宁夏贺家口子地区晚新生代地层序列及其构造意义

对宁夏贺家口子新生代剖面进行了详细的岩石地层和磁性地层研究，并重点标定了晚第三纪和早第四纪地层的年代。结合相应的地层接触关系和沉积相研究，获得了该剖面构造事件序列信息。认为：青藏高原东北边缘的海原－同心弧形构造束地区强烈的新生代构造变形开始于10MaBP左右，并经历了多个变形阶段。贺家口子剖面所揭示出来的这种构造变形特征，在青藏高原东北边缘地区具有区域意义。     

凉山活动构造带晚新生代变形特征与位移规模

凉山近南北向活动构造带位于青藏高原东南边缘鲜水河 -安宁河 -则木河 -小江断裂带中段东侧 ,与鲜水河断裂带左阶雁列 ,与小江断裂带右阶雁列。大体呈南北或北北西方向展布的凉山构造带 ,自北而南主要包括普雄河断裂、布拖断裂和四开 -交际河断裂。晚新生代以来的活动 ,凉山南北向构造带以明显的左旋走滑为特征 ,相应的倾滑位移分量不大。初步统计得到其晚第四纪以来的走滑速率为 2mm/a左右 ,晚新生代以来位移规模 13.5～ 15.5km。凉山活动构造带的活动 ,弥补了鲜水河 -安宁河 -则木河 -小江断裂带中段安宁河 -则木河断裂带活动存在的位移和速率亏损 ,对于全面评价青藏高原东南边缘的地壳运动和变形模型具有重要意义     

青藏高原南缘现今地球动力学研究

喜马拉雅构造带于新生代时期经历了两代受力条件截然不同的形变。早期造山挤压形变与造山后的引张形变、青藏高原和高喜马拉雅的大幅度抬升。大致低喜马拉雅范围即青藏高原南缘，现今构造活动与青藏高原和高喜马拉雅块断抬升相辅相成。流行的板块聚合动力学模式，即使早新生代发生过，晚新生代以来已经灯熄。东亚大陆现代形变与地震活动的驱动力不可能源于青藏高原南缘被动挤压，而是取决于与高原隆起相关的深部主动动力学过程     

北京拗陷构造活动性分析

本文据地质历史和构造变形对北京拗陷中、新生代构造演化及新构造运动和断裂活动性作了分析。地质历史分析表明北京拗陷在横向上介于京西隆起和大兴隆起之间的一个中新生代拗陷。在纵向上由几个相间排列的凹陷和凸起组成。中生代沉降中心表现出由北向南迁移,新生代以来则表现出自南向北迁移。从地貌水系所反映的构造运动来看,北京拗陷的中段和南段表现出间歇性均匀抬升性质,北段垂直差异运动明显。断裂活动时间在南段和中段主要为上新世和早更新世;北段活动时间可延续到晚更新世,甚至全新世。北段第四纪时新发育的断陷盆地可能与北西向断层的左旋走滑活动有关。     

青藏高原北部NNW向构造活动方式及形成年代

对青藏高原北部ＮＮＷ向构造的地质地貌组合特征、活动方式及形成年代等问题进行的研究表明,ＮＮＷ向构造在地貌上由西向东表现为隆、拗相间排列的构造格局。其中ＮＮＷ向活动断裂依次发育在隆起带的东缘,形成伴有褶皱构造的逆冲－挤压构造带。拗陷带则由一系列位于隆起带之间的压陷性盆地带组成。ＮＮＷ向构造活动强烈,特别是在第四纪中、晚期以来,它们不仅制约着青藏高原北部区地质地貌的发生和发展,而且还在地震活动及强震孕育和发生过程中扮演着重要的角色,ＮＮＷ向隆起从第三纪末期至第四纪初期开始发育,但大规模隆起发生在第四纪中更新世以来     

天山的晚新生代构造变形及其地球动力学问题

天山是大陆内部典型的新生代复活造山带，其新生代构造变形的方式，变形量，速度及过程等对于认识大陆内部造山带的变形机理有着重要的意义。本文在对南北天山主要活动构造地质填图和综合研究的基础上，重点探讨了天山的晚新生代构造变形特征及其动力学问题。早更新世以来，特别是早，中更新世之间，天山的构造活动由内部向南北两侧扩展，使得两侧的新生代凹陷逐渐褶皱成山，形成数排新生代褶皱带，整个天山的现代构造活动是一种扇形     

