A new weathering indicator from high-temperature magnetic susceptibility measurements in an Argon atmosphere

A new weathering indicator from high-temperature magnetic susceptibility measurements in an Argon atmosphere

SUMMARY Environmental magnetism has become more and more popular because it is inexpensive, rapid and non-destructive. However, the environmental implication of traditional magnetic parameters is changed as the weathering intensity is contrasting. For example, magnetic susceptibility cannot be used...

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Bibliographic Details
Published in:Geophysical journal international Vol. 221; no. 3; pp. 2010 - 2025
Main Authors: Liu, Caicai, Wang, Wei, Deng, Chenglong
Format: Journal Article
Language:English
Published: Oxford University Press 01-06-2020
Subjects:
Environmental magnetism
Rock and mineral magnetism
Magnetic mineralogy and petrology
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Summary:SUMMARY Environmental magnetism has become more and more popular because it is inexpensive, rapid and non-destructive. However, the environmental implication of traditional magnetic parameters is changed as the weathering intensity is contrasting. For example, magnetic susceptibility cannot be used as pedogenic index for strongly weathered red soils. Thermal magnetic measurement is a common way to identify magnetic minerals in rocks and sediments. Susceptibility enhancement after a 700 °C heating cycle in an argon atmosphere usually happened for various rocks and sediments. The increase is caused by formation of new magnetite from iron derived from paramagnetic iron-containing minerals. This is similar to pedogenesis or weathering process. The heating process in lab released the residual iron in weatherable iron-containing silicates which has not yet been depleted by contemporary pedogenesis or weathering. This residual iron can be quantified by the amount of susceptibility increase after a heating cycle. A negative correlation between the susceptibility increase after heating and the weathering intensity has been found in high-temperature magnetic susceptibility measurements of several sequences located in different climate zones. Results suggest that the degree of weathering can be estimated for intensely weathered red soils as well as for scarcely weathered loess using the amount of susceptibility change after a 700 °C heating cycle. This study provides new perspectives for developing new weathering and pedoclimate proxies using environmental magnetism.
ISSN:0956-540X
1365-246X
DOI:10.1093/gji/ggaa128