Methanogenesis from methanol and methylamines and acetogenesis from hydrogen and carbon dioxide in the sediments of a eutrophic lake.
Derek R. Lovley,Michael J. Klug +1 more
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TLDR
It is emphasized that acetate and hydrogen are the major methane precursors and that methanogens are the predominant hydrogen consumers in the sediments of this eutrophic lake.Abstract:
14C-tracer techniques were used to examine the metabolism of methanol and methylamines and acetogenesis from hydrogen and carbon dioxide in sediments from the profundal and littoral zones of eutrophic Wintergreen Lake, Michigan. Methanogens were primarily responsible for the metabolism of methanol, monomethylamine, and trimethylamine and maintained the pool size of these substrates below 10 μM in both sediment types. Methanol and methylamines were the precursors for less than 5 and 1%, respectively, of the total methane produced. Methanol and methylamines continued to be metabolized to methane when the sulfate concentration in the sediment was increased to 20 mM. Less than 2% of the total acetate production was derived from carbon dioxide reduction. Hydrogen consumption by hydrogen-oxidizing acetogens was 5% or less of the total hydrogen uptake by acetogens and methanogens. These results, in conjunction with previous studies, emphasize that acetate and hydrogen are the major methane precursors and that methanogens are the predominant hydrogen consumers in the sediments of this eutrophic lake.read more
Citations
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Anaerobic Metabolism: Linkages to Trace Gases and Aerobic Processes
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References
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Journal ArticleDOI
Energy conservation in chemotrophic anaerobic bacteria.
TL;DR: This article corrects the article on p. 100 in vol.
Journal ArticleDOI
Sulfate Reducers Can Outcompete Methanogens at Freshwater Sulfate Concentrations
Derek R. Lovley,Michael J. Klug +1 more
TL;DR: The demonstration that sulfate reducers can successfully compete with methanogens for hydrogen and acetate in sediments at in situ sulfate concentrations of 60 to 105 muM extends the known range of sediment habitats in which sulfate reduction can be a dominant terminal process.
Journal ArticleDOI
Effect of sulfate on carbon and electron flow during microbial methanogenesis in freshwater sediments.
M R Winfrey,J G Zeikus +1 more
TL;DR: Results indicate that carbon and electron flow are altered when sulfate is added to sediments, and sulfate-reducing organisms appear to assume the role of methanogenic bacteria in sulfate-containing sediments by utilizing meethanogenic precursors.
Journal ArticleDOI
Kinetic analysis of competition between sulfate reducers and methanogens for hydrogen in sediments.
TL;DR: The outcome of competition at any time was a function of the rate of hydrogen production, the relative population sizes, and sulfate availability, and the lower half-saturation constant of sulfate reducers enabled them to inhibit methane production by lowering the hydrogen partial pressure below levels that methanogens could effectively utilize.
Journal ArticleDOI
Acetobacterium, a New Genus of Hydrogen-Oxidizing, Carbon Dioxide-Reducing, Anaerobic Bacteria
TL;DR: A new genus of fastidiously anaerobic bacteria which produce a homoacetic fermentation is described, which is tentatively placed in the family Propionibacteriaceae.
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