Tectonic-mineralizing Fluids in the Kekesayi Gold Deposit,Qinghe, XinjiangEI北大核心CSCD

The Kekesayi gold deposit is located in the Buergen ductile shear zone in the southern margin of Altay, Qinghe County, Xinjiang. The deposit consists of altered mylonite type and gold-bearing quartz veins type ores. The main ore-bearing rocks are gray metamorphic tuffs of the Tuoranggekuduke Formation. The ores are mostly lenticular and vein, and are strictly controlled by shear bands. Through field investigation, sample collection and laboratory identification, the structural alteration characteristics are studied in detail. The microstructure of quartz is analyzed by SEM cathodoluminescence (SEM-CL). The fluid inclusions of the deposit were studied by means of micro-temperature measurement and laser Raman analysis, and the tectonic-fluid evolution characteristics were discussed. Our results showed that: (1) The gold mineralization is closely related to the structural alteration of the ductile shear zone. The mylonitization, subgrain deformation and fluid structure are developed in the mining area. The recrystallized texture, dissolution structure and multistage composite shear structure characteristics of SEM-CL show that the deformation and metamorphism are very strong. The tectonic-hydrothermal activity resulted in strong silicification and pyritization and closely related to gold mineralization. (2) The fluid inclusions of quartz veins in the mineralized rocks are distributed in groups and the morphology of the fluid inclusions are mostly oval and tadpole in shape. The primary fluid inclusions are distributed in disorder, and the secondary fluid inclusions distribute linearly along the fissures mostly elongated owing to the strong tectonic deformation. Fluid inclusions are not of uniform size, generally are 8-20 μm. The types of inclusions can be classified according to the petrography and micro temperature measurement: two phase aqueous solution type (LH2O-VH2O), carbon-rich type (LH2O-LH2O) and single phase aqueous solution type (LH2O). The evolution of the fluid is characterized by high temperature, low salinity and rich CO2 in the early stage. As the deformation of the shear zone increases in the middle and late stages, the fluid evolved into low temperature, low salinity rich H2O. (3) The Kekesayi gold deposit has the characteristics of orogenic gold deposit, and the evolutionary characteristics of tectonic-ore forming fluids are consistent with the evolution of shear zones. Structural alteration of shear zone is the main controlling factor of mineralization. And magmatic hydrothermal alteration may also play an important role in mineralization. © 2018, Science Press. All right reserved.