地震地质 ›› 2019, Vol. 41 ›› Issue (5): 1077-1090.DOI: 10.3969/j.issn.0253-4967.2019.05.001

• 研究论文 • 上一篇    下一篇

利用构造地貌分析日月山断裂晚更新世以来的演化

李智敏1,2, 李文巧4, 殷翔1, 黄帅堂3, 张军龙4   

  1. 1. 青海省地震局, 西宁 810001;
    2. 深圳防灾减灾技术研究院, 深圳 518003;
    3. 新疆维吾尔自治区地震局, 乌鲁木齐 830011;
    4. 中国地震局地震预测研究所, 地震预测重点实验室, 北京 100036
  • 收稿日期:2019-05-13 修回日期:2019-07-24 出版日期:2019-10-20 发布日期:2019-12-07
  • 通讯作者: 张军龙,男,1973年生,副研究员,主要从事新构造、地震地质方面的研究,E-mail:448092692@qq.com。
  • 作者简介:李智敏,男,1977年生,2005年于中国地震局兰州地震研究所获构造地质专业硕士学位,副研究员,现主要从事活动构造及其次生灾害方面的研究工作,电话:0755-82616372,E-mail:minhero_168@126.com。
  • 基金资助:
    青海省科技计划项目(2017-ZJ-775)、中央级公益性科研院所基本科研业务专项(JB-18-03)和国家自然科学基金(41372215)共同资助。

ANALYSIS OF EVOLUTION OF THE RIYUESHAN FAULT SINCE LATE PLEISTOCENE USING STRUCTURAL GEOMORPHOLOGY

LI Zhi-min1,2, LI Wen-qiao4, YIN Xiang1, HUANG Shuai-tang3, ZHANG Jun-long4   

  1. 1. Qinghai Earthquake Agency, Xining 810001, China;
    2. Shenzhen Academy of Disaster Prevention and Reduction, Shenzhen 518003, China;
    3. Earthquake Agency of Xinjiang Uygur Autonomous Region, Urumqi 830011, China;
    4. Key Laboratory of Earthquake Predication, Institute of Earthquake Forecasting, China Earthquake Administration, Beijing 100036, China
  • Received:2019-05-13 Revised:2019-07-24 Online:2019-10-20 Published:2019-12-07

摘要: 日月山断裂位于东昆仑断裂和祁连-海原断裂等主边界断裂控制的柴达木-祁连活动块体内部,属于二级构造。该断裂构造地貌发育,研究其活动特征可获得青藏高原东北缘向外扩展的信息。文中以晚更新世以来清晰的地貌变形为重点,通过RTK测量方法获得沿断层走向的垂直位移量,基于断层生长连接理论,分析了日月山断裂的演化,并讨论其反映的动力学背景,主要获得了以下3点认识:1)根据晚更新世以来洪积扇和阶地等地貌内长约200km的3期断层陡坎的发育特征,将日月山断裂分为5段,最重要的分段位于第三重叠区(CD-3)。2)日月山断层3期位移量分布形态反映了断层由多条次级破裂生长连接而成,处于断层生长连接的第二阶段。以CD-3为界,NW侧的断层持续生长连接;东南侧的断层活动时间相对较短,活动强度相对较弱。3)断层位移量分布曲线极值指示了应变集中和应力积累的位置。以CD-3重叠区为界,NW侧应力和应变主要集中在中部及断层重叠区,东南侧应力长期积累的范围则相对分散。应力状态可能与区域构造应力挤压作用下块体内部的顺时针旋转有关。

