Origin and preservation of bacteriohopanepolyol signatures in Sphagnum peat from Bissendorfer Moor (Germany)
Origin and preservation of bacteriohopanepolyol signatures in Sphagnum peat from Bissendorfer Moor (Germany)
Distributions of bacteriohopanepolyols (BHPs) in a peat core from the Bissendorfer Moor (Germany) were investigated in order to test the utility of BHPs as indicators of microbial processes in peats. Between 13 and 22 BHPs in each sample (23 structures in total) were identified, with total concentration ranging from 160–2800μg/gTOC. We have tentatively ascribed sources of most BHPs at the site via comparison of known BHP source organisms with recent microbiological studies of the peat microbiome. Members of the Alpha-, Beta- and Gammaproteobacteria and specifically the genera Burkholderia, Bradyrhizobium and Rhodoblastus, as well as other phyla including the cyanobacteria, Acidobacteria and Acetobacteria are among the most likely sources. Additionally, BHP signatures which could be assigned directly to methane oxidising bacteria (35-aminobacteriohopanepentol and 35-aminobacteriohopanetetrol) were present only at very low level, supporting previous studies which have shown that the majority of precursor organisms biosynthesising hopanoids in peat environments are heterotrophs. The surface layers also contained a highly unusual signature comprising high concentrations of unsaturated compounds, including unsaturated bacteriohopanetetrol pseudopentose, which has only been reported in Gloeocapsa cyanobacteria. This genus is known to occur in symbiotic association with host Sphagnum species and has the ability to fix atmospheric N2, which is a well known trait among members of the peat microbiome and among hopanoid producing microorganisms. The apparent capacity for hopanoids to protect organisms from external stresses such as low pH is therefore likely to be a significant factor accounting for the high BHP contributions from heterotrophs, methanotrophs and phototrophic organisms in Sphagnum peats.
Sphagnum Peat Hopanoids Heterotrophs Methanotrophs Nitrogen fixation
95-110
Talbot, Helen M.
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McClymont, Erin L.
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Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Evershed, Richard P.
c1676aab-9eda-41f4-a47c-ea9c718531a7
Pancost, Richard D.
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July 2016
Talbot, Helen M.
e7f45e78-d968-49c9-a64e-04ba2b4d3cd4
McClymont, Erin L.
9caac44d-1f22-40a2-b1e0-b13704d067bc
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Evershed, Richard P.
c1676aab-9eda-41f4-a47c-ea9c718531a7
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Talbot, Helen M., McClymont, Erin L., Inglis, Gordon N., Evershed, Richard P. and Pancost, Richard D.
(2016)
Origin and preservation of bacteriohopanepolyol signatures in Sphagnum peat from Bissendorfer Moor (Germany).
Organic Geochemistry, 97, .
(doi:10.1016/j.orggeochem.2016.04.011).
Abstract
Distributions of bacteriohopanepolyols (BHPs) in a peat core from the Bissendorfer Moor (Germany) were investigated in order to test the utility of BHPs as indicators of microbial processes in peats. Between 13 and 22 BHPs in each sample (23 structures in total) were identified, with total concentration ranging from 160–2800μg/gTOC. We have tentatively ascribed sources of most BHPs at the site via comparison of known BHP source organisms with recent microbiological studies of the peat microbiome. Members of the Alpha-, Beta- and Gammaproteobacteria and specifically the genera Burkholderia, Bradyrhizobium and Rhodoblastus, as well as other phyla including the cyanobacteria, Acidobacteria and Acetobacteria are among the most likely sources. Additionally, BHP signatures which could be assigned directly to methane oxidising bacteria (35-aminobacteriohopanepentol and 35-aminobacteriohopanetetrol) were present only at very low level, supporting previous studies which have shown that the majority of precursor organisms biosynthesising hopanoids in peat environments are heterotrophs. The surface layers also contained a highly unusual signature comprising high concentrations of unsaturated compounds, including unsaturated bacteriohopanetetrol pseudopentose, which has only been reported in Gloeocapsa cyanobacteria. This genus is known to occur in symbiotic association with host Sphagnum species and has the ability to fix atmospheric N2, which is a well known trait among members of the peat microbiome and among hopanoid producing microorganisms. The apparent capacity for hopanoids to protect organisms from external stresses such as low pH is therefore likely to be a significant factor accounting for the high BHP contributions from heterotrophs, methanotrophs and phototrophic organisms in Sphagnum peats.
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Accepted/In Press date: 22 April 2016
e-pub ahead of print date: 29 April 2016
Published date: July 2016
Keywords:
Sphagnum Peat Hopanoids Heterotrophs Methanotrophs Nitrogen fixation
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Local EPrints ID: 437535
URI: http://eprints.soton.ac.uk/id/eprint/437535
ISSN: 0146-6380
PURE UUID: fd0348a2-595c-474b-b2b2-4fc078f0f223
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Date deposited: 04 Feb 2020 17:30
Last modified: 17 Mar 2024 04:00
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Author:
Helen M. Talbot
Author:
Erin L. McClymont
Author:
Richard P. Evershed
Author:
Richard D. Pancost
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