热烈祝贺张培震、王会军研究员当选中国科学院院士

正张培震,男,1955年生于河南省,1979年毕业于长春地质学院,1982年获中国科技大学硕士学位,1987年在美国麻省理工学院获地球物理学博士学位,1987-1991年在美国内华达大学新构造研究中心从事博士后研究,1991年回国工作至今,现为中国地震局地质研究所所长,地震动力学国家重点实验室主任,中国地震学会副理事长,中国第四纪科学研究会副理事长,中国地质学会构造地质学与地球动力学专业委员会主任。张培震院士长期从事地震地质和新生代构造地质研究,在中国大陆现今构造变形、青藏高原生长与动力学、活动断裂习性与强震复发规律、新构造与气候变化、利用GPS技术研     

第四纪火山区活动构造的识别和地震危险性评价

在第四纪火山区作活动构造研究时需要仔细地区分岩浆原生构造，火山区非构造变动和真正的活动断裂。第四纪火山区晚更新世晚期以来不再活动的断裂不宜看成危险性断裂。第四纪火山可能发生中强地震，极少可能发生大地震。     

南迦巴瓦构造结西侧里龙断裂晚第四纪活动特征

本文通过卫星影像解译、地质地貌调查、地质探槽开挖、断错地貌测量和样品年代学测试,对南迦巴瓦构造结西侧的里龙断裂晚第四纪活动特征进行了分析和研究,结果表明:里龙断裂是一条以右旋走滑活动为主、兼有挤压逆冲的北北西向断裂,其最新活动时代为全新世;该断裂晚第四纪以来的平均水平滑动速率为3-4mm/a,平均垂直滑动速率为0.10-0.15mm/a。研究还表明,南迦巴瓦构造结晚第四纪以来的向北俯冲运动已经停止,喜马拉雅东构造结地区的构造变形主要受阿萨姆构造结的俯冲影响。     

甘肃北山地区晚第四纪构造变形特征及演化趋势

通过对甘肃北山地区ETM影像的细致分析和初步野外考察,对北山地区晚第四纪以来断裂活动时代和运动性质进行了研究。结合附近地区天山构造带、青藏高原北部边缘断裂的演化过程和区域构造应力场状态,对北山地区晚第四纪以来变形机制和演化趋势进行了研究。认为北山地区现今构造格局是在印度板块与欧亚板块相碰撞形成的北东向挤压构造应力场的作用下,重新激活东西向的晚古生代、中生代断裂,并产生北东向新生断裂而形成。晚第四纪以来,北山地区构造变形以南北向缩短为主,伴随有东西向伸展。随着印度板块的向北运移,北山地区的构造变形将进一步增强,即南北向缩短和东西向的扩展将进一步增强。     

GEOLOGICAL AND GEOMORPHIC EVIDENCE FOR DEXTRAL STRIKE SLIP OF THE HELAN SHAN WEST-PIEDMONT FAULT AND ITS TECTONIC IMPLICATIONS

The horizontal movement of the Helan Shan west-piedmont fault is important to determination of the present-day boundary between the Alashan and North China blocks as well as to the exploration of the extent of the northeastward expansion of the Tibetan plateau. Field geological surveys found that this fault cuts the west wing of the Neogene anticline, which right-laterally offset the geological boundary between Ganhegou and Qingshuiying Formations with displacement over 800m. The secondary tensional joints (fissures)intersected with the main faults developed on the Quaternary flood high platform near the fault, of which the acute angles indicate its dextral strike slip. The normal faults developed at the southern end of the Helan Shan west-piedmont fault show that the west wall of this fault moves northward, and the tensional adjustment zone formed at the end of the strike slip fault, which reflects that the horizontal movement of the main fault is dextral strike slip. The dextral dislocation occurred in the gully across the fault during different periods. Therefore, the Helan Shan west-piedmont fault is a dextral strike slip fault rather than a sinistral strike slip fault as previous work suggested. The relationship between the faulting and deformation of Cenozoic strata demonstrates that there were two stages of tectonic deformation near the Helan Shan west-piedmont fault since the late Cenozoic, namely early folding and late faulting. These two tectonic deformations are the result of the northeastward thrust on the Alashan block by the Tibet Plateau. The influence range of Tibetan plateau expansion has arrived in the Helan Shan west-piedmont area in the late Pliocene leading to the dextral strike slip of this fault as well as formation of the current boundary between the Alashan and North China blocks, which is also the youngest front of the Tibetan plateau.     

