Abstract:South China was characterized as widespread magmatic activities during the Late Mesozoic and of particular close association with economically abundant mineralization according to the accumulation of metal elements, in which diagenesis and ore-forming processes has been the main involved contents of research objectives for the Mesozoic great granite province. Granodiorite porphyries and granites are almost simultaneous with the Cu-Mo mineralization within the Jintonghu orefield. In order to determine the genetic relationship between these intrusions and Cu-Mo mineralization, whole rock major, trace element and Sr-Nd isotope analyses of the granodiorite porphyries and granites in the Jintonghu deposit were carried out. The granodiorite porphyries were classified as weakly pre-aluminous granites, showing an adakitic affinity. Detailed petrologic and geochemical data indicate that these granodioritic intrusions are derived directly from a metasomatized enriched mantle source, and the fractional crystallization processes play a key role in the formation of them. By contrast, the granites are classified as pre-aluminous, demonstrating that the intrusion might have undergone the fractional crystallization of plagioclase during magma ascent. The Sr-Nd isotopic compositions preclude that the initial magmas of the granites are dominantly sourced from the Proterozoic crustal basement metirals and juvenile or enriched mantle compositions. Interpretation of the elemental and isotopic data suggests that the granite is likely derived from partial melting of the early deep-seated magmatic rocks. The granodiorite porphyries and granites are emplaced in a back-arc extensional setting resulted from a forward and roll-back of the subducted paleo-Pacific slab under an active continental margin environment.

Key words: granite; granodiorite; trace element; Sr-Nd isotope; Jintonghu; Fujian province