Using detrital zircons to constrain the late Paleozoic tectonic evolution of the adjacent tectonic domains of the Tarim Craton, NW China

Abstract

Late Paleozoic tectonic evolution of adjacent tectonic domains of the Tarim Craton is vital for understanding the basin-mountain coupling and dynamical mechanisms of the Paleo-Asian and Tethys tectonic systems as well as hydrocarbon exploration and development. U−Pb dating and Lu-Hf isotope analyses of detrital zircons of the Late Paleozoic sedimentary successions from three sections across the Tarim basin enable comprehensive identification of provenance changes and reconstruction of the tectonic evolutionary history of the Tarim Basin in the late Paleozoic. A total of 248, 499, and 470 valid ages were obtained for detrital zircon samples from the Kuqa Section in the northern margin of the Tarim Basin; the Xiaohaizi Section in the platform area; and the Aitegou Section in the southwestern margin of the Tarim Basin, respectively. Each age interval corresponds to the geotectonic thermal events of the opening–subduction–closing of the surrounding oceans and the collage/collision of terranes/island arcs. Based on detailed age spectral analysis and other evidence, we propose a tectonic evolutionary model that encompasses the northern and southwestern margins of the Tarim Basin. The South Tianshan Ocean closed completely in the late Carboniferous, resulting in the collision of the Tarim Basin with the Yili–Middle Tianshan Terranes no later than 315 Ma. In the southwestern part of the Tarim Basin, the Tianshuihai Terrane began to approach in the late Carboniferous, gradually amalgamated with the southwestern margin of the Tarim Basin, and finally wholly collided with the Tarim Basin at the end of the Permian, making the Tarim Basin an entirely terrestrial basin. The southwestern Tarim Basin was not an open passive continental margin in the Carboniferous–Permian but a retro-arc basin.