THREE-DIMENSIONAL STRUCTURAL FEATURES OF THE PENGXIAN ACTIVE BLIND FAULT IN THE CENTRAL LONGMEN SHAN FRONT BELT          下载免费PDF全文

WANG Zhen-nan  LU Ren-qi  XU Xi-wei  HE Deng-fa  CAI Ming-gang  LI Ying-qiang  LUO Jia-hong 《地震地质》2019,41(4):944-959

The Pengxian blind fault is a typical active fault in the central Longmen Shan front belt. It has important reference value for understanding the growth mode and process of the eastern Tibetan plateau. Because the fault is covered by the thick Upper Cenozoic strata in the western Sichuan Basin, its three-dimensional spatial distribution, structural style and formation mechanism remain unclear. In this paper, based on several high-resolution 3-D seismic reflection profiles, together with near-surface geological data and borehole data, we investigate the structural geometry of the Pengxian blind fault and build a 3-D model based on the results. We analyze the shape and scale of underground spatial distribution of the fault through a three-dimensional fault model. According to the theory of fault-related fold and fold-accommodation fault, this paper discusses the forming mechanism of the Pengxian buried structures. The shallow tectonic deformation in front of Longmen Shan is closely related to the detachment layer of the Middle and Lower Triassic, and this detachment layer f1 horizontally propagates into the Longquanshan anticline in the western Sichuan Basin. The Pengxian buried fault is a typical fault-bend fold and the f1 horizontally propagates into the western Sichuan Basin with a fault slip of 3.5km. The Pengxian blind fault is a high angle(50°~60°)thrust fault developed in the front wing of the kink-band zone, striking NE-SW, with a total length of~50km; But the fault is not connected with the Dayi buried fault in the south section of Longmen Shan. They are two different faults, and this defines the scale of the Pengxian blind fault. This limitation makes sense for analyzing and evaluating the magnitudes of potential earthquake. All above study provides research basis for further analysis of the potential seismic risk in this area. The Pengxian blind fault is parallel to the anticlinal axis with small amount of offset as a fold-accommodation fault. We believe that the fault formation is related to the fold deformation of the fold front limb. The study reveals the geometry, kinematics and formation mechanism of the Pengxian active fault, and provides a basis for further analysis of fault activity and hazard. Therefore, there is little possibility of strong earthquakes at the Pengxian blind fault due to its formation mechanism of the fault which is generally characterized by fold deformation and shortening deformation. In this paper, we discuss the location of Pengxian blind fault in the middle of Longmen Shan and Sichuan Basin. Because the Pengxian buried structures are in the transition area, the shortening amount in Pengxian indicates that the absorption in the basin is quite limited. It reflects the blocking effect of Sichuan Basin. In the study, we find that the relationship between folds, faults and sediments is an important part of tectonic interpretation; the theory of fault-related fold and fold-accommodation fault is well used for analysis. This would have great significance for the study of structural deformation, which can help to build a three-dimensional model of fault.  相似文献   

APPLICATION OF SEMIAUTOMATIC EXTRACTION OF FLUVIAL TERRACES BASED ON R LANGUAGE-AN EXAMPLE FROM THE YELLOW RIVER TERRACES AT MIJIA SHAN     

YAO Wen-qian  LIU-ZENG Jing  Michael Oskin  HAN Long-fei  LI Xue  WANG Heng  XU Xin-yue  LI Zhan-fei  ZHANG Jin-yu 《地震地质》2019,41(2):363-376

