Bacterial biodiversity in deep-sea sediments from two regions of contrasting surface water productivity near the Crozet Islands, Southern Ocean
Bacterial biodiversity in deep-sea sediments from two regions of contrasting surface water productivity near the Crozet Islands, Southern Ocean
The relationship between surface-derived particulate organic matter (POM) and deep-sea sediment bacterial abundance, community structure and composition was investigated in two different sediment layers from two zones of contrasting surface water productivity in the southern Indian Ocean. Bacterial sediment communities from high chlorophyll (HC) and low chlorophyll (LC) sites were characterized and compared using direct counts, clone library construction, denaturing gradient gel electrophoresis (DGGE) and fluorescence in situ hybridization (FISH). Of the 1566 bacterial clones generated from the sediment communities, 1010 matched published 16 S rDNA sequences at ?97% identity. A comparison of surface sediment clone libraries showed that at least one third of all identified operational taxonomic units (OTUs) were common to both HC and LC sites. DGGE community profiles were consistent (82% similar) and evenness of the major phylogenetic groups was 96% similar between surface sediment communities, where gamma- and alpha-Proteobacteria were dominant. Sediment communities shared similarly high biodiversity, while species richness was marginally higher at the LC site. Intra-site shifts in bacterial abundance and composition were observed with increasing sediment depth. Despite the differences in organic matter input between sites, the consistency observed between HC and LC sediment communities pointed to 1) the extent of remineralisation by mega and meio-fauna was a factor affecting the quantity and quality of POM available to sediment bacteria, 2) sampling during the early ‘nutrient assimilation phase’ of the bacterial response to freshly deposited POM or 3) the action of bacteria in the water column could affect the quantity and quality of POM available to sediment bacteria. Although factors other than these may explain the observed similarities, this first comparison of deep-sea sediment communities in relation to surface-derived productivity may be useful in further elucidating the role of sediment bacteria in carbon remineralisation in the deep-sea environment.
Bacteria, Deep Sea, Sediment, Crozet, Carbon sequestration, Antarctic, Diversity
67-77
Jamieson, R.E.
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Heywood, J.L.
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Rogers, A.D.
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Billett, D.S.M.
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Pearce, D.A.
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May 2013
Jamieson, R.E.
57240f9c-170e-42b1-b6c1-eccf3d1ece41
Heywood, J.L.
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Rogers, A.D.
906fd860-72c9-4e72-ba43-36e78a1f4037
Billett, D.S.M.
aab439e2-c839-4cd2-815c-3d401e0468db
Pearce, D.A.
6bad8987-cb60-4dad-a510-77098a5b445b
Jamieson, R.E., Heywood, J.L., Rogers, A.D., Billett, D.S.M. and Pearce, D.A.
(2013)
Bacterial biodiversity in deep-sea sediments from two regions of contrasting surface water productivity near the Crozet Islands, Southern Ocean.
Deep Sea Research Part I: Oceanographic Research Papers, 75, .
(doi:10.1016/j.dsr.2012.12.012).
Abstract
The relationship between surface-derived particulate organic matter (POM) and deep-sea sediment bacterial abundance, community structure and composition was investigated in two different sediment layers from two zones of contrasting surface water productivity in the southern Indian Ocean. Bacterial sediment communities from high chlorophyll (HC) and low chlorophyll (LC) sites were characterized and compared using direct counts, clone library construction, denaturing gradient gel electrophoresis (DGGE) and fluorescence in situ hybridization (FISH). Of the 1566 bacterial clones generated from the sediment communities, 1010 matched published 16 S rDNA sequences at ?97% identity. A comparison of surface sediment clone libraries showed that at least one third of all identified operational taxonomic units (OTUs) were common to both HC and LC sites. DGGE community profiles were consistent (82% similar) and evenness of the major phylogenetic groups was 96% similar between surface sediment communities, where gamma- and alpha-Proteobacteria were dominant. Sediment communities shared similarly high biodiversity, while species richness was marginally higher at the LC site. Intra-site shifts in bacterial abundance and composition were observed with increasing sediment depth. Despite the differences in organic matter input between sites, the consistency observed between HC and LC sediment communities pointed to 1) the extent of remineralisation by mega and meio-fauna was a factor affecting the quantity and quality of POM available to sediment bacteria, 2) sampling during the early ‘nutrient assimilation phase’ of the bacterial response to freshly deposited POM or 3) the action of bacteria in the water column could affect the quantity and quality of POM available to sediment bacteria. Although factors other than these may explain the observed similarities, this first comparison of deep-sea sediment communities in relation to surface-derived productivity may be useful in further elucidating the role of sediment bacteria in carbon remineralisation in the deep-sea environment.
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Published date: May 2013
Keywords:
Bacteria, Deep Sea, Sediment, Crozet, Carbon sequestration, Antarctic, Diversity
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 347425
URI: http://eprints.soton.ac.uk/id/eprint/347425
ISSN: 0967-0637
PURE UUID: 26ca7c67-95a5-414b-ac80-75c630a9dab9
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Date deposited: 22 Jan 2013 09:51
Last modified: 14 Mar 2024 12:48
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Author:
R.E. Jamieson
Author:
J.L. Heywood
Author:
A.D. Rogers
Author:
D.S.M. Billett
Author:
D.A. Pearce
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