Abstract

Abstract The Shicaogou granite has been identified as a magnesian (Fe‐number=0.71–0.76), calcic to calc‐alkalic (MALI=3.84–5.76) and peraluminous (ASI=1.06–1.13) granite of the syn‐collisional S‐type, with high SiO2 (>71%), Al2O3 (>13%) and Na2O+K2O (6.28%–7.33%, equal for NaO2 and K2O). Trace element and REE analyses show that the granite is rich in LILE such as of Rb, Sr, Ba and Th, and poor in HFSE like Yb, Y, Zr and Hf. Its Rb/Sr ratio is greater than 1; the contents of Nb and Ta, and the ratio of Nb/Ta as well as the REE geochemical features (e.g. REE abundance, visible fractionation of LREE and HREE and medium to pronounced negative Eu anomalies) are all similar to those of crust‐origin, continent‐continent syn‐collisional granite. Moreover, the granite exhibits almost the same pattern as that of the typical continent‐continent syn‐collisional granite on the spider diagram and all samples fall within the syn‐collisional granite field.The cathodoluminescence (CL) investigations have revealed that the zircon from the Shicaogou granite represents a typical magmatic product characterized by its colorless, transparent and euhedral crystals, and distinct zoning of oscillatory bands. Residual cores of irregular zircon can be found in a few enhedral grains. Trace element studies of the zircon grains, with high contents of P, Y, Hf, Th, U and REE and high ratios of Th/U, obviously positive Ce anomalies and HREE enrichment compared to LREE, also result in the same conclusion.The LA‐ICP‐MS U‐Pb isotopic data from 24 spots of 21 zircon grains demonstrate that 20 spots in the oscillatory zone yield an average weighted 206Pb/238U age of 925±11 Ma, indicating that the Shicaogou granite was formed in the Neoproterozoic. Combined with other Neoproterozoic syn‐collisional granites found in the study area, the present geochronological determination can further reveal that collision‐amalgamation events could have occurred among some continental blocks in the Qinling orogenic belt during the Neoproterozoic. This in turn provides an accurate chronological constraint on the Neoproterozoic break‐up and convergence in the belt.

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