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青海拉脊山断裂带新活动特征的初步研究 总被引:10,自引:0,他引:10
拉脊山断裂带由拉脊山北缘断裂和拉脊山南缘断裂两条向NE凸出的弧形断裂所组成,分别长约230km和220km。它们是介于NNW向的热水一日月山右旋走滑断裂带和NWW向的西秦岭北缘左旋走滑断裂带之间的一个大型挤压构造区和构造转换带,也是分隔拉脊山南北两侧的西宁一民和盆地和循化一化隆盆地的重要边界断裂。沿断裂带的追踪考察,发现了其新活动的部分地质地貌证据。其最新活动时代为晚更新世晚期(仅局部为全新世早期),性质以挤压逆冲为主稍具左旋特征。该断裂的新活动可能导致了该区20余次5级左右中等地震的发生。可以说,拉脊山地区既是反映构造活动,又是反映地震活动的地震构造窗。 相似文献
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拉脊山断裂带在遥感影像上具有明显的线性构造特征,由拉脊山北缘断裂带和拉脊山南缘断裂带向北东凸出的弧形挤压逆冲断裂带构成,成为北侧的西宁—民和盆地、南侧的循化—化隆盆地和东侧的临夏盆地等多个晚新生代断陷盆地的边界,拉脊山北缘断裂带全长230km,由数段弧状不连续的断裂带组成。拉脊山南缘断裂带全长220km,由5段不连续宽缓波状断裂带组成,其左旋活动形成了拉张型的山间盆地——千户盆地,左旋水平位移180~640m不等。历史上沿拉脊山南、北两侧发生过20余次5级左右中等破坏性地震,这与遥感解译该断裂带的几何特征相一致。 相似文献
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于慎谔 《地震学报(英文版)》2004,17(4):417-425
Introduction Shanxi fault depression zone (SFDZ) is one of important Cenozoic fault basin zones and strong earthquake belts in Chinese mainland. Its northern part has aroused wide research interests due to the complicated tectonics and high activity of strong earthquakes there. Early researches on this depression zone were carried out since 60s of last century (DENG, et al, 1973; DENG, YOU, 1985; LU, DING, 1985; XU, 1990; XU, et al, 1996, 2002). In 90s of last century, the geologica… 相似文献
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DONG Jin-yuan LI Chuan-you ZHENG Wen-jun LI Tao LI Xin-nan ZHANG Pei-zhen REN Guang-xue DONG Shao-peng LIU Jin-rui 《地震地质》2019,41(2):341-362
With the continuous collision of the India and Eurasia plate in Cenozoic, the Qilian Shan began to uplift strongly from 12Ma to 10Ma. Nowadays, Qilian Shan is still uplifting and expanding. In the northern part of Qilian Shan, tectonic activity extends to Hexi Corridor Basin, and has affected Alashan area. In the southern part of Qilian Shan, tectonic activity extends to Qaidam Basin, forming a series of thrust faults in the northern margin of Qaidam Basin and a series of fold deformations in the basin. The southern Zongwulong Shan Fault is located in the northeastern margin of Qaidam Basin, it is the boundary thrust fault between the southern margin of Qilian Shan and Qaidam Basin. GPS studies show that the total crustal shortening rate across the Qilian Shan is 5~8mm/a, which absorbs 20% of the convergence rate of the Indian-Eurasian plate. Concerning how the strain is distributed on individual fault in the Qilian Shan, previous studies mainly focused on the northern margin of the Qilian Shan and the Hexi Corridor Basin, while the study on the southern margin of the Qilian Shan was relatively weak. Therefore, the study of late Quaternary activity of southern