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Diagenetic magnetic enhancement of sapropels from the eastern Mediterranean Sea

Diagenetic magnetic enhancement of sapropels from the eastern Mediterranean Sea
Diagenetic magnetic enhancement of sapropels from the eastern Mediterranean Sea
Diagenetic dissolution of magnetic minerals has been widely observed in organic-rich sediments from many environments. Organic-rich sediments from the eastern Mediterranean Sea (sapropels), recovered during Leg 160 of the Ocean Drilling Program, reveal a surprising catalogue of magnetic properties. Sapropels, from all sites studied across the eastern Mediterranean Sea, are strongly magnetic and the magnetization is directly proportional to the organic carbon content. The magnetization of the sapropels is dominated by a low-coercivity, probably single domain magnetic mineral (with an inverse magnetic fabric) that exhibits a clear decay in magnetic properties when exposed to air. During heating, the magnetic particles irreversibly break down between 360 and 400°C. The contrast between the magnetic properties of sapropels and surrounding sediments is marked, with remanence intensities of sapropels often being more than three orders of magnitude higher than those of underlying sediments. The contrast between the magnetic properties of sapropels and the surrounding sediments is apparently controlled by non-steady-state diagenesis: sulphate-reducing conditions dominated during sapropel deposition, while overlying sediments were deposited under oxic conditions. The mineral responsible for the magnetic properties of sapropels is most likely to have formed under sulphate-reducing conditions that existed during times of sapropel formation. Attempts to identify this mineral have been unsuccessful, but several lines of evidence point toward an unknown ferrimagnetic iron sulphide phase. The influence of diagenesis on the magnetic properties of cyclically-deposited eastern Mediterranean sedimentary sequences suggests that magnetic parameters may be a useful proxy for diagenesis in these sediments.
iron sulphide, sapropels, diagenesis, environmental magnetism, eastern Mediterranean Sea
0025-3227
103-116
Roberts, A.P.
4497b436-ef02-428d-a46e-65a22094ba52
Stoner, J.S.
7470dbc1-c6ff-4c08-b98c-3be4d1d43c2a
Richter, C.
13ccbe30-eb32-4da7-90f2-904d9f78a74c
Roberts, A.P.
4497b436-ef02-428d-a46e-65a22094ba52
Stoner, J.S.
7470dbc1-c6ff-4c08-b98c-3be4d1d43c2a
Richter, C.
13ccbe30-eb32-4da7-90f2-904d9f78a74c

Roberts, A.P., Stoner, J.S. and Richter, C. (1999) Diagenetic magnetic enhancement of sapropels from the eastern Mediterranean Sea. Marine Geology, 153 (1-4), 103-116. (doi:10.1016/S0025-3227(98)00087-5).

Record type: Article

Abstract

Diagenetic dissolution of magnetic minerals has been widely observed in organic-rich sediments from many environments. Organic-rich sediments from the eastern Mediterranean Sea (sapropels), recovered during Leg 160 of the Ocean Drilling Program, reveal a surprising catalogue of magnetic properties. Sapropels, from all sites studied across the eastern Mediterranean Sea, are strongly magnetic and the magnetization is directly proportional to the organic carbon content. The magnetization of the sapropels is dominated by a low-coercivity, probably single domain magnetic mineral (with an inverse magnetic fabric) that exhibits a clear decay in magnetic properties when exposed to air. During heating, the magnetic particles irreversibly break down between 360 and 400°C. The contrast between the magnetic properties of sapropels and surrounding sediments is marked, with remanence intensities of sapropels often being more than three orders of magnitude higher than those of underlying sediments. The contrast between the magnetic properties of sapropels and the surrounding sediments is apparently controlled by non-steady-state diagenesis: sulphate-reducing conditions dominated during sapropel deposition, while overlying sediments were deposited under oxic conditions. The mineral responsible for the magnetic properties of sapropels is most likely to have formed under sulphate-reducing conditions that existed during times of sapropel formation. Attempts to identify this mineral have been unsuccessful, but several lines of evidence point toward an unknown ferrimagnetic iron sulphide phase. The influence of diagenesis on the magnetic properties of cyclically-deposited eastern Mediterranean sedimentary sequences suggests that magnetic parameters may be a useful proxy for diagenesis in these sediments.

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More information

Published date: 1999
Keywords: iron sulphide, sapropels, diagenesis, environmental magnetism, eastern Mediterranean Sea
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Identifiers

Local EPrints ID: 28825
URI: http://eprints.soton.ac.uk/id/eprint/28825
DOI: doi:10.1016/S0025-3227(98)00087-5
ISSN: 0025-3227
PURE UUID: 62b69390-f126-40ed-8796-89cc5a84875d

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Date deposited: 05 May 2006
Last modified: 15 Mar 2024 07:27

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Author: A.P. Roberts
Author: J.S. Stoner
Author: C. Richter

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