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本文根据我国境内及邻近地区地壳结构的分布特征,特别是近年来我国发生的几个大地震所处的深部地壳构造背景,讨论了地震孕育与发生的可能构造模式。结果表明,近代地震活动地带均为地壳厚度急剧变化的地带和地壳构造的转折交汇部位。在深部构造上又为上地幔顶部局部的隆起地区及邻近隆起地带的边缘或斜坡上。此外,地震发生的深部部位与重力场、磁力场的高梯度变化以及地壳中的低电阻层、低速层和高速层的分布密切相关。这种与地震有关的深部构造背景与地球物理场特征,是今后地震预报和地震成因研究必须十分重视的。 相似文献
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大同—阳高震区深部构造背景 总被引:6,自引:0,他引:6
利用通过本区的宽角反射/折射剖面资料对大同-阳高震区及邻区地壳上地幔速度结构与构造进行了详细的研究,结果表明,地壳上地幔速度结构与构造在纵向和横向上具有明显的不均一性,浅部基底断裂发育,对应其深部,根据波组特征,壳内界面及速度等值线起伏变化和低速异常体的边界等推测了地壳深断裂带,区内最明显的上地壳低速体位于大同-阳原附近,其南界存在地壳断裂,大同-阳高地震群与该低速异常体和深断裂有关。 相似文献
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给出了利用反射波走时重建地壳三维界面的方法 ,并处理了华北地区人工地震测深测线网中的PmP走时资料 ,获得了研究区莫霍界面的三维构造形态 ,确定了壳内深断裂的展布。结果表明 ,研究区莫霍界面埋深整体上由东南向西北加深 ,并在这一背景之上呈现波浪起伏 ,断陷盆地对应上地幔的隆起 ;区内存在数条延伸至莫霍面的地壳深断裂 ,其中大致沿北东走向展布的地壳厚度陡变带和沿北西西向的地壳厚度变异带是区内两条主要的深部构造带。将研究结果与本区中、强地震空间分布特征相结合 ,揭示了地震活动的深部构造背景 相似文献
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本文根据青藏高原东北部强震震中分布、震源深度、地壳厚度和震源机制解等资料的分析、讨论了本区构造块体运移格局、强震分布特征和成带机理等问题。指出所论区内各断裂强震带是藏北地壳浅部块体物质在重力作用下向北东方向滑移造成的,并指出海源-天水-松潘强震活动带系属地壳结构型地震带而非断裂型地震带。 相似文献
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In recent years, strong earthquakes of MS8.0 Wenchuan and MS7.0 Lushan occurred in the central-southern part of Longmenshan fault zone. The distance between the two earthquakes is less than 80 kilometers. So if we can obtain the inner structure of the crust and upper mantle, it will benefit us to understand the mechanism of the two earthquakes. Based on the high resolution dataset of Bouguer gravity anomaly data and the initial model constrained by three-dimensional tomography results of P-wave velocity in Sichuan-Yunnan region, with the help of the preconditioned conjugate gradient(PCG)inversion method, we established the three dimensional density structure model of the crust and upper mantle of the central-southern segment of Longmenshan, the spatial interval of which is 10 kilometers along the horizontal direction and 5 kilometers along the depth which is limited to 0~65km, respectively. This model also provides a new geophysical model for studying the crustal structure of western Sichuan plateau and Sichuan Basin. The results show obvious differences in the crustal density structure on both sides(Songpan-Ganzê block and Sichuan Basin)of Longmenshan fault zone which is a boundary fault and controls the inner crustal structure. In Sichuan Basin, the sedimentary layer is represented as low density structure which is about 10km thick. In contrast, the upper crust of Songpan-Ganzê block shows a thinner sedimentary layer and higher density structure where bedrock is exposed. Furthermore, there is a wide scale low density layer in the middle crust of the Songpan-Ganzê block. Based on this, we inferred that the medium intensity of the Songpan-Ganzê block is significantly lower than that of Sichuan Basin. As a result, the eastward movement of material of the Qinghai-Tibet plateau, blocked by the Sichuan Basin, is inevitably impacted, resulting in compressional deformation and uplift, forming the Longmenshan thrust-nappe tectonic belt at the same time. The result also presents that the crustal structure has a distinct segmental feature along the Longmenshan fault zone, which is characterized by