蔚广盆地南缘断裂带唐山口段山前断层活动性研究   总被引：1，自引：0，他引：1  

王林  田勤俭  李德文  张效亮 《震灾防御技术》2017,12(2):319-328

蔚广盆地是山西地堑系北端京西北盆岭构造区内的一个半地堑盆地，蔚广盆地南缘断裂带为控制该盆地形成的边界断裂。该断裂带位于唐山口段的山前断裂在冲洪积扇体上形成了线性特征显著的断层陡坎。横跨断层陡坎开挖的探槽表明该条山前断裂属于全新世活动断裂，探槽揭示了2条活动断层以及相应的3次古地震事件。在距今约9ka时其中一条断层首次活动，之后在距今约7.3ka时该条断层再次活动并引发了另一条断层的形成与同步活动。最后它们又发生了第三次活动，而最新一次活动的时间由于相应地表沉积的缺失而无法获得。这3次古地震事件的累积垂直位错约为8.1m。估算出整条山前断裂的平均复发周期约为1.7ka、平均滑动速率约为1.6mm/a。此外还依据经验公式估算出了各次古地震的参考震级。  相似文献   

焉耆盆地北缘和静逆断裂-褶皱带第四纪变形   总被引：5，自引：5，他引：0       下载免费PDF全文

李安  杨晓平  黄伟亮  伊力亚尔 《地震地质》2012,34(2):240-253

焉耆盆地是塔里木盆地东北缘天山山间的重要坳陷区,盆地北缘发育的和静逆断裂-褶皱带是一条现今活动强烈的逆断裂-褶皱带,对其第四纪以来缩短量和隆升量的计算有利于分析该区域的构造活动情况,对缩短速率和隆升速率的估计可以与天山造山带其他区域的活动速率进行横向对比,从而反映出焉耆盆地在天山晚新生代构造变形的作用。在深部资料不足的情况下,对背斜形态完整、构造样式简单的和静逆断裂-褶皱带,利用地表可获得的地层和断层产状,通过恢复褶皱几何形态,计算褶皱的缩短量、隆升量和断层滑动量,得到逆断裂-褶皱带早更新世晚期(1.8Ma)、中更新世(780ka)和晚更新世中期(80ka)以来的缩短量分别为1.79km、0.88km和26m,初步估计的缩短速率分别为0.99mm/a、1.13mm/a和0.33mm/a。显示和静逆断裂-褶皱带自开始形成以来构造活动强度并不一致。与地壳形变观测结果对比,作为南天山东段最主要的坳陷区,焉耆盆地吸收了这一区域(86°～88°E)的大部分地壳缩短,且主要表现为盆地北缘新生逆断裂-褶皱带的强烈变形。  相似文献   

四川活动断裂的区域性特征及其与板块构造的关系     

钱洪 《四川地震》1994,(1)

四川是我国多地震的省份。史前地震、历史地震和现代地震资料表明，四川的强烈地震无不沿晚第四纪以来有强烈活动的断裂带发生。不同强度的地震带在很大程度上与断裂的晚第四纪活动性程度相对应。活动断裂的区域特征表明，四川的活动断裂具有明显的空间分布规律性。强活动断裂分布在晚第四纪运动断块的边缘及断块内部，四川盆地内部的断裂活动性甚微。不仅如此，地质资料和断裂活动年代样品的测定结果反映了四川的活动断裂不仅具有向西部活动强度明显增大的特点，而且断裂活动的时代也有向西部逐渐更新的趋势。这种现象揭示四川断裂运动的动力来源主要来自西部印度板块的推挤，但这种推挤作用有减弱之势。活动断层上的断陷盆地，拉分盆地及断错地貌现象的研究表明，四川的主要活动断裂在中、晚更新世发生过断层性质和断层运动方向的改变。这一改变使断块的水平移动变为晚第四纪以来的主要地壳运动方式，对四川及西南地区的构造应力场，断裂运动及地震活动性产生重要的影响。联系到我国西部广大地区断层运动学特征的区域性同步变化，高原物质的横向扩展可能具有重要的控制作用。西藏高原南部广泛发育的南北向拉张构造及其控制的第四纪盆地以及西藏高原中部的大型共轭断裂系所控制的第四纪盆地沉积物时代  相似文献   

