临潭—宕昌主干断裂南东段晚第四纪活动的地质地貌证据

临潭—宕昌断裂带总体上位于东昆仑断裂和西秦岭北缘断裂之间。作为甘东南构造转换和变形传递过程中的一条重要的断裂,其几何展布\,新活动性和运动特征对讨论地震的孕育有着至关重要的作用。前人对临潭—宕昌断裂进行了大量的调查和研究,尤其在2013年岷县—漳县MS6.6地震发生后,认为该断裂各分支断裂活动差异明显,除主干断裂南东段不活动外,其余次级断裂在晚第四纪以来皆有活动。笔者通过对临潭—宕昌主干断裂1∶5万断裂活动性填图工作,在主干断裂南东段发现了多处晚第四纪活动的地质与地貌证据,这一发现对临潭—宕昌断裂带结构特征及活动性是一个重要补充,有助于完善该地区的区域构造几何图像和运动特征,对认识区域构造活动、构造转换和变形传递有关重要的意义。     

红河断裂带大型右旋走滑运动与伴生构造地貌变形

调查研究表明,自中新世以来,红河断裂大规模右旋走滑运动及其伴生构造变形有如下一些主要特征在几何结构上,可将整个红河断裂系分为北、中、南3个变形区。北区东侧为滇西北伸展裂陷区,以轴向NNW,NNE和近SN向3组上新世以来的裂陷型断盆为特征,北段西侧为兰坪—云龙古近纪、新近纪压缩变形区;中段变形以右旋剪切走滑运动为特征,南部断裂东侧有滇东中新世以来的压缩变形,西侧为藤条河中新世拉伸断陷区。上述变形特征反映在构造地貌上为北部盆岭构造、中段线性断谷断盆构造及南部压(张)性盆地变形,其中苍山—洱海一带断裂两侧主夷平面的巨大落差是红河断裂上新世以来断陷正断作用的显著代表。在时空演化上,从古近纪经中新世至上新世,断裂主体活动部位在南段,并呈由南向北的“撕裂”格局,上新世以后至第四纪,尤其是晚第四纪以来,主体活动部位已转移至北段,表现为由N向SE的滑移伸展变形;变形区的范围大小和变形幅度表明红河断裂的东盘地块始终是作为地块相对运动的主动盘     

西秦岭临潭-宕昌断裂第四纪最新活动特征

临潭-宕昌断裂是西秦岭造山带内一条重要的分支断裂,其最新活动特征是分析西秦岭构造变形的重要依据。临潭-宕昌断裂的新构造活动强烈,中强地震频繁,但目前对于断裂的新活动特征研究程度较低,未见有其全新世活动地质地貌证据的报道。文中基于遥感解译、宏观地貌分析研究断裂的长期活动表现和分段性;同时通过地质地貌考察、无人机摄影测量、差分GPS和放射性碳测年等方法定量研究断裂的新活动特征;最后基于研究结果探讨了断裂及附近区域的地震危险性和区域构造变形。结果表明:根据断层迹线收敛程度和宏观地貌差异,可将临潭-宕昌断裂分为西、中、东3段;断裂的运动性质以左旋走滑为主,兼具逆冲分量,左旋走滑使洮河及其支流、冲沟和山脊等发生同步左旋拐弯,最大左旋位移可达3km,逆冲分量使新近纪盆地边缘和内部形成300~500m的垂向位移;断裂的最新活动时代为全新世,限定了1次2 090~7 745a BP(置信度为2σ)的全新世古地震事件;全新世早期以来,临潭-宕昌断裂东段主干断裂的左旋走滑速率为0.86~1.65mm/a,垂直滑动速率为0.05~0.10mm/a。临潭-宕昌断裂分配了约2mm/a的左旋走滑分量,是东昆仑-西秦岭阶区变形分配的关键断裂之一。     

走滑活动断裂带断错冲沟变形角特征及其构造意义初探

阐述了通过走滑活动断裂断错冲沟形成变形角研究冲沟形成年代,进而探讨断裂活动特征的方法。并以天桥沟－黄羊川断裂东段为例,对变形角大小和冲沟形成年代及冲沟水平断错距之间的关系进行了探讨,结果表明它们之间关系密切。最后论述了变形角用于走滑活动断裂研究的可能性及意义。     

