罗云山山前断裂中段土门-贾朱村晚第四纪断错地貌特征   总被引：2，自引：0，他引：2  

孙昌斌  谢新生  许建红 《中国地震》2013,29(3):347-357

罗云山山前断裂位于山西临汾盆地西侧,控制着盆地的西界。通过对该断裂1∶ 5万地质填图、对河流冲沟阶地及山前断错地貌的调查,介绍了罗云山山前断裂中段土门-贾朱村晚第四纪断错地貌特征。罗云山山前发育D1、D2、D3 等3 级洪积扇,罗云山山前断裂上升盘冲沟发育T1 ～ T5 等5 级阶地。D1 洪积扇与T1、T2 阶地形成于全新世早中期;D2 洪积扇与T3 阶地形成于晚更新世中晚期;D3 洪积扇与T4、T5 阶地形成于中更新世中晚期。罗云山山前断裂中段不同部位断错地貌特征差异较大,D1 洪积扇的断错在席坊沟一带断距约2. 9m;在金殿镇峪口村南西山前断错约3m。D2 洪积扇的断错在土门镇南西堡子村约2. 5m;在杨家庄村西山前断错约4m;在景村西山前断错约6m;在襄陵镇浪泉沟南西侧山前断错约7. 7m。罗云山山前断裂中段山前断错地貌明显,其最新活动时代为全新世。其中,土门段最新活动时代为全新世早期,龙祠段最新活动时代为全新世中晚期。罗云山山前断裂中段晚更新世中晚期以来活动速率为0. 18～ 0. 54mm / a,由北向南活动呈增强趋势;全新世早中期以来活动速率为0. 4 ～ 0. 9mm / a,断裂活动主要集中于席坊沟-峪口一带。罗云山山前断裂中段从晚更新世中晚期到全新世活动速率有增大的趋势,这与该断裂上升盘冲沟阶地从晚更新世中晚期到全新世抬升速率有增大的趋势以及临汾盆地从晚更新世晚期到全新世沉降速率也有增大的趋势具有较好的一致性。  相似文献   

新疆柴窝堡盆地南缘断层晚第四纪的最新活动和滑动速率     

陈建波  沈军  罗福忠  向志勇  李军  胡伟华  吴传勇  石广林 《地震研究》2009,32(2)

通过航、卫片解译和野外实地踏勘对新疆柴窝堡盆地南缘断层晚第四纪以来的活动特征及活动速率方面有了新的认识:研究认为该断层晚第四纪以来曾有过强烈的活动,断层最新活动在南台子断错乌鲁木齐河Ⅰ级阶地的全新世砂土卵砾石层,形成20～40 cm的垂直断距,在柴窝堡盆地盐湖以南断错冲沟河流Ⅱ级阶地的晚更新世砾石层,垂直断距大于9 m,初步估算晚更新世以来该断层的垂直活动速率为0.09 mm/a,引起的水平缩短速率为0.5 mm/a.作为柴窝堡盆地南缘断层分支的板房沟断层,其最新活动的证据是断错了乌鲁木齐河Ⅰ级阶全新世砾石层.  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   

鄂尔多斯高原河曲段黄河阶地构造变形研究     

闫小兵  李自红  赵晋泉  苏宗正 《华北地震科学》2014,(1):53-58

通过对河曲县城一带出露较好的黄河阶地剖面进行研究，认为河曲一带黄河三、四级阶地形成于中更新世时期，晚更新世早期形成二级阶地，全新世形成一级阶地。本区中更新世抬升速率为0．14mm／a，晚更新世抬升速率为0．18mm／a，全新世抬升速率为0．70mm／a，晚更新世和全新世抬升速率的突然加大，可能与黄河下游三门湖的贯通、区域侵蚀基准面突然降低、河流侵蚀加大有关。  相似文献   

