Stable coexistence of grandiderite and kornerupine during medium pressure granulite facies metamorphism
Date
1995
Authors
Carson, C.
Hand, M.
Dirks, P.
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Journal article
Citation
Mineralogical Magazine, 1995; 59(395):327-339
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Abstract
<jats:title>Abstract</jats:title><jats:p>Petrological and mineral chemical data are presented for two new occurrences of co-existing borosilicate minerals in the Larsemann Hills, East Antarctica. The assemblages contain kornerupine and the rare borosilicate, grandidierite (Mg,Fe)A1<jats:sub>3</jats:sub>BSiO<jats:sub>9</jats:sub>. Two distinct associations occur: (1) At McCarthy Point, 1–10 mm thick tourmaline-kornerupine-grandidierite layers are hosted within quartzofeldspathic gneiss; and (2) Seal Cove, where coexisting kornerupine and grandidierite occur within coarse-grained, metamorphic segregations with Mg-rich cores of cordierite-garnet-spinel-biotite-ilmenite and variably developed plagioclase halos. The segregations are hosted within biotite-bearing, plagio-feldspathic gneiss. Textural relationships from these localities indicate the stability of co-existing kornerupine and grandidierite.</jats:p><jats:p>The grandidierite- and kornerupine-bearing segregations from Seal Cove largely postdate structures developed during a crustal thickening event (D<jats:sub>2</jats:sub>) which was coeval with peak metamorphism. At McCarthy Point, grandidierite, kornerupine and late-tourmaline growth predates, or is synchronous, with F<jats:sub>3</jats:sub> fold structures developed during a extensive granulite grade, normal shearing event (D<jats:sub>3</jats:sub>) which occurred prior to, and synchronous with, near-isothermal decompression. Average pressure calculations on assemblages that coexist with the borosilicates at Seal Cove, indicate the prevailing conditions were 5.2–5.5 kbar at ∼ 750°C for formation of the grandidierite-kornerupine assemblage.</jats:p>