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Detecting missing beats in the Mediterranean climate rhythm from magnetic identification of oxidized sapropels (Ocean Drilling Program Leg 160)

Detecting missing beats in the Mediterranean climate rhythm from magnetic identification of oxidized sapropels (Ocean Drilling Program Leg 160)
Detecting missing beats in the Mediterranean climate rhythm from magnetic identification of oxidized sapropels (Ocean Drilling Program Leg 160)
Eastern Mediterranean sapropels are organic-rich sediments whose formation is related to variations in the Earth's orbit. They are therefore important for reconstructing past climatic variations and for producing astronomically tuned geological timescales. Previous studies have suggested that the distinctive magnetic properties of sapropels, which result from non-steady-state diagenetic reactions related to degradation of organic matter, might be used for identifying sapropels that have escaped visual identification after being completely erased during post-depositional oxidation. We present a high-resolution multi-proxy magnetic, geochemical and paleontological data set from selected intervals of Ocean Drilling Program Sites 966 and 967. Our results demonstrate that magnetic properties can be unambiguously used for identifying oxidized sapropels, and also for determining whether suspected intervals actually correspond to oxidized sapropels, because they enable detection of the former presence of organic matter and of climatic and oceanographic conditions suitable for sapropel formation. Systematic application of high-resolution magnetic analyses to future coring efforts in the eastern Mediterranean should allow determination of the original distribution of sapropels through long sedimentary sequences, which will improve our knowledge of paleoceanographic and paleoclimatic conditions that led to their formation.
environmental magnetism, sapropels, African monsoon, Saharan dust, bottom-water ventilation, productivity, Ocean Drilling Program, Eastern Mediterranean
0031-9201
283-293
Larrasoana, J.C.
9201c9da-a9fc-4f3b-86a8-83fda450084e
Roberts, A.P.
4497b436-ef02-428d-a46e-65a22094ba52
Hayes, A.
30278d2b-909a-4e93-bc24-c7df206715b3
Wehausen, R.
2917ec4a-8570-4ee1-9c98-6ba534a3a5ce
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Larrasoana, J.C.
9201c9da-a9fc-4f3b-86a8-83fda450084e
Roberts, A.P.
4497b436-ef02-428d-a46e-65a22094ba52
Hayes, A.
30278d2b-909a-4e93-bc24-c7df206715b3
Wehausen, R.
2917ec4a-8570-4ee1-9c98-6ba534a3a5ce
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685

Larrasoana, J.C., Roberts, A.P., Hayes, A., Wehausen, R. and Rohling, E.J. (2006) Detecting missing beats in the Mediterranean climate rhythm from magnetic identification of oxidized sapropels (Ocean Drilling Program Leg 160). Physics of the Earth and Planetary Interiors, 156 (3-4), 283-293. (doi:10.1016/j.pepi.2005.04.017).

Record type: Article

Abstract

Eastern Mediterranean sapropels are organic-rich sediments whose formation is related to variations in the Earth's orbit. They are therefore important for reconstructing past climatic variations and for producing astronomically tuned geological timescales. Previous studies have suggested that the distinctive magnetic properties of sapropels, which result from non-steady-state diagenetic reactions related to degradation of organic matter, might be used for identifying sapropels that have escaped visual identification after being completely erased during post-depositional oxidation. We present a high-resolution multi-proxy magnetic, geochemical and paleontological data set from selected intervals of Ocean Drilling Program Sites 966 and 967. Our results demonstrate that magnetic properties can be unambiguously used for identifying oxidized sapropels, and also for determining whether suspected intervals actually correspond to oxidized sapropels, because they enable detection of the former presence of organic matter and of climatic and oceanographic conditions suitable for sapropel formation. Systematic application of high-resolution magnetic analyses to future coring efforts in the eastern Mediterranean should allow determination of the original distribution of sapropels through long sedimentary sequences, which will improve our knowledge of paleoceanographic and paleoclimatic conditions that led to their formation.

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More information

Published date: 2006
Keywords: environmental magnetism, sapropels, African monsoon, Saharan dust, bottom-water ventilation, productivity, Ocean Drilling Program, Eastern Mediterranean
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Identifiers

Local EPrints ID: 41114
URI: http://eprints.soton.ac.uk/id/eprint/41114
DOI: doi:10.1016/j.pepi.2005.04.017
ISSN: 0031-9201
PURE UUID: c1ac5ef5-2ed8-4481-8df2-0d1096df516c
ORCID for E.J. Rohling: ORCID iD orcid.org/0000-0001-5349-2158

Catalogue record

Date deposited: 19 Jul 2006
Last modified: 16 Mar 2024 02:46

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Contributors

Author: J.C. Larrasoana
Author: A.P. Roberts
Author: A. Hayes
Author: R. Wehausen
Author: E.J. Rohling ORCID iD

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