郯庐断裂带淮河南到女山湖段晚第四纪以来的新活动

以郯庐断裂带淮河南到女山湖段晚第四纪以来是否具有新活动为主要研究目标,通过遥感影像资料解译及地表反复调查,选择构造地貌显著地段开挖探槽,识别和记录其变形形态,分析其活动习性,定向采集新活动变形物质,在保持原态基础上磨制定向薄片,并进行微观构造分析论证。研究表明,断裂沿线线状构造地貌清晰,横跨断裂带的3个探槽均揭示出晚第四纪以来活动痕迹,断裂最新错断了晚更新世-全新世地层;滑移方式多表现为粘滑,典型表现为断层陡坎、楔状堆积、断层和充填裂缝等,总体显示为脆性高速变形特征,属于史前地震遗迹。上述认识部分得到微观分析证实。文中还初步探讨了淮河南北郯庐断裂最新活动特征的异同点及其可能的原因。     

熊坡背斜构造变形与蒲江-新津断裂活动特征

熊坡背斜位于龙门山构造带东南端的成都盆地内,是龙门山逆冲推覆构造向前推挤进入盆地内部的一个主要变形区域,与其配套发育的断裂为蒲江-新津断裂,断裂与背斜褶皱之间在构造变形模式上表现出明显的一致性。在褶皱和断裂的构造变形和活动特征上,熊坡背斜南段表现为一种不对称的褶皱,向NE方向发展表现为较为宽缓的对称褶皱形态,卷入的地层主要是中生代及其以前的地层,对蒲江-新津断裂的地貌调查结果表明,断裂没有对该区域内广泛发育的冲沟Ⅰ级阶地产生影响,而对山前发育的相当于南河(岷江Ⅰ级支流)Ⅳ级阶地的洪积台地有明显的控制作用,说明断裂活动时间应该为第四纪早期,到第四纪晚期活动减弱或是趋于静止     

青藏高原东北缘三关口-牛首山断裂的右旋走滑与弧形构造带扩展

三关口-牛首山断裂的运动学特征对认识青藏高原东北缘弧形构造带的扩展具有重要意义.在野外调查的基础上,通过大比例地质填图、典型地貌测量和沉积地层年代测定等方法,确定该断裂是一条具有明显右旋走滑特征的断裂,而非前人认为的左旋走滑断裂.研究发现,形成于古生代、中生代、新生代的地质界线均被断层右旋错动,断错位移相近,消除地形效应后确定的断裂最大走滑位移为(961±6)m.断裂北段的三关口断裂具有明显的新活动特征,一系列小冲沟跨断裂发生了同步右旋扭动,获得的断裂晚第四纪以来平均水平滑动速率约0.35mm/a.而形成于上新世末的先存褶皱构造被断裂错断异位,表明断裂的右旋走滑不早于上新世末.利用最大位移和平均滑动速率估算的断裂起始右旋走滑时间在2.7Ma之后.结合前人对高原东北缘扩展的认识,根据褶皱变形和断裂活动的先后关系分析,在上新世末(~2.7Ma),青藏高原的北东扩展到达三关口-牛首山一带,导致该区域地层发生广泛的褶曲变形和区域性抬升;到第四纪初,受青藏高原东北向推挤和鄂尔多斯地块逆时针旋转的联合作用,三关口-牛首山断裂开始右旋走滑活动,形成了青藏高原东北缘弧形构造带扩展的最前缘边界.     

兰州及邻近地区河流阶地变形特征

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。     

阿尔金断裂南侧弧形地貌单元成因及其构造意义

巨型左旋走滑的阿尔金断裂是青藏高原的北部边界,在印度-欧亚板块碰撞过程中起重要的调节作用,控制着青藏高原东北部的构造演化,认识其活动演化对理解青藏高原的构造变形过程和机制具有重要意义。阿尔金断裂南侧存在一系列弧形地貌单元,知晓这些弧形带是原始弧形弯曲还是后期由于阿尔金断裂左旋走滑拖曳而形成的,对认识阿尔金断裂的构造演化具有重要意义。文中在前期阿尔金断裂南侧柴西英雄岭和柴北缘2条弧形带不同部位已开展的精细古地磁旋转变形研究的基础上,综合研究区和阿尔金断裂附近已有的古地磁旋转变形研究结果和弧形带几何形态学等其它地质证据,分析发现这2条弧形带的几何学特征是由其不同部位发生旋转变形所导致的,且旋转变形与该时段阿尔金断裂的快速左旋走滑活动密切相关。通过上述工作,更加全面地了解了阿尔金断裂新生代2阶段的走滑特征,进一步限定了阿尔金断裂早渐新世以来左旋滑移量,以柴西段为参照系滑移量至少约350～430km,以柴北缘段为参照系至少约380～460km,平均滑移速率至少约10. 6～13. 9mm/a。     

