Re–Os pyrite and U–Pb zircon geochronology from the Taldybulak Levoberezhny gold deposit: Insight for Cambrian metallogeny of the Kyrgyz northern Tien Shan

Abstract

The Taldybulak Levoberezhny gold deposit, located in the eastern part of the Kyrgyz Northern Tien Shan, is hosted in highly deformed Precambrian schist and gneisses that have undergone intense quartz, carbonate, fuchsite and tourmaline alterations. Gold mineralization is ultimately subdivided into two stages based on the observation of alteration assemblages, orebody geometries, and the occurrences of Au-bearing minerals. Negative thermal ionization mass spectrometry Re–Os isotopic analyses of five Au-rich pyrite samples from the early stage yielded an isochron age of 511±18Ma. Zircon sensitive high-resolution ion microprobe U–Pb dating of a diorite dike sample postdating the late stage mineralization yielded a wide range of ages from 3055 to 291Ma, while a weighted mean 206Pb/238U age of 414.6±6.8Ma is believed to represent the age of dike intrusion and the upper limit on the timing of the late stage quartz–tourmaline–gold formation. The pyrite 187Os/188Os(initial) ratio of 0.132±0.011, together with γOs values varying from 0 to +14, indicate a major mantle component for the source of Os and by inference ore metals, which may be linked to the ophiolite suite of the Kopurelisai Complex in the Taldybulak Levoberezhny area. Considering the geodynamic setting of the Kyrgyz Northern Tien Shan during the early Paleozoic, we suggest that Cambrian mineralization of the Taldybulak Levoberezhny deposit can be attributed to a subduction-related setting, probably associated with the earliest accretion of the Northern Tien Shan.