共查询到20条相似文献,搜索用时 605 毫秒
1.
本文研究了安宁河断裂中断层泥七类SEM微结构类型,揭示了微结构类型的组合方式。首次应用微结构组合特征,讨论了断层粘滑与稳滑的两种运动方式。 相似文献
2.
3.
4.
5.
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
6.
7.
8.
本文根据一个由较新的月震、月球形状、月球重力及月球天平动资料所建立的真实月球内部结构模型,解算了在地球和太阳的引潮力作用下月球表面的弹性潮汐形变。得到了表征月球弹性潮汐形变的特征数--月球勒夫数。这个结果与国外一些学者采用假想或简单月球模型所得结果有较大不同。同时,本文还根据近年来出现的新的地球模型,再次求解了地球的静态勒夫数。结果表明,采用不同的地球模型对解算地球的静态弹性潮汐形变的结果影响很小。 相似文献
9.
新丰江地震目录数据库录入了1960—1969年新丰江水库区的地震目录共计31300条。数据库管理系统中的震中位置由直角座标转换为用经纬度表示,具有地震目录检索和统计2大功能,并针对新丰江地震的分区研制了专用软件模块。该系统采用模块化分层结构,增加了软接口,为系统的扩充和拓展打下了基楚。 相似文献
10.
山西的一些断陷盆地是华北地震区内6级以上地震活动的重要场所。本文在详细研究每个6级以上地震的震中部位、烈度等震线特点、时间序列特征、发震构造走向后得出:在同一盆地内,6级以上地震原地重复发生,而且震级相近,时间间隔较短,发震构造走向正交或斜交,发震构造的类型也有所不同。 相似文献
11.
12.
本文简介从新疆叶城至西藏狮泉河的大地电磁测深剖面.它北起塔里木盆地,横跨昆仑山脉和喀喇昆仑山脉地区到冈底斯西段,全长800余公里.探测结果表明,不同测点的地壳内部有的有两个低阻层,有的则只有一个低阻层,壳内第1低阻层的埋藏深度约10-35km,第2低阻层的埋藏深度约30-65km。在南昆仑缝合带以南,壳内低阻层的埋藏深度有从南向北不断加深的趋势;而在其以北的壳内低阻层的埋藏深度则与此相反.上地幔第1低阻层的埋藏深度约在100-150km之间,第2低阻层的埋藏深度约在350-550km之间. 相似文献
13.
The quantitative analysis of the potential fields leads to the solution of some operational equations which sometimes have unstable solutions representing fictitious anomalies. A general method to find numerically stable solutions of such problems is presented in this paper. The subject of the downward analytical continuation is also discussed. The method has been checked on a theoretical model and applied to a gravity map. 相似文献
14.
作者对河西走廊活动构造尤其是其中段榆木山北麓与黑河口上龙王活断层进行了详细考察和研究,得出下列几点认识: (1) 祁连山山脉是一个向东北推进的推覆体构造,估计其向东北推进的距离在中更新世以来约4—5公里;(2) 在榆木山北麓的北西西向断层带以逆掩断层为主,断层切割的最新地层为晚更新世晚期地层,並保存有古地震遗迹,估计其最新一次古地震的时代距今约1—2万年;(3) 黑河口上龙王北北西向右旋断层切割的最新地层为晚更新世末期砾石层,据槽探揭露与地貌分析,该断层右旋断开黑河四级阶地20多米,並保存有距今最近的四次古地震遗迹。其震级约7—8级。据(14)C测定,后两次古地震分别在15700年与13300年。前两次古地震的时代估计在25000年和24500年左右。其重复间隔大者为8800年左右,小者为2400年和500年左右。 相似文献
15.
16.
本文对大地电磁阻抗相位资料的性质及其意义作了总结和评述。文中述及的阻抗相位资料正则化反演方法,是在文献〔1〕的基础上进行了改进,笔者就此给出了实际算例和概要分析 相似文献
17.
熊坡背斜构造变形与蒲江-新津断裂活动特征 总被引:3,自引:0,他引:3
熊坡背斜位于龙门山构造带东南端的成都盆地内,是龙门山逆冲推覆构造向前推挤进入盆地内部的一个主要变形区域,与其配套发育的断裂为蒲江-新津断裂,断裂与背斜褶皱之间在构造变形模式上表现出明显的一致性。在褶皱和断裂的构造变形和活动特征上,熊坡背斜南段表现为一种不对称的褶皱,向NE方向发展表现为较为宽缓的对称褶皱形态,卷入的地层主要是中生代及其以前的地层,对蒲江-新津断裂的地貌调查结果表明,断裂没有对该区域内广泛发育的冲沟Ⅰ级阶地产生影响,而对山前发育的相当于南河(岷江Ⅰ级支流)Ⅳ级阶地的洪积台地有明显的控制作用,说明断裂活动时间应该为第四纪早期,到第四纪晚期活动减弱或是趋于静止 相似文献
18.
19.
20.
THE RESEARCH OF THE SEISMOGENIC STRUCTURE OF THE LUSHAN EARTHQUAKE BASED ON THE SYNTHESIS OF THE DEEP SEISMIC DATA AND THE SURFACE TECTONIC DEFORMATION 下载免费PDF全文
WANG Lin ZHOU Qing-yun WANG Jun LI Wen-qiao ZHOU Lian-qing CHEN Han-lin SU Peng LIANG Peng 《地震地质》2016,38(2):458-476
The seismogenic structure of the Lushan earthquake has remained in suspensed until now. Several faults or tectonics, including basal slipping zone, unknown blind thrust fault and piedmont buried fault, etc, are all considered as the possible seismogenic structure. This paper tries to make some new insights into this unsolved problem. Firstly, based on the data collected from the dynamic seismic stations located on the southern segment of the Longmenshan fault deployed by the Institute of Earthquake Science from 2008 to 2009 and the result of the aftershock relocation and the location of the known faults on the surface, we analyze and interpret the deep structures. Secondly, based on the terrace deformation across the main earthquake zone obtained from the dirrerential GPS meaturement of topography along the Qingyijiang River, combining with the geological interpretation of the high resolution remote sensing image and the regional geological data, we analyze the surface tectonic deformation. Furthermore, we combined the data of the deep structure and the surface deformation above to construct tectonic deformation model and research the seismogenic structure of the Lushan earthquake. Preliminarily, we think that the deformation model of the Lushan earthquake is different from that of the northern thrust segment ruptured in the Wenchuan earthquake due to the dip angle of the fault plane. On the southern segment, the main deformation is the compression of the footwall due to the nearly vertical fault plane of the frontal fault, and the new active thrust faults formed in the footwall. While on the northern segment, the main deformation is the thrusting of the hanging wall due to the less steep fault plane of the central fault. An active anticline formed on the hanging wall of the new active thrust fault, and the terrace surface on this anticline have deformed evidently since the Quaterary, and the latest activity of this anticline caused the Lushan earthquake, so the newly formed active thrust fault is probably the seismogenic structure of the Lushan earthquake. Huge displacement or tectonic deformation has been accumulated on the fault segment curved towards southeast from the Daxi country to the Taiping town during a long time, and the release of the strain and the tectonic movement all concentrate on this fault segment. The Lushan earthquake is just one event during the whole process of tectonic evolution, and the newly formed active thrust faults in the footwall may still cause similar earthquake in the future. 相似文献