Metamorphic P-T path and zircon U-Pb dating of HP mafic granulites in the Yushugou granulite-peridotite complex, Chinese South Tianshan, NW China

摘要

Graphical abstractDisplay OmittedHighlights•Three-stage metamorphism of HP mafic granulites in Yushugou has been recognized.•The U-Pb zircon ages of three metamorphic stages have been reported in this paper.•An anticlockwise PT path for HP mafic granulites in Yushugou is proposed.AbstractCo-existing granulite and peridotite may represent relics of the paleo-suture zone and provides an optimal opportunity for better understanding of orogeny between two blocks. In this study, we carried out petrological and U-Pb zircon dating investigation on the HP mafic granulites associated with peridotite complex at Yushugou in Chinese South Tianshan. The studied samples include garnet-bearing high-pressure mafic granulites which can be subdivided into two types: Type I orthopyroxene-free and Type II orthopyroxene-bearing granulites and amphibolite. Type I granulite (Y21-2) has a mineral assemblage of garnet (33vol.%), clinopyroxene (32vol.%) and plagioclase (30vol.%); and Type II granulite (Y18-8) has a mineral assemblage of garnet (22vol.%), clinopyroxene (10vol.%), orthopyroxene (14vol.%), plagioclase (45vol.%) and quartz. Garnet in both granulites exhibits core-rim structure characterized by increasing grossular and decreasing pyrope from core to rim. Petrographic observations and phase equilibrium modeling using THERMOCALC in the NCFMASHTO system for the mafic granulites (Y21-2 and Y18-8) show three stages of metamorphism: Stage I (granulite facies) was recognized by the large porphyroblastic garnet core, with P-T conditions of 9.8–10.4Kbar and 860–900°C (Y21-2) and 9.9–10.6Kbar and 875–890°C (Y18-8), respectively; Stage II (HP granulite facies) has peak P-T conditions of 12.1Kbar at 755°C (Y21-2) and 13.8Kbar at 815°C (Y18-8) using mineral assemblages combining with garnet rim compositions with maximum grossular and minimum pyrope contents; Stage III (amphibolite facies) was characterized by the development of calcic amphibole in granulites with temperature of 446–563°C. Therefore, an anticlockwise P-T path characterized by simultaneous temperature-decreasing and pressure-increasing was inferred for the Yushugou HP mafic granulite. Studies of zircon morphology and inclusions, combined with zircon U-Pb dating and REE geochemistry indicate that their protolith’s ages of the mafic granulites were ∼430Ma, while the metamorphism could occur at three stages with ages of ∼390Ma, ∼340Ma and ∼320Ma, which may correspond to Stage I, II and III, respectively. We interpret the HP mafic granulites from the Yushugou granulite-peridotite complex to be formed by the cooling subduction of the lower crustal rocks from the hanging wall of central Tianshan block during the northward subduction of the south Tianshan paleo-ocean from Devonian to Carboniferous.