酒西盆地白杨河断裂古地震特征研究   总被引：3，自引：2，他引：1       下载免费PDF全文

刘兴旺  袁道阳  苏琦  苏鹤军 《地震工程学报》2020,42(1):90-97

白杨河断裂是酒西盆地内部一条重要的活动断裂,断裂长约25 km,整体走向近EW,倾向N,倾角约25°。以往的研究认为白杨河断裂为一条全新世活动的隐伏断裂,其持续的活动造成了上覆阶地变形,形成白杨河背斜。通过卫星影像解译和野外实地考察,在断裂西段和中段发现连续发育的低断层陡坎,表明断裂活动已至地表。古地震探槽揭露白杨河断裂全新世以来至少发生过2次地震事件,年代分别为距今(8.7±0.6)ka和(3.9±0.5)ka,每次地震事件的垂直断距都在约0.6 m,利用经验公式,估算震级约为6.8级。  相似文献   

利用DEM技术自动提取龙门山南段青衣江阶地面的研究     

梁朋  田勤俭  苏鹏  王林  李文巧  胡朝忠 《震灾防御技术》2015,10(2):240-252

河流阶地面是一种时间性、连续性非常高的层状地貌面,利用跨断层地区的河流阶地变形可以定量地判别一个地区的断层活动性。青衣江横跨龙门山断裂带南段是一条区域性大河,由于龙门山南段构造活动强烈且河流阶地被侵蚀程度严重,为了在室内更好、更快地解译青衣江河流阶地,使野外调查工作更具有针对性,本文在龙门山南段青衣江流域小关子至飞仙村一段,采用航测遥感技术制作的2m分辨率DEM和1/5万数字高程模型,基于Arc GIS和MATLAB平台进行了阶地面提取和聚类分析,以模拟野外测量阶地的流程,试图通过计算机提取,快速获取该地区更多的残余地貌面,建立起较为完整的河流阶地纵剖面。研究结果表明:野外测量数据与计算机自动提取结果相似度较高,具有较好的一致性;在完整的阶地剖面中发现了芦山盆地内部阶地具有疑似拱曲现象;在大川-双石断裂附近阶地有翘起现象,推测芦山盆地西缘阶地拱曲是由大川-双石断裂东侧的一条未知断层引起的,大川-双石断裂附近阶地的翘起现象可能是在断层逆冲推覆过程中形成的,同时结合区域年代历史数据,推测该地区(芦山盆地至大川-双石断裂)至少在晚更新世曾发生过构造活动。  相似文献   

天山南缘北轮台断裂东段构造变形样式     

《内陆地震》2017,(4)

北轮台断裂是一条全新世活动断裂,全长约130 km,构成天山南麓与山前冲洪积扇的界线。北轮台断裂东段(砖厂段)全长8 km,是一条低角度逆冲断层,晚第四纪以来有强烈的活动。通过对变形阶地进行微地貌测量,并选取2个典型变形位置开挖大型跨断层探槽,分析该段断裂的构造样式和演化模式。结果显示,北轮台断裂砖厂段的活动构造样式不是单一的以逆断层作为表现,而是伴随着褶皱挤压隆起,山体向S推挤形成逆冲断层断错地表,在受到来自盆地方向的阻挡,产生反向的挤压应力,沿断层一线构造挤压应力集中,但是在断层的上盘形成拉张区,应力释放的过程中形成了大量小规模的拉张型正断层。  相似文献   

柴达木盆地西南缘狮子沟断裂晚第四纪构造变形分析     

许建红  惠旭辉  程宏宾  张晓亮  尚思歧 《地震研究》2018,(1)

