Tectonothermal transition from continental collision to post-collision: Insights from eclogites overprinted in the ultrahigh-temperature granulite facies (Yadong region, central Himalaya)

Eclogites and granulites are fossil records of orogenies and provide crucial evidence of geodynamic processes. Incomplete knowledge on both hampers the establishment of detailed tectonothermal models for the central Himalaya. Utilizing detailed petrography, pseudosection modelling, mineral thermometers, and zircon petrochronology, the granulitized eclogites discovered firstly at Yadong region at the southern tip of the Yadong-Gulu Rift record five metamorphic stages. The epidote-amphibole eclogite facies metamorphism (M1) is preserved in the garnet core including the relics of omphacite. The peak eclogite facies metamorphism (M2) is represented by the garnet rim and meltrelated polymineralic inclusions. From M1 to M2, the eclogites experienced a prograde path from 1.7 GPa/620 degrees C to 2.1 GPa/750-770 degrees C. The clockwise pressure-temperature path, the occurrence as coherent layers in gneiss, and zircon U-Pb dating imply that the Indian crust subducted to a maximum depth of -, 60 km in the central Himalaya, close to the Moho of southern Lhasa block at c. 17 Ma. Afterwards, the exhumation started with decompressional heating. In the high-pressure granulite facies metamorphism (M3), almost all the omphacite broke down to the symplectites of diopside and plagioclase. The subsequent two-pyroxene granulite facies metamorphism (M4) is characterized by the intergrowth of clinopyroxenes and orthopyroxenes, high-Ti amphibole, and antiperthite. The exhumed eclogites eventually reached ultrahightemperature conditions of similar to 0.8 GPa/950-1,000 degrees C in M4 and were near completely transformed into mafic granulites. At the final stage, these granulitized eclogites cooled in the middle crust to amphibolite facies (M5) of 0.6 GPa/700-750 degrees C. Given the spatio-temporal consistencies between the granulitized eclogites, post-collisional magmatism, and north-trending rifts, the heat source of the ultrahigh-temperature metamorphism was attributed to the upwelling of asthenospheric mantle due to slab tear of subducted Indian lithosphere. The granulitized eclogites from Yadong evolved from the high-pressure eclogite to the ultrahigh-temperature granulite facies, which recorded the transitions from collisional convergence to post-collisional extension during their exhumation.