Northeastern Section - 48th Annual Meeting (18–20 March 2013)

Paper No. 3
Presentation Time: 8:40 AM

LINKING METAMORPHIC TEXTURES TO U-PB MONAZITE IN-SITU GEOCHRONOLOGY TO DETERMINE THE AGE AND NATURE OF ALUMINOSILICATES-FORMING REACTIONS IN THE NORTHERN MONASHEE MOUNTAINS, BRITISH-COLUMBIA


GERVAIS, Felix, Civil, geological, mining engineering, Polytechnique Montreal, 2900, boul. Édouard-Montpetit, Campus de l'Université de Montréal, 2500, chemin de Polytechnique, Montreal, QC H3T 1J4, Canada and HYNES, Andrew, Earth and Planetary Sciences, McGill University, 3450 University Street, Montreal, QC H3A 2A7, felix.gervais@polymtl.ca

The Monashee Mountains of the Canadian Cordillera are thought to expose a classic Barrovian-facies series of isograds. The timing of aluminosilicate growth in the region was determined for four pelitic schist samples by combining textural relationships with monazite compositional zoning and monazite U-Pb geochronology conducted directly on thin-sections by the laser ablation method. Three distinct phases of kyanite growth are recorded in the kyanite zone: at c. 153 Ma, between 122 and 94 Ma and between 76 and 58 Ma. For each phase, monazite and garnet grew synchronously with kyanite, probably by a reaction involving the breakdown of staurolite. In contrast, sillimanite growth by muscovite dehydration melting occurred at or before c. 104 Ma in the sillimanite zone. Retrograde sillimanite grew in the kyanite zone by the influx of hot, acidic fluids during top-to-the-east shearing at ca. 71 Ma. These results indicate that rocks metamorphosed at different places and different times in the orogen were juxtaposed prior to being overprinted at the sillimanite grade in the Late Cretaceous-Early Paleocene during the influx of hot fluids in a structurally coherent body deforming by easterly directed shearing. This study also provides new insight into monazite petrogenesis and suggests that, at least in some circumstances, monazite formation is linked to the staurolite-out reaction that produces kyanite.