Zongwulong Shan Fault in southern margin of Qilian Shan is of great significance to understand the strain distribution pattern in Qilian Shan and the propagation of the fault to the interior of Qaidam Basin. At the same time, because of the strong tectonic activity, the northern margin of Qaidam Basin is also a seismic-prone area. Determining the fault slip rate is also helpful to better understand the movement behaviors of faults and seismic risk assessment.Through remote sensing image interpretation and field geological survey, combined with GPS topographic profiling, cosmogenic nuclides and optically stimulated luminescence dating, we carried out a detailed study at Baijingtu site and Xujixiang site on the southern Zongwulong Shan Fault. The results show that the southern Zongwulong Shan Fault is a Holocene reverse fault, which faulted a series of piedmont alluvial fans and formed a series of fault scarps.The 43ka, 20ka and 11ka ages of the alluvial fan surfaces in this area can be well compared with the ages of terraces and alluvial fan surfaces in the northeastern margin of Tibetan Plateau, and its formation is mainly controlled by climatic factors. Based on the vertical dislocations of the alluvial fans in different periods in Baijingtu and Xujixiang areas, the average vertical slip rate of the southern Zongwulong Shan Fault since late Quaternary is(0.41±0.05)mm/a, and the average horizontal shortening rate is 0.47~0.80mm/a, accounting for about 10% of the crustal shortening in Qilian Shan. These results are helpful to further understand the strain distribution model in Qilian Shan and the tectonic deformation mechanism in the northern margin of Qaidam Basin. The deformation mechanism of the northern Qaidam Basin fault zone, which is composed of the southern Zongwulong Shan Fault, is rather complicated, and it is not a simple piggy-back thrusting style. These faults jointly control the tectonic activity characteristics of the northern Qaidam Basin. 相似文献
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帕米尔高原位于地中海-喜马拉雅地震带上,晚新生代以来随着印度板块向欧亚板块持续不断地挤压汇聚,其构造运动是欧亚大陆最强烈的地区。高原腹地发育一系列近SN向正断层,包括近SN向的塔什库尔干正断层所处的帕米尔中部现代区域的构造应力场以EW向水平拉张为主。2016年11月25日发生的阿克陶MS 6.7级地震的发震构造为塔什库尔干断层分支的NWW向木吉盆地北缘断层,其具有右旋走滑兼正断性质。地震在震中附近产生同震地表形变带,全长约1km,呈近SN-NNE向水平拉伸,发育近EW—NWW向的张裂缝,为地震破裂的产物,张裂缝的最大水平拉伸位移量和最大垂直位移量分别为46cm和16cm。地表破裂带中的NE和NW向张剪裂缝只是连接贯通这些雁列的张裂缝,其水平相对位移量取决于张裂缝的水平拉伸量和张裂缝之间的几何关系。地表形变带表现的拉张性质与帕米尔高原腹地区域现代应力场最大主压应力为垂直向基本一致,可能与深部热物质上涌造成的上地壳拉伸有关。而地表形变带呈近SN向水平拉张,与区域近EW向拉张应力场之间存在显著差异,这可能是木吉盆地北缘右旋走滑正断层阶区局部应力场调整的结果。 相似文献
