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Hydrothermally-induced changes in mineralogy and magnetic properties of oxidized A-type granites

The changes in magnetic mineralogy due to the hydrothermal alteration of A-type granitic rocks have been thoroughly investigated in samples from the granite of Tana (Corsica, France), and compared with other A-type granites: Meruoca (NE Brazil), Bushveld (South Africa), Mount Scott (Wichita Mountain...

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Bibliographic Details
Published in:Lithos 2015-01, Vol.212-215, p.145-157
Main Authors: Nédélec, Anne, Trindade, Ricardo, Peschler, Anne, Archanjo, Carlos, Macouin, Mélina, Poitrasson, Franck, Bouchez, Jean-Luc
Format: Article
Language:English
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Summary:The changes in magnetic mineralogy due to the hydrothermal alteration of A-type granitic rocks have been thoroughly investigated in samples from the granite of Tana (Corsica, France), and compared with other A-type granites: Meruoca (NE Brazil), Bushveld (South Africa), Mount Scott (Wichita Mountains, Oklahoma, USA) and the stratoid hypersolvus granites of Madagascar. The altered red-colored samples and their non-altered equivalents were magnetically characterized by means of magnetic susceptibility measurements, hysteresis loops, remanent coercivity spectra, and Lowrie test. It is shown that hydrothermalization in magnetite-bearing granites is related to the formation of fine-grained magnetite and hematite, and to coeval depletion in the content of primary low-coercive coarse-grained magnetite. These mineralogical changes give typical rock magnetic signatures, namely lower susceptibility magnitudes and anisotropy degrees, prolate AMS (anisotropy of magnetic susceptibility) fabrics and increased coercivities. Optical microscopy and SEM (scanning electronic microscopy) images suggest that the orientation of the secondary magnetic minerals is related to fluid-pathways and micro-fractures formed during the hydrothermal event and therefore may be unrelated to magma emplacement and crystallization fabrics. Changes in magnetic mineralogy and grain-size distribution have also to be considered for any paleomagnetic and iron isotope studies in granites. •Hydrothermal alteration of A-type granites is monitored by magnetic mineralogy.•Hydrothermalization results in secondary fine-grained magnetite and hematite.•Coeval depletion in primary low-coercive coarse-grained magnetite•AMS signatures are lower susceptibility and anisotropy degrees and prolate fabrics.•Secondarily increased coercivities may be of interest for paleomagnetic studies.
ISSN:0024-4937
1872-6143
DOI:10.1016/j.lithos.2014.11.007