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南海北部滨海断裂带的深部地球物理探测及其发震构造研究 总被引:5,自引:0,他引:5
滨海断裂带为华南亚板块与南海亚板块的分界断裂,是南海北部陆缘的重要控震构造和发震构造。为了探明南海北部海陆过渡带特别是滨海断裂带两侧的深部地壳结构变化特征,在南海北部进行了一系列的海陆地震联测的实验,根据海陆联合深地震探测的结果,南海北部以滨海断裂带为界,断裂带西北部为华南亚板块的典型陆壳,地壳厚30km,上地壳下部存在一层速度为5.5~5.9km.s-1、厚度为3.0~4.0km的低速层,埋深约10~18km;断裂带东南部为南海亚板块减薄型陆壳,厚25~28km,上地壳下部的低速层逐渐减薄并最后尖灭。滨海断裂带为一个上下连续倾向SE的低速破碎带,宽度6~10km。滨海断裂带与上地壳下部的低速层的交接构造部位形成南海北部的重要应力集中带和应变能积聚带,是地震孕育、发生的深部动力学条件。滨海断裂带的发震构造属NEE向与NW向相交切的断裂构造型式,以NEE向的滨海断裂带为主,NW向断裂带为辅。 相似文献
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我国东南沿海滨海断裂带是1条活动强烈的地震构造带,位于珠江口盆地北缘的粤东滨海断裂带是其重要组成部分,确定该断裂带的几何展布位置与最新活动特征对科学评价华南沿海地区地震危险性、地震构造和地球动力学具有重要科学意义。通过综合分析近年来南海东北部海域地质地貌、地震反射剖面、深部探测、地震活动等方面的研究成果,总结了粤东滨海断裂带几何结构与分段活动性,研究成果已应用于粤东沿海重大工程选址和地震区划工作中。 相似文献
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华南滨海断裂带地震危险性的数学模拟 总被引:5,自引:1,他引:5
华南滨海断裂带是南海北部规模巨大的活动断裂,其地震危险性的确定将为地震几地震工程提供地质背景依据,应用二维有限元分析和正交设计法反演南海北部及其今近地区的构造应力场,探讨可能发震的危险地段。研究结果表明,滨海断裂带的某些地段,尤其是滨海断裂带被NW向断裂切割的部位有一定的地震危险性。南海北部地区最主要的地震威胁来自巴士系断裂带和珠江口盆地南缘的NWW向断裂带,对华南滨海断理解带潜在的地震危险性不宜 相似文献
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利用2010年珠江口外海陆地震联测数据,探测到滨海断裂带在担杆岛外12 km处发育,断裂带主体倾向东南、宽约20 km,沉积层在断裂带内迅速增厚引起陆上固定地震台站的Pg震相在对应断裂带位置的走时明显滞后.通过震相分析和走时正演拟合,获得了滨海断裂带两侧由浅至深的纵波速度结构模型,断裂带内部沉积层速度为1.8~3.5 km/s,上地壳速度5.2~6.1 km/s,下地壳速度为6.3~6.6 km/s,莫霍面的埋深由滨海断裂带陆侧的29 km抬升至其海侧的27 km.滨海断裂带两侧的地壳结构特征明显不同,证实了该断裂带是华南陆区正常型陆壳与南海减薄型陆壳分界断裂的性质.在华南沿海和海陆过渡带的下地壳顶部探测到厚约3 km、层速度为5.5~5.9 km/s的低速层,往海域逐渐减薄尖灭.壳内低速层是地壳中的力学软弱带,与近似正交的NEE向滨海断裂带和NW向断裂带共同组构成了该区地震活动的孕震构造. 相似文献
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《地震地质》2017,(1)
营潍断裂带是郯庐断裂带通过渤海的部分,亦为渤海湾盆地东部构造的重要组成部分,近年来一些研究者从不同角度对断裂带的新构造和新构造活动等进行了不同程度的研究。文中基于以往的工作并结合其他研究者的成果,对该断裂带的新构造和新构造活动及有关问题再次作了分析。渤海地区新构造运动开始于中新世晚期(12~10MaBP),它源自区域地壳水平运动,新构造应力场以NEE-SWW至近EW向水平挤压为特征。营潍断裂带的新构造,主要表现为先存古近纪断裂复活和新构造应力场初始应力作用在其上覆新近系--第四系中形成的构造变形,它以断裂极其发育为特征。NE向斜切营潍断裂带中段的庙西北-黄河口新生断裂带的产生,不仅使营潍断裂带的新构造和新构造活动具分段性,而且使该断裂带的新构造活动显著减弱。渤海东部地震基本沿庙西北-黄河口断裂带分布,营潍断裂带辽东湾段和莱州湾段地震较少且震级小。为究其原因,最后还作了初步的力学分析。 相似文献
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时间相依模型与泊松模型计算结果的对比分析——以道孚及炉霍潜源为例 总被引:1,自引:1,他引:0
本文分析了华北平原第四纪主要构造格局和强震活动特点,划分了主要强震构造带,并对其发震能力作了评价。认为坝县-束鹿-邯郸断裂带、唐山-河间-磁县断裂带和黄骅-德州-东明断裂带3条北东向右旋走滑断裂带为华北平原裂谷系从早第三纪伸展拉张作用进入晚第三纪-第四纪走滑剪切拉张作用的产物,这3条断裂带分别位于3个北东向坳陷带中部,并构成了第四纪沉降中心,与营口-潍坊断裂带一起构成华北平原内的主要强震构造。本文最后提出了华北平原区划分潜在震源区应注意的几点问题,进而针对第四代区划图中华北平原区潜在震源区划分综合方案提出了补充修改意见。 相似文献
