4.6 Article

Metamorphic P-T Evolution and In Situ Biotite Rb-Sr Geochronology of Garnet-Staurolite Schist From the Ramba Gneiss Dome in the Northern Himalaya

Journal

FRONTIERS IN EARTH SCIENCE
Volume 10, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/feart.2022.887154

Keywords

phase equilibrium modeling; P-T path; Ramba gneiss dome; E-W extension; northern Himalaya

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The North Himalayan gneiss domes provide important clues for understanding deeper crustal processes and the effects of continent collisional orogenesis. This study focuses on the Ramba gneiss dome and examines the garnet-staurolite-two-mica schist to determine its metamorphic history and timing. The results suggest that the metamorphism occurred during the Eocene epoch and was related to crustal thickening and subsequent exhumation processes.
The North Himalayan gneiss domes provide a window for looking into the deeper crust and record abundant clues of continent collisional orogenesis. This study carried out detailed petrology, in situ LA-ICP-MS biotite Rb-Sr dating, and phase equilibrium modeling on garnet-staurolite-two-mica schist in the Ramba gneiss dome in order to constrain metamorphic P-T evolution and the timing of metamorphism. A clock-wise P-T path, involving an early prograde process that evolves from similar to 540 degrees C at similar to 4.4 kbar to similar to 630 degrees C at similar to 6.0 kbar, was constructed for garnet-staurolite-two-mica schist in the Ramba gneiss dome. In situ LA-ICP-MS biotite Rb-Sr analysis yielded two metamorphic ages of 37.17 +/- 5.66 and 5.27 +/- 3.10 Ma, corresponding to the timing of retrograde cooling and the cooling age of the dome following the thermal resetting by the emplacement of ca. 8 Ma leucogranite pluton in the core of the dome, respectively. The peak metamorphism is inferred to be older than ca. 37 Ma. Based on these results and the data previously published, the garnet-staurolite-two-mica schist recorded the Eocene crustal thickening, following the India-Asia collision and later the exhumation process.

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