The generation, abandonment and preservation of terraces formed in active tectonic areas are important to the analysis of the role of the tectonics and climate along the temporal variations, so it appears significant as how to use the effective quantitative methods to extract and accurately depict these terraces. The increasingly convenient acquisition of high-precision topographic data has greatly promoted the advancement of quantitative research in geoscience, making it possible to analyze mid-micro-geomorphic features on a large scale, especially by studying the temporal and spatial evolution of tectonic deformation through accurate capture of micro-geomorphic features. Over the past decade, the rapid development of LiDAR(Light Detection and Ranging)technology has provided unprecedented opportunity to access high-precision topographic data(up to centimeter in vertical and horizontal directions). However, its relatively high cost and relatively complex data processing techniques limit its widespread application in the field of earth sciences. In recent years, with the continuous innovation and advancement of topographic measurement technology, the three-dimensional structure of motion reconstruction technology(Structure from Motion, SfM)has gradually been introduced into the field of digital topographic photogrammetry due to its rapid advantage in providing quick, convenient and cost-effective methods for obtaining high-density geospatial point data. This method thus shows great potential for providing high resolution topographic data with comparable resolution and precision. Therefore, with the acquisition of more and more high-resolution terrain data in recent years, it is an important development trend to explore automated or semi-automated quantitative geomorphological analysis methods. R language, as an excellent programming language, has not been used in the geology and geomorphology, although is widely applied in medicine and meteorology based on its powerful capability of statistician and graphic visualization. In this paper, we focus on the Yellow River multi-terraces formed to the east of the Mijia Shan, which belongs to the Jingtai-Hasi Shan segment of the Haiyuan Fault. With the analysis and visualization of the high-resolution topographic data collected from the SfM in the environment of the R language, we implement the semiautomatic classification and mapping of the Yellow River multi-terraces. The method identifies 20 terraces with different elevation. Our results also imply that the younger terraces have better continuity and elongation, and the older terraces have more deformation, which can be demonstrated from their gradually notable semi-parabolic shape. Besides this, it also suggests the diverse evolution stages of the Yellow River terraces. Our study indicates that R language is expected to become an efficient tool of statistics and visualization of the high-resolution topographic data.  相似文献   

宗务隆山南缘断裂构造地貌特征与晚第四纪滑动速率     

董金元  李传友  郑文俊  李涛  李新男  张培震  任光雪  董绍鹏  刘金瑞 《地震地质》2019,41(2):341-362

宗务隆山南缘断裂位于柴达木盆地东北缘,是祁连山南缘与柴达木盆地的边界逆断裂,对其晚第四纪活动性进行研究对于理解祁连山地区应变分配模式以及该地区断裂向柴达木盆地内部的挤压扩展过程具有重要意义。文中通过遥感影像解译和野外地质调查,结合GPS地形剖面测量以及宇宙成因核素与光释光定年,对宗务隆山南缘断裂拜京图和蓄集乡等段落开展了详细的研究。综合分析拜京图和蓄集乡地区不同期次洪积扇的垂直位错以及相应地貌面的年龄,得到宗务隆山南缘断裂晚第四纪以来的平均垂直滑动速率为(0. 41±0. 05) mm/a,水平缩短速率为0. 47～0. 80mm/a,约占祁连山地区地壳缩短速率的10%。这些结果有助于进一步理解祁连山地区的应变分配模式以及柴达木盆地北缘地区的构造变形机制。  相似文献   

2016年M6.2呼图壁地震发震构造及其对天山构造带隆升的启示:来自中近场钻孔应变观测的证据          下载免费PDF全文

龚正  李海兵  荆燕  李丽 《地球物理学报》2020,63(4):1386-1402

天山山脉在新生代经历了强烈的构造隆升和地壳缩短作用,其周缘发生的地震活动是了解这一构造模式的窗口.对2016年呼图壁地震的发震构造有两种解读：向南倾斜的低角度逆断层和向北倾斜的高角度逆断层.中近场四台钻孔应变仪记录到了本次地震的同震响应,本文采用均质模型对IGP-CEA和USGS震源机制解进行模拟,结果显示发震断层为向北陡倾的反冲断层,15个原始方位和8个N-S、E-W方位观测值全部与预测值一致.对比天山北缘常见的低角度逆冲断层,反冲断层对构造隆升的贡献更有效,以断层倾角70°和19°计算,二者对隆升和缩短贡献比例分别为2.89：1和1：2.76.这一结果表明天山构造带内部的反冲构造同样具有单独发震的可能性,它们对天山现今的隆升高度同样起着不可忽视的作用.  相似文献   

