共查询到19条相似文献,搜索用时 140 毫秒
1.
孕震构造块体与相应地震区划分方法 总被引:1,自引:0,他引:1
可靠地划分地震区可奠定地震预测与地震危险性评价的地质基础,具有十分重要的意义。笔者等通过研究分析指出板内孕震构造块体侧向边界可由区域性大断层或由区域性大断层与板块边界界定,底边界为康拉德面或低速高导层;板间孕震构造块体为俯冲板块,可由区域性大断层和(或)板块边界约束;在同一个孕震构造块体和同一轮地震周期的地震具有内在联系。因此,地震区可定义为代表相应孕震构造块体地震活动的区域,其可表征该块体内源自锁固段破裂的地震活动。基于笔者等提出的孕震构造块体和相应地震区边界确定原则,把全球两大地震带(环太平洋地震带和欧亚地震带)划分为62个地震区;每个地震区的分区方案均通过了多锁固段脆性破裂理论的检验,这说明方案可靠。进而,笔者等归纳总结了地震区划分方法。 相似文献
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针对强震能否预测以及如何预测的科学难题,建立孕震断层多锁固段脆性破裂理论,发现强震孕育过程的指数规律:sf(k)=1.48ksc,其中sf(k)和sc分别为第k个锁固体断裂点与第一个锁固段膨胀起点对应的累加Be-nioff应变,可以利用锁固段在其变形膨胀点处开始发生的震群事件(加速性地震活动前兆)预测未来大震,并给出了强震四要素相关预测方法。通过对诸多历史强震(如邢台地震、海城地震、汶川地震、玉树地震等)的回溯性检验分析表明:强震可以预测,且其孕震过程都遵循着上述简单的共性力学规律。在此基础上,归纳出4种典型强震的孕震模式,即大震震级呈"大—小—大"型,大震震级呈连续上升型,锁固段快速连续破裂型与标准型。此外,根据相关强震预测理论方法,对有关抗震救灾未来研究的方向提出如下建议:建议加强活动断裂位置精确定位、性质判定的地震地质研究,并开展孕震区锁固段(闭锁区域)判识的地质与地球物理研究等。 相似文献
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陈胜早 《大地构造与成矿学》2007,31(3):265-272
地震震源分布强烈依赖于构造环境的温度和压力条件。震源机制可使大陆地壳脆性-韧性转换带(下部稳定性过渡边界)的温压条件复杂化。该过渡边界伴随速度弱化作用(有震活动)向速度强化作用(无震活动)的转化。在岩石圈流变和壳幔动力学的基础上研究了与板块边界有关的地震活动,包括板缘地震和俯冲板片地震。俯冲带板缘地震的深度分布受约于脆性摩擦动力机制,而摩擦剪切机制不能满意地解释深震活动,包括俯冲板片地震。这是因为深震震源机制可能与高压、高温条件下的固一固相变有关,而用脆性破裂或摩擦作用来解释就不近合理。以理论与实验研究为依据,本文对与震源物理和震源分布有关的岩石圈流变特性进行了较为深入的论述。 相似文献
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九江(瑞昌)地处华南地震区中北部,毗邻华北地震区郯城—庐江地震带南段,属于长江中下游地震带中段。其大地构造单元为下杨子准地台的台坳。中新生代时期为沉降带,具有大陆地壳三层速度结构,厚度在31-34公里之间变化,平均速度6.29公里/秒。该地区处在湖口—南昌重力梯度带西北侧,上地幔斜坡带,和九江—瑞昌负磁场异常带。本文通过对本地区新构造运动分区,断裂构造活动性,史今地震活动基本特点和5.7级地震震前地震活动条带(空区)、地震序列精确定位、地震烈度分布、震源动力学参数反演、地表变形现象、建筑物破坏特征等综合研究,认为这次5.7级地震是发生在九江—靖安地震断裂带西侧的铜鼓—武宁断裂北段破裂空区。其发震断层呈NNE向,倾向SE,倾角60°,断层破裂长度11-13公里,震源深度约10公里,为倾滑正断层。这是受华北地区郯城—庐江断块向南挤压、碰撞,导致地壳产生拉分伸长张扭性破裂,应属于新生性地震断层活动产物。它表明在华南板内少震、弱震地区在华北块体向南滑动和菲律宾海板块向北西挤压应力场交迭作用下能够导致华南块体内部产生断块差异升降运动加剧,从而使第四纪断层伸展破裂而孕育新生性中—强地震,尤其往往在台湾岛弧板缘活动带相对平静期阶段,板内块断则处于活动状态,存在由内陆向海域发展趋势。 相似文献
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再论震积岩及震积不整合——以川西-滇西地区为例 总被引:45,自引:1,他引:44
震积岩是“灾变事件岩”的典型代表,震积岩一般由原地相的地震扰动层与上覆的滑来震积层组成,无论后者是否发育,震积不整合都是存在的。伸展构造环境下形成的区域性震积不整合,属于伸不整合,地震扰动层可以进一步分为软沉积及液化变形段,半固结变形的微褶皱和微断层段、脆性变形的震碎角砾岩段及韵律断层段等序列;群震型(多震旋回)剖面也可划分出出前震、主震、后震等序列。地震扰动序列对识别震积岩很关键,群震型剖面及化 相似文献
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沂沭断裂带及其近区的地震成因岩石新认识 总被引:4,自引:1,他引:4
将沂沭断裂带及其附近地区的地震成因岩石划分为四种类型,它们是具有地震成因构造的震积岩、震断层构造岩、震火山岩及隐爆地震角砾岩.前两类是构造地震的记录,而后两类是火山地震及隐爆火山地震的记录.由于震断层构造岩沿长期活动性断层分布,大多遭受了若干期强地震活动的改造,所以不易确定其最初的形成时期.因此,笔者重点对分布于沂沭断裂地震带及附近的其它三类地震成因岩石(包括震积岩、震火山岩和隐爆地震角砾岩)作了研究,论述了三类地震成因岩石的特征、时空分布、反映的地震作用机理及意义.认为:地震成因岩石不仅是强地震事件和激烈构造活动的记录;而且,因为由强地震形成的不同等级断层和裂隙构成了一个高渗透性的能够沟通不同深度石油和成矿流体的网络,所以深入研究地震成因岩石有助于完善大断裂地震带及近区的石油聚集与成矿理论. 相似文献
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利用青藏块体东北缘60余处跨断层位移流动测点的观测资料,结合昆仑山口西8.1级地震的孕震过程及震后对青藏块体东北缘构造活动的影响,由区域断层活动特征、形变测点的异常特征和区域地震活动特征,对2002年12月14 日甘肃玉门Ms5.9级地震做出中期预测。 相似文献
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青藏高原东缘1933年叠溪Ms7.5级地震发震构造再研究 总被引:5,自引:0,他引:5