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西秦岭北缘断裂带的深部构造特征及其与地震活动的关系 总被引:1,自引:0,他引:1
西秦岭北缘断裂带是中国的一条主要超壳断裂带,也是祁连褶皱系与秦岭褶皱系的分界断裂带。利用近几年取得的人工地震、重力、航磁、地热等资料,从地质和地球物理两个方面就该断裂及其两侧的深部构造特征作一初步分析并讨论了断裂带的最新活动及地震活动。 相似文献
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单道地震因效率高、分辨率高、成本低等优点广泛应用于海砂资源调查和滨海断裂带研究,但由于室内处理技术限制往往成果剖面不能满足解释需求。通过系统剖析了单道地震处理的三项主要难点:信噪比低、同相轴抖动、有效信号弱。研究了三项实用针对性处理技术(自适应反馈保真去噪、涌浪静校正、包络AGC),有效提升成果剖面的品质,并将该技术应用于海砂资源调查和滨海断裂带研究。海砂资源调查成果数据能精细识别出砂层空间刻画分布范围,滨海断裂带研究精细处理数据的主要大断裂及局部细小断层特征显著,满足断裂活动研究的解释需求。 相似文献
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青海拉脊山断裂带新活动特征的初步研究 总被引:10,自引:0,他引:10
拉脊山断裂带由拉脊山北缘断裂和拉脊山南缘断裂两条向NE凸出的弧形断裂所组成,分别长约230km和220km。它们是介于NNW向的热水一日月山右旋走滑断裂带和NWW向的西秦岭北缘左旋走滑断裂带之间的一个大型挤压构造区和构造转换带,也是分隔拉脊山南北两侧的西宁一民和盆地和循化一化隆盆地的重要边界断裂。沿断裂带的追踪考察,发现了其新活动的部分地质地貌证据。其最新活动时代为晚更新世晚期(仅局部为全新世早期),性质以挤压逆冲为主稍具左旋特征。该断裂的新活动可能导致了该区20余次5级左右中等地震的发生。可以说,拉脊山地区既是反映构造活动,又是反映地震活动的地震构造窗。 相似文献
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Although Tanlu fault is one of the most important tectonic fault zones and active earthquake belts in eastern China, little is known about its deep structure. In this study, we use the existing Bouguer gravity data to study the middle section of the Tanlu fault zone, which is also known as the Yishu fault zone. Our gravity inversion results indicate that the Moho has an abrupt offset in depth at the Tanlu fault zone and it has a relatively smooth variation away from the fault zone. The crustal structures on both sides are different from each other. Sediment is thin on the west side with an average thickness of less than 5 km, while it is as thick as 6 km on the east side. The thinnest sediment (3-4 km) is at the fault zone. Moho depth increases from 33 to 34 km on east side and from 36 to 38 km on west side. Tanlu fault zone is shown as a wide zone of linear gradient in the Bouguer gravity anomaly. 相似文献
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使用布格重力资料对郯庐断裂带的中段部分(沂沭断裂带)进行了研究. 结果表明, 郯庐断裂带莫霍面及地壳内界面均发生错断,断裂带两侧地壳各界面起伏平缓. 该结果与前人的郯庐断裂带是切穿地壳的深大断裂的认识相一致. 在郯庐断裂带两侧,地壳结构明显不同,西侧沉积层较薄,平均在5 km以下;东侧多数在6 km以上;在断裂带中央沉积物最薄,大约为3~4 km. 断裂带东侧莫霍面埋深浅,大约为33~34 km;西侧莫霍面埋深明显增加,达到36~38 km.反映了莫霍面深度在断裂带附近整体是向西增加的. 郯庐断裂带在重力场分布中则表现为一条宽度较大的线性布格重力异常梯度带. 相似文献
