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Cenozoic Vertical-Axis Rotations of the Hoh Xil Basin, Central–Northern Tibet
引用本文:RAN Bo,ZHAO Xixi,LIU Zhifei,WANG Chengshan,ZHU Lidong,JIN Wei,LI Yalin. Cenozoic Vertical-Axis Rotations of the Hoh Xil Basin, Central–Northern Tibet[J]. 《地质学报》英文版, 2016, 90(3): 858-869. DOI: 10.1111/1755-6724.12729
作者姓名:RAN Bo  ZHAO Xixi  LIU Zhifei  WANG Chengshan  ZHU Lidong  JIN Wei  LI Yalin
作者单位:1 State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Chengdu University of Technology, Chengdu 610059, China;2 State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China;3 Department of Earth and Planetary Sciences, University of California, Santa Cruz, CA 95064, USA;4 State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Beijing 100083, China;5 Exploration and Development Research Institute of Daqing Oilfield Company Ltd., Daqing 163712, China
摘    要:Understanding the Cenozoic vertical-axis rotation in the Tibetan Plateau is crucial for continental dynamic evolution. Paleomagnetic and rock magnetic investigations were carried out for the Oligocene and Miocene continental rocks of the Hoh Xil basin in order to better understand the tectonic rotations of central Tibet. The study area was located in the Tongtianhe area located in the southern part of the Hoh Xil basin and northern margin of the Tanggula thrust system in central-northern Tibet. A total of 160 independently oriented paleomagnetic samples were drilled from the Tongtianhe section for this study. The magnetic properties of magnetite and hematite have been recognized by measurements of magnetic susceptibility vs. temperature curves and unblocking temperatures. The mean directions of the Oligocene Yaxicuo Group in stratigraphic coordinates(Declination/Inclination = 354.9°/29.3°, k = 33.0, α_(95) = 13.5°, N =5 Sites) and of the Miocene Wudaoliang Group in stratigraphic coordinates(Declination/Inclination = 3.6°/36.4°, k = 161.0, α_(95) = 9.7°, N =3 Sites) pass reversal tests, indicating the primary nature of the characteristic magnetizations. Our results suggested that the sampled areas in the Tuotuohe depression of the Hoh Xil basin have undergone no paleomagnetically detectable rotations under single thrusting from the Tanggula thrust system. Our findings, together with constraints from other tectonic characteristics reported by previous paleomagnetic studies, suggest tectonic rotations in the Cuoredejia and Wudaoliang depressions of the Hoh Xil basin were affected by strike-slip faulting of the Fenghuo Shan-Nangqian thrust systems. A closer examination of geological data and different vertical-axis rotation magnitudes suggest the tectonic history of the Hoh Xil basin may be controlled by thrust and strike-slip faulting since the Eocene.

关 键 词:Tibetan Plateau   Hoh Xil basin   Vertical-axis rotation   Cenozoic
收稿时间:2015-09-28
修稿时间:2015-12-10

Cenozoic Vertical‐Axis Rotations of the Hoh Xil Basin,Central–Northern Tibet
RAN Bo,ZHAO Xixi,LIU Zhifei,WANG Chengshan,ZHU Lidong,JIN Wei and LI Yalin. Cenozoic Vertical‐Axis Rotations of the Hoh Xil Basin,Central–Northern Tibet[J]. Acta Geologica Sinica (English Edition), 2016, 90(3): 858-869. DOI: 10.1111/1755-6724.12729
Authors:RAN Bo  ZHAO Xixi  LIU Zhifei  WANG Chengshan  ZHU Lidong  JIN Wei  LI Yalin
Affiliation:1 State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Chengdu University of Technology, Chengdu 610059, China;;;,2 State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China;3 Department of Earth and Planetary Sciences, University of California, Santa Cruz, CA 95064, USA,2 State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China,4 State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Beijing 100083, China,1 State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Chengdu University of Technology, Chengdu 610059, China,5 Exploration and Development Research Institute of Daqing Oilfield Company Ltd., Daqing 163712, China and 4 State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Beijing 100083, China
Abstract:Understanding the Cenozoic vertical‐axis rotation in the Tibetan Plateau is crucial for continental dynamic evolution. Paleomagnetic and rock magnetic investigations were carried out for the Oligocene and Miocene continental rocks of the Hoh Xil basin in order to better understand the tectonic rotations of central Tibet. The study area was located in the Tongtianhe area located in the southern part of the Hoh Xil basin and northern margin of the Tanggula thrust system in central‐northern Tibet A total of 160 independently oriented paleomagnetic samples were drilled from the Tongtianhe section for this study. The magnetic properties of magnetite and hematite have been recognized by measurements of magnetic susceptibility vs. temperature curves and unblocking temperatures. The mean directions of the Oligocene Yaxicuo Group in stratigraphic coordinates (Declination/Inclination = 354.9°/29.3°, k = 33.0, α95 = 13.5°, N =5 Sites) and of the Miocene Wudaoliang Group in stratigraphic coordinates (Declination/Inclination = 3.6°/36.4°, k = 161.0, α95 = 9.7°, N = 3 Sites) pass reversal tests, indicating the primary nature of the characteristic magnetizations. Our results suggested that the sampled areas in the Tuotuohe depression of the Hoh Xil basin have undergone no paleomagnetically detectable rotations under single thrusting from the Tanggula thrust system. Our findings, together with constraints from other tectonic characteristics reported by previous paleomagnetic studies, suggest tectonic rotations in the Cuoredejia and Wudaoliang depressions of the Hoh Xil basin were affected by strike‐slip faulting of the Fenghuo Shan‐Nangqian thrust systems. A closer examination of geological data and different vertical‐axis rotation magnitudes suggest the tectonic history of the Hoh Xil basin may be controlled by thrust and strike‐slip faulting since the Eocene.
Keywords:Tibetan Plateau   Hoh Xil basin   Vertical-axis rotation   Cenozoic
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