2012年6月24日宁蒗—盐源5.7级地震的发震构造浅析

本文在分析2012年6月24日宁蒗—盐源5.7级地震的震源机制解、 余震特征、 震害分布基础上, 结合区域第四纪地层分布成因特征、 区域地质构造特征以及对三维卫星遥感影像进行断层地貌解译分析, 认为此次5.7级地震是北西向永宁断裂正断为主活动的结果。 该断裂在影像上线性延伸, 断层崖发育, 其晚第四纪活动性对建立区域新构造变形模式的意义有待进一步研究。     

THE RESEARCH OF THE SEISMOGENIC STRUCTURE OF THE LUSHAN EARTHQUAKE BASED ON THE SYNTHESIS OF THE DEEP SEISMIC DATA AND THE SURFACE TECTONIC DEFORMATION

The seismogenic structure of the Lushan earthquake has remained in suspensed until now. Several faults or tectonics, including basal slipping zone, unknown blind thrust fault and piedmont buried fault, etc, are all considered as the possible seismogenic structure. This paper tries to make some new insights into this unsolved problem. Firstly, based on the data collected from the dynamic seismic stations located on the southern segment of the Longmenshan fault deployed by the Institute of Earthquake Science from 2008 to 2009 and the result of the aftershock relocation and the location of the known faults on the surface, we analyze and interpret the deep structures. Secondly, based on the terrace deformation across the main earthquake zone obtained from the dirrerential GPS meaturement of topography along the Qingyijiang River, combining with the geological interpretation of the high resolution remote sensing image and the regional geological data, we analyze the surface tectonic deformation. Furthermore, we combined the data of the deep structure and the surface deformation above to construct tectonic deformation model and research the seismogenic structure of the Lushan earthquake. Preliminarily, we think that the deformation model of the Lushan earthquake is different from that of the northern thrust segment ruptured in the Wenchuan earthquake due to the dip angle of the fault plane. On the southern segment, the main deformation is the compression of the footwall due to the nearly vertical fault plane of the frontal fault, and the new active thrust faults formed in the footwall. While on the northern segment, the main deformation is the thrusting of the hanging wall due to the less steep fault plane of the central fault. An active anticline formed on the hanging wall of the new active thrust fault, and the terrace surface on this anticline have deformed evidently since the Quaterary, and the latest activity of this anticline caused the Lushan earthquake, so the newly formed active thrust fault is probably the seismogenic structure of the Lushan earthquake. Huge displacement or tectonic deformation has been accumulated on the fault segment curved towards southeast from the Daxi country to the Taiping town during a long time, and the release of the strain and the tectonic movement all concentrate on this fault segment. The Lushan earthquake is just one event during the whole process of tectonic evolution, and the newly formed active thrust faults in the footwall may still cause similar earthquake in the future.     

郯庐断裂带白山-卅铺段第四纪以来的活动习性

根据构造地貌遥感解析,发现郯庐断裂带沿庐江白山到桐城卅铺一线显示1组平行断层,现场地震地质调查验证其为1组活动断层。通过断层剖面观测、样品采集及样品测试分析和宏微观构造分析,结果表明,郯庐断裂带在白山—卅铺一带第四纪以来仍具有黏滑、蠕滑交替的变形活动。其中,在柯坦—卅铺一带,最年轻的水系被NE向断层组右旋扭折,其断层物质的微观观测和测龄结果表明该断裂段第四纪时的活动具有脆、塑性过渡变形特征,强烈活动时间处于早、中更新世;而白山剖面断层泥年龄测试结果则反映相应断层段在中、晚更新世曾有过较强烈的活动。断层泥超微(SEM)和显微观测结果亦表明该断裂段曾发生黏滑、蠕滑交替的构造变形事件,且表现为先黏滑后蠕滑;结合水系呈现缓慢扭折表征,近年来沿断裂有不少微震发生,表明郯庐断裂带在白山—卅铺段的最新滑移方式主要表现为蠕滑,也就是说,该段积累的应力以蠕滑或微震等方式缓慢释放,据此推测未来一定时期内不易孕育强烈地震     

