Deposition of sapropel S1 sediments in oxic pelagic and anoxic brine environments in the eastern Mediterranean: differences in diagenesis and preservation
Deposition of sapropel S1 sediments in oxic pelagic and anoxic brine environments in the eastern Mediterranean: differences in diagenesis and preservation
Sediments from a boxcore in the previously anoxic brine-filled Poseidon Basin, eastern Mediterranean, have been studied and compared to sediments deposited in a ‘normal' eastern Mediterranean environment. The boxcore can be divided into three main sedimentary intervals based on AMS-radiocarbon ages, foraminiferal and geochemical zonations. From the base of the core upwards these are: (1) 12.3–31.2 cm, organic-rich sediments redeposited from within the brine; (2) 6.6–12.3 cm, sediment containing a ‘cold' foraminifera fauna redeposited from above the brine into the basin while the brine was still present; (3) 0–6.6 cm, oxic pelagic sediment accumulated since the reoxygenation of Poseidon Basin which occurred 1800 yrs BP. Near the base of the latter unit, a Mn-oxide peak has formed and it marks the present boundary between oxic and suboxic environments. A progressive downward oxidation front, which is usually found in ‘normal' sapropel S1 sediments, has never formed in Poseidon Basin sediments. This has resulted in the preservation of the relationship between organic carbon and organic-related trace elements, e.g. Se, in the organic-rich sediments of Poseidon Basin, whereas such a relationship has been obliterated in ‘normal' sapropel S1 sediments. On the basis of the carbonate content as well as the Sr/Ca ratio, preservation of carbonates appears to be better in the brine sapropel sediments of BC15 than it is in ‘normal' sapropel S1 sediments. The high opal content of BC15 shows that biogenic opal is also much better preserved. The overall lower Corg/Ba ratio in BC15 suggests a better preservation of barite relative to that of organic carbon in shallow brine sediments, but is as yet inconclusive for the organic carbon preservation potential of brine relative to ‘normal' unoxidised sediments.
sapropel, diagenesis, preservation, brines, eastern Mediterranean
319-335
Rutten, A.
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De Lange, G.J.
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Hayes, A.
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Rohling, E.J.
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De Jong, A.F.M.
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Van der Borg, K.
83f6cb57-56b1-41c0-a974-3c0a3e30cb9e
1999
Rutten, A.
7f323dd2-ed53-4c35-9fd2-2b4eddbe8c76
De Lange, G.J.
f3a5a890-cb53-44e6-b3b0-77f53bc04dac
Hayes, A.
30278d2b-909a-4e93-bc24-c7df206715b3
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
De Jong, A.F.M.
e7288a79-30c7-447d-a35b-8442af344a1f
Van der Borg, K.
83f6cb57-56b1-41c0-a974-3c0a3e30cb9e
Rutten, A., De Lange, G.J., Hayes, A., Rohling, E.J., De Jong, A.F.M. and Van der Borg, K.
(1999)
Deposition of sapropel S1 sediments in oxic pelagic and anoxic brine environments in the eastern Mediterranean: differences in diagenesis and preservation.
Marine Geology, 153 (1-4), .
(doi:10.1016/S0025-3227(98)00076-0).
Abstract
Sediments from a boxcore in the previously anoxic brine-filled Poseidon Basin, eastern Mediterranean, have been studied and compared to sediments deposited in a ‘normal' eastern Mediterranean environment. The boxcore can be divided into three main sedimentary intervals based on AMS-radiocarbon ages, foraminiferal and geochemical zonations. From the base of the core upwards these are: (1) 12.3–31.2 cm, organic-rich sediments redeposited from within the brine; (2) 6.6–12.3 cm, sediment containing a ‘cold' foraminifera fauna redeposited from above the brine into the basin while the brine was still present; (3) 0–6.6 cm, oxic pelagic sediment accumulated since the reoxygenation of Poseidon Basin which occurred 1800 yrs BP. Near the base of the latter unit, a Mn-oxide peak has formed and it marks the present boundary between oxic and suboxic environments. A progressive downward oxidation front, which is usually found in ‘normal' sapropel S1 sediments, has never formed in Poseidon Basin sediments. This has resulted in the preservation of the relationship between organic carbon and organic-related trace elements, e.g. Se, in the organic-rich sediments of Poseidon Basin, whereas such a relationship has been obliterated in ‘normal' sapropel S1 sediments. On the basis of the carbonate content as well as the Sr/Ca ratio, preservation of carbonates appears to be better in the brine sapropel sediments of BC15 than it is in ‘normal' sapropel S1 sediments. The high opal content of BC15 shows that biogenic opal is also much better preserved. The overall lower Corg/Ba ratio in BC15 suggests a better preservation of barite relative to that of organic carbon in shallow brine sediments, but is as yet inconclusive for the organic carbon preservation potential of brine relative to ‘normal' unoxidised sediments.
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Published date: 1999
Keywords:
sapropel, diagenesis, preservation, brines, eastern Mediterranean
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Local EPrints ID: 28822
URI: http://eprints.soton.ac.uk/id/eprint/28822
ISSN: 0025-3227
PURE UUID: 16ff3a4a-806b-49cf-82e8-3665c91fc1c0
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Date deposited: 05 May 2006
Last modified: 16 Mar 2024 02:46
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Author:
A. Rutten
Author:
G.J. De Lange
Author:
A. Hayes
Author:
A.F.M. De Jong
Author:
K. Van der Borg
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