Hydrothermal alteration of magmatic titanite: Evidence from Proterozoic granitic rocks, Southeastern Sweden

Sadoon Morad; Mohamed A.K. El-Ghali; Miguel A. Caja; Khalid Al-Ramadan; Howri Mansurbeg

doi:10.3749/canmin.47.4.801

Hydrothermal alteration of magmatic titanite: Evidence from Proterozoic granitic rocks, Southeastern Sweden

Sadoon Morad, Mohamed A.K. El-Ghali, Miguel A. Caja, Khalid Al-Ramadan, Howri Mansurbeg

Earth Science

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Magmatic titanite in Proterozoic granitic rocks from southeastern Sweden has been subjected to hydrothermal dissolution and replacement by finely crystalline Fe-dominant chlorite and TiO₂ (± quartz ± calcite). These alteration patterns require the redistribution of the highly immobile Ti and At on the thin-section scale. The chloritization of titanite involved the formation of an intermediate Al-Fe-rich phase probably comprising intimately intergrown, submicroscopic chlorite and titanite. The creation of microporosity by the hydrothermal alteration of titanite may enhance the diffusive flux of matter, and hence the rate of reactions in granitic rocks. The alteration of titanite is most pronounced in red-stained granitic rock zones enriched in partly dissolved biotite and magnetite, which could have acted as local source of Al, Fe and Mg needed for chlorite formation.

Original language	British English
Pages (from-to)	801-811
Number of pages	11
Journal	Canadian Mineralogist
Volume	47
Issue number	4
DOIs	https://doi.org/10.3749/canmin.47.4.801
State	Published - Aug 2009

Keywords

Alteration
Granite
Hydrothermal process
Proterozoic
Sweden
Titanite

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title = "Hydrothermal alteration of magmatic titanite: Evidence from Proterozoic granitic rocks, Southeastern Sweden",

abstract = "Magmatic titanite in Proterozoic granitic rocks from southeastern Sweden has been subjected to hydrothermal dissolution and replacement by finely crystalline Fe-dominant chlorite and TiO2 (± quartz ± calcite). These alteration patterns require the redistribution of the highly immobile Ti and At on the thin-section scale. The chloritization of titanite involved the formation of an intermediate Al-Fe-rich phase probably comprising intimately intergrown, submicroscopic chlorite and titanite. The creation of microporosity by the hydrothermal alteration of titanite may enhance the diffusive flux of matter, and hence the rate of reactions in granitic rocks. The alteration of titanite is most pronounced in red-stained granitic rock zones enriched in partly dissolved biotite and magnetite, which could have acted as local source of Al, Fe and Mg needed for chlorite formation.",

keywords = "Alteration, Granite, Hydrothermal process, Proterozoic, Sweden, Titanite",

author = "Sadoon Morad and El-Ghali, {Mohamed A.K.} and Caja, {Miguel A.} and Khalid Al-Ramadan and Howri Mansurbeg",

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T2 - Evidence from Proterozoic granitic rocks, Southeastern Sweden

AU - Morad, Sadoon

AU - El-Ghali, Mohamed A.K.

AU - Caja, Miguel A.

AU - Al-Ramadan, Khalid

AU - Mansurbeg, Howri

PY - 2009/8

Y1 - 2009/8

N2 - Magmatic titanite in Proterozoic granitic rocks from southeastern Sweden has been subjected to hydrothermal dissolution and replacement by finely crystalline Fe-dominant chlorite and TiO2 (± quartz ± calcite). These alteration patterns require the redistribution of the highly immobile Ti and At on the thin-section scale. The chloritization of titanite involved the formation of an intermediate Al-Fe-rich phase probably comprising intimately intergrown, submicroscopic chlorite and titanite. The creation of microporosity by the hydrothermal alteration of titanite may enhance the diffusive flux of matter, and hence the rate of reactions in granitic rocks. The alteration of titanite is most pronounced in red-stained granitic rock zones enriched in partly dissolved biotite and magnetite, which could have acted as local source of Al, Fe and Mg needed for chlorite formation.

AB - Magmatic titanite in Proterozoic granitic rocks from southeastern Sweden has been subjected to hydrothermal dissolution and replacement by finely crystalline Fe-dominant chlorite and TiO2 (± quartz ± calcite). These alteration patterns require the redistribution of the highly immobile Ti and At on the thin-section scale. The chloritization of titanite involved the formation of an intermediate Al-Fe-rich phase probably comprising intimately intergrown, submicroscopic chlorite and titanite. The creation of microporosity by the hydrothermal alteration of titanite may enhance the diffusive flux of matter, and hence the rate of reactions in granitic rocks. The alteration of titanite is most pronounced in red-stained granitic rock zones enriched in partly dissolved biotite and magnetite, which could have acted as local source of Al, Fe and Mg needed for chlorite formation.

KW - Alteration

KW - Granite

KW - Hydrothermal process

KW - Proterozoic

KW - Sweden

KW - Titanite

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Hydrothermal alteration of magmatic titanite: Evidence from Proterozoic granitic rocks, Southeastern Sweden

Abstract

Keywords

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