青藏高原东缘1933年叠溪75级地震的发震构造至今仍然难以琢磨,前人或将其归因于NW向松坪沟断裂的左旋走滑活动、或南北向岷江断裂左旋走滑活动,但地表同震破裂、地震地质、地震等烈度图等调查和研究结果都不支持这种走滑型断层的地震成因。本文基于叠溪地震区构造地貌和湖相地层断层调查,结合古地震和历史地震的研究结果,提出了与2013年四川芦山Ms 70级地震类似的发震构造模型,即隐伏断坡型逆冲断层发震构造模型,认为在叠溪震区10~15km深部隐伏一条西倾的逆冲断坡,其向东逆冲作用导致了叠溪地区频繁的地震活动。这个发震模型有待深部地球物理测深资料和地表大地测量资料的验证。 相似文献
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从断层中心论向块体中心论转变--论活动块体在地震活动中的作用 总被引:37,自引:2,他引:35
讨论活动块体在地震活动中的作用。板缘地震在空间上呈线性分布,而中国大陆地震在空间上呈片状分布。大陆强震往往涉及两个以上方向断层的活动,且强震往往沿块体边界迁移或在其两侧断层上对迁。一些强震前后由中小地震震源机制解反映的P轴方向往往发生近90°的转向,这种现象难以用区域应力方向变化来解释,但可从块体活动角度出发,用块体两个边界断层的先后错动来解释。地震前异常的远程效应、震后烈度异常分布图像以及地震序列特点等也显示了活动块体的作用。不同地区由地震活动性推测的块体活动方式有所差别,其原因可能和区域主压应力轴与块体两个边界断层走向的夹角不同有关。据此认为,在分析中国地震活动时要把视角从以活动断层为中心转变为以活动块体为中心 相似文献
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A simplified tectonic scheme for hazard purposes was recently adopted for northeastern Italy, introducing large generalized seismogenic areas containing systems of complex geometry faults. This scheme considers only major faults with documented seismic activity. In the present analysis, a different tectonic scheme, with linear elements as seismogenic sources, is presented. The assessment of the regional seismic hazard is done with the fault rupture model, its most important advantage being the recognition that the length of fault rupture during an earthquake is an important consideration in probabilistic calculations of seismic hazard. Moreover, some structures with no associated seismicity but with notable neotectonic activity are considered, and their contribution to the results investigated. Important uncertainties such as those in the maximum possible magnitude of future earthquakes, in the location of the fault, in the focal depth, and in the attenuation law are accounted for in the calculations and their influence studied. The results identify a seismic belt running from Lake Garda to Friuli and along the Yugoslav coast and are very similar to those already known for Friuli, with the largest values corresponding to the zone around Gemona. Some slight differences in the shape of the areas of equal acceleration are probably due to the delineation of the seismic sources of the proposed model. For a cautious elaboration, some neotectonic lines without present seismicity were added into the fault model. Their contribution is negligible in the areas of highest acceleration, but increases remarkably in the areas where acceleration is not expected to exceed the medium values. 相似文献
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西藏活动构造的活动与地震十分强烈和明显。活动构造类型主要有西藏活动构造系、喜马拉雅边界翘起带和冈底斯断块翘起带。地震活动主要受西藏活动构造带控制,其次受喜马拉雅边界翘起带和冈底斯断块翘起带所制约。目前划分的地震带有13条,基本与活动构造带中的断陷带、边界翘起带和断块翘起带的头部一致。地震烈度分布的最基本单元主要为活动构造带中的断陷带,其次是喜马拉雅边界翘起带和冈底斯断块翘起带的头部。区划的结果最高烈度为11度区,最低烈度为6度区。 相似文献