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龙门山构造带区域稳定性探讨 总被引:13,自引:0,他引:13
根据龙门山构造带的地震地质特征、地震活动规律及新构造活动特征,综合分析认为该地区区域稳定性受控于龙门山断裂带。而断裂带又以韧性切变形为主,蠕滑运动为特征,决定该带在相当长的一段时间内,发生强烈地震的可能性不大。 相似文献
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海原一六盘山构造带是青藏高原东北缘地区的一条重要边界,在海原断裂带和六盘山断裂带接触区形成了特殊的马东山挤压阶区,本文对跨过该挤压阶区一条密集测点大地电磁剖面数据进行了处理和二维反演,获得的深部电性结构图像揭示在马东山挤压阶区深部电性结构表现为在高阻背景下镶嵌多个向西南倾斜的低阻条带电阻率结构样式,并在深度约25 km汇聚到中下地壳低阻层内,共同组成"正花状"结构;海原一六盘山构造带西南侧到陇中盆地区间呈现高、低阻相互"楔合"的深部结构特征,而其东北侧的鄂尔多斯西缘带自地表到中下地壳为较完整的高阻块体.另外结合跨过海原断裂带中段和西秦岭造山带的大地电磁探测结果,对海原一六盘山构造带分段性及其两侧的陇中盆地和鄂尔多斯地块的接触关系进行了研究分析.大地电磁探测成果佐证了在海原断裂带中段为具有走滑特点的断裂,而其尾端与六盘山断裂带斜交区域的马东山地区发生了强烈的逆冲推覆与褶皱变形;活动构造研究发现沿海原断裂带所产生的左旋走滑位移被其尾端的马东山、六盘山以东西向的地壳缩短调节吸收,GPS观测表明青藏高原东北缘地区现今构造变形分布在海原一六盘山构造带以西上百公里的范围内,陇中盆地一海原一六盘山构造带和鄂尔多斯地块一线的深部电性结构图像也很好地解释了该区变形状态:海原一六盘山构造带带及西南盘的陇中盆地的中下地壳非常破碎,在青藏高原向北东方向的推挤下容易发生变形,而北东盘鄂尔多斯地块地壳结构完整,很难发生构造变形.对海原一六盘山构造带马东山阶区和龙门山构造带的深部电性结构及变形特征等进行了比较分析,发现该区有与2008年汶川地震相似的深部构造背景,应重视该区强震孕育环境的探测研究. 相似文献
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EVIDENCES OF THE LATE QUATERNARY ACTIVITY OF THE ANGREN SEGMENT OF THE YARLUNG TSANGPO FAULT ZONE 
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下载免费PDF全文 The Yarlung Tsangbo fault zone, one of the most important geological interfaces in the Yarlung Tsangbo suture zone which is a huge geotectonic boundary with nearly east-west-trending in southern Tibet Plateau, has undergone a long-term tectonic evolution. Studying this fault zone can help us understand the development and evolution history of the suture zone and the tectonic mechanism of subduction-collision about the Tibet Plateau, so it has always been a hot topic in the field of geology. Most of existing data suggest that the current tectonic activity in southern Tibet is given priority to the rift system with nearly north-south-trending, and the Yarlung Tsangbo fault zone with nearly east-west-trending has relatively weaker activity since late Quaternary. There are only some evidences of Holocene activity found in the Lulang town section near eastern Himalayan syntaxis, and there are few reports about the reliable geological evidences of late Quaternary activity of the section on the west of Milin County of the fault zone.
