排序方式: 共有25条查询结果,搜索用时 61 毫秒
1.
Introduction East Kunlun active fault is one of the largest sinistral slip fault zones in northern Tibetan Pla-teau. The fault tails primarily after the ancient eastern Kunlun suture zone, which was reactivatedby the northward subduction of the Indian plate beneath the Eurasian plate. The western end of thefault starts near the western flank of the Buxedaban peak in Qinghai Province. The fault then ex-tends eastwards through the Kusai Lake, Xidatan, Dongdatan, Alag Lake, Tuosuo Lak… 相似文献
2.
青藏铁路唐古拉山-拉萨段全新世控震断裂研究 总被引:8,自引:0,他引:8
地表调查表明,沿青藏铁路唐古拉山-拉萨段存在5条重要的全新世控震断裂带,从北到南分别是温泉盆地西缘断裂带、安多盆地北缘断裂带、崩错断裂带、谷露西缘断裂带和当雄-羊八井断裂带.构造-地貌和年代学分析结果表明,北部的温泉盆地西缘断裂和安多盆地北缘断裂带的活动强度相对比较小,平均垂直活动速率约为0.2~0.5mm/a.南侧的谷露西缘断裂带和当雄-羊八井断裂带的全新世垂直活动速率为约(15±0.5)mm/a.而中部的崩错走滑断裂带的活动强度最大,晚第四纪期间的走滑速率可达(11±4.5)mm/a.全新世断裂活动和古地震研究表明,其中温泉盆地西缘断裂带、安多盆地北缘断裂带、崩错断裂带的西北分支、当雄-羊八井断裂带的当雄段等区域未来发生强震的概率相对更大. 相似文献
3.
2010年青海玉树Ms 7.1级大地震引发了一系列次生地质灾害,其中地震落石是除地震滑坡外沿断裂带及其邻侧最常见的现象。对玉树震区落石的调查发现,该区多处存在非常典型的多期地震落石分布现象,指示该区地震落石的发育与其他古地震现象类似,具有多期性和一定的原地复发性。实地调查表明,该区地震落石分布的主要特征为:多集中发育在活动断裂带附近的陡峭基岩斜坡下方,分布零散,且滚动较远,并常与古地震滑坡相伴生。初步获得的8个地震落石钙膜U系测年结果分布在距今6030±300a BP、4720±210a BP、3530±490~3560±280a BP、2010±160a BP、1090±70a BP、760±20a BP和230±20a BP年龄段,与该区古地震探槽和滑坡反映的地震事件比较吻合,进一步揭示玉树断裂带附近在全新世中晚期发生过多期可导致地表产生地震落石的事件。同时也说明,地震落石及其钙膜测年是特别值得进一步探索的潜在古地震研究方法或途径。 相似文献
4.
以山西地堑系罗云山山前断裂的基岩断层面为例,用陆基Li DAR扫描获取了断层面形貌学数据,采用各向同性变差函数法计算了断层面形貌的分维值。结果显示,断层面形貌在高度上具有显著的分带性,每个分带的特征分维值随断层面高度的增加呈阶跃式变化。分析认为这种形貌特征可能反映了断层面与多次地震相关的间歇式出露方式。分带高度指示了约3m和1m的2组同震倾滑位移量,各分带之间的分维值过渡带是断层面缓慢剥露的结果。与片麻岩区的断层面形貌学研究结果相比,灰岩断层面形貌学分维值随着暴露时间的增加而减小,2种岩性区的断层面分维值D与断层面高度H呈现类似镜像的关系,在气候构造条件大致相同的情况下,考虑为岩性差异的影响。 相似文献
5.
6.
青藏高原东缘是全球重要的活动构造区,高原峡谷区斜坡陡峻,高位崩滑灾害多发。采用遥感解译、地面调查、钻孔勘探及测年分析等方法,研究了西藏洛隆察达沟和易贡扎木弄沟两处高位崩滑堆积体的多动力多期次演化特征。研究结果表明:(1)沿陡峻沟道发生的高位崩滑灾害多为复合成因,兼具内动力和外动力作用交替促发特征;(2)洛隆察达沟晚更新世以来的堆积物形成序列可分为4期,分别经历了以冰川作用为主的冰碛物堆积、古地震引发的高位崩滑-碎屑流堆积、气候变暖背景下的冰-岩崩滑堆积及近代重力崩滑堆积;(3)易贡扎木弄沟在过去5500年中,先后发生了8次以上较大规模崩滑堆积,测年结果显示了巨型崩滑事件存在百年数量级的复发周期,由于不同期次巨型崩滑体的成因不同,复发周期可能存在长、中、短的差异;(4)近年来受全球气候变化影响,冰-岩崩滑灾害频现,可能成为高原峡谷区高位远程地质灾害研究的焦点。本文关于高位崩滑灾害多期次演化过程的认识对于高原峡谷区重大地质灾害防灾减灾具有一定启示意义。 相似文献
7.
8.
