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Anaerobic consumers of monosaccharides in a moderately acidic fen

Anaerobic consumers of monosaccharides in a moderately acidic fen
Anaerobic consumers of monosaccharides in a moderately acidic fen
16S rRNA-based stable isotope probing identified active xylose- and glucose-fermenting Bacteria and active Archaea, including methanogens, in anoxic slurries of material obtained from a moderately acidic, CH4-emitting fen. Xylose and glucose were converted to fatty acids, CO2, H2, and CH4 under moderately acidic, anoxic conditions, indicating that the fen harbors moderately acid-tolerant xylose- and glucose-using fermenters, as well as moderately acid-tolerant methanogens. Organisms of the families Acidaminococcaceae, Aeromonadaceae, Clostridiaceae, Enterobacteriaceae, and Pseudomonadaceae and the order Actinomycetales, including hitherto unknown organisms, utilized xylose- or glucose-derived carbon, suggesting that highly diverse facultative aerobes and obligate anaerobes contribute to the flow of carbon in the fen under anoxic conditions. Uncultured Euryarchaeota (i.e., Methanosarcinaceae and Methanobacteriaceae) and Crenarchaeota species were identified by 16S rRNA analysis of anoxic slurries, demonstrating that the acidic fen harbors novel methanogens and Crenarchaeota organisms capable of anaerobiosis. Fermentation-derived molecules are conceived to be the primary drivers of methanogenesis when electron acceptors other than CO2 are absent, and the collective findings of this study indicate that fen soils harbor diverse, acid-tolerant, and novel xylose-utilizing as well as glucose-utilizing facultative aerobes and obligate anaerobes that form trophic links to novel moderately acid-tolerant methanogens
0099-2240
3112-3120
Hamberger, A.
bb2237ca-3133-45a6-829c-fe0e485e63fc
Horn, M.A.
31ac4052-18aa-43a8-b4c8-8fa457c60764
Dumont, Marc
afd9f08f-bdbb-4cee-b792-1a7f000ee511
Murrell, J.C.
3718673e-e60a-4c75-9346-2cd9d35d4e1e
Drake, H.L.
280df1c0-6fb1-4d68-a2b3-b7b4fb6839f9
Hamberger, A.
bb2237ca-3133-45a6-829c-fe0e485e63fc
Horn, M.A.
31ac4052-18aa-43a8-b4c8-8fa457c60764
Dumont, Marc
afd9f08f-bdbb-4cee-b792-1a7f000ee511
Murrell, J.C.
3718673e-e60a-4c75-9346-2cd9d35d4e1e
Drake, H.L.
280df1c0-6fb1-4d68-a2b3-b7b4fb6839f9

Hamberger, A., Horn, M.A., Dumont, Marc, Murrell, J.C. and Drake, H.L. (2008) Anaerobic consumers of monosaccharides in a moderately acidic fen. Applied and Environmental Microbiology, 74 (10), 3112-3120. (doi:10.1128/AEM.00193-08).

Record type: Article

Abstract

16S rRNA-based stable isotope probing identified active xylose- and glucose-fermenting Bacteria and active Archaea, including methanogens, in anoxic slurries of material obtained from a moderately acidic, CH4-emitting fen. Xylose and glucose were converted to fatty acids, CO2, H2, and CH4 under moderately acidic, anoxic conditions, indicating that the fen harbors moderately acid-tolerant xylose- and glucose-using fermenters, as well as moderately acid-tolerant methanogens. Organisms of the families Acidaminococcaceae, Aeromonadaceae, Clostridiaceae, Enterobacteriaceae, and Pseudomonadaceae and the order Actinomycetales, including hitherto unknown organisms, utilized xylose- or glucose-derived carbon, suggesting that highly diverse facultative aerobes and obligate anaerobes contribute to the flow of carbon in the fen under anoxic conditions. Uncultured Euryarchaeota (i.e., Methanosarcinaceae and Methanobacteriaceae) and Crenarchaeota species were identified by 16S rRNA analysis of anoxic slurries, demonstrating that the acidic fen harbors novel methanogens and Crenarchaeota organisms capable of anaerobiosis. Fermentation-derived molecules are conceived to be the primary drivers of methanogenesis when electron acceptors other than CO2 are absent, and the collective findings of this study indicate that fen soils harbor diverse, acid-tolerant, and novel xylose-utilizing as well as glucose-utilizing facultative aerobes and obligate anaerobes that form trophic links to novel moderately acid-tolerant methanogens

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Published date: May 2008
Organisations: Centre for Biological Sciences, Environmental
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Identifiers

Local EPrints ID: 387944
URI: http://eprints.soton.ac.uk/id/eprint/387944
DOI: doi:10.1128/AEM.00193-08
ISSN: 0099-2240
PURE UUID: c7519821-7168-495c-abc4-8b7599e186e4
ORCID for Marc Dumont: ORCID iD orcid.org/0000-0002-7347-8668

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Date deposited: 13 Jun 2016 11:14
Last modified: 15 Mar 2024 03:53

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Contributors

Author: A. Hamberger
Author: M.A. Horn
Author: Marc Dumont ORCID iD
Author: J.C. Murrell
Author: H.L. Drake

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