Quantitative Constraints on Metamorphism in the Variscides of Southern Brittany--a Complementary Pseudosection Approach

doi:10.1093/petrology/egh012

Journal of Petrology 2004 45(6):1237-1259; doi:10.1093/petrology/egh012

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Quantitative Constraints on Metamorphism in the Variscides of Southern Brittany—a Complementary Pseudosection Approach

TIM JOHNSON and MICHAEL BROWN^*

LABORATORY FOR CRUSTAL PETROLOGY, DEPARTMENT OF GEOLOGY, UNIVERSITY OF MARYLAND, COLLEGE PARK, MD 20742-4211, USA

^* Corresponding author. Telephone: +1 301 405 4080. Fax: +1 301 314 7970. E-mail: mbrown{at}geol.umd.edu

Previous studies of metapelitic rocks from the core of the southernBrittany metamorphic belt suggest a complex clockwise P–Tevolution. We use pseudosections calculated for an average subaluminousmetapelite composition in the MnNCKFMASH system and averageP–T calculations to investigate in more detail the metamorphicevolution of these rocks. For migmatites, sequential occurrenceof kyanite, kyanite + staurolite and sillimanite suggests thata prograde evolution to P > 8 kbar at T ${approx}$ 625°C was followedby a P decrease to around 6 kbar at 650°C. Subsequent heatingand burial led to melting as a result of the incongruent breakdownof first muscovite then biotite; at the metamorphic peak (P ${approx}$ 8 kbar, T ${approx}$ 800°C), around 25 mol % melt and >20 mol% garnet are predicted. The retrograde evolution began withconductive cooling, allowing crystallization of melt and retrogradereplacement of garnet by reaction to biotite and sillimanite.Subsequent near-isothermal decompression from around P ${approx}$ 6 kbarto P ${approx}$ 4 kbar was associated with widespread development of cordieriteand a second episode of melt generation. Microstructural relationsin upper amphibolite-facies metapelites from the unit structurallyoverlying the migmatites are consistent with growth of staurolite,andalusite and white mica along the retrograde path. On thebasis of phase relations that account for the quantity of H₂Orequired to saturate a given assemblage, an influx of an H₂O-richvolatile phase is implied, which we infer to have been derivedfrom crystallizing melt in underlying granites. The close correspondenceof predictions from pseudosections to thermobarometric resultsis encouraging, and the complementary approach used has allowedtighter constraints than before to be placed on the P–T–Xevolution of this sector of the Variscides.

KEY WORDS: melting; pseudosections; P–T path; retrograde metamorphism; Variscan

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