Journal
TECTONOPHYSICS
Volume 789, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.tecto.2020.228500
Keywords
Early cretaceous; Paleomagnetism; Tibetan Plateau; Qiangtang-Lhasa collision; Bangong-Nujiang Tethys Ocean
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Funding
- National Natural Science Foundation of China [41672218, 91855216, 41902237, 41672211]
- Basic Scientific Research Expenses of the Chinese Academy of Geological Sciences [DZLXJK202001, JYYWF201810, DZLXJK201901]
- China Geological Survey [DD20190059]
- Key Laboratory of Deep-Earth Dynamics of the Ministry of Natural Resources
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The collision between the Qiangtang and Lhasa blocks is a critical factor in understanding the geodynamics of the central Tibetan Plateau. However, the process of the Qiangtang-Lhasa collision remains contentious. A direct way to study the history of the Qiangtang-Lhasa collision would be to determine the evolution of the paleolatitude positions of the Qiangtang and Lhasa blocks during the Jurassic-Cretaceous. In this study, we present a combined paleomagnetic and geochronological study of the Early Cretaceous volcanic rocks dated at similar to 120-115 Ma in the western Qiangtang block. Stepwise thermal demagnetization succeeded in isolating the high-temperature characteristic directions of the samples. The tilt-corrected mean direction of the 16 sampling sites was Ds = 60.9 degrees, Is = 45.9 degrees with a(95) = 4.4 degrees, which indicates that the Qiangtang block was situated at 27.6 +/- 5.0 degrees N during the Early Cretaceous (similar to 120-115 Ma) (reference point 32.9 degrees N, 83.5 degrees E). Our new data combined with previous reliable Cretaceous paleomagnetic results for the Lhasa block indicate that the collision between the western parts of the Qiangtang and Lhasa blocks may occur later than 115 Ma. The extent of the western segment of the Bangong-Nujiang Tethys Ocean was similar to 825 +/- 600 km (7.5 degrees +/- 5.5 degrees in latitude) at 120-115 Ma.
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