2022
DOI: 10.3390/microorganisms10020270
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Novel Methanobacterium Strain Induces Severe Corrosion by Retrieving Electrons from Fe0 under a Freshwater Environment

Abstract: Methanogens capable of accepting electrons from Fe0 cause severe corrosion in anoxic conditions. In previous studies, all iron-corrosive methanogenic isolates were obtained from marine environments. However, the presence of methanogens with corrosion ability using Fe0 as an electron donor and their contribution to corrosion in freshwater systems is unknown. Therefore, to understand the role of methanogens in corrosion under anoxic conditions in a freshwater environment, we investigated the corrosion activities… Show more

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Cited by 15 publications
(5 citation statements)
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“…However, the application of such microbial competitors to prevent microbe-induced corrosion has some drawbacks. Some methanogenic Archaea, for example, are among biocontrol agents with the capacity to induce corrosion, besides their capacity to compete with other corrosion-causing microbes (Hirano et al 2020(Hirano et al , 2022.…”
Section: Resultsmentioning
confidence: 99%
“…However, the application of such microbial competitors to prevent microbe-induced corrosion has some drawbacks. Some methanogenic Archaea, for example, are among biocontrol agents with the capacity to induce corrosion, besides their capacity to compete with other corrosion-causing microbes (Hirano et al 2020(Hirano et al , 2022.…”
Section: Resultsmentioning
confidence: 99%
“…It has been noted that production of sulfide by microbial communities in the terrestrial deep subsurface may be occurring even in the absence of geochemical evidence (Bell et al 2020), highlighting the importance of microbial characterisation of these systems. Methanogens could also be problematic in that they can colonize the surfaces of steel containers and use the iron as the electron donor for methane production (Dinh et al, 2004; Mori et al, 2010; Hirano et al, 2022). Both sulfate reduction and methane production can be coupled to hydrogen metabolism, for which there are abundant genes.…”
Section: Discussionmentioning
confidence: 99%
“…SRB are widely distributed in marine sediments and in rust layers on metal surfaces [ 3 ] and are the most influential and dominant corrosion-accelerating agents driving metal microbial corrosion (MIC) in marine environments [ 4 ]. The hydrogen sulfide and sulfide produced during the growth of SRB directly promote metal corrosion [ 5 ]. SRB also have high hydrogenase activity, thereby producing hydrogen via formate fermentation, and they have substantial potential in the field of energy generation [ 6 ].…”
Section: Introductionmentioning
confidence: 99%