Based on image interpretation, field investigation and chronological method, we found several fault profiles along the Yarlung Tsangbo fault zone near the Angren Lake in this study. These profiles reveal that loose fault gouge has been developed on the fault plane which nearly extends to the surface and offsets the loess sediments and its overlying alluvial-proluvial gravels. The loess is characterized by coarser grains, higher content of fine sand and tiny small gravels. The results of the two OSL dating samples collected in the loess are(94.68±6.51)ka and(103.84±5.14)ka respectively, showing that the loess revealed at the Angren site should be the middle-late Pleistocene sand loess distributed on the high-terraces along the Yarlung Tsangpo River. Consequently, the Angren segment of the Yarlung Tsangpo fault zone is active since the late Quaternary. In addition, synchronous left-lateral offsets of a series of small gullies and beheaded gullies can be seen near the profiles along the fault, which are the supporting evidence for the late Quaternary activity of the fault.
However, the segment with obvious geomorphology remains is relatively short, and no evidence of late Quaternary activity have been found in other sections on the west of Milin County of the Yarlung Tsangpo fault zone. Existing data show that, in the southern Tibet, a series of near NS-trending rift systems are strongly active since the late Quaternary, cutting almost all of the near east-west-trending tectonic belts including the Yarlung Tsangpo fault zone. In addition, majority of the earthquakes occurring in southern Tibet are related to the NS-trending rift systems. Tectonic images show that the Angren segment locates between the Shenzha-Dingjie rift and the Dangreyong Lake-Gu Lake rift. These two adjacent rifts are special in the rift system in southern Tibet:Firstly, the two rifts are located in the conversion position of the trend of the whole rift system; Secondly, the size of the two rifts varies significantly between the north side and the south side of the Yarlung Tsangbo fault zone. Thirdly, the Shenzha-Dingjie rift seems to be of right-lateral bending, while the Dangreyong Lake-Gu Lake rift shows left-lateral bending. These characteristics may lead to the fact that the amount of absorption and accommodation of the rift activities in the north side of the Yarlung Tsangbo fault zone is larger than that in the south side during the migration of the plateau materials, leading to the differential movement of the block between the two sides of the fault zone. Therefore, the Yarlung Tsangbo fault zone possesses the accommodating tectonic activity, of course, the intensity of this accommodating activity is limited and relatively weaker, which may be the reason why it is difficult to find large-scale tectonic remains characterizing the late Quaternary activity along the fault zone. The scale of the rift system in southern Tibet is systematically different between the two sides of the Yarlung Tsangbo fault zone, so it cannot be ruled out that there are also weak activities similar to the Angren segment in other sections of the fault zone. 相似文献
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郯庐断裂带是中国东部规模最大的构造活动带,有着复杂的形成演化历史,对中国东部的区域构造、岩浆活动、矿产资源的形成和分布以及现代地震活动都有重要控制作用.2010年在郯庐断裂带中南段的江苏宿迁市附近,采用深地震反射探测方法对郯庐断裂带及其两侧地块的岩石圈结构进行了解剖.结果表明,该区莫霍面和岩石圈底界均向西倾,其中,地壳厚度约为31~36km,岩石圈厚度约为75~86km,且岩石圈厚度在郯庐断裂带下方出现突变.郯庐断裂带在剖面上表现为由多条主干断裂组成的花状构造,其内部发育有断陷盆地和挤压褶皱,具有伸展、挤压和走滑并存的构造形迹,暗示郯庐断裂带的形成和演化经历了多期复杂的构造活动.这一断裂带错断了近地表沉积层,向下切割莫霍面和岩石圈地幔,属岩石圈尺度的深大断裂构造系统.软流圈高温高压热物质沿断裂带的上涌、岩浆底侵或热侵蚀作用造成岩石圈出现拉张伸展和岩石圈减薄,并可能使岩石圈组构及其物质成分发生改变.本项研究结果不但可进一步加深对郯庐断裂带深、浅部结构的认识,而且还可为分析研究华北克拉通东部的深部过程和浅部构造响应提供资料约束. 相似文献
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将柯坪块体作为研究对象,利用最大似然法进行b值计算,并结合利用双差定位法对柯坪块体上发生的ML≥1.6地震重定位后的结果,寻找沿柯坪块体主要断裂带的凹凸体。研究发现,柯坪块体上发生地震的震中主要沿断裂带分布,沿柯坪塔格逆断裂带存在凹凸体,该区域虽已发生大地震,但依然处于高应力水平,因此初步判定沿柯坪塔格逆断裂带仍存在发生地震的危险性。 相似文献
19.
