Abstract Uplift of the Tibetan Plateau and the distribution of deformation across it are the
result of India-Asia collision, which bring an opportunity of understanding intracontinental …

The growth history and formation mechanisms of the Cenozoic Tibetan Plateau are the
subject of an intense debate with important implications for understanding the kinematics …

A key issue in the Cenozoic evolution of the Tibetan plateau is the geodynamic drivers for
north‐trending rifting in southern Tibet. Recent studies have demonstrated an eastward …

Abstract The Proterozoic‐Phanerozoic evolution of the Tarim and North China cratons is
integral to the construction of the Eurasian continent. Throughout the Paleozoic, these …

Abstract The northern Qilian Shan, located along the northeastern margin of the Tibetan
Plateau, experienced multiple phases of orogeny throughout the Phanerozoic, culminating …

Abstract The Eastern Tian Shan, one of the most active intracontinental orogenic belts,
should bear important information on the mechanisms of intracontinental mountain building …

The uplift of the Tianshan and Pamir Mountains/Areas are caused by active intracontinental
tectonic movements. The dynamic mechanism is controversial and has aroused great …

The Tian Shan is one of the world's largest intracontinental orogens and provides an
excellent example for deciphering the intracontinental responses to the tectonics of plate …

The convergence of India and Eurasia, which began in the early Cenozoic, established the
Tibetan Plateau and the Circum-Tibetan Plateau Basin and Orogen System. When and how …

Although two phases of Cenozoic crustal deformation in the Qilian Shan thrust belt of
northeastern Tibet has been documented, their dynamic causes remain unclear. To address …