山西罗云山山前断裂带中段龙祠-峪口全新世活动证据   总被引：5，自引：4，他引：1       下载免费PDF全文

许建红  谢新生  孙昌斌 《地震地质》2011,(4):855-864

通过断错地貌调查和探槽开挖,获得了临汾盆地西界罗云山山前断裂带龙祠-峪口段的最新活动信息:该段山前洪积扇后缘断断续续存在高2.5m、5.2m、8m左右的地表地貌陡坎;附近冲沟的Ⅰ级阶地热释光测年为距今7500a左右;在NW向的席坊沟内存在拔沟3.5m、8m、18m左右的3级阶地,与地貌陡坎有对应关系;席坊沟探槽揭示罗云...  相似文献   

华山山前断裂中段晚第四纪活动的地貌表现及响应   总被引：2，自引：1，他引：1  

杨源源  高战武  徐伟 《震灾防御技术》2012,7(4):335-347

调查了华山山前断裂中段（石堤峪-杜峪）晚更新世以来,尤其是全新世以来的断层构造地貌,讨论了它们的成因、特点及对断裂活动的响应关系。断层构造地貌主要包括：断层三角面、断层陡坎、洪积阶地、埋藏型洪积扇以及冲沟裂点。对各大沟峪峪口的洪积阶地进行了大比例尺微地貌测量,并在部分沟峪两侧沿断层崖陡坎及冲沟沟床布置了测线。结合T1、T2级洪积阶地位错测量结果及其14C年龄计算得到,华山山前断裂中段6000a-2000aB.P.的垂直滑动速率为1.485mm/a;2000aB.P.以来的垂直滑动速率为3.73mm/a。最后结合野外调查与理论认识,建立了正断层作用下洪积阶地与埋藏型洪积扇的演化模式。本研究结果支持华山山前断裂是1556年华县814级地震发震构造的观点。  相似文献   

塔什库尔干断裂带北段木吉河断层运动特征   总被引：1，自引：0，他引：1  

吴传勇  沈军  李帅  樊晓峰 《内陆地震》2008,22(1):43-47

塔什库尔干断裂带是由多条运动性质不同的次级断层组成。该断裂带北段的木吉河断层运动特征以逆冲为主，兼有右旋走滑分量。该断层全长20km左右，全新世以来仍有较强活动，断错了全新世中晚期的地貌面，对吉如吉能沟西岸的阶地变形进行测量，得到Ⅰ、Ⅱ阶地的垂直断错量分为10m和14m左右。通过对变形阶地的年代测定，计算得到全新世中期以来，木吉河断层的平均垂直滑动速率为1．8—2．1mm／a，所造成的南北向地壳缩短为1．1～1．3mm／a。  相似文献   

西藏谷露盆地西缘断裂新活动特征研究   总被引：2，自引：1，他引：1       下载免费PDF全文

刘静  申旭辉  孟恺  关鹏 《地震工程学报》2009,31(3):272-276,284

谷露盆地位于亚东-当雄构造带的最北端,全长约50 km.通过遥感解译和实地野外考察,将盆地内的堆积扇分为中更新世、晚更新世末期-全新世和全新世晚期三期,并认为其西缘断裂带是一条既有垂直运动又兼具右旋走滑的正断层.通过测定错断地质体位移和沉积物年龄样品,得到断裂带在1952年当雄北7.5级地震的同震水平位移为5.5 m,同震垂直位移为2～5 m;4 ka以来的水平滑动速率为3.75 mm/a,垂直滑动速率为0.5～1.5 mm/a;大约10 ka以来的水平滑动速率为1.0～5.0 mm/a,垂直滑动速率为0.5～0.85 mm/a.  相似文献   

