Home to some of the highest mountains in the world–including the legendary Mount Everest–the vast Himalayan-Tibetan plateau is often referred to as the “Roof of the World”. With an average elevation of 4500 meters above the sea level, the plateau towers over the rest of East and South Asia.
The concept behind the orogeny, or the formation of this mountainous region, is well understood. The portion of the Earth’s crust under the ocean is swallowed by the deeper layers of the Earth in a process called subduction, pulling two continental plates together and making one of them ‘fold’ over the other, leading to the production of mountains.
The Himalayan-Tibetan plateau is one of the most representative instances of intercontinental collision. Geophysicists have long believed that it is the ideal playground to study and untangle continental convergence, and thus plate tectonics. To that effect, scholars have been conducting seismic tests in the area since the 1950s.
Now, after decades of research, a team of Chinese scholars have published a study in Earth Science Frontiers, describing the structure of the crust under the Himalayan-Tibetan plateau, as well as the deep behaviors underlying the ongoing India-Eurasia collision. “The Himalayan-Tibetan plateau can be considered a sort of Rosetta Stone to unlocking the mysteries of continent-continent collision. The area can be regarded as the natural laboratory to investigate the phenomenon,” says Professor Gao Rui of the Sun Yat-sen University, first author of the study.
The study utilizes a method called deep seismic reflection profiling to determine the fine architecture within the Tibetan Plateau. The technique involves sending artificially generated sound waves into the ground, where they meet different objects and structures which bounce back a portion of the sound waves. These sound waves are then detected and recorded on the surface and processed to develop a visual of the underground structure. The enormous size of the Tibetan Plateau, its height, and its inclement weather conditions are all factors that have contributed to the scale and difficulty of this daunting task.
Chinese scholars studied the Tibetan Plateau using deep seismic reflection profiling for over 20 years, overcoming several technical difficulties and bottlenecks to access the lowermost layer of the crust and the Mohorovicic discontinuity, or Moho. The Moho describes the boundary between the crust and the next layer of the earth, the mantle. The research team systematically documented the Tibetan Plateau’s ongoing continental deformation and subduction processes in all directions as well as the Plateau’s hinterland.
Their discoveries can be summarized in four key points. First, the Indian crust is experiencing northward subduction while its lower layers are varying in their thickness. Second, the subducting front of the Indian crust is in deep contact with the lower crust and the mantle ‘suture’ of the Eurasian plate. Third, a crustal-scale vertical collision occurred between two regions of the Plateau, the Tethyan Himalayas and the Lhasa terrane. Finally, the Eurasian plate is subducting in a southward direction under the Qilian Mountains, resulting in a northward advancement of the Qilian crust.
Of their findings, Prof. Gao says, “What makes the Himalayan-Tibetan Plateau so unique? Our study has the answers to that question. It also makes an enormous contribution to our understanding of the construction of continental orogenic range-basin systems.”
The results of the study are sure to bring ‘seismic’ change in our understanding of the Earth’s crust, enabling us to better explore and exploit our natural resources and promising great strides to the fields of geophysics and tectonics.
Authors: Gao Rui (1,2,3,4), Zhou Hui(1), Guo Xiaoyu(1), Lu Zhanwu(2), Li Wenhui(2), Wang Haiyan(2), Li Hongqiang (2), Xiong Xiaosong (3), Huang Xingfu (5), and Xu Xiao(1)
Title of original paper: Deep seismic reflection evidence on the deep processes of tectonic construction of the Tibetan Plateau
Journal: Earth Science Frontiers
- School of Earth Sciences and Engineering, Sun Yat-Sen University, China
- Institute of Geology, Chinese Academy of Geological Sciences, China
- Chinese Academy of Geological Sciences, China
- School of Earth Exploration Science and Technology, Jilin University, China
- College of Earth Sciences, Guilin University of Technology, China
About Earth Science Frontiers
Earth Science Frontiers is a bimonthly peer reviewed scholarly journal co-sponsored by the China University of Geosciences (Beijing) and Peking University. It was first published in 1994, and academician Wang Chengshan is the current Editor-in-Chief. Each issue of the journal is centered on a specific geoscience topic and managed by experts in that field as Guest Editors. Each issue also contains a number of articles on self-select subjects. Articles published on Earth Science Frontiers cover all disciplines of earth sciences with emphasis on frontier and innovative basic research. At the same time, the journal also publishes research findings that may be considered contentious. Over the years, Earth Science Frontiers has won several publisher awards, including “The Internationally Most Influential Journal in Chinese Language” and “The Top 100 Outstanding Chinese Scholarly Journals.” In 2019, Earth Science Frontiers was selected among top-tier journals to join a national action plan for achieving excellence in science and technology research publishing in China.