青藏高原东北缘马衔山断裂带构造属性的综合研究   总被引：1，自引：0，他引：1       下载免费PDF全文

郭晓玉  高锐  高建荣  徐啸  黄兴富 《地球物理学报》2018,61(2):560-569

左旋走滑的马衔山断裂带位于青藏高原东北缘陇中盆地内部,呈北西-南东向伸展.宽约8~10 km,长约115 km.马衔山断裂带表面虽然局部已被黄土覆盖,但并不代表它的活动性不强.1125年的兰州M_S7.0地震就发生在马衔山断裂带北缘的西侧.前人对马衔山断裂带的研究基本上多依靠于地表地质和地球化学数据分析进行一般性讨论,而缺少对马衔山断裂带深部构造伸展的清晰认识.本文中,我们主要依靠一条横跨马衔山断裂带的深地震反射剖面数据资料进行地壳尺度的构造解释.在此基础之上,对研究区所获得的重力数据进行相应的处理分析.最后辅助于马衔山断裂带两侧野外地表形变的观察和前人研究所获得的地球化学数据分析,我们的研究认为马衔山断裂带为一不同块体间的边界断裂带.它可能形成于早古生代祁连造山带东缘北部马里亚纳式岛弧和南部日本式岛弧的相互拼贴作用.该边界断裂带在随后的青藏高原东北缘物质逃逸过程中被激活,并且目前仍处于构造活动活跃期.  相似文献   

汶川地震断裂带滑移行为、物理性质及其大地震活动性——来自汶川地震断裂带科学钻探的证据   总被引：5，自引：1，他引：4       下载免费PDF全文

李海兵  许志琴  王焕  张蕾  何祥丽  司家亮  孙知明 《地球物理学报》2018,61(5):1680-1697

断裂带物质组成、结构及其物理性质是理解断裂变形机制和地震破裂过程的基础和关键,断裂带地震（黏滑）和非地震（蠕滑）滑移行为不仅对了解地震活动性和山脉隆升过程具有重要意义,而且直接为防震减灾提供科学依据.我们以穿过龙门山映秀—北川和灌县—安县断裂带的汶川地震断裂带科学钻探（WFSD）岩心和地表出露的断裂带为研究对象,通过对断裂岩组成、结构、显微构造和钻孔物性测井数据进行分析研究,确定了龙门山逆冲断裂带滑移行为和物性特征,初步探讨了大地震活动性和有关断裂带的隆升作用：（1）映秀—北川断裂带倾向NW,浅部倾角~65°,发育的断裂岩厚约180~280 m,由碎裂岩、假玄武玻璃（地震化石）、断层泥和断层角砾岩组成.断裂带具有高自然伽马、高磁化率值、低电阻率、低波速等物理性质以及对称型破碎结构.断层泥普遍具有摩擦热效应的高磁化率值和石墨化作用特征,是古地震滑动的岩石记录.表明映秀—北川断裂带为经常发生大地震的断裂带,晚新生代以来类似汶川地震的大地震复发周期小于6000—10000年,具有千年复发周期特征.（2）灌县—安县断裂带倾向NW,浅部倾角~38°,发育的断裂岩厚约40~50 m,仅由断层泥和断层角砾岩组成,具有典型的"压溶"结构,表现出蠕滑性质.除压溶作用外,定向富集的层状黏土矿物和微孔隙的发育使断层强度变弱.断裂带具上盘破碎的非对称型破碎结构,除具低磁化率值特征外,其他物性与映秀—北川断裂带一致.（3）根据断裂岩厚度与断层滑移量相关经验公式关系,以及断层产状,粗略估算映秀—北川断裂带自中生代以来累积垂直位移量大于9 km,灌县—安县断裂带累积垂直位移量小于3 km.映秀—北川断裂带长期大地震产生的累积垂直位移量是龙门山隆升的主要贡献.  相似文献   

