Geochemistry, geochronology and Hf isotope of granitoids in the Chinese Altai: Implications for Paleozoic tectonic evolution of the Central Asian Orogenic Belt

摘要

The Chinese Altai in northwestern Xinjiang has numerous outcrops of granitoids which provide critical information on accretionary orogenic processes and crustal growth of the Central Asian Orogenic Belt. Zircon U–Pb ages, Hf-isotopic compositions and whole-rock geochemistry of monzogranite and granodiorites in the Qinghe County are employed to elucidate Paleozoic tectonics of the Chinese Altai. Granodiorites have crystallization ages of 424.6?±?3.1?Ma (MSWD?=?0.23) and 404.0?±?3.4?Ma (MSWD?=?0.18); monzogranite was emplaced in the early Permian with a crystallization age of 293.7?±?4.6?Ma (MSWD?=?1.06). Both granodiorites and monzogranite are I-type granites with A/CNK ratios of 0.92–0.97 and 1.03–1.06, respectively. They also show similar geochemical features of high HREE and Y contents, low Sr contents and Sr/Y ratios, as well as enrichment of Cs, Rb, Th and U, and depletion of Nb, Ta, P and Ti. These geochemical features indicate that the monzogranite and granodiorites were formed in an arc setting related to subduction. The gneissic monzogranites display high SiO 2 and K 2 O contents, and belong to the high-K calc-alkaline series. In the chondrite normalized REE distribution pattern, the monzogranite samples exhibit enrichment of LREE with strong negative Eu anomalies ( δ Eu?=?0.44–0.53), zircon ε Hf ( t ) values from?+7.24 to?+12.63 and two-stage Hf model ages of 463–740?Ma. This suggests that the monzogranite was generated from the mixing of pelitic and mantle material. The granodiorite samples are calc-alkaline granites with lower contents of SiO 2 and Na 2 O?+?K 2 O, higher contents of TiO 2 , Fe 2 O 3 t , MgO and CaO compared to the monzogranite samples. They also show enrichment of LREE and moderate negative Eu anomalies ( δ Eu?=?0.54–0.81), as well as slightly higher differentiation of LREE than that of HREE. The 425?Ma granodiorite has zircon ε Hf ( t ) values from??0.51 to?+1.98 and two-stage Hf model ages of 1133–1240?Ma, whereas the 404?Ma granodiorite displays those of?+2.52 to?+7.50 and 816–1071?Ma. Geochemistry and zircon Hf isotopic compositions indicate that granodiorites were formed by partial melting of juvenile lower crust. Together with regional geology and previous data, the geochemical and geochronological data of the monzogranite and granodiorites from this study suggest long-lived subduction and accretion along the Altai Orogen during ca. 425–294?Ma. Graphical abstract Display Omitted Highlights ? Granodiorites in the Chinese Altai have ages of 424.6?±?3.1?Ma and 404.0?±?3.4?Ma. ? Monzogranite in the Chinese Altai has a crystallization age of 293.7?±?4.6?Ma. ? Granodiorites formed from partial melting of juvenile lower crustal material. ? Monzogranite was generated from mixing of pelitic and mantle material. ? The Chinese Altai was the magmatic arc in a Paleozoic active continental margin.