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Biological and chemical sulfide oxidation in a Beggiatoa inhabited marine sediment

Biological and chemical sulfide oxidation in a Beggiatoa inhabited marine sediment
Biological and chemical sulfide oxidation in a Beggiatoa inhabited marine sediment
The ecological niche of nitrate-storing Beggiatoa, and their contribution to the removal of sulfide were investigated in coastal sediment. With microsensors a clear suboxic zone of 2-10 cm thick was identified, where neither oxygen nor free sulfide was detectable. In this zone most of the Beggiatoa were found, where they oxidize sulfide with internally stored nitrate. The sulfide input into the suboxic zone was dominated by an upward sulfide flux from deeper sediment, whereas the local production in the suboxic zone was much smaller. Despite their abundance, the calculated sulfide-oxidizing capacity of the Beggiatoa could account for only a small fraction of the total sulfide removal in the sediment. Consequently, most of the sulfide flux into the suboxic layer must have been removed by chemical processes, mainly by precipitation with Fe2+ and oxidation by Fe(III), which was coupled with a pH increase. The free Fe2+ diffusing upwards was oxidized by Mn(IV), resulting in a strong pH decrease. The nitrate storage capacity allows Beggiatoa to migrate randomly up and down in anoxic sediments with an accumulated gliding distance of 4 m before running out of nitrate. We propose that the steep sulfide gradient and corresponding high sulfide flux, a typical characteristic of Beggiatoa habitats, is not needed for their metabolic performance, but rather used as a chemotactic cue by the highly motile filaments to avoid getting lost at depth in the sediment. Indeed sulfide is a repellent for Beggiatoa.
1751-7362
341-353
Preisler, André
5a80a5c7-873f-4db3-b998-1415e886b3e3
de Beer, Dirk
cb8d8130-86eb-4ecb-9496-41543e1fe536
Lichtschlag, Anna
be1568d9-cc63-4f85-bd38-a93dfd7e245f
Lavik, Gaute
29014780-d97c-41c0-8b59-a230bdfcdb37
Boetius, Antje
7d9c9e50-85b5-4f14-a07c-18957419a015
Jørgensen, Bo Barker
0e5fb418-be12-4ba0-97d8-9b17b16815e3
Preisler, André
5a80a5c7-873f-4db3-b998-1415e886b3e3
de Beer, Dirk
cb8d8130-86eb-4ecb-9496-41543e1fe536
Lichtschlag, Anna
be1568d9-cc63-4f85-bd38-a93dfd7e245f
Lavik, Gaute
29014780-d97c-41c0-8b59-a230bdfcdb37
Boetius, Antje
7d9c9e50-85b5-4f14-a07c-18957419a015
Jørgensen, Bo Barker
0e5fb418-be12-4ba0-97d8-9b17b16815e3

Preisler, André, de Beer, Dirk, Lichtschlag, Anna, Lavik, Gaute, Boetius, Antje and Jørgensen, Bo Barker (2007) Biological and chemical sulfide oxidation in a Beggiatoa inhabited marine sediment. The ISME Journal, 1 (4), 341-353. (doi:10.1038/ismej.2007.50).

Record type: Article

Abstract

The ecological niche of nitrate-storing Beggiatoa, and their contribution to the removal of sulfide were investigated in coastal sediment. With microsensors a clear suboxic zone of 2-10 cm thick was identified, where neither oxygen nor free sulfide was detectable. In this zone most of the Beggiatoa were found, where they oxidize sulfide with internally stored nitrate. The sulfide input into the suboxic zone was dominated by an upward sulfide flux from deeper sediment, whereas the local production in the suboxic zone was much smaller. Despite their abundance, the calculated sulfide-oxidizing capacity of the Beggiatoa could account for only a small fraction of the total sulfide removal in the sediment. Consequently, most of the sulfide flux into the suboxic layer must have been removed by chemical processes, mainly by precipitation with Fe2+ and oxidation by Fe(III), which was coupled with a pH increase. The free Fe2+ diffusing upwards was oxidized by Mn(IV), resulting in a strong pH decrease. The nitrate storage capacity allows Beggiatoa to migrate randomly up and down in anoxic sediments with an accumulated gliding distance of 4 m before running out of nitrate. We propose that the steep sulfide gradient and corresponding high sulfide flux, a typical characteristic of Beggiatoa habitats, is not needed for their metabolic performance, but rather used as a chemotactic cue by the highly motile filaments to avoid getting lost at depth in the sediment. Indeed sulfide is a repellent for Beggiatoa.

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Published date: 2007
Organisations: Marine Geoscience

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Local EPrints ID: 342681
URI: http://eprints.soton.ac.uk/id/eprint/342681
ISSN: 1751-7362
PURE UUID: 3f6ee5df-d5f2-42dc-9346-5dd98635e89d

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Date deposited: 12 Sep 2012 12:28
Last modified: 14 Mar 2024 11:53

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Contributors

Author: André Preisler
Author: Dirk de Beer
Author: Anna Lichtschlag
Author: Gaute Lavik
Author: Antje Boetius
Author: Bo Barker Jørgensen

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