狮子沟断裂位于柴达木盆地西南缘英雄岭背斜南翼。对狮子沟断裂晚第四纪构造变形进行分析,有助于理解该区长期的构造演化和地震地质灾害的评价。通过对该断裂带构造地貌调查、断层剖面和探槽研究,得到以下认识:狮子沟断裂是一条向SW方向逆冲的全新世活动断裂,断裂的逆冲活动一部分沿着山前分支断层,该分支错断了全新世早中期的冲洪相地层,晚更新世中期以来的最小垂直活动速率为0.12~0.15 mm/a;另一部分沿着盆地内隐伏分支断层活动,形成次级褶皱隆起,最近主要的一期构造活动发生在(97.93±7.98)~(59.43±3.42)ka间。这些晚第四纪构造变形单元分布在基岩山前以南约750 m的范围内,因此,在该区进行地震地质灾害评价时应考虑此类构造变形。  相似文献   

柴达木盆地西南缘油砂山断裂的古地震和晚第四纪活动速率     

许建红  惠旭辉  程宏宾  张晓亮  尚思歧 《地震地质》2018,(2)

油砂山断裂位于柴达木盆地西南缘英雄岭背斜南翼,英雄岭背斜是柴达木盆地内新构造表现最为强烈的地区,也是柴达木盆地内部褶皱向S扩展的最前缘位置。对油砂山断裂的古地震和晚第四纪活动速率研究有助于理解该地区的构造变形方式和评价地震地质灾害。通过对油砂山山前洪积扇上沿断裂带发育的挤压鼓包进行探槽开挖、油砂山西侧盆地内褶皱陡坎进行测量及晚第四纪冲、洪积地层进行光释光测年,综合分析认为:1)油砂山断裂是1条全新世活动的逆冲断裂,盆地内的褶皱陡坎表明至少晚更新世中晚期以来该断裂在同一地表迹线上持续活动。油砂山探槽揭露到的断层面产状为N62°W/NE∠17°。探槽揭露到了至少2次构造事件,较新的1次事件Ⅱ发生在距今500a以来,垂直断距约0.25m。目前获得的资料还不能确定它就是1977年茫崖西北的M6.4地震,但也不能排除与该地震有关。较老的事件Ⅰ发生在距今1 000~4 000a之间,垂直断距约0.55m。事件发生后的侵蚀作用影响了事件Ⅰ年龄的限定和事件Ⅰ确切次数的判定。2)油砂山断裂晚更新世中晚期以来的垂直活动速率约为(0.38±0.06)mm/a。与该区GPS站点的相对速率相比较表明,油砂山断裂是该区非常重要的1条全新世活动的逆冲断裂,在调节区域构造变形上起到了重要作用。  相似文献   

新乡-商丘断裂延津至封丘段新构造期构造样式分析     

赵显刚  李稳  成万里  王斐斐 《震灾防御技术》2022,17(2):219-233

新乡-商丘断裂是南华北盆地与渤海湾盆地、鲁西隆起的分界断裂,是一条长期活动的区域性深大断裂。浅层地震勘探与跨断层钻孔联合剖面探测工作已证实该断裂延津至封丘段的最新活动时代为晚更新世,本文通过对典型地震勘探剖面和钻探资料综合分析认为:新乡-商丘断裂延津至封丘段断裂结构复杂,新近纪以来构造样式在不同构造部位有显著差异。延津段在地震勘探剖面上浅部显示为负花状构造;封丘段变化较大,东部在剖面上为多组阶状正断层组合,形成了由断层带控制的构造背斜,平面上表现为NW向排列、走向NNE雁列状断层组合;西部结构单一,自东向西断裂控制的浅部地层变形范围增大,断层带逐步变宽。根据新乡-商丘断裂延津至封丘段剖面上的构造样式与平面上的组合模式,表明该段断裂最新活动具有走滑运动性质。  相似文献   