关键词: 青藏高原, 日月山断裂, 晚更新世, 几何分段, 断层生长

Abstract: The northeastern margin of Tibetan plateau is an active block controlled by the eastern Kunlun fault zone, the Qilian Shan-Haiyuan fault zone, and the Altyn Tagh fault zone. It is the frontier and the sensitive area of neotectonic activity since the Cenozoic. There are widespread folds, thrust faults and stike-slip faults in the northeastern Tibetan plateau produced by the intensive tectonic deformation, indicating that this area is suffering the crustal shortening, left-lateral shear and vertical uplift. The Riyueshan Fault is one of the major faults in the dextral strike-slip faults systems, which lies between the two major large-scale left-lateral strike-slip faults, the Qilian-Haiyuan Fault and the eastern Kunlun Fault. In the process of growing and expanding of the entire Tibetan plateau, the dextral strike-slip faults play an important role in regulating the deformation and transformation between the secondary blocks. In the early Quaternary, because of the northeastward expansion of the northeastern Tibetan plateau, tectonic deformations such as NE-direction extrusion shortening, clockwise rotation, and SEE-direction extrusion occurred in the northeastern margin of the Tibetan plateau, which lead to the left-lateral slip movement of the NWW-trending major regional boundary faults. As the result, the NNW-trending faults which lie between these NWW direction faults are developed. The main geomorphic units developed within the research area are controlled by the Riyueshan Fault, formed due to the northeastward motion of the Tibet block. These geomorphic units could be classified as:Qinghai Lake Basin, Haiyan Basin, Datonghe Basin, Dezhou Basin, and the mountains developed between the basins such as the Datongshan and the Riyueshan. Paleo basins, alluvial fans, multiple levels of terraces are developed at mountain fronts. The climate variation caused the formation of the geomorphic units during the expansion period of the lakes within the northeastern Tibetan plateau. There are two levels of alluvial fans and three levels of fluvial terrace developed in the study area, the sediments of the alluvial fans and fluvial terraces formed by different sources are developed in the same period. The Riyueshan Fault connects with the NNW-trending left-lateral strike-slip north marginal Tuoleshan fault in the north, and obliquely connects with the Lajishan thrust fault in the south. The fault extends for about 180km from north to south, passing through Datonghe, Reshui coal mine, Chaka River, Tuole, Ketu and Xicha, and connecting with the Lajishan thrusts near the Kesuer Basin. The Riyueshan Fault consists of five discontinuous right-step en-echelon sub-fault segments, with a spacing of 2~3km, and pull-apart basins are formed in the stepovers.
The Riyueshan Fault is a secondary fault located in the Qaidam-Qilian active block which is controlled by the major boundary faults, such as the East Kunlun Fault and the Qilian-Haiyuan Fault. Its activity characteristics provide information of the outward expansion of the northeastern margin of Tibet. Tectonic landforms are developed along the Riyueshan Fault. Focusing on the distinct geomorphic deformation since late Pleistocene, the paper obtains the vertical displacement along the fault strike by RTK measurement method. Based on the fault growth-linkage theory, the evolution of the Riyueshan Fault and the related kinetic background are discussed. The following three conclusions are obtained:1)According to the characteristics of development of the three-stage 200km-long steep fault scarp developed in the landforms of the late Pleistocene alluvial fans and terraces, the Riyueshan Fault is divided into five segments, with the most important segment located in the third stepover(CD-3); 2)The three-stage displacement distribution pattern of the Riyueshan Fault reveals that the fault was formed by the growths and connections of multiple secondary faults and is in the second stage of fault growth and connection. With CD-3 as the boundary, the faults on the NW side continue to grow and connect; the fault activity time on the SE side is shorter, and the activity intensity is weaker; 3)The extreme value of the fault displacement distribution curve indicates the location of strain concentration and stress accumulation. With the stepover CD-3 as the boundary, the stress and strain on NW side are mainly concentrated in the middle and fault stepovers. The long-term accumulation range of stress on the SE side is relatively dispersed. The stress state may be related to the counterclockwise rotation inside the block under the compression of regional tectonic stress.

Key words: Qinghai-Tibet Plateau, Riyueshan Fault, Late Pleistocene, geometric segmentation, fault growth

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