Present-Day Crustal Deformation Within the Western Qinling Mountains and Its Kinematic Implications

Abstract

The western Qinling Mountains, located between the East Kunlun fault and the West Qinling fault, hold the key to investigating the outward expansion of the Tibetan Plateau. We use up-to-date GPS observations to derive high spatial–temporal resolution crustal velocity and strain rate fields for this region. Our results suggest that a series of NEE-trending faults bounding the eastern margin of the western Qinling Mountains experience right-lateral strike slip with low rates of ~ 1 mm/yr. In addition, our results suggest that crustal deformation of the western Qinling Mountains could be governed by a right-lateral shear zone trending NNE at a rate of ~ 6 mm/yr, producing a clockwise rotation of subblocks: left-lateral and right-lateral strike slip on the NWW-trending and NEE-trending faults, respectively. The eastward extrusion of the Tibetan Plateau along the western Qinling Mountains is limited further east. In contrast, the NNE-ward expansion of the northeastern Tibetan Plateau is the primary motion which extends through the western Qinling Mountains and the Longxi block. The results of this study improve our understanding of the outward expansion of the Tibetan Plateau influenced by the Indian–Eurasian collision.