Timing of carbonatite-hosted U-polymetallic mineralization in the supergiant Huayangchuan deposit, Qinling Orogen: Constraints from titanite U–Pb and molybdenite Re–Os dating

The newly-discovered supergiant Huayangchuan uranium (U)-polymetallic (Sr, Se, REEs, Ba, Nb and Pb) deposit is located in the Qinling Orogen, central China. The deposit underwent multistage mineralization, with the main carbonatite ore stage being the most important for the U, Nb, REE, Sr and Ba endowments. According to the mineral assemblages, the main carbonatite ore stage can be divided into three substages, i.e., sulfate (Ba–Sr), alkali-rich U and REE-U mineralization. Main-stage titanite from the Huayangchuan igneous carbonatite are rich in high field strength elements (HFSEs, e.g., Zr, Nb and REEs), and show clear elemental substitutions (e.g., Ti vs. Nb ​+ ​Fe ​+ ​Al and Ca ​+ ​Ti vs. Fe ​+ ​Al ​+ ​REE). High-precision LA-ICP-MS titanite dating yielded a U–Pb age of 209.0 ​± ​2.9 ​Ma, which represents the main-stage mineralization age at Huayangchuan, and is coeval with the local carbonatite dyke intrusion. This mineralization age is further constrained by the Re–Os dating of molybdenite from the Huayangchuan carbonatite, which yielded a weighted mean age of 196.8 ​± ​2.4 ​Ma. Molybdenite Re contents (337.55–392.75 ​ppm) and C-O-Sr-Nd-Pb isotopic evidence of the Huayangchuan carbonatite both suggest a mantle origin for the carbonatite. Our study supports that the Late Triassic carbonatite magmatism was responsible for the world-class U-Mo-REE mineralization in the Qinling Orogen, and that the regional magmatism and ore formation was likely caused by the closure of the Mianlue ocean and the subsequent North China-South China continent-continent collision. [Display omitted] •HFSE-rich titanite closely related to U mineralization in supergiant Huayangchuan deposit.•Molybdenite in Huayangchuan carbonatite contains Re contents, implying a mantle origin of the carbonatite.•Carbonatite ore-related titanite and molybdenite were dated to be ca. 209.0 ​Ma and 196.8 ​Ma, respectively.•New age data suggest Late Triassic carbonatite magmatism and mineralization in the Qinling Orogen.