Synchronous basin-wide formation and redox-controlled preservation of a Mediterranean sapropel
Synchronous basin-wide formation and redox-controlled preservation of a Mediterranean sapropel
Organic-rich sedimentary units called sapropels have formed repeatedly in the eastern Mediterranean Sea, in response to variations of solar radiation. Sapropel formation is due to a change either in the flux of organic matter to the sea floor from productivity changes or in preservation by bottom-water oxygen levels. However, the relative importance of surface-ocean productivity versus deep-water preservation for the formation of these organic-rich shale beds is still being debated, and conflicting interpretations are often invoked1, 2, 3, 4, 5, 6, 7. Here we analyse at high resolution the differences in the composition of the most recent sapropel, S1, in a suite of cores covering the entire eastern Mediterranean basin. We demonstrate that during the 4,000 years of sapropel formation, surface-water salinity was reduced and the deep eastern Mediterranean Sea, below 1,800 m depth, was devoid of oxygen. This resulted in the preferential basin-wide preservation of sapropel S1 with different characteristics above and below 1,800 m depth as a result of different redox conditions. We conclude that climate-induced stratification of the ocean may therefore contribute to enhanced preservation of organic matter in sapropels and potentially also in black shales.
606-610
De Lange, Gert J.
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Thomson, John
ab84c08c-7a63-4129-baa0-2a18ebf8c69a
Reitz, Anja
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Slomp, Caroline P.
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Principato, M. Speranza
eb211163-6141-4075-9185-65a74ec2eefd
Erba, Elisabetta
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Corselli, Cesare
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17 August 2008
De Lange, Gert J.
747c79fe-ab39-4a60-8792-acf419d4051e
Thomson, John
ab84c08c-7a63-4129-baa0-2a18ebf8c69a
Reitz, Anja
0972edeb-5215-46e5-b564-335b9918d1a4
Slomp, Caroline P.
43741912-a5f5-45a1-8c9b-a49d0deaf16f
Principato, M. Speranza
eb211163-6141-4075-9185-65a74ec2eefd
Erba, Elisabetta
5d8f2006-9848-4450-95dd-1f4a1c47fbb5
Corselli, Cesare
9a53d0ed-6191-4847-8e9f-5c6aa9b8e66f
De Lange, Gert J., Thomson, John, Reitz, Anja, Slomp, Caroline P., Principato, M. Speranza, Erba, Elisabetta and Corselli, Cesare
(2008)
Synchronous basin-wide formation and redox-controlled preservation of a Mediterranean sapropel.
Nature Geoscience, 1, .
(doi:10.1038/ngeo283).
Abstract
Organic-rich sedimentary units called sapropels have formed repeatedly in the eastern Mediterranean Sea, in response to variations of solar radiation. Sapropel formation is due to a change either in the flux of organic matter to the sea floor from productivity changes or in preservation by bottom-water oxygen levels. However, the relative importance of surface-ocean productivity versus deep-water preservation for the formation of these organic-rich shale beds is still being debated, and conflicting interpretations are often invoked1, 2, 3, 4, 5, 6, 7. Here we analyse at high resolution the differences in the composition of the most recent sapropel, S1, in a suite of cores covering the entire eastern Mediterranean basin. We demonstrate that during the 4,000 years of sapropel formation, surface-water salinity was reduced and the deep eastern Mediterranean Sea, below 1,800 m depth, was devoid of oxygen. This resulted in the preferential basin-wide preservation of sapropel S1 with different characteristics above and below 1,800 m depth as a result of different redox conditions. We conclude that climate-induced stratification of the ocean may therefore contribute to enhanced preservation of organic matter in sapropels and potentially also in black shales.
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Published date: 17 August 2008
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Local EPrints ID: 63076
URI: http://eprints.soton.ac.uk/id/eprint/63076
ISSN: 1752-0894
PURE UUID: 8056f1bd-ae3c-4b15-8291-a24d02aa3eee
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Date deposited: 08 Sep 2008
Last modified: 15 Mar 2024 11:35
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Author:
Gert J. De Lange
Author:
John Thomson
Author:
Anja Reitz
Author:
Caroline P. Slomp
Author:
M. Speranza Principato
Author:
Elisabetta Erba
Author:
Cesare Corselli
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