TY - JOUR
T1 - Benthic cyanobacteria
T2 - A utility-centred field study
AU - Gaget, Virginie
AU - Almuhtaram, Husein
AU - Kibuye, Faith
AU - Hobson, Peter
AU - Zamyadi, Arash
AU - Wert, Eric
AU - Brookes, Justin D.
N1 - Funding Information:
We wish to thank Water Research Australia (WaterRA) and the Water Research Foundation (WRF) for funding this work (WaterRA project # 1110–17, WRF project #4912). This paper is dedicated to the memory of Dr. Djanette Khiari (Project Manager with WRF), who provided thoughtful comments, expertise, and encouragement throughout the project. We would also like to thank all participating water utilities for their financial contribution via the WaterRA and WRF projects and for their help in the sampling campaign. We would like to acknowledge Drs Eric Wert, Ron Hofmann and Christine Owen for their contribution as principal investigators in project WRF #4912. We are thankful to Qong Huang, from the Australian Water Quality Centre for her expertise and her help in the screen of toxin in isolates. The research team would also like to thank the team at the Raleigh US EPA, for helping us with the coordination of the North American sampling campaign. AW.
Funding Information:
We wish to thank Water Research Australia (WaterRA) and the Water Research Foundation (WRF) for funding this work (WaterRA project # 1110?17, WRF project #4912). This paper is dedicated to the memory of Dr. Djanette Khiari (Project Manager with WRF), who provided thoughtful comments, expertise, and encouragement throughout the project. We would also like to thank all participating water utilities for their financial contribution via the WaterRA and WRF projects and for their help in the sampling campaign. We would like to acknowledge Drs Eric Wert, Ron Hofmann and Christine Owen for their contribution as principal investigators in project WRF #4912. We are thankful to Qong Huang, from the Australian Water Quality Centre for her expertise and her help in the screen of toxin in isolates. The research team would also like to thank the team at the Raleigh US EPA, for helping us with the coordination of the North American sampling campaign. AW.
Publisher Copyright:
© 2022
PY - 2022/3
Y1 - 2022/3
N2 - Although there is growing evidence that benthic cyanobacteria represent a significant source of toxins and taste and odour (T&O) compounds in water bodies globally, water utilities rarely monitor for them. Benthic cyanobacteria grow in an array of matrices such as sediments, biofilms, and floating mats, and they can detach and colonize treatment plants. The occurrence of compounds produced by benthic species across matrix and climate types has not been systematically investigated. Consequently, there is a lack of guidance available to utilities to monitor for and mitigate the risk associated with benthic cyanobacteria. To assess toxin and T&O risk across climatic zones and provide guidance to water utilities for the monitoring of benthic mats, two field surveys were conducted across three continents. The surveys examined the occurrence of six secondary metabolites and associated genes, namely, geosmin, 2-methylisoborneol (MIB), anatoxin-a, saxitoxin, microcystin, and cylindrospermopsin, in benthic environmental samples collected across three climates (i.e., temperate, sub-tropical, and tropical) and a range of matrix types. Existing enzyme-linked immunosorbent assays (ELISAs) and qPCR assays and were used to measure compound concentrations and their associated genes in samples. A novel qPCR assay was designed to differentiate the production of MIB by actinobacteria from that of cyanobacteria. MIB occurrence was higher in warmer climates than temperate climates. Cyanobacteria in benthic mats were the major producers of taste and odour compounds. Floating mats contained significantly higher concentrations of geosmin and saxitoxins compared to other matrix types. Samples collected in warmer areas contained significantly more saxitoxin and cylindrospermopsin than samples collected in temperate climates. While these trends were mainly indicative, they can be used to establish monitoring practices. These surveys demonstrate that benthic mats are significant contributors of secondary metabolites in source water and should be monitored accordingly. Benthic cyanobacteria were the sole producers of T&O in up to 17% of the collected samples compared to actinobacteria, which were sole producers in only 1% of the samples. The surveys also provided a platform of choice for the transfer of methodologies and specific knowledge to participating utilities to assist with the establishment of monitoring practices for benthic cyanobacteria and associated secondary metabolites.
AB - Although there is growing evidence that benthic cyanobacteria represent a significant source of toxins and taste and odour (T&O) compounds in water bodies globally, water utilities rarely monitor for them. Benthic cyanobacteria grow in an array of matrices such as sediments, biofilms, and floating mats, and they can detach and colonize treatment plants. The occurrence of compounds produced by benthic species across matrix and climate types has not been systematically investigated. Consequently, there is a lack of guidance available to utilities to monitor for and mitigate the risk associated with benthic cyanobacteria. To assess toxin and T&O risk across climatic zones and provide guidance to water utilities for the monitoring of benthic mats, two field surveys were conducted across three continents. The surveys examined the occurrence of six secondary metabolites and associated genes, namely, geosmin, 2-methylisoborneol (MIB), anatoxin-a, saxitoxin, microcystin, and cylindrospermopsin, in benthic environmental samples collected across three climates (i.e., temperate, sub-tropical, and tropical) and a range of matrix types. Existing enzyme-linked immunosorbent assays (ELISAs) and qPCR assays and were used to measure compound concentrations and their associated genes in samples. A novel qPCR assay was designed to differentiate the production of MIB by actinobacteria from that of cyanobacteria. MIB occurrence was higher in warmer climates than temperate climates. Cyanobacteria in benthic mats were the major producers of taste and odour compounds. Floating mats contained significantly higher concentrations of geosmin and saxitoxins compared to other matrix types. Samples collected in warmer areas contained significantly more saxitoxin and cylindrospermopsin than samples collected in temperate climates. While these trends were mainly indicative, they can be used to establish monitoring practices. These surveys demonstrate that benthic mats are significant contributors of secondary metabolites in source water and should be monitored accordingly. Benthic cyanobacteria were the sole producers of T&O in up to 17% of the collected samples compared to actinobacteria, which were sole producers in only 1% of the samples. The surveys also provided a platform of choice for the transfer of methodologies and specific knowledge to participating utilities to assist with the establishment of monitoring practices for benthic cyanobacteria and associated secondary metabolites.
KW - Actinobacteria
KW - Benthic Cyanobacteria
KW - Cyanotoxins
KW - Monitoring
KW - qPCR Assays
KW - Taste and Odour Compounds
UR - http://www.scopus.com/inward/record.url?scp=85123676307&partnerID=8YFLogxK
U2 - 10.1016/j.hal.2022.102185
DO - 10.1016/j.hal.2022.102185
M3 - Article
C2 - 35287926
AN - SCOPUS:85123676307
SN - 1568-9883
VL - 113
JO - Harmful Algae
JF - Harmful Algae
M1 - 102185
ER -