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根据详实的野外资料对新疆阜康 -吉木萨尔断裂带的构造几何特征和活动性进行了分析与研究 ,结果表明 :断裂带由东、西两大段组成 ,西段由 4条次级S倾逆断裂左行斜列组成 ,东段由 3条次级S倾逆断裂右行斜列组成 ,总体上呈向北微凸的近EW向展布 ,长达 14 0km ,控制着东天山北缘的第四纪构造演化和地貌发育 ;组成断裂往往是低角度的逆断层 ,与褶皱共生 ,切割深度 5~ 6km ,第四纪晚期多期 (次 )活动 ,以间歇性稳定滑动为特征 ;断裂带端部段落倾角较大 ,活动量较小 ,全新世平均垂直滑动速率为 0 .10~ 0 4 0mm/a ,中部段落以低倾角的推覆为特征 ,活动强烈 ,全新世平均垂直滑动速率达 0 80~ 1 0 0mm/a以上 相似文献
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滇东南楔形构造区的区域断裂几何结构突出地表现为半棋盘格式。具有区域应力场分界意义的红河断裂,把其它几条断裂限制在其北部,并与小江断裂带构成第一级的半断块。构造区内,曲江断裂被李浩寨断裂限制在其西侧;后者与异龙湖断裂交汇于建水盆地中;建水断裂把黑泥地断裂限制于其东,并与李浩寨断裂构成建水盆地右阶拉分岩桥区,向南终止于山花。 深部构造、区域形变及断裂活动表明该构造区是一个断块挤压隆起构造区。最后,对楔形构造区的地震活动与挤压隆起断块运动的关系作了简要的分析 相似文献
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分别利用纯S波波形反演和T函数法计算了太行山构造带及其邻近地区100km以上的壳幔剪切波速度结构,结果显示太行山构造带在南、中、北段的壳幔结构存在明显差异。南段邢台邯郸地区地壳中比较突出的特点是下地壳存在一个厚度近10km的低速层;中段石家庄—保定地区靠近山脉的各台地壳结构相对比较稳定,越向盆地区发展,结构愈加复杂化;北段到达北京地区,由于该区是太行山与燕山构造带的交汇地区,中下地壳出现薄高低速转换层位,呈现不稳定状态。沿太行山构造带东缘是地震活动带-河北平原地震带,通过对比速度结构与地震空间分布,发现不同区段小震分布特点与地下低速或不稳定结构关系密切。结合该区域上地幔速度结构特征,认为太行山中段与华北地区中新生代以来的岩石圈大规模减薄运动关系密切,而南北两段当前地幔物质比较活跃,构造运动相对更为强烈。 相似文献
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鄂尔多斯块体受青藏块体和华北块体的挤压,在其周缘形成一系列褶皱和压性断层,构造较为复杂。本文利用1980、1990和2014这3期精密水准资料计算了鄂尔多斯块体西北缘的垂直运动速率,分析结果表明:① 位于阴山断块隆起与鄂尔多斯断块隆起之间的河套盆地相对下沉,其中临河盆地最为明显,下沉速率为2-4mm/a,位于鄂尔多斯块体西缘的吉兰泰-银川断陷带沉降速率有所减缓,目前沉降速率约为2mm/a;② 整个测区表现为明显的山区上升、盆地下沉的继承性运动;③ 穿过乌拉山北缘断裂和磴口-本井断裂的2条水准剖面显示断裂两侧的垂直运动速率差异小于0.5mm/a。 相似文献
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山西及邻区水系与黄土冲沟的分形几何学分析结果及其与构造活动的关系 总被引:9,自引:0,他引:9
本文用分形几何理论,对山西及邻区水系与黄土冲沟作了分析,发现水系与冲沟分维值的大小反映了该区构造活动性的强弱,分维值的分布定量地反映了区域构造活动的背景及各区域构造活动性的差异,在构造活动强的区域,分维值高,反之则低。按分维值的大小山西断陷带分成南中北三段,以中段介休-临汾一带的分维值及反映的构造活动性最强。该区分维值的分布及反映的构造活动性有从四周向中间增强的特点,增强区与强震的发生有关 相似文献
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安宁河-则木河断裂带位于川滇地块、巴颜喀拉地块和华南地块的交接部位,是川滇菱形块体的东部重要边界。利用布设在安宁河-则木河断裂带周边区域的西昌台阵和川西台阵均历时两年、共187个宽频带地震台站的垂直分量的背景噪声数据,采用噪声层析成像方法获得了这一区域4~20s的Rayleigh波群速度分布图像。与前人研究相比,本文结果的横向分辨率有明显改进,在安宁河-则木河断裂带可达20km左右,在其它区域可以达到20~40km。成像结果表明,安宁河-则木河断裂地区上地壳的速度结构存在明显横向不均匀性,速度分布特征与地表地质构造基本一致,不同周期的速度分布变化较小。盐源盆地、西昌盆地和四川盆地西南缘表现为低速异常。九龙附近和南部的德昌-盐边-巧家附近表现为高速异常,分别与出露的花岗岩体和峨眉山玄武岩有关。在安宁河断裂南段和则木河断裂北段能观测到断裂两侧的速度存在明显差异,其余断裂带两侧的速度对比不明显。贡嘎山附近的中上地壳表现为明显的低速异常,其东侧和西南侧高速体的阻挡,以及鲜水河-安宁河断裂带走向的变化,在贡嘎山区形成一个挤压弯曲段,使得川滇菱形块体的东南向水平运动转换为垂直于断裂的挤压作用和垂直隆升,导致了贡嘎山的快速隆起。 相似文献
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Ordos block was squeezed by the Qinghai-Tibetan block and North China block, and the tectonic activity was intense. In the periphery of Ordos block, there was a series of folds zones and compressed faults with complicate structures. This paper used three-phase data of 1980,1990 and 2014 to calculate vertical velocity of Northwestern margin of Ordos and the analytical results indicated that ① the Hetao basin between