2014 GSA Annual Meeting in Vancouver, British Columbia (19–22 October 2014)

Paper No. 316-5
Presentation Time: 10:00 AM

POST-COLLISIONAL MAGMATISM:CONSEQUENCES OF UHPM TERRANE EXHUMATION AND OROGEN COLLAPSE, N. QAIDAM UHPM BELT, NW CHINA


WANG, Mengjue, MOE Key Laboratory of Orogenic Belt and Crustal Evolution, School of Earth and Space Sciences, Peking University, 5 Yiheyuan RD, Peking University, Beijing, 100871, China, SONG, Shuguang, MOE Key Laboratory of Orogenic Belts and Crustal Evolution, Peking University, Beijing, 100871, China, NIU, Yaoling, Department of Earth Sciences, Durham University, Durham DH1 3LE, UK, Durham, United Kingdom and SU, Li, Institute of Earth Sciences, Chinese University of Geosciences, Beijing, 100083, China

Exhumation of subducted slabs and extensional collapse of orogen are main tectonic processes in ancient and modern continental collisional zones. Magmatism during these two processes may play important roles in understanding reworking and growth of the continental crust. We report here that a series of plutonic magmas, including intrusions of two-mica granite, tonalite, granodiorite, biotite monzogranite, porphyritic biotite granite and diorite, as well as contemporaneous mafic dykes, have been recognized in Dulan eclogite-bearing terrane, the North Qaidam ultra-high pressure metamorphic (UHPM) belt. The magmatism represented by these plutons is temporally ~20-30 M.y.s younger than the UHPM age, lasting for ~ 40 M.y.s and derived from different sources with different mechanisms. The magmatism was initiated by exhumation of UHPM terranes during which strongly-peraluminous two-mica granite and metaluminous tonalite were produced respectively by decompression melting of the exhumed UHPM upper and lower continental crust, respectively. The genesis of MME-hosting granodiorite and coeval biotite monzogranite reflected the upwelling of asthenospheric mantle by extension of lithosphere during the orogen collapse. It was induced by detachment of the subducted lithospheric mantle, which then brought heat and mantle material into continental crust and triggered the partial melting of the exhumed UHPM continental crust, and gave rise to mixing of crustal and mantle melts. Porphyritic biotite granite reflects a late melting event of continental crust. Diorite marked by high magnesium content represents mantle melts with slight crustal contamination, which implies that the orogen has been unrooted and collapse completely. The post-collisional magmatism of the North Qaidam belt provides an improved understanding for the late thermal and tectonic evolution of UHP continental collision zone.