南天山柯坪塔格推覆体前缘断裂活动性质及速率   总被引：1，自引：0，他引：1  

宋方敏  闵伟  韩竹军  徐锡伟 《地震地质》2007,29(2):272-281

柯坪塔格推覆体位于天山西南麓,由多排NEE—EW向的褶皱-逆断裂带组成。文中介绍了皮羌—巴楚磷矿以西3排褶皱-逆断裂带前缘断裂的活动性质及速率。新获资料表明,各排褶皱-逆断裂带前缘皆由多条断裂构成,都具典型的逆断层性质。其中最新活动断裂位于褶皱-逆断裂带的最前缘,活动时代为晚更新世—全新世。它们切割冲沟T0、T1、T2、T3阶地堆积,形成不同高度的断层陡坎。根据陡坎剖面测量和年龄样品测试,求得T0面形成以来断裂的垂直位移量、位移速率、地壳缩短量和缩短速率分别是0.9～1.1m、0.53～0.65mm/a、1.93～2.56m和1.14～1.52mm/a;T1面形成以来分别是1.4～1.8m、0.36～0.46mm/a、3.00～3.86m和0.77～0.99mm/a;T2面形成以来分别是2.1～3m、0.31～0.45mm/a、4.50～6.98m和0.67～1.04mm/a;T3面形成以来分别是3.4～4.2m、0.28～0.35mm/a、7.29～9.22m和0.61～0.77mm/a。根据T0面形成以来的缩短量和缩短速率,计算柯坪塔格推覆体约1.7ka以来总的地壳缩短量是9.65～12.80m,缩短速率  相似文献   

阿尔金断裂带东段晚更新世阶地沉积物红外释光测年及其构造意义   总被引：3，自引：0，他引：3       下载免费PDF全文

王萍  卢演俦  陈杰 《地震地质》2004,26(4):716-726

对流经阿尔金断裂带东段的段家沙河、疏勒河和踏实河的阶地沉积物进行了细颗粒多测片红外释光(IRSL)测年,初步确定了晚第四纪各级阶地的形成年代和构造抬升速率。疏勒河在昌马盆地南缘发育7级阶地,光释光测年结果显示这些总高度超过100m的阶地可能主要形成于数万年以内,抬升速率约为2.5mm/a;照壁山峡谷疏勒河保留有5级阶地,大致形成于20万年前,阶地的抬升速率约为0.7mm/a;段家沙河在红柳峡上形成4级阶地,形成于距今7万年以来,其抬升速率约为06mm/a  相似文献   

罗云山山前断裂带阶地调查研究及其构造意义     

孙昌斌  谢新生  许建红 《中国地震研究》2012,26(2):210-221

Located at the west of the Linfen basin, the Luoyunshan piedmont fault zone controls the western boundary of the basin. According to the measurements of the terraces in eight gullies along the Luoyunshan fault zone, five levels of terraces, namely T1～T5 have developed in these gullies. The heights of terraces T1, T2, T3, T4 and T5 are about 3m, 8～10m, about 20m, about 30m and 40～50m, respectively. The dating data of the terraces and investigation of the faulted landforms show that the Luoyunshan fault zone has experienced much activity since the Late Quaternary. The uplift rate of the terraces was 0.41mm/a since the Middle-Late Pleistocene, and 0.75mm/a since the Holocene. The increasing trend of uplift rate of the terraces along the Luoyunshan fault zone from the Middle-Late Pleistocene to Holocene indicates the tendency of gradual tectonic uplift of the fault zone since the late Quaternary. This is in good agreement with the increasing trend of subsidence rate of the Linfen basin from the Late Pleistocene to Holocene.  相似文献   

东昆仑断裂带东部塔藏断裂地震地表破裂特征及其构造意义   总被引：12，自引：0，他引：12  

张军龙  任金卫  付俊东  胡朝忠  熊仁伟  陈长云  杨攀新 《地震》2012,32(1):1-16

东昆仑断裂带作为青藏高原中东部的巴颜喀拉地块北缘边界断裂带,研究其强震破裂行为对于认识断裂带活动性及分析川西北地区未来地震危险性具有重要意义.通过沿断裂发育的大量断错地貌勘查、典型微地貌DGPS测量及样品年代测定,认为东昆仑断裂带向东的强震活动性延伸至若尔盖盆地北侧,即东昆仑断裂带东部塔藏断裂的罗叉段.此段在卫星影像上呈清晰的灰黑色、灰黄色线性条带,地震形变带主要表现为断层陡坎、坡中谷、冲沟和阶地位错、植物异常呈线性分布、跌水、断层泉、断塞塘以及伴随地表错动而出现的滑坡、垮塌和倒石堆.这些破裂现象沿先存断层断续分布,组成长约50 km的“L”形地震形变带.断裂活动造成冲沟和阶地左行运动,位错量主要集中在5.5～6.0m、18～23 m、68～75m和200～220m范围.最近地震发生在(340±30)～(500±30)BP间,宏观震中位于本多村西北5～7 km,震级为Mw7.3左右,同震位移最大值为6m,水平位错量为5.5～6.0 m,垂直位错量一般为0.2～0.5m,其比例为5∶1～10∶1.对地震形变带中的各种变形遗迹和地震地表破裂特征的研究表明,塔藏断裂是这次地震的发震构造.确定了塔藏断裂为全新世活动断层,近期断层在压剪切作用控制下以左行运动为主,兼有少量逆冲分量,同东昆仑断裂带其他段的活动性质相似,认为东昆仑断裂带延伸至若尔盖盆地北侧,研究结果支持“大陆逃逸”模型.  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   

