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龙门山断裂带北段活动特征的遥感地质解译研究 总被引:2,自引:0,他引:2
文中通过龙门山断裂北段卫星遥感影像的解译分析,对该区活动断裂的分布与发育情况进行了研究.文章选取ETM光学影像和遥感1号雷达影像为主要数据源,结合研究区已有研究成果,分析了遥感影像上地质地貌特征,建立了研究区的解译标志,对龙门山断裂带北段主要断裂(平武-青川断裂、南坝-林庵寺断裂、江油-广元断裂)分布特征与活动性进行了深入的遥感解译.研究结果表明,平武-青川断裂对不同规模的水系位错的影响较大,且广元地区历史地震主要分布在该断裂带上,因此平武-青川断裂活动性最强,对该区地震的发生起着重要的控制作用. 相似文献
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本文系统分析了高分辨率遥感在活动断裂调查中应用的技术现状、工作流程,梳理了各类遥感数据的要求、适用条件和处理方法,总结了活动断裂的遥感解译方法、解译要素和测量参数,并通过实例解析了一些典型的断错地貌,给出了相应的遥感特征. 基于资源三号卫星的立体像对和影像,判读了大青山活动断裂的几何特征和活动特性. 结果表明: 人工改造较大的地区宜收集早期遥感影像,利用不同波段间地物光谱的差异来增强隐伏活动断裂的信息,使用空间增强方法来识别断层陡坎等线性构造;雷达数据多极化分解是检测隐伏构造信息的有效方法;由宏观信息向局部信息追踪是活动断裂解译的有效途径;将遥感影像与数字高程模型(DEM)联合可进行活动断层参数的高精度测量. 本文结果可为活动断裂大比例尺、定量调查提供参考. 相似文献
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选取多时相、多波段的MODIS红外影像以及MSS、ETM、资源卫星等多源遥感数据,通过解译活动断裂的遥感影像标志,对西藏日喀则地区东西向的活动断裂位置及其活动性进行了重新解译和判定,识别出了沿雅鲁藏布江缝合带展布的三条活动断裂,即冈底斯断裂、昂仁-仁布断裂、拉孜-邛多江断裂。同时,利用多源遥感影像综合分析了断裂发育的宏观及微观地貌特征,研究了构造活动与水系冲沟地貌之间的关系,得到了一些初步认识:三条东西向活动断裂以挤压逆冲为主,且受雅鲁藏布江缝合带的控制,断裂的活动性存在差异;利用亮温梯度特征在红外影像上提取的线性迹象与光学影像提取的活动断裂位置吻合较好;红外亮温梯度的变化除了受季节、地形、地貌等多种因素影响外,可能还与断裂的活动性有关。在传统遥感解译活动断裂的基础上,辅以红外亮温梯度特征分析,有助于更好地开展活动断裂的提取及其活动性监测研究工作。 相似文献
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昌平-丰南断裂是根据卫星遥感图像解译发现的一条隐伏活动断层,是NWW向张家口-蓬莱断裂带中规模最大的断裂,为进一步调查确认断裂的存在、空间位置、性质和断裂构造特征,并重新厘定其活动性,在卫星遥感影像解译断裂大体空间位置的基础上,布设了2条浅层地震勘探测线,对昌平-丰南断裂进行了高分辨率地震勘探,获得了测线控制范围内地下结构和断裂构造的清晰成像。结果表明,昌平-丰南断是一条倾向S、走向NWW的走滑正断层,浅层地震剖面揭示断层上断点埋深80~100 m,断错了上更新统底界,结合测线附近钻孔资料推测其最新活动时代为晚更新世。 相似文献
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综合利用GF-1、PALSAR雷达数据、Landsat 8 OLI等多种数据源,分析了商丘路河地区地质地貌的遥感影像特征,进行了水文地质解译和地层遥感解译,综合判定新乡—商丘断裂南支为NW走向并建立了该断层解译标志,有效地弥补了传统技术手段无法在较深覆盖区进行活动断层探测的缺陷,对覆盖区隐伏活动断层探测工作具有借鉴意义。 相似文献
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文中通过对海南岛北部卫星遥感影像的解译分析,对该区活动断裂的分布与发育情况进行了研究。首先选取光学影像和雷达影像为主要数据源,在数据预处理及信息增强处理的基础上,进行了多源遥感信息融合处理,以综合利用各类数据源;其次结合研究区已有研究成果,分析遥感影像上地质地貌特征的表现,以建立研究区的解译标志,分析提取各类地质体影像特征;最后,综合分析研究区的地质地貌特征,对海南岛北部活动构造的分布与发育情况进行了全面深入的遥感解译。研究发现,研究区内主要存在EW、NW及NE向3组活动断裂,其中EW及NW向断裂对海南岛北部的地质地貌发育情况影响很大,对该区地震的发生起了比较大的控制作用 相似文献
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文中采用遥感资料,对阿尔泰山东缘的主要活动断裂———科布多(Hovd)断裂与哈尔乌苏湖(Har-Nuur)断裂进行研究,从地貌特征上对断裂进行详细分析,揭示其几何学和运动学特征。初步研究表明阿尔泰山东缘的活动断裂规模、滑动速率和强地震活动并不弱于其西南缘。其中科布多断裂走向NNW,右旋走滑,长约600km,中更新世(Q2p)以来最大水系右旋位错约9.0km,滑动速率可达3.8~12.3mm/a,平均滑动速率约7.8mm/a;哈尔乌苏湖断裂走向NNW,右旋走滑,长约480km,全新世以来活动性明显增强,第四纪洪积扇上发现有最新的断裂迹象。阿尔泰山东缘的新构造运动与强地震活动,除了与印度-欧亚板块碰撞作用有关外,可能还与局部地区的动力学过程有关 相似文献
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兰州地区活动构造的基本特征 总被引:5,自引:0,他引:5
兰州地区发育了NWW向和NWW向2组主导性活动构造带。大致以河口为界,东部地区主要为NWW向的马衔山-兴隆山左旋逆走滑活动断裂系,其新活动明显,是区内的主要控震断裂,1125年兰州7级地震就发生在其中的马衔山北缘断裂带的西端。河口以西为拉脊山北缘断裂和庄浪河断裂等1组NWW向的弧形逆冲断褶带,变形方式以断裂扩展褶皱为主,其新活动可能导致了138年金城-陇西63/4级地震、1440年永登61/4级地震和1995年永登5.8级地震的发生。兰州市区所在的兰州盆地则夹持在上述2组活动构造之间,其内同样发育了NWW向和NWW向的次级断裂,如刘家堡断裂、金城关断裂、雷坛河断裂及深沟桥断裂等,其上具有孕育和发生中强震的构造条件。 相似文献
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DISCUSSION ON THE SEISMOGENIC STRUCTURE OF ZHAN-JIANG BAY AREA FROM THE VIEW OF DEEP FAULT SYSTEM INTERPRETED BASED ON THE GRAVITY DATA 下载免费PDF全文
The neotectonics in Zhanjiang Bay area is almost the inferred faults and there are not any active faults seen on the ground surface. So it is difficult for research on the seismogenic structure. This paper analyzes and interpretes the gravity data that can reflect the feature of deep faults and then discusses the seismogenic structure of Zhanjiang Bay area in combination with its geology and earthquake activity. There is a huge NEE-trending high gravity gradient belt lying in the coastal region among Guangdong, Guangxi, and Hainan, and Zhanjiang Bay is located in this gravity gradient belt. We analyzed and