Stable-isotope probing and metagenomics reveal predation by protozoa drives e. coli removal in slow sand filters

Haig, Sarah-Jane; Schirmer, Melanie; D'Amore, Rosalinda; Gibbs, Joseph; Davies, Robert L; Collins, Gavin; Quince, Christopher

Publication

Stable-isotope probing and metagenomics reveal predation by protozoa drives e. coli removal in slow sand filters

Haig, Sarah-Jane
;
Schirmer, Melanie
;
D'Amore, Rosalinda
;
Gibbs, Joseph
;
Davies, Robert L
;
Collins, Gavin
;
Quince, Christopher

Identifiers

http://hdl.handle.net/10379/11791
https://doi.org/10.13025/26740

Repository DOI

10.1038/ismej.2014.175

Publication Date

2014-10-03

Keywords

stabilization pond water, top-down, gene-transfer, food-web, bacterial, sunlight, scale, bacteriophages, performance, mechanisms

Type

Article

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Citation

Haig, Sarah-Jane; Schirmer, Melanie; D'Amore, Rosalinda; Gibbs, Joseph; Davies, Robert L; Collins, Gavin; Quince, Christopher (2014). Stable-isotope probing and metagenomics reveal predation by protozoa drives e. coli removal in slow sand filters. The ISME Journal 9 (4), 797-808

Abstract

Stable-isotope probing and metagenomics were applied to study samples taken from laboratory-scale slow sand filters 0.5, 1, 2, 3 and 4 h after challenging with C-13-labelled Escherichia coli to determine the mechanisms and organisms responsible for coliform removal. Before spiking, the filters had been continuously operated for 7 weeks using water from the River Kelvin, Glasgow as their influent source. Direct counts and quantitative PCR assays revealed a clear predator-prey response between protozoa and E. coli. The importance of top-down trophic-interactions was confirmed by metagenomic analysis, identifying several protozoan and viral species connected to E. coli attrition, with protozoan grazing responsible for the majority of the removal. In addition to top-down mechanisms, indirect mechanisms, such as algal reactive oxygen species-induced lysis, and mutualistic interactions between algae and fungi, were also associated with coliform removal. The findings significantly further our understanding of the processes and trophic interactions underpinning E. coli removal. This study provides an example for similar studies, and the opportunity to better understand, manage and enhance E. coli removal by allowing the creation of more complex trophic interaction models.

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Springer Nature

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Attribution-NonCommercial-NoDerivs 3.0 Ireland

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Externally hosted open access publications with University of Galway authors (2)

Stable-isotope probing and metagenomics reveal predation by protozoa drives e. coli removal in slow sand filters

Haig, Sarah-Jane
;
Schirmer, Melanie
;
D'Amore, Rosalinda
;
Gibbs, Joseph
;
Davies, Robert L
;
Collins, Gavin
;
Quince, Christopher

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Stable-isotope probing and metagenomics reveal predation by protozoa drives e. coli removal in slow sand filters

Haig, Sarah-Jane ; Schirmer, Melanie ; D'Amore, Rosalinda ; Gibbs, Joseph ; Davies, Robert L ; Collins, Gavin ; Quince, Christopher

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Publication Date

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Type

Downloads

Citation

Abstract

Funder

Publisher

Publisher DOI

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Haig, Sarah-Jane
;
Schirmer, Melanie
;
D'Amore, Rosalinda
;
Gibbs, Joseph
;
Davies, Robert L
;
Collins, Gavin
;
Quince, Christopher