武威盆地晚更新世河流阶地变形与新构造活动

根据武威盆地 7条河流的阶地测量资料和测年数据探讨了河流阶地变形与新构造活动的关系。河流阶地的变形特征反映出新构造活动的方式 ,断层活动以逆冲为主 ,河流阶地的错断状况表明活动断层活动的次数 ,盆地西部活动至少有 7次 ,东部活动至少有 5次 ;同时可表明断层活动的幅度与强度 ,以及不同时期活动强烈区具有迁移变化的特点。武威盆地晚更新世以来发育的第四纪断层主要有 3条 ,各条断裂活动次数、强度不尽相同 ,以山前断裂活动最为强烈 ,至今活动仍未停息。 6 0ka前后西部活动强烈 ,2 0ka以来东强西弱     

龙陵-瑞丽断裂(南支)北段晚第四纪活动性特征

遥感影像解译和野外地质地貌调查表明,龙陵-瑞丽断裂(南支)北段是以左旋走滑为主兼张性正断的区域性活动断裂。根据一些断错地貌点的大比例尺填图、实地测量及其年代学分析,确定了该断裂为全新世活动断裂,断裂晚更新世以来的平均水平滑动速率为2.2mm/a,平均垂直滑动速率为0.6mm/a;全新世以来的平均水平滑动速率为1.8～3.0mm/a,平均垂直滑动速率为0.5mm/a。断裂晚更新世以来的滑动速率在不同的时间尺度上变化不大,反映了该断裂晚更新世以来的活动强度比较平稳     

青海可可西里地区的活动构造与地震

青海可可西里地区是青藏高原腹地，自有仪器记录以来，共发生Ｍｓ≥６．０级地震８次，是海省中强地震的主要发震场所之一。本文根据对青海可可西里地区活动断裂的野外考察，较为详细地研究了该区五条活动断裂的几何形态、空间分布及动力学特征。对该区地震活动与构造应力场的关系进行了探讨。结果表明：青海可可西里地区的活动断裂为继承性全新世活动断裂，多发育着史前和现代地震破裂形变带，是该区的主要发震断裂。其中乌兰乌拉湖─岗齐曲活动断裂带是现代地震的主要发震断裂，地表出露有１９８８年４月５日唐古拉Ｍｓ＝７．０级地震的破裂形变带，长达９公里。通过对可可西里地区的野外考察，未发现国外报道的１９７３年７月１６日青海可可西里地区火山活动的事实。     

THREE-DIMENSIONAL STRUCTURAL FEATURES OF THE PENGXIAN ACTIVE BLIND FAULT IN THE CENTRAL LONGMEN SHAN FRONT BELT

The Pengxian blind fault is a typical active fault in the central Longmen Shan front belt. It has important reference value for understanding the growth mode and process of the eastern Tibetan plateau. Because the fault is covered by the thick Upper Cenozoic strata in the western Sichuan Basin, its three-dimensional spatial distribution, structural style and formation mechanism remain unclear. In this paper, based on several high-resolution 3-D seismic reflection profiles, together with near-surface geological data and borehole data, we investigate the structural geometry of the Pengxian blind fault and build a 3-D model based on the results. We analyze the shape and scale of underground spatial distribution of the fault through a three-dimensional fault model. According to the theory of fault-related fold and fold-accommodation fault, this paper discusses the forming mechanism of the Pengxian buried structures. The shallow tectonic deformation in front of Longmen Shan is closely related to the detachment layer of the Middle and Lower Triassic, and this detachment layer f1 horizontally propagates into the Longquanshan anticline in the western Sichuan Basin. The Pengxian buried fault is a typical fault-bend fold and the f1 horizontally propagates into the western Sichuan Basin with a fault slip of 3.5km. The Pengxian blind fault is a high angle(50°~60°)thrust fault developed in the front wing of the kink-band zone, striking NE-SW, with a total length of~50km; But the fault is not connected with the Dayi buried fault in the south section of Longmen Shan. They are two different faults, and this defines the scale of the Pengxian blind fault. This limitation makes sense for analyzing and evaluating the magnitudes of potential earthquake. All above study provides research basis for further analysis of the potential seismic risk in this area. The Pengxian blind fault is parallel to the anticlinal axis with small amount of offset as a fold-accommodation fault. We believe that the fault formation is related to the fold deformation of the fold front limb. The study reveals the geometry, kinematics and formation mechanism of the Pengxian active fault, and provides a basis for further analysis of fault activity and hazard. Therefore, there is little possibility of strong earthquakes at the Pengxian blind fault due to its formation mechanism of the fault which is generally characterized by fold deformation and shortening deformation. In this paper, we discuss the location of Pengxian blind fault in the middle of Longmen Shan and Sichuan Basin. Because the Pengxian buried structures are in the transition area, the shortening amount in Pengxian indicates that the absorption in the basin is quite limited. It reflects the blocking effect of Sichuan Basin. In the study, we find that the relationship between folds, faults and sediments is an important part of tectonic interpretation; the theory of fault-related fold and fold-accommodation fault is well used for analysis. This would have great significance for the study of structural deformation, which can help to build a three-dimensional model of fault.     

