Tectonometamorphic Evolution of the Eastern Tibet Plateau: Evidence from the Central Songpan-Garze Orogenic Belt, Western China

doi:10.1093/petrology/44.2.255

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Journal of Petrology | Volume 44 | Number 2 | Pages 255-278 | 2003
© Oxford University Press 2003

Tectonometamorphic Evolution of the Eastern Tibet Plateau: Evidence from the Central Songpan–Garzê Orogenic Belt, Western China

M.-H. HUANG¹, I. S. BUICK¹^,* and L. W. HOU²

¹DEPARTMENT OF EARTH SCIENCES, LA TROBE UNIVERSITY, BUNDOORA, VIC. 3086, AUSTRALIA
²SICHUAN EXPLORATION BUREAU OF GEOLOGY AND MINERAL RESOURCES, CHENGDU, 610081, P.R. CHINA

The Songpan–Garzê Orogenic Belt (northeastern TibetPlateau) experienced polyphase deformation and metamorphismthat is best developed in the Danba Domal Metamorphic Terrane(DDMT), in which three tectonometamorphic events can be identified.The first event (D₁–M₁) is characterized by prograde sericite-to kyanite-grade Barrovian metamorphism during late Indosinian( $~$ 205–190 Ma) crustal thickening and shortening. A subsequentearly Yanshanian ( $~$ 165 Ma) sillimanite- to migmatite-grade event(M₂) developed during predominantly east–west compression(D₂). A final greenschist-facies event (M₃) is best developedin shear zones of probable Himalayan age. P–T conditionsduring M₁ varied from $~$ 3–5 kbar and $~$ 410–530°C(biotite zone) to 5·3–8 kbar and 570–600°C(staurolite and kyanite zones), and during M₂ from 4·8–6·3kbar and 640–680°C (sillimanite zone) to 5·8–6·2kbar and 660–725°C (migmatite zone). Clockwise P–T–tsegments were inferred for the staurolite, kyanite and sillimanitezones. Muscovite-dehydration melting duringM₂ was largely responsiblefor the generation of migmatites and locally voluminous pegmatites.The polyphase tectonometamorphic evolution of the eastern TibetPlateau, as documented in the Danba area, resulted from interactionsbetween the Indian, Tibet, and the South and North China Blocks.The eastern Tibet Plateau experienced limited uplift duringthe Mesozoic, followed by large-scale uplift and rapid coolingduring the Tertiary Himalayan Orogeny.

KEY WORDS: Barrovian-type metamorphism; migmatites; P–T–t path; partial melting; Tibet Plateau

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