运用非连续变形分析法与三维有限元法相结合的方法,以GPS资料作为位移速率和震源机制的约束条件,通过数值模拟研究了青藏高原及其东侧邻区构造地块的运动、变形、相互作用及其与近30年来发生于该区的大地震之间的关系。研究中引入了以应力与摩擦强度的比值定义的断层“失稳危险度”,通过数值模拟计算得到了研究区地壳块体边界断层的失稳危险度分布。结果表明,失稳危险度高的地段与近期该区发生的MS≥7.0地震所在的位置基本一致,其中龙门山断裂带上包括汶川和芦山大地震的发震断层均为失稳危险度最高值地区。计算得到的应变率强度分布图显示,青藏高原东部边缘整条地带均为应变率强度的陡变带,特别是以龙门山断裂带上的陡变最为明显,其西侧应变率强度为东侧的近4倍,而且,这个带位于宽度相同、走向与龙门山断裂带走向相一致的高应变能密度带中,表明这两次大地震前,作为其发震断层的龙门山断裂带已积累了相当高的应变能,失稳危险度高,处于力学上的不稳定状态。模拟计算得到在上地壳层中,2001年昆仑山口西MS8.1地震引起汶川、芦山地震发震断层的库仑破裂应力增加约0.016 MPa,相当于龙门山断裂带约两年的应力积累,也就是说,使汶川、芦山地震发震断层的失稳破裂提前了约两年。 此外,关于2008年汶川MS8.0地震的模拟计算表明,汶川地震的发生也使包括芦山地震发震断层的龙门山断裂带西南段和东昆仑断裂带东南端的库仑破裂应力增大,应变能积累增强,这说明汶川MS8.0地震的发生对已处于失稳危险度较高状态的2013年芦山地震和2017年九寨沟地震发震断层的提前失稳破裂起到了促进作用。 相似文献
20.
Discovery of the Longriba fault zone in eastern Bayan Har block,China and its tectonic implication 总被引:20,自引:0,他引:20
Re-measured GPS data have recently revealed that a broad NE trending dextral shear zone exists in the eastern Bayan Har block about 200 km northwest of the Longmenshan thrust on the eastern margin of the Qinghai-Tibet Plateau. The strain rate along this shear zone may reach up to 4-6 mm/a. Our interpretation of satellite images and field observations indicate that this dextral shear zone corresponds to a newly generated NE trending Longriba fault zone that has been ignored before. The northeast segment of the Longriba fault zone consists of two subparallel N54°±5°E trending branch faults about 30 km apart, and late Quaternary offset landforms are well developed along the strands of these two branch faults. The northern branch fault, the Longriqu fault, has relatively large reverse component, while the southern branch fault, the Maoergai fault, is a pure right-lateral strike slip fault. According to vector synthesizing principle, the average right-lateral strike slip rate along the Longriba fault zone in the late Quaternary is calculated to be 5.4±2.0 mm/a, the vertical slip rate to be 0.7 mm/a, and the rate of crustal shortening to be 0.55 mm/a. The discovery of the Longriba fault zone may provide a new insight into the tectonics and dynamics of the eastern margin of the Qinghai-Tibet Plateau. Taken the Longriba fault zone as a boundary, the Bayan Har block is divided into two sub-blocks: the Ahba sub-block in the west and the Longmenshan sub-block in the east. The shortening and uplifting of the Longmenshan sub-block as a whole reflects that both the Longmenshan thrust and Longriba fault zone are subordinated to a back propagated nappe tectonic system that was formed during the southeastward motion of the Bayan Har block owing to intense resistance of the South China block. This nappe tectonic system has become a boundary tectonic type of an active block supporting crustal deformation along the eastern margin of the Qinghai-Tibet Plateau from late Cenozoic till now. The Longriba fault zone is just an active fault zone newly-generated in late Quaternary along this tectonic system. 相似文献