Present-day crustal deformation and strain transfer in northeastern Tibetan Plateau

The three-dimensional present-day crustal deformation and strain partitioning in northeastern Tibetan Plateau are analyzed using available GPS and precise leveling data. We used the multi-scale wavelet method to analyze strain rates, and the elastic block model to estimate slip rates on the major fa...

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Bibliographic Details
Published in:Earth and planetary science letters 2018-04, Vol.487, p.179-189
Main Authors: Li, Yuhang, Liu, Mian, Wang, Qingliang, Cui, Duxin
Format: Article
Language:English
Subjects:
extrusion tectonics
GPS
leveling
strain partition
Tibetan Plateau
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Summary:The three-dimensional present-day crustal deformation and strain partitioning in northeastern Tibetan Plateau are analyzed using available GPS and precise leveling data. We used the multi-scale wavelet method to analyze strain rates, and the elastic block model to estimate slip rates on the major faults and internal strain within each block. Our results show that shear strain is strongly localized along major strike-slip faults, as expected in the tectonic extrusion model. However, extrusion ends and transfers to crustal contraction near the eastern margin of the Tibetan Plateau. The strain transfer is abrupt along the Haiyuan Fault and diffusive along the East Kunlun Fault. Crustal contraction is spatially correlated with active uplifting. The present-day strain is concentrated along major fault zones; however, within many terranes bounded by these faults, intra-block strain is detectable. Terranes having high intra-block strain rates also show strong seismicity. On average the Ordos and Sichuan blocks show no intra-block strain, but localized strain on the southwestern corner of the Ordos block indicates tectonic encroachment. •3-D present-day crustal deformation in NE Tibet is derived from GPS and leveling data.•Shear strain on strike-slip faults transfers to contraction near plateau's margin.•Results show how extrusion relates to crustal thickening and plateau building.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2018.01.024