Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea

Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea

The role of microorganisms in the cycling of sedimentary organic carbon is a crucial one. To better understand relationships between molecular composition of a potentially bioavailable fraction of organic matter and microbial populations, bacterial and archaeal communities were characterized using p...

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Main Authors: Oluwatobi Emmanuel Oni, Frauke eSchmidt, Tetsuro eMiyatake, Sabine eKasten, Matthias eWitt, Kai-Uwe eHinrichs, Michael W. Friedrich
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-11-01
Series:Frontiers in Microbiology
Subjects:
FT-ICR MS
Soxhlet extraction
total organic carbon
Water-extractable organic matter
Subsurface sediment
Helgoland mud area
Online Access:http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01290/full
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spelling doaj-9d07f80523da49a28e3a897507395d8f2020-11-24T22:35:42ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2015-11-01610.3389/fmicb.2015.01290163325Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North SeaOluwatobi Emmanuel Oni0Oluwatobi Emmanuel Oni1Oluwatobi Emmanuel Oni2Frauke eSchmidt3Tetsuro eMiyatake4Sabine eKasten5Matthias eWitt6Kai-Uwe eHinrichs7Michael W. Friedrich8Michael W. Friedrich9University of BremenMARUM- Center for Marine Environmental Sciences, University of BremenMax Planck Institute for Marine MicrobiologyMARUM- Center for Marine Environmental Sciences, University of BremenUniversity of BremenAlfred Wegener Insitute Helmholtz Centre for Polar and Marine ResearchBruker Daltonik GmbHMARUM- Center for Marine Environmental Sciences, University of BremenUniversity of BremenMARUM- Center for Marine Environmental Sciences, University of BremenThe role of microorganisms in the cycling of sedimentary organic carbon is a crucial one. To better understand relationships between molecular composition of a potentially bioavailable fraction of organic matter and microbial populations, bacterial and archaeal communities were characterized using pyrosequencing-based 16S rRNA gene analysis in surface (top 30 cm) and subsurface sediments (30-530 cm) of the Helgoland mud area, North Sea. Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS) was used to characterize a potentially bioavailable organic matter fraction (hot-water extractable organic matter, WE-OM). Algal polymer-associated microbial populations such as members of the Gammaproteobacteria, Bacteroidetes and Verrucomicrobia were dominant in surface sediments while members of the Chloroflexi (Dehalococcoidales and candidate order GIF9) and Miscellaneous Crenarchaeota Groups (MCG), both of which are linked to degradation of more recalcitrant, aromatic compounds and detrital proteins, were dominant in subsurface sediments. Microbial populations dominant in subsurface sediments (Chloroflexi, members of MCG, and Thermoplasmata) showed strong correlations to total organic carbon content. Changes of WE-OM with sediment depth reveal molecular transformations from oxygen-rich (high Oxygen to Carbon (O/C), low Hydrogen to Carbon (H/C) ratios) aromatic compounds and highly unsaturated compounds towards compounds with lower O/C and higher H/C ratios. The observed molecular changes were most pronounced in organic compounds containing only CHO atoms. Our data thus, highlights classes of sedimentary organic compounds that may serve as microbial energy sources in methanic marine subsurface environments.http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01290/fullFT-ICR MSSoxhlet extractiontotal organic carbonWater-extractable organic matterSubsurface sedimentHelgoland mud area
collection DOAJ
language English
format Article
sources DOAJ
author Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Frauke eSchmidt
Tetsuro eMiyatake
Sabine eKasten
Matthias eWitt
Kai-Uwe eHinrichs
Michael W. Friedrich
Michael W. Friedrich
spellingShingle Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Frauke eSchmidt
Tetsuro eMiyatake
Sabine eKasten
Matthias eWitt
Kai-Uwe eHinrichs
Michael W. Friedrich
Michael W. Friedrich
Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
Frontiers in Microbiology
FT-ICR MS
Soxhlet extraction
total organic carbon
Water-extractable organic matter
Subsurface sediment
Helgoland mud area
author_facet Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Oluwatobi Emmanuel Oni
Frauke eSchmidt
Tetsuro eMiyatake
Sabine eKasten
Matthias eWitt
Kai-Uwe eHinrichs
Michael W. Friedrich
Michael W. Friedrich
author_sort Oluwatobi Emmanuel Oni
title Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
title_short Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
title_full Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
title_fullStr Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
title_full_unstemmed Microbial communities and organic matter composition in surface and subsurface sediments of the Helgoland mud area, North Sea
title_sort microbial communities and organic matter composition in surface and subsurface sediments of the helgoland mud area, north sea
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2015-11-01
description The role of microorganisms in the cycling of sedimentary organic carbon is a crucial one. To better understand relationships between molecular composition of a potentially bioavailable fraction of organic matter and microbial populations, bacterial and archaeal communities were characterized using pyrosequencing-based 16S rRNA gene analysis in surface (top 30 cm) and subsurface sediments (30-530 cm) of the Helgoland mud area, North Sea. Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS) was used to characterize a potentially bioavailable organic matter fraction (hot-water extractable organic matter, WE-OM). Algal polymer-associated microbial populations such as members of the Gammaproteobacteria, Bacteroidetes and Verrucomicrobia were dominant in surface sediments while members of the Chloroflexi (Dehalococcoidales and candidate order GIF9) and Miscellaneous Crenarchaeota Groups (MCG), both of which are linked to degradation of more recalcitrant, aromatic compounds and detrital proteins, were dominant in subsurface sediments. Microbial populations dominant in subsurface sediments (Chloroflexi, members of MCG, and Thermoplasmata) showed strong correlations to total organic carbon content. Changes of WE-OM with sediment depth reveal molecular transformations from oxygen-rich (high Oxygen to Carbon (O/C), low Hydrogen to Carbon (H/C) ratios) aromatic compounds and highly unsaturated compounds towards compounds with lower O/C and higher H/C ratios. The observed molecular changes were most pronounced in organic compounds containing only CHO atoms. Our data thus, highlights classes of sedimentary organic compounds that may serve as microbial energy sources in methanic marine subsurface environments.
topic FT-ICR MS
Soxhlet extraction
total organic carbon
Water-extractable organic matter
Subsurface sediment
Helgoland mud area
url http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01290/full
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