U-Pb geochronology, isotope systematics, and geochemical characteristics of the Triassic Dasuji porphyry Mo deposit, Inner Mongolia, North China: Implications for tectonic evolution and constraints on the origin of ore-related granitoids

The Dasuji porphyry Mo deposit is located in the Wulanchabu area of Inner Mongolia, within the northern Nortl China Craton (NCC). Three phases of Mesozoic felsic intrusions have been recognized in the mining area, in eluding two pre-mineralization intrusions (i.e., a quartz porphyry and a granite porphyry) with molybdenite bearing stockworks and veins, and an ore-related granite porphyry with disseminated and stockwork Mo mineralization. Zircon U-Pb-Hf analyses, intergrated with the previously reported molybdenite Re-Os isochror ages, suggest that the Mo mineralization of the Dasuji deposit occurred in the Late Triassic (222-224 Ma) am that the ore-related granitoids were derived from partial melting of old lower crust, with a subordinate contribution from mantle materials. Major and trace element analyses show that the pre-ore granite porphyr! (227 Ma) and the ore-related granite porphyry (224 Ma) are both characterized by high silica contents ant relatively high levels of oxidation, with a high differentiation index (DI = 85.0-98.8). The granitoids belong tc the high-K calc-alkaline series and are highly peraluminous, with depletion in Ba, Sr, P, Eu, and Ti, showing similar geochemical characteristics to those of post-collision-related granitoids in North China. Based on geological, geochronological, isotope systematic, and geochemical studies, integrated with regional geological in formation, we suggest that the Dasuji Mo deposit was formed in a post-collisional setting associated with the transition from regional compression to extension between the NCC and the Central Asian Orogenic Belt (CAOB during the Late Triassic.