钻探揭示的黄河断裂北段活动性和滑动速率   总被引：5，自引：2，他引：3       下载免费PDF全文

雷启云  柴炽章  郑文俊  杜鹏  谢晓峰  王银  崔瑾  孟广魁 《地震地质》2014,36(2):464-477

黄河断裂是银川盆地内展布最长、切割最深的一条深大断裂,也是银川盆地的东边界。由于其北段呈隐伏状,因此,该段的活动性和滑动速率长期未知,影响了对盆地演化和地震危险性的认识。文中选择具有石油地震勘探基础的陶乐镇为研究场点,以人工浅层地震勘探结果为依据,在黄河断裂北段布设了一排钻孔联合剖面,并对标志层进行年代测试,获得了断裂的活动时代和滑动速率。结果表明,黄河断裂北段在晚更新世末期或全新世有过活动,在（28.16±0.12）ka BP 以来的累积位移为0.96m,晚第四纪以来的平均滑动速率为0.04mm/a,该值明显低于南段灵武断层（0.24mm/a）;尽管向下切割了莫霍面,黄河断裂晚第四纪活动强度和发震能力均要低于切割相对浅的贺兰山东麓断裂;黄河断裂可能在新生代之前已经强烈活动并深切莫霍面,新生代以来,银川盆地的构造活动迁移分解到以贺兰山东麓断裂为主的多条断裂之上,地壳双层伸展模型可解释银川盆地现今深浅部构造活动间的联系。  相似文献   

祁连山西段酒西盆地区阶地构造变形的研究   总被引：25，自引：3，他引：22  

陈杰  卢演俦  丁国瑜 《地震工程学报》1998,20(1):28-36

对祁连山西段酒西盆地晚第四纪阶地的研究表明,该区早第四纪以挤压褶皱、逆冲为特征的构造变形在晚更新世期间乃至全新世仍继承性地进行着,表现为横穿褶皱和逆断裂带的河流及冲沟阶地面的形成、阶地类型的转变、阶地级数的增多和阶地面被断错或发生拱曲变形．其中祁连山北缘大断裂晚更新世晚期以来的垂直运动速率约为１．９２～２．００ｍｍ／ａ．老君庙背斜逆断裂带在晚更新世初以来的垂直运动速率约为１．１５～２．５６ｍｍ／ａ．白杨河背斜逆断裂带晚更新世初以来的垂直运动速率约为０．３２～０．５８ｍｍ／ａ．  相似文献   

THE LATE QUATERNARY TECTONIC DEFORMATION REVEALED BY THE TERRACES ON THE BAIYANG RIVER IN THE NORTHERN QILIAN MOUNTAINS          下载免费PDF全文

LIU Rui  LI An  ZHANG Shi-min  CHEN Zhi-dan  GUO Chang-hui 《地震地质》2017,39(6):1237-1255

The Qilian Mountains, as a major orogenic belt in the northeastern margin of the Tibetan plateau, is the forefront of the expansion of the plateau to the northeast, where thrusts and folds dominate tectonic deformation. The Baiyang River starts from the inner Qilian Mountains, flowing northward across various structures, and finally into the Jiuxi Basin. This work focused on exhaustive investigations to the terraces on this river to characterize the Late Quaternary tectonic deformation in this region. The results show that (1)these river terraces on the Baiyang River are segmented, of which multiple levels developed at steep terrains and anticlines in the basin. Bounded by the Niutou Mountains, mainly 2-3 and 4-5 levels of terraces formed in the upper and lower reaches, respectively. (2)The longitudinal profiles along the river suggest a vertical motion rate of the Changma fault as (0.32±0.09)mm/a and crustal shortening rate (0.12±0.09)mm/a. There was no vertical activity since the formation of T₅ surface (13ka)on the Hanxia-Dahuanggou fault. At the terrace T₅ (9ka)on the Laojunmiao anticline, fold uplift amounts (6.55±0.5)m and shortening amounts (3.47±0.5)m, yielding uplift and shortening rates (1.23±0.81)mm/a and (0.67±0.44)mm/a, respectively. The Baiyang River anticline began to be active about 300ka with uplift and shortening rates (0.21±0.02)mm/a and (0.14±0.03)mm/a, respectively since 170ka. (3)In the Qilian Mountains, there were two different deformation characteristics in response to the expansion of the Tibetan plateau. Shear deformation dominates the inner Qilian Mountains, which is manifested as lateral extrusion of blocks. In the northern margin of Qilian Mountains and Jiuxi Basin, the deformation is dominated by compression, expressing crustal shortening and uplift, and the shortening within the basin accounts about half of the total deformation.  相似文献   

ANALYSIS OF THE LATE QUATERNARY ACTIVITY ALONG THE WENCHUAN-MAOXIAN FAULT -MIDDLE OF THE BACK-RANGE FAULT AT THE LONGMENSHAN FAULT ZONE          下载免费PDF全文

