On the Reliability of Absolute Palaeointensity Determinations on Vasaltic Rocks Bearing a Thermochemical Remanence

We investigated the acquisition of thermochemical remanent magnetization (TCRM) on basaltic rocks from the volcanic island of São Tomé (Gulf of Guinea) and from the southern part of the Red Sea Rift, both containing homogeneous titanomagnetite grains with Curie temperatures of 100–200 °C. The TCRM w...

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Solid earth 2019-08, Vol.124 (8), p.7616-7632
Main Authors: Shcherbakov, V. P., Gribov, S. K., Lhuillier, F., Aphinogenova, N. A., Tsel'movich, V. A.
Format: Article
Language:English
Subjects:
absolute palaeointensity
oxy‐exsolution
thermochemical remanences in titanomagnetites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We investigated the acquisition of thermochemical remanent magnetization (TCRM) on basaltic rocks from the volcanic island of São Tomé (Gulf of Guinea) and from the southern part of the Red Sea Rift, both containing homogeneous titanomagnetite grains with Curie temperatures of 100–200 °C. The TCRM was created in a rotating thermomagnetometer by cooling the samples from 570 to 200 °C at a rate of 1 °C/hr in the presence of a laboratory magnetic field of 50 μT. The TCRM acquisition occurred at high temperature T > 520 °C through the nucleation of ilmenite lamellae dividing the titanium‐magnetite cells. Mutual Fe‐Ti diffusion moved the composition of the cells closer to that of magnetite, leading to an increase in the Curie temperature Tс. The TCRM was formed at practically fixed volume of the titanomagnetite cells when Tс exceeded T. Theory indicates that the TCRM should be very close to the value of a pure thermoremanent magnetization acquired in the same field. The Thellier‐style experiments conducted on the samples bearing a laboratory induced TCRM confirmed these predictions, with palaeointensity estimates in agreement to within 5% with expected value. This conclusion radically differs from previous results obtained in the case of a pure chemical remanent magnetization and gives hope that a TCRM could be a robust source of palaeomagnetic information, yielding unbiased palaeointensity determinations. Key Points Thermochemical remanences in titanomagnetites are reproduced in laboratory experiments Thermochemical remanent magnetizations yield similar intensities and close blocking temperatures spectra Thermochemical remanent magnetization created in titanomagnetites can provide reliable absolute palaeointensity estimates
ISSN:2169-9313
2169-9356
DOI:10.1029/2019JB017873