Aluminum silicates in the Mount Raleigh pendant, British Columbia |
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Authors: | D M KERRICK G J WOODSWORTH |
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Institution: | Department of Geosciences, The Pennsylvania State University, University Park, Pennsylvania 16802, USA; Geological Survey of Canada, 100 West Pender Street, Vancouver, British Columbia V6B 1R8, Canada |
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Abstract: | In regionally metamorphosed pelites of the Mount Raleigh pendant, the fibrolite isograd occurs 5km downgrade from the sillimanite isograd. Fibrolite formed from the decomposition of biotite, a reaction that probably resulted from the late-stage influx of acidic volatiles. In contrast, sillimanite formed by the direct,'volume-for-volume'replacement of andalusite. Andalusite and sillimanite coexist in a 3 km-wide zone above the sillimanite isograd. Electron probe analyses of these phases reveal low minor element contents and yield K D = X ] values close to unity; the low Fe2O3 contents are compatible with reducing conditions implied by the ubiquity of graphite. Because K D → 1.0, the zone of coexisting andalusite + sillimanite cannot be attributed to multivariancy resulting from partitioning of minor elements between these phases. Rather, the metastable persistence of andalusite into the sillimanite P-T stability field is suggested. The modal proportions of sillimanite versus andalusite imply that minimal (<5%) and alusitesillimanite reaction occurred in a zone 1.5km above the sillimanite isograd; in contrast, there was a marked increase in reaction progress immediately above this zone. With an estimated thermal gradient (in the plane of exposure) of approximately 20°C/km, the 1.5 km-wide zone of nil reaction suggests that the andalusite-sillimanite equilibrium boundary was overstepped by about 30 °C before significant reaction occurred. Inclusion-rich areas in andalusite provided favourable sites for sillimanite nucleation ; however, the growth of sillimanite may have been impeded by'pinning'of sillimanite grain boundaries by inclusions. |
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Keywords: | Andalusite fibrolite graphite metapelite metastability sillimanite solid solution |
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