NEW DISCOVERY OF RESHUI-TAOSTUO RIVER FAULT IN DULAN,QINGHAI PROVINCE AND ITS IMPLICATIONS          下载免费PDF全文

LI Zhi-min  REN Zhi-kun  LIU Jin-rui  HA Guang-hao  LI Zheng-fang  WANG Bo  WANG Lin-jian 《地震地质》1979,42(1):18-32

The 40km-long, NEE trending Reshui-Taostuo River Fault was found in the southern Dulan-Chaka highland by recent field investigation, which is a strike-slip fault with some normal component. DEM data was generated by small unmanned aerial vehicle(UAV)on key geomorphic units with resolution<0.05m. Based on the interpretation and field investigation, we get two conclusions:1)It is the first time to define the Reshui-Taostuo River Fault, and the fault is 40km long with a 6km-long surface rupture; 2)There are left-handed dislocations in the gullies and terraces cut by the fault. On the high-resolution DEM image obtained by UAV, the offsets are(9.3±0.5) m, (17.9±1.5) m, and(36.8±2) m, measured by topographic profile recovery of gullies. The recovery measurements of two terraces present that the horizontal offset of T₁/T₀ is(18.2±1.5) m and the T₂/T₁ is (35.8±2) m, which is consistent with the offsets from gullies. According to the historical earthquake records, a M5 3/4 earthquake on April 10, 1938 and a M_S5.0 earthquake on March 21, 1952 occurred at the eastern end of the surface rupture, which may be related to the activity of the fault. By checking the county records of Dulan and other relevant data, we find that there are no literature records about the two earthquakes, which is possibly due to the far distance to the epicenter at that time, the scarcity of population in Dulan, or that the earthquake occurred too long ago that led to losing its records. The southernmost ends of the Eastern Kunlun Fault and the Elashan Fault converge to form a wedge-shaped extruded fault block toward the northwest. The Dulan Basin, located at the end of the wedge-shaped fault block, is affected by regional NE and SW principal compressive stress and the shear stress of the two boundary faults. The Dulan Basin experienced a complex deformation process of compression accompanying with extension. In the process of extrusion, the specific form of extension is the strike-slip faults at each side of the wedge, and there is indeed a north-east and south-west compression between the two controlling wedge-shaped fault block boundary faults, the Eastern Kunlun and Elashan Faults. The inferred mechanism of triangular wedge extrusion deformation in this area is quite different from the pure rigid extrusion model. Therefore, Dulan Basin is a wedge-shaped block sandwiched between the two large-scale strike-slip faults. Due to the compression of the northeast and southwest directions of the region, the peripheral faults of the Dulan Basin form a series of southeast converging plume thrust faults on the northeast edge of the basin near the Elashan Fault, which are parallel to the Elashan Fault in morphology and may converge with the Elashan Fault in subsurface. The southern marginal fault of the Dulan Basin(Reshui-Taostuo River Fault)near the Eastern Kunlun fault zone is jointly affected by the left-lateral strike-slip Eastern Kunlun Fault and the right-lateral strike-slip Elashan Fault, presenting a left-lateral strike-slip characteristic. Meanwhile, the wedge-shaped fault block extrudes to the northwest, causing local extension at the southeast end, and the fault shows the extensional deformation. These faults absorb or transform the shear stress in the northeastern margin of the Tibet Plateau. Therefore, our discovery of the Dulan Reshui-Taostuo River Fault provides important constraints for better understanding of the internal deformation mode and mechanism of the fault block in the northeastern Tibetan plateau. The strike of Reshui-Taostuo River Fault is different from the southern marginal fault of the Qaidam Basin. The Qaidam south marginal burial fault is the boundary fault between the Qaidam Basin and the East Kunlun structural belt, with a total length of ~500km. The geophysical data show that Qaidam south marginal burial fault forms at the boundary between the positive gravity anomaly of the southern East Kunlun structural belt and the negative gravity anomaly gradient zone of the northern Qaidam Basin, showing as a thrust fault towards the basin. The western segment of the fault was active at late Pleistocene, and the eastern segment near Dulan County was active at early-middle Pleistocene. The Reshui-Taostuo River Fault is characterized by sinistral strike-slip with a normal component. The field evidence indicates that the latest active period of this fault was Holocene, with a total length of only 40km. Neither remote sensing image interpretation nor field investigation indicate the fault extends further westward and intersects with the Qaidam south marginal burial fault. Moreover, it shows that its strike is relatively consistent with the East Kunlun fault zone in spatial distribution and has a certain angle with the burial fault in the southern margin of Qaidam Basin. Therefore, there is no structural connection between the Reshui-Taostuo River Fault and the Qaidam south marginal burial fault.  相似文献   