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Many of the major lineaments in southern Africa are major ductile shear zones with large displacement, occurring within, though often bounding orogenic belts. An example is the boundary to the Limpopo belt in Botswana and Zimbabwe. However, some of these shear zones only record slight displacement when considered on a crustal scale; they are merely planes recording differential movement on much larger, flat to gently dipping, shear zones where the boundary to the orogenic belt is a low-angle thrust zone. These different types of shear zones are clearly shown in the Pan-African belt of Zambia where large ENE-trending lineaments have been recorded. Recent work has shown the northern group of shears to be large lateral ramps; for example, the rocks of the copper belt are part of an ENE-verging thrust package, the southern boundary of which is a major, oblique to lateral ramp. In southern Zambia shears are more analogous to major transform faults; they form as tear faults separating zones of different thrust vergence. A possible plate tectonic model is given for this part of Africa, showing the different relative plate movement vectors estimated from the geometry of the Pan-African shear zones. 相似文献
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中国活动构造与地震活动 总被引:56,自引:3,他引:56
文中研究了中国活动构造与地震活动的关系 ,包括活动断裂、活动褶皱、活动盆地和活动块体与地震活动的关系。全部 8级、绝大部分 7~ 7.9级地震均发生在活动块体边界活动构造带内 ;但对内部有次级活动构造的块体而言 ,少数 7~ 7.9级地震和部分 6~ 6 .9级地震也可能发生在块体内部的活动构造带上。大地震与活动断裂、活动褶皱和活动盆地的关系十分紧密 ,70多次 7级以上地震的同震破裂带及其位移参数与活动构造完全一致 ,7~ 8级地震均发生在活动断裂、活动褶皱和活动盆地带内 ,仅个别地震由于发生在高原和高山区 ,情况不明 ,6~ 6 .9级地震则大约有 5 %~ 15 %发生在活动构造带外或者情况不明。由于中国各断块区应力环境的差别 ,各区活动构造变形和地震发震构造类型也有所不同 ,文中对不同构造区走滑型 ,逆断裂褶皱型和正断裂拉张型活动构造和地震发震构造模型作了讨论。 相似文献
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Numerical modeling of strike-slip creeping faults and implications for the Hayward fault, California 总被引:1,自引:0,他引:1
The seismic potential of creeping faults such as the Hayward fault (San Francisco Bay Area, CA) depends on the rate at which moment (slip deficit) accumulates on the fault plane. Thus, it is important to evaluate how the creep rate observed at the surface is related to the slip on the fault plane. The surface creep rate (SCR) depends on the geometry of locked and free portions of the fault and on the interaction between the fault zone and the surrounding lithosphere. Using a viscoelastic finite element model, we investigate how fault zone geometries and physical characteristics such as frictionless or locked patches affect the observed surface creep when the system is driven by far field plate motions. These results have been applied to creep observations of the Hayward fault. This analysis differs from most previous fault creeping models in that the fault in our model is loaded by a distributed viscous flow induced by far field velocity boundary conditions instead of imposed slip beneath the major faults of the region. The far field velocity boundary conditions simulate the relative motion of the stable Pacific plate respect to the Rigid Sierra Nevada block, leaving the rheology, fault geometry, and mechanics (locked or free to creep patches), to determinate the patterns of fault creep.Our model results show that the fault geometry (e.g. length and depth of creeping) and the local rheology influence the surface creep rate (SCR) and the slip on the fault plane. In particular, we show that the viscoelastic layer beneath the elastic seismogenic zone plays a fundamental role in loading the fault. Additionally, the coupling with the surrounding lithosphere results in a smooth transition from regions free to creep to locked patches. 相似文献