龙门山南段前陆区晚第四纪构造变形样式   总被引：4，自引：1，他引：3       下载免费PDF全文

姜大伟  张世民  李伟  丁锐 《地球物理学报》2018,61(5):1949-1969

龙门山中南段前陆区是青藏高原东缘唯一发育新生代薄皮构造与沉积盆地的地段,研究其最新构造变形样式有助于深入理解青藏高原向东扩展的构造机理.论文通过青衣江河流阶地测量与古青衣江洪积扇形态重建,研究了龙门山南段前陆区晚第四纪活动构造格局及其活动性,取得了如下认识：（1）青衣江河流阶地纵剖面显示,龙门山南段前陆地区晚第四纪变形主要为褶皱作用,总体地壳缩短速率为2.5~3.9 mm·a^-1,远大于山区冲断带0.48~0.77 mm·a^-1的地壳缩短速率,地壳缩短主要由前陆地区吸收;（2）青衣江古洪积扇错断变形显示,龙门山南段前陆区活动构造表现为北西—南东向地壳缩短与近东西向的地壳缩短的叠加作用,两者分别受控于巴颜喀拉块体南东向推挤作用与川滇块体向东推挤作用;（3）自中新世初川滇块体向南东挤出,四川盆地西南角起到分流青藏高原物质的作用,其西南侧物质通过鲜水河—小江断裂带的左旋错动向南东方向分流,其西北侧物质通过龙门山断裂带的右旋错动向北东方向分流,迎面受到了最大的推挤作用,进而向前陆扩展形成了薄皮褶皱构造带.  相似文献   

龙门山断裂带北段深部结构与反射地震特征   总被引：2，自引：1，他引：1       下载免费PDF全文

于常青  冯杨洋  瞿辰  范国玮  李恒强 《地球物理学报》2018,61(5):2038-2053

2008年5月12日汶川M_W7.9特大地震发生在龙门山断裂带,龙门山断裂带深部结构的复杂性制约了地震的破裂过程.通过对研究区区域地质、汶川地震前后采集的地震反射剖面等研究,在对龙门山北段汶川地震断裂带的深部结构和反射地震特征进行了分析的基础上,探讨了它对地表破裂过程的制约.研究结果表明,在地震剖面上,断裂带表现为能量破碎、联系性差;频率剖面上显示整体剖面频率在5~45 Hz,断裂带呈现频率低（15~26 Hz）等特征.龙门山北段映秀-北川断裂在10 km以上是一条倾向北西的高角度走滑兼逆冲性质的断裂,倾角50°~70°.它分割了西侧的轿子顶杂岩和东侧的唐王寨推覆体,错断了早期形成的逆冲岩片,从南到北总位移量由大变小.它高角度的几何形态约束了断裂以走滑为主兼逆冲分量的运动性质,降低了地表滑移量,影响了地震破裂过程以及余震沿断裂带两侧分布的特性.  相似文献   

Active Tectonics of the Longmen Shan Region on the Eastern Margin of the Tibetan Plateau   总被引：14，自引：0，他引：14  

ZHOU Rongjun LI Yong Alexander L.DENSMORE Michael A. ELLIS HE Yulin LI Yongzhao LI Xiaogang 《《地质学报》英文版》2007,81(4):593-604

There is a massive amount of geomorphic evidence for active tectonics in the Longmen Shan at the eastern margin of the Tibetan plateau. We have surveyed some typical geomorphic markers including the Wenchuan-Maowen, Beichuan-Yingxiu and Pengxian-Guanxian faults, terrace offsets, scarps, fault-controlled saddles, dextral shutter ridges, dextral channel offsets, graben, shatter belts, and pull-apart basins. Electron spin resonance （ESR） and thermoluminescence（TL） ages were obtained using silty sand taken from below the surface of the sediments. According to these data, we calculated the rates of thrusting and strike-slip, and the results indicate that Cenozoic tectonic shortening at the plateau margin is minor with the rate of thrusting less than 1.10 mm/a and the rate of strike-slipping less than 1.46 mm/a. The Longmen Shan is a zone of NNE-trending dextral shear with slip-dip ratio of 6：1-1.3：1. From NW to SE, the thrust component becomes smaller, whereas the strike-slip component becomes larger.  相似文献   

太行山—燕山地区中生代花岗岩生成动力学机制与陆内造山作用   总被引：10，自引：0，他引：10  

刘凤山  石准立 《地球学报》1998,19(1):12-18

本文探讨了太行山－燕山地区中生代花岗岩生成动力学机制及其与陆内造山作用的成生关系。从总结花岗岩浆活动一般规律入手,论述了岩浆源区源岩性质、物理化学条件、深部过程等对花岗岩浆生成的制约,提出并论证了一个新的比较合理的板内岩浆活动成因模型。通过分析,得出了一个重要的新结论：本区中生代花岗岩的形成是克拉通活化的结果。  相似文献