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第四纪松散沉积物中普遍存在断层的隐性现象 ,包括断层的隐形和尖灭 ,给古地震研究带来了复杂性和多解性。选择了一些典型古地震剖面 ,对涉及到断层隐形或尖灭的部位 ,进行了定向原状样品采集 ,通过室内样品固结 ,显微薄片制作和显微构造现象观察 ,从显微域里找到了鉴定隐形断层的许多标志 ,并对断层尖灭机制进行了研究。认为通过显微构造分析 ,排除或肯定隐形断层的存在 ,或者追踪断层尖灭的层位 ,结合宏观剖面研究和年代测定 ,可以使古地震时代和期次判定更准确 相似文献
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松散沉积物中的断层常常没有留下明显的宏观形迹,单靠肉眼观测往往难以确定其存在,即使存在,也很难判定其活动性质和活动方式。最近,中国地震局地壳应力研究所和山西省地震局在太原市西张村横跨交城断裂开挖了大规模探槽,认为该探槽揭示了3次7级以上地震事件。文中通过对该探槽开展微观分析,来探索松散沉积物中宏观形迹不明的断层或隐形断层及其伴随的古地震事件的显微构造及显微沉积学标志。研究结果表明,该探槽中的断层在微观上表现为微破碎带、滑移面、变形条带和泥质充填带等多种形式,同时断层附近样品也有一定的变形现象。断层和外围样品中的碎屑颗粒在棱角度、粒度大小和分布特征等方面均有不同,断层样品粒度分布的分维值D=2.0。这些结果表明松散沉积物中断层作用有颗粒流动也有碎裂作用。同时发现了与震击物(seismite)宏观标志非常相似的诸多微观标志,如球状体、负荷构造、流体通道和物质流动等,从微观上证明该断裂活动伴随有古地震事件 相似文献
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研究了渭河盆地南缘和北缘几条断裂第四纪活动性的迁移变化。利用横跨断裂的构造地层剖面 ,结合断裂上覆黄土地层的年代学研究结果 ,对断裂活动强度迁移变化的演化阶段进行了研究。结果表明 ,在大约 80~ 90万年前 ,渭河盆地南缘的临潼 -长安断裂带的活动性发生了显著变化 ,骊山山前断裂也有活动性迁移现象 ,渭南塬前断裂开始强烈活动 ,渭南塬全面抬升 ;12万年前左右 ,渭河盆地北缘的口镇 -关山断裂活动性明显减弱。该区断层活动的这些变化是对第四纪中晚期的 2次重要构造事件的反映 相似文献
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断层泥显微结构的特征与断层滑动习性的研究 总被引:1,自引:0,他引:1
天然断层中普遍存在含有粘土矿物的断层泥,大量的实验研究和野外观察证实,不同应变速度的变形作用在断层泥中留下特殊的显微构造特征。因此,我们可以根据断层泥的变形特征,来推测变形时断层的滑动方式和次序。 相似文献
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郯庐断裂带(即郯城-庐江断裂带)是纵贯中国东部大陆边缘的一条巨型断裂带,整体为北北东走向。它的形成和演化对中国东部中生代以来的地质演化有明显控制作用,同时又是一条现今地震活动较为活跃的地震带,因此对郯庐断裂带周边构造应力场的研究具有重要的意义。采用野外观测取得的10个测点共206条活断层擦痕数据,利用断层滑动资料反演构造应力张量的方法,计算获得了研究区现代构造应力场主要特征:郯庐断裂及其周边地区现代构造应力场以北东-东西向挤压、北西-近南北向拉张为特征,其最大主压应力(σ1)方向为64°一106°,平均倾角23%最小主压应力(σ3)方向为332°~14°,平均倾角14°;中间主应力(σ2)倾角较陡,近垂直,应力结构为走滑型。 相似文献
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阴极发光显微技术有利于揭示经地质作用改变的断层碎砾的表面微细结构和内部晶格破坏程度。本文研究了断层泥组分、碎砾表面和横断面的阴极发光显微特征,并探讨了这些特征对于断层运动状态和地震活动研究的意义 相似文献
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鲜水河断裂带区域第四纪构造应力场的分期研究 总被引:7,自引:2,他引:7
利用断层滑动方向资料反演构造应力张量的分期计算方法,获得鲜水河断裂带区域第四纪以来两期主要构造应力作用:第1期为早~中更新世,构造应力作用以北东-南西向挤压为特征;第Ⅱ期自晚更新世至今,构造应力作用以近东西向挤压和近南北向拉张为特征 相似文献
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活断层工作方法在中早期历史地震研究中的作用 总被引:2,自引:3,他引:2
中国地震历史资料丰富,是世界历史文化宝库中的重要组成部分。长期以来,在中国国民经济建设及世界地震科学研究中发挥了并将继续发挥巨大作用。我们同时也应当清醒地看到,我国的地震历史记载并不完备,如:历史地震资料在空间上和时间上分布的不平衡;历史地震震级问题需要进一步深入研究;有相当一部分地震有史料记载,但无法编入“中国强震目录”等。针对这些问题,中国史料地震学需要进一步开拓和发展。本文以两个应用实例说明把活断层工作方法及现代年代学方法引入早期疑难或缺失的历史地震研究中是必要的和可能的。 相似文献
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Active faults in Quaternary unconsolidated sediments are important indicators to determine paleoearthquake events,They can be studied by macroscopic geological survey,but some problems have been encountered,such as invisible active faults.The authors found an approach to solve these problems by microstructural observation.Firstly,oriented original-state samples of Quaternary Unconsolidated sediments in active fault zones are collected.Secondly,the samples are consolidated in laboratory.Thirdly,microstructureal slides are gound in three-dimension coordinate system.Lastly,microstructures are observed in the microscopic field.By this method,the movement properties of active faults can be determined in lack of the support of macroscopic data.The invisible faults in Quaternary unconsolidated sediments can be found and described.The mechanisms of die-out faults can be also studied.oreover,the boundaries between different unconsolidated sediments in engineering sites can be studied to judge whether they are active faults or not. 相似文献