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中国是世界上地震滑坡灾害最为严重的国家之一。考虑地质构造、地形地貌、地层岩性、河流、地震动参数等6类影响因素,针对50年超越概率10%的抗震设防水准,分别开展了基于信息量模型和Newmark模型的地震滑坡危险性评估。基于最不利原则对两项结果进行地震滑坡危险性综合分区,揭示了中国地震滑坡高危险区集中在南北构造带、青藏高原周缘、鄂尔多斯周缘、天山山脉、台湾山脉等5个活动地块边界或地貌过渡带的空间分布特征。通过地震滑坡危险对主要山区城市的影响分析,显示:34个省级行政单元中的云南、四川、甘肃、台湾4省区受影响严重;370个主要城市中的48个城市受影响严重,其中44个城市有活动断裂穿越;9类主体功能规划区中,国家和省级优化开发区域总体较适于城市开发建设;25个经济区与城市群中,总体较适于开发建设,但是滇中、关天、成渝、兰西等4个经济区与城市群受影响严重;14个集中连片特困地区中,滇西边境、乌蒙、秦巴、六盘等4个地区受影响严重,深度贫困区的“三州”受影响严重。这些区域需要在地质灾害防治和国土空间规划中予以特别关注。 相似文献
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Deformation Stages and Ar‐Ar Age Data of the Wan‐Zhe‐Gan Tectonic Zone,Southeast China,and Their Tectonic Significance 总被引:1,自引:0,他引:1
The major tectonic zone that passes through the border regions of the Anhui, Zhejiang, and Jiangxi Provinces in southeast China has been commonly referred to as the Wan-Zhe-Gan fault zone. Geologically, this zone consists of several regional fault belts of various ages and orientations. We have categorized the faults into four age groups based on field investigations. The Neoproterozoic faults are northeast striking. They start from the northeast Jiangxi Province and extend northeastward to Fuchuan in Anhui Province, the same location of the northeast Jiangxi-Fuchuan ophiolite belt. The faults probably acted? during the Neoproterozoic as a boundary fault zone of a plate or a block suture with mélange along the faults. The nearly east-west- or east-northeast-striking faults are of Silurian ages (40Ar/39Ar age 429 Ma). This group includes the Qimen-Shexian fault and the Jiangwang-Jiekou ductile shear belt. They represent a major tectonic boundary in the basement because the two sides of the fault have clear dissimilarities. The third group of faults is north-northeast striking, having formed since the early-middle Triassic with 40Ar/39Ar ages of 230–254 Ma. They form a fault belt starting from Yiyang in northern Jiangxi and connect with the Wucheng as well as the Ningguo-Jixi faults. This fault belt is a key fault-magmatic belt controlling the formation of Jurassic-Cretaceous red basins, ore distribution, magmatic activity, and mineralization. When it reactivated during the late Cretaceous, the belt behaved as a series of reverse faults from southeast to northwest and composed the fourth fault group. Therefore, classifying the Wan-Zhe-Gan fault zone into four fault groups will help in the analysis of the tectonic evolution of the eastern segment of the Jiangnan orogen since the Neoproterozoic era. 相似文献
18.
