Journal ArticleDOI
Interrelations between sulfate-reducing and methane-producing bacteria in bottom deposits of a fresh-water lake. II. Inhibition experiments.
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Results indicate that acetate is the main precursor of methanogenesis in mud, which indicates that lactate isThe main source of energy for sulfate reduction in mud.Abstract:
A possible substrate interrelationship between methane-producing and sulfate-reducing bacteria has been studied in bottom deposits of Lake Vechten. Inhibition of methanogenesis in mud samples by chlorine-containing analogues of methane resulted in accumulation of acetate. Fluoroacetate reduced the concentration of methane by about 75%. With carbon tetrachloride, accumulation of hydrogen gas was observed. These results indicate that acetate is the main precursor of methanogenesis in mud. After addition of β-fluorolactate, lactate accumulated and H2S was no longer produced, which indicates that lactate is the main source of energy for sulfate reduction in mud. At the same time the concentration of methane increased possibly due to the lower concentration of H2S, which has a toxic effect on methanogenesis. Experiments with intact mud cores provide evidence that the described phenomena occur also in situ.read more
Citations
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Journal ArticleDOI
Methane consumption in cariaco trench waters and sediments
TL;DR: In this article, the water column and the sediments of the Cariaco Trench were measured and the results showed that CH4 is non-conservative in both environments, and the concentrations of CH4 were found to be non-consistency.
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
The biology of methanogenic bacteria.
TL;DR: This article corrects the article on p. 517 in vol.
Book ChapterDOI
Use of “Specific” Inhibitors in Biogeochemistry and Microbial Ecology
TL;DR: The term “specific inhibitor” has been applied to these types of compounds when they are used to probe the functions of mixed populations of microorganisms, providing powerful experimental tools for investigating the activity and function of certain types of micro organisms in natural samples.
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.
References
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Book ChapterDOI
Microbial Formation of Methane
TL;DR: This chapter discusses the microbial formation of methane, a unique biological event, which is confined to a small group of bacteria, and the biochemistry of methane formation.
Journal ArticleDOI
Kinetics of Acetate Metabolism during Sludge Digestion
Paul H. Smith,Robert A. Mah +1 more
TL;DR: The turnover rate of the extracellular pool was rapid, and it was concluded that most of the acetic acid must be metabolized to methane by a specialized microflora not involved in the formation of acetic Acid.
Journal ArticleDOI
Interrelations between sulfate-reducing and methane-producing bacteria in bottom deposits of a fresh-water lake. I. Field observations
TL;DR: Observations on the seasonal periodicity in bottom deposits of Lake Vechten indicated an ecological relationship between sulfate-reducing and methane-producing bacteria and the different localities of the two bacterial groups may be due to sensitivity of methane producers to hydrogen sulphide.
Journal ArticleDOI
Inhibition of Rumen Methanogenesis by Methane Analogues
TL;DR: The accumulation of hydrogen at these low concentrations indicates a selective inhibition of methanogenesis, Presumably, these inhibitors affect one or more of the reactions by which methane is formed from hydrogen and carbon dioxide.
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Effect of sulfate on carbon and electron flow during microbial methanogenesis in freshwater sediments.
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