Intermediate sulfur oxidation state compounds in the euxinic surface sediments of the Dvurechenskii mud volcano (Black Sea)
Intermediate sulfur oxidation state compounds in the euxinic surface sediments of the Dvurechenskii mud volcano (Black Sea)
The deep Black Sea is known to be depleted in electron-acceptors for sulfide oxidation. This study on depth distributions of sulfur species (S(II), S(0), View the MathML sourceSn2-, View the MathML sourceS2O32-, View the MathML sourceSO32-, View the MathML sourceSO42-) in the Dvurechenskii mud volcano, a cold seep situated in the permanently anoxic eastern Black Sea basin (Sorokin Trough, 2060 m water depth), showed remarkable concentrations of sulfide oxidation products. Sulfite concentrations of up to 11 ?mol L?1, thiosulfate concentrations of up to 22 ?mol L?1, zero-valent sulfur concentrations of up to 150 ?mol L?1 and up to five polysulfide species were measured in the upper 20 cm of the sediment. Electron-acceptors found to be available in the Dvurechenskii mud volcano (DMV) for the oxidation of hydrogen sulfide to sulfide oxidation intermediates are iron-minerals, and probably also reactive manganese phases. Up to 60 ?mol g?1 of reactive iron-minerals and up to 170 ?mol L?1 dissolved iron was present in the central summit with the highest fluid upflow and fresh mud outflow. Thus, the source for the oxidative power in the DMV are reactive iron phases extruded with the mud from an ancient source in the deeply buried sediments, leading to the formation of various sulfur intermediates in comparably high concentrations. Another possible source of sulfide oxidation intermediates in DMV sediments could be the formation of zero-valent sulfur by sulfate dependent anaerobic microbial oxidation of methane followed by disproportionation of zero-valent sulfur. Sulfide oxidation intermediates, which are produced by these processes, do not reach thermodynamic equilibrium with rhombic sulfur, especially close to the active center of the DMV due to a short equilibration time. Thus, mud volcano sediments, such as in the DMV, can provide oxidizing niches even in a highly reduced environment like the abyssal part of the Black Sea.
130-145
Lichtschlag, Anna
be1568d9-cc63-4f85-bd38-a93dfd7e245f
Kamyshny, Alexey
b1107e24-0a06-4d73-a6d1-d3b1014ed954
Ferdelman, Timothy G.
608e7e72-65a9-4df1-9333-0dd5cfbe0cbe
deBeer, Dirk
fc1a7a0a-613d-4a5c-af1a-09d03f4a58b4
15 March 2013
Lichtschlag, Anna
be1568d9-cc63-4f85-bd38-a93dfd7e245f
Kamyshny, Alexey
b1107e24-0a06-4d73-a6d1-d3b1014ed954
Ferdelman, Timothy G.
608e7e72-65a9-4df1-9333-0dd5cfbe0cbe
deBeer, Dirk
fc1a7a0a-613d-4a5c-af1a-09d03f4a58b4
Lichtschlag, Anna, Kamyshny, Alexey, Ferdelman, Timothy G. and deBeer, Dirk
(2013)
Intermediate sulfur oxidation state compounds in the euxinic surface sediments of the Dvurechenskii mud volcano (Black Sea).
Geochimica et Cosmochimica Acta, 105, .
(doi:10.1016/j.gca.2012.11.025).
Abstract
The deep Black Sea is known to be depleted in electron-acceptors for sulfide oxidation. This study on depth distributions of sulfur species (S(II), S(0), View the MathML sourceSn2-, View the MathML sourceS2O32-, View the MathML sourceSO32-, View the MathML sourceSO42-) in the Dvurechenskii mud volcano, a cold seep situated in the permanently anoxic eastern Black Sea basin (Sorokin Trough, 2060 m water depth), showed remarkable concentrations of sulfide oxidation products. Sulfite concentrations of up to 11 ?mol L?1, thiosulfate concentrations of up to 22 ?mol L?1, zero-valent sulfur concentrations of up to 150 ?mol L?1 and up to five polysulfide species were measured in the upper 20 cm of the sediment. Electron-acceptors found to be available in the Dvurechenskii mud volcano (DMV) for the oxidation of hydrogen sulfide to sulfide oxidation intermediates are iron-minerals, and probably also reactive manganese phases. Up to 60 ?mol g?1 of reactive iron-minerals and up to 170 ?mol L?1 dissolved iron was present in the central summit with the highest fluid upflow and fresh mud outflow. Thus, the source for the oxidative power in the DMV are reactive iron phases extruded with the mud from an ancient source in the deeply buried sediments, leading to the formation of various sulfur intermediates in comparably high concentrations. Another possible source of sulfide oxidation intermediates in DMV sediments could be the formation of zero-valent sulfur by sulfate dependent anaerobic microbial oxidation of methane followed by disproportionation of zero-valent sulfur. Sulfide oxidation intermediates, which are produced by these processes, do not reach thermodynamic equilibrium with rhombic sulfur, especially close to the active center of the DMV due to a short equilibration time. Thus, mud volcano sediments, such as in the DMV, can provide oxidizing niches even in a highly reduced environment like the abyssal part of the Black Sea.
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Published date: 15 March 2013
Organisations:
Marine Geoscience
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Local EPrints ID: 362768
URI: http://eprints.soton.ac.uk/id/eprint/362768
ISSN: 0016-7037
PURE UUID: 633d2b69-436f-4afe-b677-6be336fb791c
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Date deposited: 05 Mar 2014 17:03
Last modified: 14 Mar 2024 16:13
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Author:
Anna Lichtschlag
Author:
Alexey Kamyshny
Author:
Timothy G. Ferdelman
Author:
Dirk deBeer
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