Reaction texture and Fe-Mg zoning in granulite garnet from Søstrene Island, Antarctica: Modeling and constraint on the time scale of metamorphism during the Pan-African collisional event

J. Ganguly; B. J. Hensen; W. Cheng

doi:10.1007/BF02702897

Reaction texture and Fe-Mg zoning in granulite garnet from Søstrene Island, Antarctica: Modeling and constraint on the time scale of metamorphism during the Pan-African collisional event

J. Ganguly, B. J. Hensen, W. Cheng

Geosciences

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

15 Scopus citations

Abstract

Garnets from the Søtrene island, Antarctica, show reaction textures corresponding to two metamorphic episodes, one at c. 1000 Ma (M1) and the other at c. 500 Ma (M2). The latter is associated with a Pan-African tectono-metamorphic event that has been interpreted to represent a continent-continent collision followed by extensional collapse. Reaction-diffusion modeling of the compositional zoning of garnet associated with the development of reaction texture during M2 yields a time scale of ∼ 5-16 Myr for the duration of the peak of this overprinting metamorphism at ∼ 730 ± 20°C. The associated velocity of the reaction front is ∼ ∼ 5.0-1.6 μm/Myr. The inferred duration of peak metamorphism during the Pan-African event seems to be in good agreement with the available U-Pb SHRIMP ages of zircon and monazite that may be interpreted to have formed at the beginning and end stages of crystallization of granite during the metamorphic peak.

Original language	English (US)
Pages (from-to)	305-312
Number of pages	8
Journal	Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences
Volume	110
Issue number	4
DOIs	https://doi.org/10.1007/BF02702897
State	Published - 2001

Keywords

Diffusion
Reaction
Tectono-metamorphism
Time scale

ASJC Scopus subject areas

Earth and Planetary Sciences (miscellaneous)

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10.1007/BF02702897

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Reaction texture and Fe-Mg zoning in granulite garnet from Søstrene Island, Antarctica: Modeling and constraint on the time scale of metamorphism during the Pan-African collisional event. / Ganguly, J.; Hensen, B. J.; Cheng, W.
In: Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences, Vol. 110, No. 4, 2001, p. 305-312.

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

Ganguly, J, Hensen, BJ & Cheng, W 2001, 'Reaction texture and Fe-Mg zoning in granulite garnet from Søstrene Island, Antarctica: Modeling and constraint on the time scale of metamorphism during the Pan-African collisional event', Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences, vol. 110, no. 4, pp. 305-312. https://doi.org/10.1007/BF02702897

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abstract = "Garnets from the S{\o}trene island, Antarctica, show reaction textures corresponding to two metamorphic episodes, one at c. 1000 Ma (M1) and the other at c. 500 Ma (M2). The latter is associated with a Pan-African tectono-metamorphic event that has been interpreted to represent a continent-continent collision followed by extensional collapse. Reaction-diffusion modeling of the compositional zoning of garnet associated with the development of reaction texture during M2 yields a time scale of ∼ 5-16 Myr for the duration of the peak of this overprinting metamorphism at ∼ 730 ± 20°C. The associated velocity of the reaction front is ∼ ∼ 5.0-1.6 μm/Myr. The inferred duration of peak metamorphism during the Pan-African event seems to be in good agreement with the available U-Pb SHRIMP ages of zircon and monazite that may be interpreted to have formed at the beginning and end stages of crystallization of granite during the metamorphic peak.",

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note = "Funding Information: We are grateful to Drs. Sumit Chakraborty, Ian Fitzsimons and Alan Thompson for very helpful and constructive reviews of the manuscript. It is a pleasure to have an opportunity to honor Prof. Sisir Sen through a research contribution on granulite metamorphism. This research was supported by a grant from the US National Science Foundation, No. EAR 0087424.",

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N2 - Garnets from the Søtrene island, Antarctica, show reaction textures corresponding to two metamorphic episodes, one at c. 1000 Ma (M1) and the other at c. 500 Ma (M2). The latter is associated with a Pan-African tectono-metamorphic event that has been interpreted to represent a continent-continent collision followed by extensional collapse. Reaction-diffusion modeling of the compositional zoning of garnet associated with the development of reaction texture during M2 yields a time scale of ∼ 5-16 Myr for the duration of the peak of this overprinting metamorphism at ∼ 730 ± 20°C. The associated velocity of the reaction front is ∼ ∼ 5.0-1.6 μm/Myr. The inferred duration of peak metamorphism during the Pan-African event seems to be in good agreement with the available U-Pb SHRIMP ages of zircon and monazite that may be interpreted to have formed at the beginning and end stages of crystallization of granite during the metamorphic peak.

AB - Garnets from the Søtrene island, Antarctica, show reaction textures corresponding to two metamorphic episodes, one at c. 1000 Ma (M1) and the other at c. 500 Ma (M2). The latter is associated with a Pan-African tectono-metamorphic event that has been interpreted to represent a continent-continent collision followed by extensional collapse. Reaction-diffusion modeling of the compositional zoning of garnet associated with the development of reaction texture during M2 yields a time scale of ∼ 5-16 Myr for the duration of the peak of this overprinting metamorphism at ∼ 730 ± 20°C. The associated velocity of the reaction front is ∼ ∼ 5.0-1.6 μm/Myr. The inferred duration of peak metamorphism during the Pan-African event seems to be in good agreement with the available U-Pb SHRIMP ages of zircon and monazite that may be interpreted to have formed at the beginning and end stages of crystallization of granite during the metamorphic peak.

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Reaction texture and Fe-Mg zoning in granulite garnet from Søstrene Island, Antarctica: Modeling and constraint on the time scale of metamorphism during the Pan-African collisional event

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