Journal
TECTONOPHYSICS
Volume 603, Issue -, Pages 257-271Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.tecto.2013.05.040
Keywords
Pamir; Half-orocline kinematic model; Vertical-axis rotation; Paleomagnetism; Kashgar-Yecheng transfer system
Categories
Funding
- Chinese Academy of Sciences [KZCX2-YW-GJ05]
- Natural Science Foundation of China [41021001, 41102125]
- State Key laboratory of Geological Processes and Mineral Resources (GPMR), China University of Geosciences [GPMR201034]
- National Science Foundation [EAR 1008527]
- Directorate For Geosciences
- Division Of Earth Sciences [1008527] Funding Source: National Science Foundation
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Thick Cenozoic marine and terrestrial sediments are widely distributed along the perimeter of the Pamir plateau and provide valuable information on the kinematic evolution of the region. Here, we report new biostratigraphic and paleomagnetic results from the piedmont of the Western Kunlun Shan to constrain the magnitude and timing of vertical-axis rotations along the eastern margin of the Pamir. Sampling sites were selected by rock formations and ages, which are based on previous field mapping and on litholostratigraphic and biostratigraphic work presented here. Thermomagnetic analysis, step-wise thermal demagnetization behavior, and positive field tests all suggest that the characteristic remanent magnetization (ChRM) directions most probably have a primary detrital and chemical origin. Our results indicate variable, minor, but in some intervals significant vertical axis rotations with respect to a stable Asian reference frame. This pattern of rotations is similar to paleomagnetic data reported in previously published studies from the Eastern Pamir foreland. In contrast, published paleomagnetic data from the Western Pamir foreland consistently indicate significant CCW rotations within that region. Collectively, these results challenge simple oroclinal bending models for the origin of the Pamir salient, and instead are more consistent with an asymmetric half-orocline kinematic model in which the curvature of the Western Pamir is the product of a combination of lithospheric bending of an originally quasi-linear mountain belt and radial thrusting, and the subdued curvature of the eastern edge of the plateau is the result of lateral translation of the Pamir plateau northward past Tibet and Tarim along the Kashgar-Yecheng transfer system. Our results are consistent with activity on the Kashgar-Yecheng transfer system in the Early Miocene. (C) 2013 Elsevier B.V. All rights reserved.
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