WANG Xu-guang  LI Chuan-you  L&#  Li-xing  DONG Jin-yuan 《地震地质》2017,39(3):572-586

The Longmenshan fault zone is located in eastern margin of Tibetan plateau and bounded on the east by Sichuan Basin, and tectonically the location is very important. It has a deep impact on the topography, geomorphology, geological structure and seismicity of southwestern China. It is primarily composed of multiple parallel thrust faults, namely, from northwest to southeast, the back-range, the central, the front-range and the piedmont hidden faults, respectively. The M_S8.0 Wenchuan earthquake of 12^th May 2008 ruptured the central and the front-range faults. But the earthquake didn't rupture the back-range fault. This shows that these two faults are both active in Holocene. But until now, we don't know exactly the activity of the back-range fault. The back-range fault consists of the Pingwu-Qingchuan Fault, the Wenchuan-Maoxian Fault and the Gengda-Longdong Fault. Through satellite image(Google Earth)interpretation, combining with field investigation, we preliminarily found out that five steps of alluvial platforms or terraces have been developed in Minjiang region along the Wenchuan-Maoxian Fault. T₁ and T₂ terraces are more continuous than T₃, T₄ and T₅ terraces. Combining with the previous work, we discuss the formation ages of the terraces and conclude, analyze and summarize the existing researches about the terraces of Minjiang River. We constrain the ages of T₁, T₂, T₃, T₄ and T₅ surfaces to 3~10ka BP,~20ka BP, 40~50ka BP, 60ka BP and 80ka BP, respectively. Combining with geomorphologic structural interpretation, measurements of the cross sections of the terraces by differential GPS and detailed site visits including terraces, gullies and other geologic landforms along the fault, we have reason to consider that the Wenchuan-Maoxian Fault was active between the formation age of T₃ and T₂ terrace, but inactive since T₂ terrace formed. Its latest active period should be the middle and late time of late Pleistocene, and there is no activity since the Holocene. Combining with the knowledge that the central and the front-range faults are both Quaternary active faults, the activity of Longmenshan fault zone should have shifted to the central and the front-range faults which are closer to the basin, this indicates that the Longmenshan thrust belt fits the "Piggyback Type" to some extent.  相似文献   

差分GPS方法在城市活断层探测中的应用探讨   总被引：5，自引：4，他引：1  

张军龙  田勤俭  李智敏  任治坤  郝凯 《地震》2007,27(3):74-82

使用差分GPS方法, 测量西宁盆地内部各级阶地参数, 对比野外阶地特征, 探讨区域新构造时期活动特征, 以及西宁城市周缘活断层的分布及活动特征。 通过这一区域的实践, 认为DGPS方法能够快速、 精确的获得区域内阶地面的坐标和高程, 是确定弱活动或隐伏断裂的可行方法。 南川河断裂错断T₃、 T₄、 T₅阶地, 断裂的活动时间为T₃阶地形成后, T₂级阶地形成前的0.10 Ma B.P.至0.05 Ma B.P.。 垂直断距15～20 m, 最小垂直活动速率约为0.30 mm/a。  相似文献   

兰州黄河阶地高精度GPS测量与构造变形研究   总被引：2，自引：5，他引：2       下载免费PDF全文

刘兴旺  袁道阳  葛伟鹏 《地震工程学报》2007,29(4):341-346,351

在综合分析兰州黄河阶地发育和分布特征的基础上,采用高精度差分GPS测量并结合1:1万DEM图形数据资料,获得了黄河兰州段南北两岸阶地平面分布图和纵横剖面对比图。结合本区黄河不同级别阶地年代测试结果,研究了其构造变形特征,获得了穿越断裂带地区的阶地变形特点、变形带宽度、变形幅度和速率等定量参数。结果表明:兰州盆地晚第四纪的构造变形主要以褶皱隆升为主,盆地内的断裂晚第四纪无明显构造活动。  相似文献   

TERRACE DEFORMATION AND SLIP RATES OF THE DONGBIELIEKE FAULT IN WESTERN JUNGGAR BASIN SINCE THE LATE QUATERNARY          下载免费PDF全文

