinking water distribution systems in the city of Valencia (Spain)

Olmo

Husband

Briones³

et al. 2021

Science of The Total Environment

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“…It can be suggested that these microorganisms form a core community and play a key role in biofilm formation, as proposed by other researchers studying mixed-species biofilms [72][73][74][75][76][77] . In these studies, bacteria belonging to the genera Acinetobacter, Burkholderia, Methylobacterium, Mycobacterium, Sphingomonas and Staphylococcus played an important role in the formation of biofilms an aggregates [78][79][80][81] .…”

Section: Discussionmentioning

confidence: 99%

Influence of phosphate dosing on biofilms development on lead in chlorinated drinking water bioreactors

Olmo

Arslan

Jensen

et al. 2020

npj Biofilms Microbiomes

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Phosphate dosing is used by water utilities to prevent plumbosolvency in water supply networks. However, there is a lack of knowledge regarding biofilm formation on lead and plastic materials when phosphate concentrations are modified in drinking water systems. In this study, biofilms were grown over lead coupons and PVC tubes in bioreactors supplied with local drinking water treated to provide different phosphate doses (below 1, 1 and 2 mg/L) over a period of 28 days. A range of commercial iron pellets (GEH104 and WARP) were tested aiming to maintain phosphate levels below the average 1 mg/L found in drinking water. Changes in biofilm community structure in response to three different phosphate treatments were characterised by Illumina sequencing of the 16S rRNA gene for bacteria and the ITS2 gene for fungi. Scanning electron microscopy was used to visualise physical differences in biofilm development in two types of materials, lead and PVC. The experimental results from the kinetics of phosphate absorption showed that the GEH104 pellets were the best option to, in the long term, reduce phosphate levels while preventing undesirable turbidity increases in drinking water. Phosphate-enrichment promoted a reduction of bacterial diversity but increased that of fungi in biofilms. Overall, higher phosphate levels selected for microorganisms with enhanced capabilities related to phosphorus metabolism and heavy metal resistance. This research brings new insights regarding the influence of different phosphate concentrations on mixed-species biofilms formation and drinking water quality, which are relevant to inform best management practices in drinking water treatment.

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“…The Methylobacterium strain DSM 18358 (DSMZ: Deutsche Sammlung von Mikroorganismen und Zellkulturen, Leibniz-Institute, Braunschweig, Germany) was chosen for experimental analysis in this study. The strain was cultured as described in an earlier study [49]. Two sets of experiments were conducted.…”

Section: Methodsmentioning

confidence: 99%

“…A number of species, such as Methylobacterium species [12], Acinetobacter calcoaceticus [4], and Mycobacterium species [12,14], have been implicated in promoting bacterial aggregation in pure or simple mixed cultures. Specifically, the Methylobacterium DSM 18358 was previously proved to be a key strain in the formation of aggregates in drinking water and, subsequently, in the formation of biofilms on available surfaces exposed to drinking water [49]. Thus, in this study the role of the motility of the Methylobacterium strain DSM 18358 in the interactions between drinking water bacteria was explored in agar plate experiments to understand if this is a significant factor for the communication between bacteria in drinking water.…”

Section: Introductionmentioning

confidence: 99%

The Role of the Motility of Methylobacterium in Bacterial Interactions in Drinking Water

Tsagkari

Sloan

2018

Water

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Bacterial motility is one important factor that affects biofilm formation. In drinking water there are key bacteria in aggregation, whose biology acts to enhance the formation of biofilms. However, it is unclear whether the motility of these key bacteria is an important factor for the interactions between bacteria in drinking water, and, subsequently, in the formation of aggregates, which are precursors to biofilms. Thus, the role of the motility of one of these key bacteria, the Methylobacterium strain DSM 18358, was investigated in the interactions between bacteria in drinking water. The motility of pure Methylobacterium colonies was initially explored; if it was affected by the viscosity of substrate, the temperature, the available energy and the type of substrate. Furthermore, the role of Methylobacterium in the interactions between mixed drinking water bacteria was investigated under the mostly favourable conditions for the motility of Methylobacterium identified before. Overall, the motility of Methylobacterium was found to play a key role in the communication and interactions between bacteria in drinking water. Understanding the role of the motility of key bacteria in drinking water might be useful for the water industry as a potential tool to control the formation of biofilms in drinking water pipes.

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A Keystone Methylobacterium Strain in Biofilm Formation in Drinking Water

Cited by 13 publications

References 79 publications

The microbial ecology of a Mediterranean chlorinated drinking water distribution systems in the city of Valencia (Spain)

The microbial ecology of a Mediterranean chlorinated drinking water distribution systems in the city of Valencia (Spain)

Influence of phosphate dosing on biofilms development on lead in chlorinated drinking water bioreactors

The Role of the Motility of Methylobacterium in Bacterial Interactions in Drinking Water

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