金沙江断裂带新活动和巴塘6.5级地震震中的确定

作者通过对区域地质调查资料的分析研究和实地考察,对金沙江断裂带的展布范围进行了划分,认为金沙江断裂带是川西规模巨大的断裂带,从地震活动、断裂地貌特征、水系扭曲、第四纪地层形变和温泉沿断裂分布等表明它是一个活动断裂带。通过对历史地震实地访问调查,获得了1923年巴塘6.5级地震的震害情况,并发现了这次地震在地表所产生的地裂缝,从而确定了这次地震的宏观震中位置,探讨了地震与断裂的关系。无疑对金沙江断裂带活动性的认识、地震预报和地震烈度区划工作具有现实意义。     

THE NEW ACTIVITY OF TAN-LU FAULT ZONE IN SEGMENT OF DAHONGSHAN SINCE LATE QUATERNARY

The relationship between the latest activity of active fault and seismic events is of the utmost importance. The Tan-lu fault zone in eastern China is a major fault zone, of which the active characteristics of the segments in Jiangsu, Shandong and Anhui has been the focus of research. This study takes the Dahongshan segment of the Tanlu Fault in Sihong County as the main research area. We carried out a detailed geological survey and excavated two trenches across the steep slope on the southwest side of the Dahongshan. Each trench shows fault clearly. Combining the comparative analysis of previous work, we identified and cataloged the late Quaternary deformation events and prehistoric earthquake relics, and analyzed the activity stages and behavior of this segment. Fault gonge observed in the trench profiles shows that multiple earthquake events occurred in the fault. The faulting dislocated the Neogene sandstone, black gravel layer and gray clay layer. Brown clay layer is not broken. According to the relations of dislocated stratums, corresponding ¹⁴C and OSL samples were collected and dated. The result indicates that the Dahongshan segment of the Tanlu Fault has experienced strong earthquakes since the late Quaternary. Thrust fault, normal fault and strike-slip fault are found in the trenches. The microscopic analysis of slices from fault shows that there are many stick-creep events taking place in the area during the late Quaternary. Comprehensive analysis shows that there have been many paleoearthquakes in this region since the late Quaternary, the recent active time is the late Pleistocene, and the most recent earthquake event occurred in(12~2.5ka BP). The neotectonic activity is relatively weak in the Anhui segment(south of the Huaihe River)of Tanlu fault zone. There are difficulties in the study of late Quaternary activity. For example, uneven distribution of the Quaternary, complex geological structure, larger man-made transformation of surface and so on. The progressive research may be able to promote the study on the activity of the Anhui segment of Tanlu fault zone.     

红河断裂带第四纪活动的时空演化特征

在前人研究的基础上，结合断裂带沿线的构造地貌、断层岩组合及大量与断裂相关的地层年代，综合分析了红河断裂带第四纪以来活动的总趋势：随着活动时代的趋新，活动中心由南向北逐渐迁移，全新世晚期以来的活动中心位于大理、弥渡一带；探讨了该断裂带第四纪活动的时空演化规律，为断裂带不同区段地震危险性的评估提供了依据