The quantitative analysis of morphologic characteristics of bedrock fault surface is a useful approach to study faulting history and identify paleo-earthquake. It is an effective complement to trenching technique, specially to identifying paleo-earthquakes in a bedrock area where the trenching technique cannot be applied. This paper focuses on the Luoyunshan piedmont fault, which is an active normal fault extending along the eastern boundary of the Shanxi Graben, China. There are a lot of fault scarps along the fault zone, which supply plentiful samples to be selected to our research, that is, to study faulting history and identify paleo-earthquakes in bedrock area by the quantitative analysis of morphologic characteristics of fault surfaces. In this paper, we calculate the 2D fractal dimension of two bedrock fault surfaces on the Luoyunshan piedmont fault in the Shanxi Graben, China using the isotropic empirical variance function, which is a popular method in fractal geometry. Results indicate that the fractal dimension varies systematically with height above the base of the fault surface exposures, indicating segmentation of the fault surface morphology. The 2D fractal dimension on a fault surface shows a ‘stair-like’ vertical segmentation, which is consistent with the weathering band and suggests that those fault surfaces are outcropped due to periodic faulting earthquakes. However, compared to the results of gneiss obtained by the former researchers, the characteristic fractal value of limestone shows an opposite evolution trend. 1)The paleo-earthquake study of the bedrock fault surface can be used as a supplementary method to study the activity history of faults in specific geomorphological regions. It can be used to fill the gaps in the exploration of the paleo-earthquake method in the bedrock area, and then broaden the study of active faults in space and scope. The quantitative analysis of bedrock fault surface morphology is an effective method to study faulting history and identify paleo-earthquake. The quantitative feature analysis method of the bedrock fault surface is a cost-effective method for the study of paleo-earthquakes in the bedrock fault surface. The number of weathered bands and band height can be identified by the segment number and segment height of the characteristic fractal dimension, and then the paleoearthquake events and the co-seismic displacement can be determined; 2)The exposure of the fault surface of the Luoyunshan bedrock is affected and controlled by both fault activity and erosion. A strong fault activity(ruptured earthquake)forms a segment of fault surface which is equivalent to the vertical co-seismic displacement of the earthquake. After the segment is cropped out, it suffers from the same effect of weathering and erosion, and thus this segment has approximately the same fractal dimension. Multiple severe fault activities(ruptured earthquake)form multiple fault surface topography. The long-term erosion under weak hydrodynamic conditions at the base of the fault cliff between two adjacent fault activities(intermittent period)will form a gradual slow-connect region where the fractal dimension gradually changes with the height of the fault surface. Based on the segmentation of quantitative morphology of the two fault surfaces on the Luoyunshan piedmont fault, we identified four earthquake events. Two sets of co-seismic displacement of about 3m and 1m on the fault are obtained; 3)The relationship between the fault surface morphology parameters and the time is described as follows:The fractal dimension of the limestone area decreases with the increase of the exposure time, which reflects the gradual smoothing characteristics after exposed. The phenomenon is opposite to the evolution of the geological features of gneiss faults acquired by the predecessors on the Huoshan piedmont fault; 4)Lithology plays an important role in morphology evolution of fault surface and the two opposite evolution trends of the characteristic fractal value on limestone and gneiss show that the weathering mechanism of limestone is different from that of the gneiss. 相似文献
9.
以内蒙古大青山山前断裂中间三段的IRS-P5全色立体像对为例生成DEM,利用检查点法对DEM进行精度评定,DEM的高程精度能达到1:10 000地形图山地和高山地测图中误差要求。在DEM数据中提取了横穿断裂的25条冲沟,并在冲沟纵剖面中提取了该断裂在全新世活动形成的裂点。在从左到右三段断裂上升盘的冲沟中分别识别出6、5和3级裂点序列。通过土右西段和土左西段最新一级裂点后退距离和公元849年地震距今时间,分别计算了这两段上各条冲沟最新一级裂点的后退速率,并以此速率作为各条冲沟裂点的后退速率。利用土右西和土左西两条冲沟最新一级裂点的后退速率平均值作为毕克齐段冲沟裂点后退速率。结合三段上各条冲沟裂点后退距离,分别得到断裂上升盘冲沟各级裂点形成时间,从而得到三段断裂全新世古地震事件序列。本研究得到的大青山山前断裂中间三段全新世古地震序列与前人通过探槽开挖和利用断层下降盘全新世古土壤揭露的古地震序列能够很好地对比。 相似文献
10.
青藏高原的现今地壳活动性 总被引:2,自引:0,他引:2
古近纪以来,印度板块与欧亚大陆的碰撞和持续的俯冲作用,造成了青藏高原强烈的陆内变形,引起了古造山带的复活;同时也使高原前陆盆地和内部的一些中小型盆地内数百米至数千米厚的新生代地层发生褶皱和冲断,遍布全区的逆冲推覆构造、走滑断裂和活动褶皱,在区域性的北东-南西向的构造应力作用下,导致高原地壳缩短加厚和整体向东滑移。高原的抬升是整体地、间歇性地、不均速地隆升。它经历了古近纪缓慢抬升一新近纪末至更新世快速抬升一全新世地壳振荡运动频繁的三个阶段。自7Ma至今,青藏高原累计抬高了3000~3500m,喜马拉雅山从古地中海崛起以来,至少上升了5000m。现代地热、地震发生,至今没有停止活动。 相似文献