临汾盆地地壳精细结构和构造——地震反射剖面结果   总被引：2，自引：0，他引：2  

李自红  刘保金  袁洪克  酆少英  陈文  李稳  寇昆朋 《地球物理学报》2014,57(5):1487-1497

采用深、浅地震反射相结合的探测方法，对临汾盆地的地壳结构和隐伏活动断裂进行了研究.结果表明，研究区地壳具有清晰的上、中、下地壳结构特征，其地壳厚度约为38~42 km.临汾盆地为典型的半地堑沉积盆地，盆地沉积层最深处约为5~6 km.莫霍面在临汾盆地下方出现约3 km的上隆，其展布形态与盆地基底呈“镜像”对应关系，显示出临汾盆地为拉张作用下的纯剪切盆地模式.深地震反射剖面揭示的一系列铲状或面状正断层在剖面上表现为“负花状”构造特征，其中，罗云山山前断裂和浮山断裂为临汾盆地的东、西边界控制断裂，具有规模大、切割深度深和多期活动的特点，对临汾盆地的形成、地层沉积和褶皱以及地震活动都有重要的控制作用.研究结果为深入理解该区的深部动力学过程、分析研究深浅构造关系、评价断裂的活动性提供了依据.  相似文献   

Sinistral Strike-slip Movement Along Western Terminal Segment of the Active Daqingshan Piedmont Fault, Inner Mongolia, China     

Jiang Wali  Xiao Zhenmin  Wang Huanzhen 《中国地震研究》2001,15(1):15-24

There are 18 gullies displaying sinistral contortions to different degrees along the western terminal segment about 10 km long of the active Daqingshan piedmont fault near the Donghe District, Baotou City. The contortion amount of gullies ranges from 20 m to 300 m. The contortion and length of the gullies are in direct proportion. The relation between piedmont terraces and gullies indicates that the gullies with upper reaches of about 1 ～ 5 km long and those smaller than one kilometer were formed at the end of Late Pleistocene and Holocene.Meanwhile, sandy gravel layer of alluvial-proluvial sediment on the upthrown wall is directly in contact with yellow clayey sand of the downthrown wall. During the Holocene, the sinistral strike-slip rate along the western terminal segment of the active Daqingshan piedmont fault reached 5 mm/a from age data of dislocated sediments. The evolutional mechanism of the active Daqingshan piedmont fault is also discussed in the paper.  相似文献   