the rise of Yinshan fault block and Ordos fault block showed relatively subsidence, in which Linhe basin was the most evident and the subsidence rate was about 2-4mm/a. The subsidence rate of Jartai -Yinchuan rift zone on the western margin of Ordos block was about 2mm/a; ② the whole testing zone exhibited the evident inherited movement characterized by mountain rise and basin subsidence; ③the two leveling section through the northern margin fault and Dengkou-Benjing fault showed that the difference between vertical velocities on two sides of the fault was less than 0.5mm/a. 相似文献
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GEOMORPHOLOGY OF THE GYARING CO FAULT ZONAL DRAINAGE SYSTEM AND ITS STRUCTURAL IMPLICATIONS 
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下载免费PDF全文 Strike-slip faults and normal faults are dominant active tectonics in the interior of Tibetan plateau and control a series of basins and lakes showing extension since the Late Cenozoic, by contrast with the thrust faulting along the orogenic belts bordering the plateau. The late Neotectonic movement of those faults is key information to understand the deformation mechanism for Tibetan plateau. The Gyaring Co Fault is a major active right-lateral strike-slip fault striking~300° for a distance of~240km in central Tibet, in south of Bangong-Nujiang suture zone. The Gyaring Co Fault merges with the north-trending Xainza-Dinggye rift near the southern shore of Gyaring Co. From NW to SE, Dongguo Co, Gemang Co-Zhangnai Co, Zigui Co-Gyaring Co form the Gyaring Co fault zonal drainage basin. Some scholars have noticed that the formation of lakes and basins may be related to strike-slip faults and rift, but there is no analysis on the Gyaring Co fault zonal drainage basin and its response to regional tectonics. In recent years, a variety of quantitative geomorphic parameters have been widely used in the neotectonic systems to analyze the characteristics of the basin and its response mechanism to the tectonic movement. In this paper, we applied ASTER GDEM data on the ArcGIS platform, extracted the Gyaring Co fault zonal drainage basin based on Google Earth images (Landsat and GeoEye) and field work. We acquired basic geomorphic parameters of 153 sub-basin (such as grade, relief, average slope, area) and Hypsometric Index (HI) value and curve. Statistical results have indicated significant differences in scale(area and river network grade)in north and south sides of the fault. Southern drainage basins' relief, slope, HI value are higher than the northern basins, and the overall shape of hypsometric curve of northern basins are convex