YAO Yuan  LI Shuai  HUANG Shuai-tang  JIA Hai-liang 《地震地质》2019,41(4):803-820

Strike-slip fault plays an important role in the process of tectonic deformation since Cenozoic in Asia. The role of strike-slip fault in the process of mountain building and continental deformation has always been an important issue of universal concern to the earth science community. Junggar Basin is located in the hinterland of Central Asia, bordering on the north the Altay region and the Baikal rift system, which are prone to devastating earthquakes, the Tianshan orogenic belt and the Tibet Plateau on the south, and the rigid blocks, such as Erdos, the South China, the North China Plain and Amur, on the east. Affected by the effect of the Indian-Eurasian collision on the south of the basin and at the same time, driven by the southward push of the Mongolian-Siberian plate, the active structures in the periphery of the basin show a relatively strong activity. The main deformation patterns are represented by the large-scale NNW-trending right-lateral strike-slip faults dominated by right-lateral shearing, the NNE-trending left-lateral strike-slip faults dominated by left-lateral shearing, and the thrust-nappe structure systems distributed in piedmont of Tianshan in the south of the basin. There are three near-parallel-distributed left-lateral strike-slip faults in the west edge of the basin, from the east to the west, they are:the Daerbute Fault, the Toli Fault and the Dongbielieke Fault. This paper focuses on the Dongbielieke Fault in the western Junggar region. The Dongbielieke Fault is a Holocene active fault, located at the key position of the western Junggar orogenic belt. The total length of the fault is 120km, striking NE. Since the late Quaternary, the continuous activity of the Dongbielieke Fault has caused obvious left-lateral displacement at all geomorphologic units along the fault, and a linear continuous straight steep scarp was formed on the eastern side of the Tacheng Basin. According to the strike and the movement of fault, the fault can be divided into three segments, namely, the north, middle and south segment. In order to obtain a more accurate magnitude of the left-lateral strike-slip displacement and the accumulative left-lateral strike-slip displacement of different geomorphic surfaces, we chose the Ahebiedou River in the southern segment and used the UAV to take three-dimensional photographs to obtain the digital elevation model(the accuracy is 10cm). And on this basis, the amount of left-lateral strike-slip displacement of various geological masses and geomorphic surfaces(lines)since their formation is obtained. The maximum left-lateral displacement of the terrace T₅ is(30.7±2.1)m and the minimum left-lateral displacement is(20.1±1.3)m; the left-lateral displacement of the terrace T₄ is(12±0.9)m, and the left-lateral displacement of the terrace T₂ is(8.7±0.6)m. OSL dating samples from the surface of different level terraces(T₅, T₄, T₂ and T₁)are collected, processed and measured, and the ages of the terraces of various levels are obtained. By measuring the amount of left-lateral displacements since the Late Quaternary of the Dongbielieke Fault and combining the dating results of the various geomorphic surfaces, the displacements and slip rates of the fault on each level of the terraces since the formation of the T₅ terrace are calculated. Using the maximum displacement of(30.7±2.1)m of the T₅ terrace and the age of the geomorphic surface on the west bank of the river, we obtained the slip rate of(0.7±0.11)mm/a; similarly, using the minimum displacement of(20.1±1.3)m and the age of the geomorphic surface of the east bank, we obtained the slip rate of(0.46±0.07)mm/a. T₅ terrace is developed on both banks of the river and on both walls of the fault. After the terraces are offset by faulting, the terraces on foot wall in the left bank of the river are far away from the river, and the erosion basically stops. After that, the river mainly cuts the terraces on the east bank. Therefore, the west bank retains a more accurate displacement of the geomorphic surface(Gold et al., 2009), so the left-lateral slip rate of the T₅ terrace is taken as(0.7±0.11)mm/a. The left-lateral slip rate calculated for T₄ and T₂ terraces is similar, with an average value of(0.91±0.18)mm/a. In the evolution process of river terraces, the lateral erosion of high-level terrace is much larger than that of low-level terrace, so the slip rate of T₄ and T₂ terraces is closer to the true value. The left-lateral slip rate of the Dongbielieke Fault since the late Quaternary is(0.91±0.18)m/a. Compared with the GPS slip rate in the western Junggar area, it is considered that the NE-trending strike-slip motion in this area is dominated by the Dongbielieke Fault, which absorbs a large amount of residual deformation while maintaining a relatively high left-lateral slip rate.  相似文献   