The Deep Geophysical Structure of the Middle Section of the Longmen Mountains Tectonic Belt and its Relation to the Wenchuan Earthquake 总被引:1,自引:0,他引:1
Investigation of the deep geophysical structure of the Longmen Mountains tectonic belt and its relation to the Wenchuan Earthquake is important for the study of earthquakes. By using magnetotelluric sounding profiles of the Luqu–Zhongjiang and Anxian–Suining; seismic sounding profiles of the Sichuan Maowen–Chongqing Gongtan, the Qinghai Huashi Gorge–Sichuan Jianyang, and the Batang–Zizhong; and magnetogravimetric data of the Longmen Mountains region, the deep geophysical structure of the Songpan–Ganzi block, the western Sichuan foreland basin, and the Longmen Mountains tectonic belt and their relation was discussed. The eastward extrusion of the Qinghai–Tibet Plateau thrusts the Songpan–Ganzi block upon the Yangtze block, which obstructs the eastward movement of the Qinghai–Tibet Plateau. The Maoxian–Wenchuan, Beichuan–Yingxiu, and Anxian–Guanxian faults of the Longmen Mountains fault belt dip to northwest with different dip angles and gradually converge in the deeper parts. Geophysical structure suggests that an intracrustal low-velocity, low-resistivity, and high-conductivity layer is common between the middle and upper crust west of the Longmen Mountains tectonic belt but not in the upper Yangtze block. The Sichuan Basin has a thick low-resistance sedimentary layer on a stable high-resistance basement; moreover, there are secondary paleohighs and depression structures at the lower part of the western Sichuan foreland basin with characteristic of high magnetic anomalies, whereas the Songpan–Ganzi block has a high resisitivity cover of upper crust and continues to a low-resistance layer. Considering the Longmen Mountains tectonic belt as the boundary, there are Bouguer gravity anomalies of "one belt between two zones." Thus, we infer that there is a corresponding relation between the inferred crystalline basement of the Songpan block and the underlying basin basement of the Longmen Mountains fault belt. Furthermore, there may be an extensive ancient Yangtze block, which is west of the Ruoergai block. In addition, the crust–mantle ductile shear zone under the Longmen Mountains tectonic belt is the main fault, whereas the Beichuan–Yingxiu and Anxian–Guanxian faults at the surface are earthquake faults. The Wenchuan Ms 8.0 earthquake might be attributed to the collision of the Yangtze block and the Qinghai–Tibet Plateau. The eastward obduction of the eastern edge of the Qinghai–Tibet Plateau and eastward subduction of its deeper part under the influence of the collision of the Indian, Pacific, and Philippine Plates with the Eurasia Plate might have caused the Longmen Mountains tectonic belt to cut the Moho and extend to the middle and upper crust; thus, creating high stress concentration and rapid energy release zone. 相似文献
19.
龙山门断裂带活动特征与工程区域地壳稳定性评价理论 总被引:3,自引:0,他引:3
2008年5月12日发生的里氏8.0级汶川地震处于龙门山造山带与四川盆地的构造边界上。350km长的地表破裂带呈右行左阶雁行排列在具有逆冲和右行走滑性质的汶川茂县青川、映秀北川和江油都江堰3条断层带上。下地壳的韧性流动伴随中地壳韧-脆性剪切带应力和应变的积累,产生上地壳脆性发震断层,并控制地表破裂带和滑坡的分布。震源出现在上地壳脆性断层与中地壳脆-韧性剪切带的交汇部位。〖KG2〗以汶川地震为例,结合板内地震基本特征,提出引入大陆动力学理论完善工程区域稳定性理论基础,构建基于板块学说、地质力学和大陆动力学理论的相互补充的工程区域稳定性评价体系;对活断层与地震活动性预测提出见解,强调仅仅从活断层的存在及其活动强度来预测地震活动性与强度是远远不够甚至是错误的,必须将下地壳、中地壳和上地壳结构作为一个整体加以研究和判别;提出工程区域地壳稳定性评价指标体系,指出了大陆内部安全岛划分应采用的核心指标。 相似文献