obviously discontinuous changes in crustal density. Moreover, a lot of high- and low-density structures appear around the epicenters of Wenchuan and Lushan earthquakes. Combining with the projection of the precise locating earthquake results, it is found that Longmenshan fault zone in the upper crust shows obvious segmentation, both Wenchuan and Lushan earthquake occurred in the high density side of the density gradient zone. Wenchuan earthquake and its aftershocks are mainly distributed in the west of central Longmenshan fault zone. In the south of Maoxian-Beichuan, its aftershocks occurred in high density area and the majority of them are thrust earthquake. In the north of Maoxian-Beichuan, its aftershocks occurred in the low density area and the majority of them are strike-slip earthquake. The Lushan earthquake and its aftershocks are concentrated near the gradient zone of crustal density and tend to the side of the high density zone. The aftershocks of Lushan earthquake ended at the edge of low-density zone which is in EW direction in the north Baoxing. The leading edge of Sichuan Basin, which has high density in the lower crust, expands toward the Qinghai-Tibet Plateau with the increase of depth, and is close to the west of the Longmenshan fault zone at the top of upper mantle. Our results show that there are a lot of low density bodies in the middle and lower crust of Songpan-Ganzê Block. With the increase of the depth, the low density bodies are moving to the south and its direction changed. This phenomenon shows that the depth and surface structure of Songpan-Ganzê Block are not consistent, suggesting that the crust and upper mantle are decoupled. Although a certain scale of low-density bodies are distributed in the middle and lower crust of Songpan-Ganzê, their connectivity is poor. There are some low-density anomalies in the floor plan. It is hard to give clear evidence to prove whether the lower crust flow exists. 相似文献
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本文是对陕西长安、山西代县和太谷等地工业爆破的资料采用时间项法研究晋中南地壳结构的初步成果。文中首先结合长安爆破观测资料的总结,对时间项方法作一介绍。为使用太谷等缺乏起爆时刻的爆破资料,对时间项方法作了一些改进,使对于那些未有起爆时刻的爆破资料亦能用于确定时间项。使用上述爆破和各台记录的初动到时获得了晋中南地区的界面速度为7.95±0.04公里/秒,求得了41个点的时间项,取莫霍面以上介质的平均速度v0=6.4公里/秒反演求得了各点的莫霍界面深度,并对所得的结果结合晋中南地区的地震活动性及部分地震震源机制结果进行了初步的分析和讨论。 相似文献
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使用重力资料推断解释地壳深部构造,关键在于浅层影响的消除。作者广泛收集整理了研究区的浅层地质资料,用三维重力正演方法逐层消除其影响,获得了一些较好的结果。在正演计算中发现,一些构造在下第三系以下已基本消失;而另一些构造却在此深度才逐渐显露。我们认为,浅层地质资料越完整准确,则三维重力正演计算的结果也将越好。在地壳深部构造的研究中,此方法与人工地震测深得到的地壳厚度基本一致,而花费却很低廉。它也是研究深浅构造关系的一种好方法。 相似文献
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从川滇块体东缘的地质构造应力场、地震形变带所反映的构造应力场,震源机制解所确定的应力场、地壳应力解除及地壳应力测量所反映的应场等方面的资料,对场体东缘地壳动力学问题进行了讨论,结果认为印度板块与欧亚板块的碰撞是川 滇块体东缘地壳动力的主要力源。 相似文献
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川滇块体东缘地壳动力学问题的讨论 总被引:2,自引:2,他引:0
从川滇块体东缘的地质构造应力场、地震形变带所反映的构造应力场 ,震源机制解所确定的应力场、地壳应力解除及地壳应力测量所反映的应力场等方面的资料 ,对块体东缘地壳动力学问题进行了讨论 ,结果认为印度板块与欧亚板块的碰撞是川滇块体东缘地壳动力的主要力源。 相似文献
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根据活动断裂分布和区域流变结构建立川滇地区三维有限元模型, 采用上地壳为弹性介质,下地壳和上地幔为Maxwell体的粘弹性模型,模拟川滇地区地壳现今运动和应力分布,探讨川滇地区地壳运动变形的动力学机制. 通过4种不同边界条件和深度分层结构有限元模型的计算结果的对比,认为川滇地区绕喜玛拉雅东构造结顺时针旋转的地壳运动模式主要受川滇地区特殊的边界动力作用控制,川滇菱形块体下地壳流动对上地壳的拖曳作用亦不容忽视. 同时,川滇地区各块体的现今地壳运动场和应力场还受到区域主要活动断裂带的影响, 呈现分块特征. 相似文献