Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs

Jeanette Eva Lylloff; Maria Hummelshøj Mogensen; Michele A. Burford; Louise Schlüter; Niels O. G. Jørgensen

doi:10.2166/aqua.2012.006

Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs

Jeanette Eva Lylloff, Maria Hummelshøj Mogensen, Michele A. Burford, Louise Schlüter, Niels O. G. Jørgensen

10 Citationer (Scopus)

Abstract

Bacteria belonging to the Streptomyces genus are known to produce several taste-and-odour compounds (TOCs), but knowledge on the abundance of streptomycetes in drinking water reservoirs and other aquatic environments is scarce. In this study, quantitative real-time polymerase chain reaction (qPCR) was applied, for the first time, to determine densities of streptomycetes in a river, at a weir and in two reservoirs in subtropical Australia. The PCR approach was optimized with respect to (a) collection of streptomycetes in water, (b) extraction of DNA, and (c) a procedure to correct for inhibition of PCR amplification by natural substances in the water. Mean densities of Streptomyces cells at the study sites varied from 225 to 45,650 cells L ^-1. The highest density occurred in bottom water (8.5 m deep) of one of the reservoirs, while densities in the Brisbane River varied between 260 and 7,950 cells L^-1. At the weir site, seasonal variation in abundance in winter and spring in surface water (mean densities of 430-13,550 cells L ^-1) did not correlate with total bacterial abundance (0.9- 3.5 × 109 cells L^-1). The qPCR approach shows that quantitation of streptomycetes in fresh water can be successfully achieved and may prove valuable in predicting TOC episodes in aquatic systems used for drinking water supplies.

Originalsprog	Engelsk
Tidsskrift	Journal of Water Supply: Research and Technology. AQUA
Vol/bind	61
Udgave nummer	5
Sider (fra-til)	272-282
Antal sider	11
ISSN	1606-9935
DOI	https://doi.org/10.2166/aqua.2012.006
Status	Udgivet - 2012

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10.2166/aqua.2012.006

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Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs. / Lylloff, Jeanette Eva; Mogensen, Maria Hummelshøj; Burford, Michele A. et al.

I: Journal of Water Supply: Research and Technology. AQUA, Bind 61, Nr. 5, 2012, s. 272-282.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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title = "Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs",

abstract = "Bacteria belonging to the Streptomyces genus are known to produce several taste-and-odour compounds (TOCs), but knowledge on the abundance of streptomycetes in drinking water reservoirs and other aquatic environments is scarce. In this study, quantitative real-time polymerase chain reaction (qPCR) was applied, for the first time, to determine densities of streptomycetes in a river, at a weir and in two reservoirs in subtropical Australia. The PCR approach was optimized with respect to (a) collection of streptomycetes in water, (b) extraction of DNA, and (c) a procedure to correct for inhibition of PCR amplification by natural substances in the water. Mean densities of Streptomyces cells at the study sites varied from 225 to 45,650 cells L -1. The highest density occurred in bottom water (8.5 m deep) of one of the reservoirs, while densities in the Brisbane River varied between 260 and 7,950 cells L-1. At the weir site, seasonal variation in abundance in winter and spring in surface water (mean densities of 430-13,550 cells L -1) did not correlate with total bacterial abundance (0.9- 3.5 × 109 cells L-1). The qPCR approach shows that quantitation of streptomycetes in fresh water can be successfully achieved and may prove valuable in predicting TOC episodes in aquatic systems used for drinking water supplies.",

author = "Lylloff, {Jeanette Eva} and Mogensen, {Maria Hummelsh{\o}j} and Burford, {Michele A.} and Louise Schl{\"u}ter and J{\o}rgensen, {Niels O. G.}",

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T1 - Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs

AU - Lylloff, Jeanette Eva

AU - Mogensen, Maria Hummelshøj

AU - Burford, Michele A.

AU - Schlüter, Louise

AU - Jørgensen, Niels O. G.

PY - 2012

Y1 - 2012

N2 - Bacteria belonging to the Streptomyces genus are known to produce several taste-and-odour compounds (TOCs), but knowledge on the abundance of streptomycetes in drinking water reservoirs and other aquatic environments is scarce. In this study, quantitative real-time polymerase chain reaction (qPCR) was applied, for the first time, to determine densities of streptomycetes in a river, at a weir and in two reservoirs in subtropical Australia. The PCR approach was optimized with respect to (a) collection of streptomycetes in water, (b) extraction of DNA, and (c) a procedure to correct for inhibition of PCR amplification by natural substances in the water. Mean densities of Streptomyces cells at the study sites varied from 225 to 45,650 cells L -1. The highest density occurred in bottom water (8.5 m deep) of one of the reservoirs, while densities in the Brisbane River varied between 260 and 7,950 cells L-1. At the weir site, seasonal variation in abundance in winter and spring in surface water (mean densities of 430-13,550 cells L -1) did not correlate with total bacterial abundance (0.9- 3.5 × 109 cells L-1). The qPCR approach shows that quantitation of streptomycetes in fresh water can be successfully achieved and may prove valuable in predicting TOC episodes in aquatic systems used for drinking water supplies.

AB - Bacteria belonging to the Streptomyces genus are known to produce several taste-and-odour compounds (TOCs), but knowledge on the abundance of streptomycetes in drinking water reservoirs and other aquatic environments is scarce. In this study, quantitative real-time polymerase chain reaction (qPCR) was applied, for the first time, to determine densities of streptomycetes in a river, at a weir and in two reservoirs in subtropical Australia. The PCR approach was optimized with respect to (a) collection of streptomycetes in water, (b) extraction of DNA, and (c) a procedure to correct for inhibition of PCR amplification by natural substances in the water. Mean densities of Streptomyces cells at the study sites varied from 225 to 45,650 cells L -1. The highest density occurred in bottom water (8.5 m deep) of one of the reservoirs, while densities in the Brisbane River varied between 260 and 7,950 cells L-1. At the weir site, seasonal variation in abundance in winter and spring in surface water (mean densities of 430-13,550 cells L -1) did not correlate with total bacterial abundance (0.9- 3.5 × 109 cells L-1). The qPCR approach shows that quantitation of streptomycetes in fresh water can be successfully achieved and may prove valuable in predicting TOC episodes in aquatic systems used for drinking water supplies.

U2 - 10.2166/aqua.2012.006

DO - 10.2166/aqua.2012.006

M3 - Journal article

SN - 1606-9935

VL - 61

SP - 272

EP - 282

JO - Aqua

JF - Aqua

IS - 5

ER -

Detection of aquatic streptomycetes by quantitative PCR for prediction of taste-and-odour episodes in water reservoirs

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