用地貌学方法研究贺兰山山前断层全新世活动状况   总被引：10，自引：5，他引：10  

杨景春  郭正堂  曹家栋 《地震地质》1985,7(4):23

本文根据穿过断层的45条冲沟中的裂点和阶地测量资料,论述贺兰山山前断层全新世以来的活动状况。我们认为全新世以来该断层至少有8次活动。最后一次断层活动错断了距今400年的长城,并在冲沟中形成一个裂点,该裂点现今已距断层陡坎约5米远。假定这次断层活动和1739年平罗大地震有关,求出裂点的溯源侵蚀平均速度为2.0—2.5厘米/年.根据两裂点间的距离和裂点的溯源侵蚀平均速度,并考虑到我国近5000年的气候有逐渐变干的趋势,求出断层活动的周期(表3)。从断层陡坎附近的各级阶地面之间的高差,求出断层各次活动的幅度(表4)。  相似文献   

松辽盆地北部浅部基底推覆伸展作用的地震学证据与地质意义   总被引：4，自引：3，他引：1       下载免费PDF全文

单玄龙  秦树洪  张艳  杨宝俊  汪名友 《地球物理学报》2009,52(8):2044-2049

已经利用近垂直反射地震叠偏剖面得到太平洋板块西向俯冲远程应力场形成上部地壳滑脱断裂的证据，在此基础上，利用油气地震叠偏剖面发现中远程的蒙古—鄂霍茨克缝合带、远程的太平洋板块西向俯冲带在松辽盆地滨北地区浅部基底共同作用形成的逆冲推覆断裂系统.该断裂系统基本呈双向形式，纵向与横向上表现出不均匀的强度，向西逆冲推覆的断裂系统厚度范围可达到约3~4 km，向东的断裂系统厚度范围可达到约1~2 km，断裂系统组构比较复杂.经过对控盆断裂孙吴—双辽断裂两侧地球物理场分布特征的分析，认为松辽盆地浅部基底的逆冲推覆断裂系统是叠加在孙吴—双辽断裂之上的新的断裂系统.考虑到蒙古—鄂霍茨克缝合带在远离1000多公里之外所产生的内蒙古阴山—燕山大型逆冲推覆断裂带以及松辽盆地的区域构造位置，认为在松辽盆地南部和滨北地区孙吴—双辽断裂构造线之外也应该存在浅部基底内的逆冲推覆断裂.  相似文献   

DISCOVERY OF SURFACE RUPTURE ZONE IN JIUXI BASIN,GANSU PROVINCE          下载免费PDF全文

LIU Xing-wang  YUAN Dao-yang  LEI Zhong-sheng  SHAO Yan-xiu 《地震地质》2016,38(3):605-616

Qilian Shan-Hexi Corridor is located at the northeastern margin of Tibetan plateau. Series of late Quaternary active faults are developed in this region. A number of strong earthquakes even large earthquakes occurred in history and present-day. In the past, the study of active faults in the area was mostly concentrated in the northern margin fault zone of the Qilian Shan on the south side of the corridor, while the research on the interior and the north side of the corridor basin was relatively rare. We found a new fault scarp in the northern part of the Baiyanghe anticline in Jiuxi Basin in 2010. It is an earthquake surface rupture zone which has never been reported before. In this paper, we carried out palaeoearthquake trench analysis on the newly found earthquake surface rupture zone and textual research of relevant historical earthquakes data. According to the interpretation of aerial photo and satellite image and field investigation, we found the surface rupture has the length of about 5km. The rupture shows as an arc-shaped line and is preserved intact comparably. The lower terrace and the latest flood alluvial fan are offset in addition to modern gullies. By differential GPS measurement, the height of the scarp is about 0.5~0.7m in the latest alluvial fan and about 1.5m in the T₁ terrace. From the residual ruins along the earthquake rupture zone, we believe the surface rupture might be produced by an earthquake event occurring not long ago. In addition, the rupture zone locates in the area where the climate is dry and rainless and there are no human activities induced damages. These all provide an objective condition for the preservation of the rupture zone. The trench along the fault reveals that the surface rupture was formed about 1500 years ago, and another earthquake event might have happened before it. Based on the textural research on the historical earthquake data and the research degree in the area at present, we believe that the surface rupture is related to the Yumen earthquake in 365, Yumen Huihuipu earthquake in 1785 or another unrecorded historical earthquake event.  相似文献