Fluid-absent Melting of High-grade Semi-pelites: P-T Constraints on Orthopyroxene Formation and Implications for Granulite Genesis

doi:10.1093/petrology/43.11.2121

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Journal of Petrology | Volume 43 | Number 11 | Pages 2121-2142 | 2002
© Oxford University Press 2002

Fluid-absent Melting of High-grade Semi-pelites: P–T Constraints on Orthopyroxene Formation and Implications for Granulite Genesis

RAJEEV NAIR^*^, and THOMAS CHACKO

DEPARTMENT OF EARTH AND ATMOSPHERIC SCIENCES, UNIVERSITY OF ALBERTA, EDMONTON, ALBERTA, CANADA T6G 2E3

Rocks of semi-pelitic composition are common in high-grade terranes.The first appearance of orthopyroxene in these rocks marks thetransition from amphibolite- to granulite-facies conditions,and is commonly attributed to the process of fluid-absent partialmelting. We have conducted fluid-absent melting experimentson two natural semi-pelitic rocks (quartz, plagioclase, alkalifeldspar, biotite and garnet) with the specific objective ofdetermining the pressure–temperature conditions necessaryto produce orthopyroxene. In contrast to previous experimentalstudies, our starting materials were obtained from a transitionalamphibolite–granulite terrane. Importantly, the high TiO₂(>5 wt %) and F (>1 wt %) contents of biotite in our experimentsare more representative of biotite found in rocks on the vergeof granulite-facies conditions than those used in earlier studies.Experiments were conducted in a piston-cylinder apparatus at800–1050°C and 7–15 kbar. We reversed the firstappearance of orthopyroxene in two-stage experiments at 7 and10 kbar. Fluid-absent melting of biotite began at $~$ 875°Cwith the production of a garnet–alkali-feldspar-bearingassemblage, and progressed with rising temperature to the generationof a garnet–orthopyroxene–alkali-feldspar-bearingassemblage. The initiation of the orthopyroxene-forming reaction,biotite + plagioclase + quartz = orthopyroxene + garnet + K-feldspar+ melt, was bracketed between 925 and 950°C at 7 kbar, andat 1025 and 1050°C at 10 kbar. At pressures >10 kbar,orthopyroxene appeared at temperatures below 1035°C, suggestinga steepening and possibly a back-bend in the slope of the reaction.Our results indicate that temperatures of at least 875–1025°Care required to stabilize orthopyroxene under fluid-absent conditionsat mid- to lower-crustal depths (5–15 kbar). This estimateis 40–120°C higher than reported in previous experimentalstudies on rocks of similar bulk composition. We attribute thedifference to the higher Ti and F content of biotite in ourstarting materials, which stabilizes it to higher temperatures.The temperatures of fluid-absent orthopyroxene formation indicatedby our experiments are also much higher than the 700–800°Ctemperatures reported for many orthopyroxene-bearing assemblagesin amphibolite–granulite transitional terranes. One explanationfor this discrepancy is that the geothermometers used to calculatetemperatures for these transitional terranes grossly underestimatedpeak metamorphic temperatures. Alternatively, granulite formationin some of those terranes may not have been fluid absent, butinvolved the influx of low water activity fluids.

KEY WORDS: biotite; fluid-absent melting; granulite; metasediments; orthopyroxene

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