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@article{2247305, author = {Abdale, Lindsey and Belley, Philippe M. and Groat, Lee A. and Cempírek, Jan and Škoda, Radek and Wall, Corey}, article_number = {February}, doi = {http://dx.doi.org/10.1016/j.lithos.2022.106992}, keywords = {Corundum; Muscovite; Leucosome; Metamorphic core complex; Partial melting; Metamorphism}, language = {eng}, issn = {0024-4937}, journal = {Lithos}, title = {Corundum genesis at the Blue Jay Sapphire occurrence (British Columbia, Canada) as a record of metamorphism and partial melting in the Monashee Complex}, url = {https://doi.org/10.1016/j.lithos.2022.106992}, volume = {438-439}, year = {2023} }
TY - JOUR ID - 2247305 AU - Abdale, Lindsey - Belley, Philippe M. - Groat, Lee A. - Cempírek, Jan - Škoda, Radek - Wall, Corey PY - 2023 TI - Corundum genesis at the Blue Jay Sapphire occurrence (British Columbia, Canada) as a record of metamorphism and partial melting in the Monashee Complex JF - Lithos VL - 438-439 IS - February SP - 1-23 EP - 1-23 PB - Elsevier B.V. SN - 00244937 KW - Corundum KW - Muscovite KW - Leucosome KW - Metamorphic core complex KW - Partial melting KW - Metamorphism UR - https://doi.org/10.1016/j.lithos.2022.106992 N2 - The sapphire (corundum) occurrence near Revelstoke, British Columbia, Canada, occurs in the Monashee Complex of the Omineca Belt of the Canadian Cordillera. Corundum occurs in boudins or pod-like zones of restite within a garnet-bearing leucosome. Both zones are peraluminous and contain plagioclase, K-feldspar, and biotite and muscovite as the dominant mineral phases. Relative to the leucosome, the corundum-pods are slightly depleted in SiO2 (55.28 wt% in corundum-pods vs. 62.7 wt% in leucosome) and K2O (4.74/7.05 wt%) and enriched in Al2O3 (22.57/21.97 wt%), Fe2O3 (5.96/2.11 wt%), TiO2 (0.71/0.21 wt%), CaO (0.68/0.60 wt%), and MgO (0.59/0.28 wt%). The peraluminous nature of the corundum-bearing pods is consistent with partial melting of a metapelitic protolith. Similar chemical compositions between the corundum-pods and garnet-leucosome are interpreted to infer a single, in situ partial melting event. Coinciding melt-compatible and incompatible elements suggest a closed system. Igneous textures in thin section (coarse-grained, euhedral corundum; twinning in plagioclase; small cuspate-shaped biotite, and myrmekitic intergrowths of feldspars) confirm a partial melt origin. Petrography and thermodynamic models reveal that corundum growth and partial melting was fueled by the breakdown of muscovite along the prograde P-T path. Whole-rock geochemistry of the leucosome groundmass devoid of garnet shows high Sr/Y and La/Yb ratios indicative of garnet fractionation, and garnet mineral chemistry are Ca-poor indicating garnets crystallized from the peraluminous partial melts at peak P-T conditions. 206Pb/238U ages of garnet-equilibrated zircon indicate that peak metamorphic conditions occurred at or before ∼60.69 Ma. Continued zircon growth until 50.22 Ma tracks the presence of continued partial melt following peak metamorphism during nearly-isothermal decompression. A resulting P-T-t path for basement rocks form the Thor-Odin dome constrains the timing of peak metamorphism and ensuing partial melting events during Cordilleran orogenesis. ER -
ABDALE, Lindsey, Philippe M. BELLEY, Lee A. GROAT, Jan CEMPÍREK, Radek ŠKODA and Corey WALL. Corundum genesis at the Blue Jay Sapphire occurrence (British Columbia, Canada) as a record of metamorphism and partial melting in the Monashee Complex. \textit{Lithos}. Elsevier B.V., 2023, 438-439, February, p.~1-23. ISSN~0024-4937. Available from: https://dx.doi.org/10.1016/j.lithos.2022.106992.
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