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Separation of Au and Sb mineralization in the Qukulekedong intrusion-related deposit, East Kunlun Orogen (NW China): Evidence from fluid inclusions, H–O isotopes, and quartz geochemistry

Ling Xing, Wenchang Li, Xiaobo Zhao, Mei Zang, Fucheng Yang, Yongming Guo, Yujun Shi, Zhengfeng Zhang, Jingfeng Liu, Mengjun Zhang

2023Ore Geology Reviews13 citationsDOIOpen Access PDF

Abstract

Separation of Au and Sb mineralization from different hydrothermal stages is a common phenomenon in many Au–Sb deposits, but its cause remains enigmatic. The Qukulekedong intrusion-related Au–Sb deposit in the East Kunlun Orogen has undergone four hydrothermal stages: (1) barren quartz vein, (2) quartz vein with disseminated arsenopyrite–pyrite alteration halo, (3) stibnite–quartz ± native gold vein, and (4) calcite–quartz vein. Stages 2 and 3 formed disseminated Au and vein-type Sb ± Au ore, respectively. Here, internal texture and trace elements in quartz, fluid inclusions (Fls) microthermometry, and H–O isotopes were analyzed to unravel the separation mechanism of the Au and Sb ± Au mineralization at Qukulekedong. Stage 2 quartz has euhedral growth zones with elevated Ti-Al-Li-K-Sb and varying As contents. Stage 2 FIs have medium homogenization temperature (203–307 °C) and salinity (12.2–17.8 wt% NaCl equiv.), and are CH4-rich. They have δ18OH2O = 9.5–10.8 ‰ and δDH2O = −93.4 to −80.8 ‰. In contrast, stage 3 quartz has lower Ti-Al-Li-K and varying Sb contents. Stage 3 FIs show phase separation (coexistence of V-, L- and V-L-type FIs), and are of lower temperature (141–164 °C) and salinity (2.1–10.7 wt% NaCl equiv.), and CO2– and CH4-bearing. They have δ18OH2O = 3.3–5.2 ‰ and δDH2O = − 95.4 to − 89.6 ‰. Considering that the disseminated Au ore is Sb-rich and its pyrite has fine stibnite inclusions, we suggest that the disseminated Au and vein-type Sb ± Au mineralization shared a common Au- and Sb-rich initial magmatic fluids. The disseminated Au mineralization may have formed by fluid–rock interactions. Meanwhile, the vein-type Sb ± Au mineralization was likely caused by the phase separation and cooling led by dilational activities and meteoric water injection.

Topics & Concepts

StibniteGeologyQuartzFluid inclusionsPyriteGeochemistryMeteoric waterHydrothermal circulationδ34SArsenopyriteVeinMineralogyMineralization (soil science)ChalcopyriteMetallurgySphaleriteMaterials scienceCopperSoil waterSoil sciencePaleontologyPsychologySeismologyPsychiatryGeological and Geochemical AnalysisGeochemistry and Geologic Mappingearthquake and tectonic studies