Microbial composition of a hydropower cooling water system reveals thermophilic bacteria with a possible role in primary biofilm formation

Microfouling, ie biofilm formation on surfaces, can have an economic impact and requires costly maintenance in water-powered energy generation systems. In this study, the microbiota of a cooling system (filter and heat exchanger) in the Irapé hydroelectric power plant in Brazil was examined. The goa...

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Hauptverfasser:	De Paula Reis, Mariana, Rayan Silva De Paula, Reis, André Luiz Martins, Souza, Clara Carvalho E, De Oliveira Júnior, Renato Brito, Ferreira, Jacqueline Alves, Mota, Helen Regina, De Carvalho, Marcela David, Jorge, Erika Cristina, Antônio Valadão Cardoso, Nascimento, Andréa Maria Amaral
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creator	De Paula Reis, Mariana Rayan Silva De Paula Reis, André Luiz Martins Souza, Clara Carvalho E De Oliveira Júnior, Renato Brito Ferreira, Jacqueline Alves Mota, Helen Regina De Carvalho, Marcela David Jorge, Erika Cristina Antônio Valadão Cardoso Nascimento, Andréa Maria Amaral
description	Microfouling, ie biofilm formation on surfaces, can have an economic impact and requires costly maintenance in water-powered energy generation systems. In this study, the microbiota of a cooling system (filter and heat exchanger) in the Irapé hydroelectric power plant in Brazil was examined. The goal was to identify bacteria that could be targeted to more efficiently reduce biofilm formation. Two sampling campaigns were made corresponding to two well-defined seasons of the Brazilian Cerrado biome: the dry (campaign 1) and the wet (campaign 2). Microfouling communities varied considerably over time in samples obtained at different times after the last clearance of the heat exchanger. The thermophilic bacteria Meiothermus, Thermomonas and Symbiobacterium were exclusive and abundant in the microfouling of the heat exchanger in campaign 2, while methanotrophs and iron-reducing bacteria were abundant only in filter sediments. These findings could help to guide strategies for ecofriendly measures to reduce biofilm fouling in hydroelectric power plants, minimizing environmental and economic losses.
doi_str_mv	10.6084/m9.figshare.14236570
format	Dataset
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identifier	DOI: 10.6084/m9.figshare.14236570
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subjects	Astronomical and Space Sciences not elsewhere classified Biological Sciences not elsewhere classified Ecology Environmental Sciences not elsewhere classified FOS: Biological sciences FOS: Earth and related environmental sciences FOS: Health sciences FOS: Physical sciences Infectious Diseases Microbiology Space Science
title	Microbial composition of a hydropower cooling water system reveals thermophilic bacteria with a possible role in primary biofilm formation
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