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Origin of Magnetic Instability in Sediment Cores From the Central North Pacific

Dennis V. Kent; William Lowrie

Title:
Origin of Magnetic Instability in Sediment Cores From the Central North Pacific
Author(s):
Kent, Dennis V.
Lowrie, William
Date:
Type:
Articles
Department:
Lamont-Doherty Earth Observatory
Volume:
79
Permanent URL:
Book/Journal Title:
Journal of Geophysical Research
Abstract:
Previous paleomagnetic studies on deep-sea sediment cores from the central North Pacific have shown that the natural remanent magnetization (NRM) of these 'red clay' sediments was unstable below several meters depth in each core. It was also noted that the magnetic instability was related to the presence of a relatively large low-coercivity component of magnetization. The purpose of this investigation was to characterize the rock magnetic properties in three select cores from this region to determine the physical origin of the unstable magnetization. The principal findings of our investigation were as follows. (1) The ability to acquire a viscous remanent magnetization increased with depth in each core, particularly at about the level where unstable magnetization became evident. (2) The magnitude and stability of the observed NRM of the magnetically unstable section of each core can be explained by a viscous remanence acquired in the presence of the earth's magnetic field over a period of time ranging from only several weeks to several thousands of years. (3) The unstable magnetization, believed to be of viscous origin, was attributed to the presence of a magnetic mineral similar in structure and composition to maghemite. This mineral may have resulted from the low-temperature oxidation of very fine grained magnetite at about the time of deposition of these sediments. The extrapolated ages of the levels at which unstable magnetization becomes evident in the cores from this region suggest a close correspondence with the times of established upper Cenozoic climatic changes. Considerations of the alteration of the sedimentary regime resulting from the changes in climate can provide a satisfactory explanation for the observed change in magnetic properties.
Subject(s):
Geophysics
Paleoclimate science
Publisher DOI:
http://dx.doi.org/10.1029/JB079i020p02987
Item views:
91
Metadata:
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