interpreted more than eighty images obtained with many different methods one by one, then, got the result that Zhanjiang Bay area is embraced by two giant fault belts trending in the NEE and NW direction respectively, and its interior is crossed over by the NE-trending fault belt. These three fault belts are well shown in the gravity images, especially the NEE-trending fault belt and NW one. The gravity isolines and gradient belts or the thick black stripes of the NEE-and NW-trending fault belts are displayed apparently. Also, these gravity structures are good in continuity, extend vastly and cut deeply. What is more, the NEE-trending fault belt plays a leading and region-controlling part. It shows good continuity, and cuts off the NW-and NE-trending faults frequently and intensively. The NW-trending fault belt also is good in continuity and cuts the NEE-and NE-trending faults relatively frequently and strongly, but it is restricted by the NEE-trending one. Last, the continuity of the NE-trending fault is worse and the strength cutting off NE-and NW-trending faults is significantly weak, just in some segments and in the shallow positions. According to the characteristics above and combined with the analyses of geological structure and earthquake activity, the conclusion can be drawn that the NEE-trending fault is the controlling structure and the main seismogenic structure in Zhanjiang Bay area, and the NW-trending fault is the second one. They conjugate and act together. Therefore, Zhanjiang Bay has the tectonic condition for generating MS=6.5 earthquakes. 相似文献
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STUDY OF THE INFLUENCE OF STRONG EARTHQUAKE ON THE RECURRENCE BEHAVIOR OF MAJOR EARTHQUAKE ON ACTIVE FAULT-TAKING THE MIDDLE-NORTH SECTION OF XIANSHUIHE FAULT AS AN EXAMPLE 下载免费PDF全文
It is of great significance to determine the factors and causes that affect the recurrence of major earthquakes. This paper introduces the influence of strong earthquake on the recurrence of major earthquakes according to elastic rebound theory, and then proposes to calculate the impact time Δt respectively from the effect of strong earthquakes on the same and surrounding faults on the major earthquake recurrence by using seismic moment release rate method and Coulomb stress change. In this paper, we studied the change amount of major earthquake recurrence by taking four earthquakes with magnitude greater than 6.5 occurring at different fracture sections of the Xianshuhe fault zone as an example, they occurred on Daofu, Changcu, Zhuwo Fault, respectively. We used seismic moment rate method to calculate the impact time Δt of strong earthquake on the recurrence of major earthquakes on the Daofu-Qianning Fault. We further discussed the effect of the Coulomb stress change due to the interaction between faults on the recurrence of subsequent major earthquakes. The co-seismic and post-seismic Coulomb stress changes caused by strong earthquake on the surrounding faults on the Ganzi-Luhuo Fault are calculated. With the fault interaction considered, the importance of the interaction between faults in the middle-north section of the Xianshuihe fault zone to change the recurrence of large earthquakes is retested and evaluated. The results indicate that the two strong earthquakes occurring along Xianshuihe Fault in 1904(M=7.0) and 1981(M=6.9) resulted in a delay of 80 years and 45 years of major earthquake recurrence on the Daofu-Qianning Fault respectively, and the M7.3 earthquake in 1923 and the M6.8 earthquake in 1967 resulted in an advance of 35 years of major earthquake recurrence on the Ganzi-Luhuo Fault. 相似文献