期刊: TECTONOPHYSICS, 2021; 806 ()
The Qinling-Dabie orogenic belt was formed during the collision between the North China Craton and the Yangtze Block. A large volume of the high-press......
期刊: TECTONOPHYSICS, 2021; 803 ()
Some Asian blocks were welded into Gondwana, whereas their positions in Gondwana are controversial, especially the Tarim Craton. This is mainly becaus......
期刊: TECTONOPHYSICS, 2021; 811 ()
With the purpose of exploring the widely distributed Mesozoic granitoids in SE China and the related mineralization, we carried out a new 530-km-long ......
期刊: TECTONOPHYSICS, 2021; 809 ()
East-central China has experienced multi-stage evolution among different tectonic units; thus the present geological structures are superimposed in a ......
期刊: TECTONOPHYSICS, 2021; 813 ()
It has long been debated whether the formation of the Cenozoic Weihe and Shanxi grabens in North China was induced by the Indo-Asia collision or Pacif......
期刊: TECTONOPHYSICS, 2021; 816 ()
Constraining the Cenozoic uplift of Tian Shan is important for assessing the impact of the India-Asia collision to Central Asia. Here we estimate the ......
期刊: TECTONOPHYSICS, 2021; 815 ()
The Cenozoic evolution of the Altyn Tagh Fault (ATF) is still under debate. Here, we present new paleomagnetic rotation evidence on curvatures south o......
期刊: TECTONOPHYSICS, 2021; 809 ()
Taiwan Strait is located between the actively deforming Taiwan Island and stable South China Craton. While strong earthquakes have occurred on the eas......
期刊: TECTONOPHYSICS, 2021; 814 ()
The convergence between the Eurasian Plate and the Philippine Sea Plate results in rapid uplifting of the Taiwan Orogen. To study the mountain buildin......
期刊: TECTONOPHYSICS, 2021; 806 ()
The Tanlu fault is the largest strike-slip fault in eastern China. It has experienced multiple episodes of tectonic activity suggested mostly by near-......
期刊: TECTONOPHYSICS, 2021; 816 ()
The Central Asian Orogenic Belt (CAOB) is the largest accretionary orogenic belt in the world. The Songnen and Jiamusi blocks, which are located along......
期刊: TECTONOPHYSICS, 2021; 803 ()
The deep reflection seismic method is an effective technique for detecting the fine structures of the lithosphere and solving deep geological problems......
期刊: TECTONOPHYSICS, 2021; 811 ()
The crust of southern Tibet shows strong azimuthal and radial seismic anisotropies. However, their origin has remained ambiguous. Here we characterize......
期刊: TECTONOPHYSICS, 2021; 804 ()
The structure and rheology of lithosphere are fundamental to understanding lithospheric deformation operating within the Tibetan plateau and hence hol......
期刊: TECTONOPHYSICS, 2021; 811 ()
Understanding the role of southeastern Tibetan thrust faults in the development of plateau topography is key to our assessment of the geodynamic proce......
