Thesis
An integrated metamorphic and geochronological study of the south-eastern Tibetan plateau
- Abstract:
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The Tibetan plateau is a vast, elevated region located in central Asia, which is underlain by the thickest crust known on Earth (up to 90 km). An outstanding question of importance to many fields within geology is how and why did the Tibetan plateau form? Models attribute the growth of the plateau to a consequence of the ongoing India-Asia continental collision, but differ in the details of how the crustal thickening was accommodated: was it by underplating of Indian lower crust or by homogeneous shortening? High-grade metamorphic rocks sampled from the region potentially hold the key to answering this question, as they contain a record of past tectonic events that can discriminate between the various proposed models. This record can be decoded by integrating field, thermobarometric and geochronological techniques, to elucidate a detailed thermotectonic understanding of a region. This methodology was applied to three case studies, each of which targeted rare tectonic windows into the mid-crust of the plateau. These regions comprise Danba in eastern Tibet, Basong Tso in south-eastern Tibet and the Western Nyainqentanglha in southern Tibet. Each case study documents previously unreported metamorphic events that have allowed original interpretations to be made regarding tectonic evolution: in Danba, all metamorphism is shown to be early Jurassic; in Basong Tso, two metamorphic belts are documented that reveal a late Triassic--early Jurassic orogenic event; and in the Western Nyainqengtanglha, Cretaceous--Neogene magmatism is shown to overprint late Triassic metamorphism. Integration of the results has enabled commentary on the large scale evolution of the Tibetan plateau from the Permian until the present day, and even hinted at its future. The results indicate that the closure of the Paleotethys played an important role in the construction of the Tibetan plateau, and suggest that homogeneous crustal thickening is not a viable model for the documented exposure levels.
Actions
Authors
Contributors
- Division:
- MPLS
- Department:
- Earth Sciences
- Role:
- Supervisor
- Division:
- MPLS
- Department:
- Earth Sciences
- Role:
- Supervisor
- Division:
- MPLS
- Department:
- Earth Sciences
- Role:
- Supervisor
- Funding agency for:
- Weller, O
- Grant:
- NE/I528485/1
- Publication date:
- 2014
- DOI:
- Type of award:
- DPhil
- Level of award:
- Doctoral
- Awarding institution:
- Oxford University, UK
- Language:
-
English
- Keywords:
- Subjects:
- UUID:
-
uuid:f4104b43-389a-4d54-bd7b-ba3fc0e8ab95
- Local pid:
-
ora:9067
- Deposit date:
-
2014-10-13
- ARK identifier:
Terms of use
- Copyright holder:
- Owen Michael Weller
- Copyright date:
- 2014
- Notes:
- This thesis is not currently available in ORA.
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