compared with southern concavity. Along the strike of the Gyaring Co Fault, average slope, and HI value are showing generally increasing trending and hypsometric curve become convex from west to east. By comparing and analyzing the lithology and rainfall conditions, we found that they have little influence on the basic parameters and HI value of drainage basins. Therefore, the changes of basin topographic differences between northern and southern side of fault and profile reveal the Gyaring Co Fault has experienced differential uplift since the late Cenozoic, southern side has greater uplift compared to the north side, and the uplift increased from NW to SE, thus indicate that normal faulting of the Gyaring Co Fault may enhanced by the Xainza-Dinggye rift. The early uplift of the Gangdise-Nyainqentanglha Mountain in late Cenozoic might provide northward inclined pre-existing geomorphic surfaces and the later further rapid uplift on the Gangdise-Nyaingentanglha Mountain and Xainza-Dinggye rift might contribute to the asymmetrical development of the Gyaring Co fault zonal drainage basin. 相似文献
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已有活动构造研究结果表明,天山北缘具有典型的大陆内部活动构造特征,表现为多排平行山体的背斜和逆断裂.为了研究乌鲁木齐坳陷区的地壳细结构、主要断裂展布和深、浅构造关系,2004年底,在乌鲁木齐西部的天山与准噶尔盆地之间的过渡带上,完成了一条近SN向的长度为78 km的深地震反射探测剖面.结果表明,该区地壳以双程走时9~10.5 s左右的强反射带为界分为上地壳和下地壳,上地壳厚约26~28 km,下地壳厚约23~25 km.双程走时5 s以上,反射层位丰富,构造形态清晰,且在剖面横向上具有明显不同的构造特征;在西山以南的区域,为一系列近东西向展布、南北向排列的逆冲背斜构造和一组自南向北逆冲的断裂,它们在深部均受到滑脱带的控制;在西山和王家沟一带,为一套向北陡倾的反射层系和一组沿层间滑动的断裂;剖面北部显示出了典型的沉积盆地图像,沉积盆地最深处约为10~12 km.双程走时6~9 s之间,为一些延续长度较短、反射能量较弱、且无规律可寻的凌乱反射,表明这部分地壳结构具有明显的“反射透明”性.Moho过渡带出现的时间位于双程走时14~17 s,对应壳幔过渡带厚度约为9~10 km.本区Moho面自北向南逐渐加深,剖面北部其深度约为50~52 km,在靠近北天山附近,其深度约为54~55 km.在剖面中部的西山附近,上、下地壳分界面反射和Moho过渡带反射变得模糊,且浅部地层还出现隆起和褶皱,推测与准噶尔盆地和天山的挤压过程有关. 相似文献
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张家口断裂第四纪构造变形与活动性研究 总被引:8,自引:4,他引:4
本文根据野外详实资料对张家口断裂的构造变形和活动性进行分析与研究,结果表明:断裂由西、中、东3段组成,各段多由北西向和近东西向2组多条次级断层组成,总体呈北西西走向展布,长达70km,控制着张家口及附近的第四纪构造演化和地貌发育;北西向断层构成断裂的主体,为高角度的逆(或正)走滑断层,近东西向断层较短,表现为正倾滑,第四纪期间2组断层持续活动,以脆性变形为特征;断裂端部段落与北东向断裂交汇,活动性较弱,构造表现不甚清楚,中部段落活动强烈,晚更新世以来单条断层的平均垂直活动速率大于0.07—0.30mm/a,总的垂直活动速率可能达到1.33mm/a。 相似文献
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龙首山断裂带位于青藏高原向北东推挤的最前缘,是河西走廊与阿拉善地块之间的分界断裂之一.虽然观测精度有限,1954年发生在该断裂带上的71/4级地震是该断裂上少有的有现代地震观测和记录的大地震.本次地震仅在龙首山北缘断裂带两个次级断裂段之间的一条转换断层上形成了长7 km左右的连续地震地表破裂带,以北西向右旋兼正断为主要特征,这与区域上近东西向左旋逆断构造运动特征差异较大.经过多次野外调查和地质填图,发现在主断层上没有形成地震地表破裂带,而地震震害的分布又完全受龙首山南北两条断裂所围限,说明地震的孕震可能与龙首山断裂带主断裂有关,转换断层上的地表破裂仅为局部的应力释放.利用震源机制解资料,通过静态库仑应力变化模拟可以看到,如果主震发生在南缘断裂上,对地表破裂有显著的触发作用.综合考虑北缘断层可能存在的动态触发作用,说明目前所见地表破裂是龙首山断裂带主断裂地震的同震响应.小震精定位也显示,龙首山南北两侧的断裂在约10 km范围内形成一狭窄的倒三角形,并有向北扩展的趋势. 相似文献