兰州及邻近地区河流阶地变形特征   总被引：1，自引：2，他引：1       下载免费PDF全文

刘小凤  袁道阳  刘百篪 《地震工程学报》2003,25(2):119-124,142

根据兰州及邻区黄河及其次级河流阶地纵剖面研究，分析了横穿活动断裂的河流阶地的变形特征，利用横穿黄河的兴隆山—马衔山断裂、海原断裂和穿越庄浪河的NWW向断裂附近阶地发育和变形特征确定了相应地区的构造抬升幅度及速率。  相似文献   

永定河上游晚更新世晚期以来的堆积阶地年代测定          下载免费PDF全文

尹金辉  计凤桔 《地震地质》2000,22(2):195-199

应用1 4 C测年法和热释光方法对采自永定河上游晚更新世晚期以来形成的堆积阶地样品进行了年代测定。研究结果表明 ,永定河上游三条一级支流的低阶地形成时代具有一定的同时性 ,第三级阶地的下切时间大约在 30 0 0 0aB .P .;第二级阶地的下切时间大约在 10 0 0 0aB .P .;第一级阶地的下切时间大约在 4 0 0 0aB .P .。气候变暖对第二级阶地形成起主导作用 ,构造作用对最新阶地形成有一定的影响  相似文献   

天山北麓活动背斜区河流阶地与古地震事件   总被引：4，自引：2，他引：2       下载免费PDF全文

杨晓平  李安  黄伟亮  张玲 《地震地质》2011,(4):739-751

利用航空遥感照片和Google earth卫星影像,对天山北麓独山子活动背斜区奎屯河两侧的河流地貌进行解释,结合野外调查发现,奎屯河流经独山子背斜段发育7级基座阶地,阶地基座为上新统独山子组泥岩,其上部为2.5 ～ 15m厚的砂砾石层和砂质黏土.在开挖或剥离的各级阶地堆积物剖面中采集细粒堆积物样品,实验室中采用细粒石英...  相似文献   

SLIP RATES OF THE RIYUE MT. FAULT AT DEZHOU SEGMENT SINCE LATE PLEISTOCENE     

LI Zhi-min  SU Peng  HUANG Shuai-tang  TIAN Qin-jian  YIN Xiang 《地震地质》2018,40(3):656-671

The Riyue Mt. Fault is a secondary fault controlled by the major regional boundary faults (East Kunlun Fault and Qilian-Haiyuan Fault). It lies in the interior of Qaidam-Qilianshan block and between the major regional boundary faults. The Riyue Mt. fault zone locates in the special tectonic setting which can provide some evidences for recent activity of outward extension of NE Tibetan plateau, so it is of significance to determine the activity of Riyue Mt. Fault since late Pleistocene to Holocene. In this paper, we have obtained some findings along the Dezhou segment of Riyue Mt. Fault by interpreting the piedmont alluvial fans, measuring fault scarps, and excavating trenches across the fault scarp. The findings are as follows:(1) Since the late Pleistocene, there are an alluvial fan f_p and three river terraces T₁-T₃ formed on the Dezhou segment. The abandonment age of f_p is approximately (21.2±0.6) ka, and that of the river terrace T₂ is (12.4±0.11) ka. (2) Since the late Pleistocene, the dextral strike-slip rate of the Riyue Mt. Fault is (2.41±0.25) mm/a. In the Holocene, the dextral strike-slip rate of the fault is (2.18±0.40) mm/a, and its vertical displacement rate is (0.24±0.16) mm/a. This result indicates that the dextral strike-slip rate of the Riyue Mt. Fault has not changed since the late Pleistocene. It is believed that, as one of the dextral strikeslip faults, sandwiched between the the regional big left-lateral strike-slip faults, the Riyue Mt. Fault didn't cut the boundary zone of the large block. What's more, the dextral strike-slip faults play an important role in the coordination of deformation between the sub-blocks during the long term growth and expansion of the northeast Tibetan plateau.  相似文献