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Hou Jianjun Liang Haihua Zheng Wentao Dong Wenzhong and Fan JunxiDepartment of Geology Peking University Beijing China 《中国地震研究》1997,(4)
Seismic rupture produced by active faulting causes ground surface fracturing and seriously damages buildings.However,the fracture traces are usually indistinct or non-visible because of complicated deformations in Quaternary unconsolidated materials,so their upper parts can hardly be discovered on exploratory trenches.The aim of this paper is to study the types of fault rupture and displacement in different loose deposit beds from a joint view of mega-,meso-,and microscopic scales,and to find the mark and method for timing the palaeoseismic rupture on exploratory trenches. 相似文献
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Thrust geometries in unconsolidated Quaternary sediments and evolution of the Eupchon Fault, southeast Korea 总被引:1,自引:0,他引:1
Young-Seog Kim Joon Young Park Jeong Hwan Kim Hyeon Cho Shin David J. Sanderson 《Island Arc》2004,13(3):403-415
Abstract The Korean peninsula is widely regarded as being located at the relatively stable eastern margin of the Asian continent. However, more than 10 Quaternary faults have recently been discovered in and reported from the southeastern part of the Korean Peninsula. One of these, the Eupchon Fault, was discovered during the construction of a primary school, and it is located close to a nuclear power plant. To understand the nature and characteristics of the Quaternary Eupchon Fault, we carried out two trench surveys near the discovery site. The fault system includes one main reverse fault (N20°E/40°SE) with approximately 4 m displacement, and a series of branch faults, cutting unconsolidated Quaternary sediments. Structures in the fault system include synthetic and antithetic faults, hanging‐wall anticlines, drag folds, back thrusts, pop‐up structures, flat‐ramp geometries and duplexes, which are very similar to those seen in thrust systems in consolidated rocks. In the upper part of the fault system, several tip damage zones are observed, indicating that the fault system propagates upward and terminates in the upper part of the section. Pebbles along the main fault plane show a preferred orientation of long axes, indicating the fault trace. The unconformity surface between the Quaternary deposits and the underlying Tertiary andesites or Cretaceous sedimentary rocks is displaced by this fault with a reverse movement sense. The stratigraphic relationship shows normal slip sense at the lower part of the section, indicating that the fault had a normal slip movement and was reversely reactivated during the Quaternary. The inferred length of the Quaternary thrust fault, based on the relationship between fault length and displacement, is 200–2000 m. The current maximum horizontal compressive stress direction in this area is generally east‐northeast–west‐southwest, which would be expected to produce oblique slip on the Eupchon Fault, with reverse and right‐lateral strike‐slip components. 相似文献
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通过对福建九龙江下游NW向断裂带断层上覆地层的切割关系、断裂两侧第四纪等时地貌面的差异性变化、浅层地震勘探、断层两侧钻孔探测等资料分析,研究了断裂第四纪以来的活动特征及断裂构造的组合特征.结果表明:(1)郭坑—江东桥断裂(F1)、珠坑断裂(F3)、金峰—大帽山断裂(F7)为早第四纪(Q1-2)断裂;岱山岩—珩坑断裂(F6)的观音山—古湖段为早第四纪(Q1-2)断裂、古湖—洪塘段为晚更新世活动断裂;覆船山—康山断裂(F4)、九龙江(西溪)断裂(F5)为晚更新世早期活动断裂,海沧—钱屿断裂(F2)为晚更新世活动断裂.(2)郭坑—江东桥断裂和金峰—大帽山断裂将本区切割成3个地块,形成了小田坑山地垒、漳州地堑、锅尖山地垒的构造组合形式.漳州地堑再被覆船山—康山断裂和岱山岩—珩坑断裂切割成3个地块,又形成了较小的圆山地垒、九龙江西溪河谷地堑、马鞍山地垒的构造组合形式. 相似文献