阿尔金断裂东端的旋转构造及其动力学意义

在阿尔金主断裂与祁连山北缘断裂的交汇部位，发育一个反时针旋转构造——照壁山旋转构造，它是新构造运动期阿尔金断裂左行走滑运动的结果。结合前人资料，对照壁山旋转构造变形及其发育过程进行了初步分析，认为阿尔金断裂与祁连山北缘断裂的构造转换是通过旋转构造变形来实现的。沿阿尔金断裂一系列旋转构造的存在和青藏高原东北缘旋转构造的发育表明，伴随青藏高原北部物质绕喜马拉雅东构造结的顺时针旋转运动，使旋转构造成为高原北部边缘带转换、吸收构造变形的重要表现形式。     

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.     

郯庐断裂带江苏段新生界三维地质构造建模

本文基于SKUA-GOCAD三维建模软件平台的构造-地层实体建模流程,通过整合研究区大量地质、地球物理资料和数据利用地质时间域坐标系转换和离散光滑插值（DSI）技术,并结合非定量化的地质基础利用地质网格功能建立了郯庐断裂带江苏段新生界的三维地质构造模型,该模型包括地表、第四系底部、新近系底部和基岩顶部等四个层面的地层模型和断层模型。该模型定量化地给出了研究区第四系、新近系底界的三维结构和特征,并刻画了主要活动断裂的三维空间分布,通过该模型可以更直观地显示研究区新生代地层单元和断裂的变化规律,对深入分析活动断裂带的沉积与构造具有重要的意义。      

THE LATE QUATERNARY ACTIVITY AND FORMATION MECHANISM OF BAOERTU FAULT ZONE,EASTERN TIANSHAN SEGMENT

Influenced by the far-field effect of India-Eurasia collision, Tianshan Mountains is one of the most intensely deformed and seismically active intracontinental orogenic belts in Cenozoic. The deformation of Tianshan is not only concentrated on its south and north margins, but also on the interior of the orogen. The deformation of the interior of Tianshan is dominated by NW-trending right-lateral strike-slip faults and ENE-trending left-lateral strike-slip faults. Compared with numerous studies on the south and north margins of Tianshan, little work has been done to quantify the slip rates of faults within the Tianshan Mountains. Therefore, it is a significant approach for geologists to understand the current tectonic deformation style of Tianshan Mountains by studying the late Quaternary deformation characteristics of large fault and fold zones extending through the interior of Tianshan. In this paper, we focus on a large near EW trending fault, the Baoertu Fault (BETF) in the interior of Tianshan, which is a large fault in the eastern Tianshan area with apparent features of deformation, and a boundary fault between the central and southern Tianshan. An M_S5.0 earthquake event occurred on BETF, which indicates that this fault is still active. In order to understand the kinematics and obtain the late Quaternary slip rate of BETF, we made a detailed research on its late Quaternary kinematic features based on remote sensing interpretation, drone photography, and field geological and geomorphologic survey, the results show that the BETF is of left-lateral strike-slip with thrust component in late Quaternary. In the northwestern Kumishi basin, BETF sinistrally offsets the late Pleistocene piedmont alluvial fans, forming fault scarps and generating sinistral displacement of gullies and geomorphic surfaces. In the bedrock region west of Benbutu village, BETF cuts through the bedrock and forms the trough valley. Besides, a series of drainages or rivers which cross the fault zone and date from late Pleistocene have been left-laterally offset systematically, resulting in a sinistral displacement ranging 0.93~4.53km. By constructing the digital elevation model (DEM) for the three sites of typical deformed morphologic units, we measured the heights of fault scarps and left-lateral displacements of different gullies forming in different times, and the result shows that BEFT is dominated by left-lateral strike-slip with thrust component. We realign the bended channels across the fault at BET01 site and obtain the largest displacement of 67m. And we propose that the abandon age of the deformed fan is about 120ka according to the features of the fan. Based on the offsets of channels at BET01 and the abandon age of deformed fan, we estimate the slip rate of 0.56mm/a since late Quaternary. The Tianshan Mountains is divided into several sub-blocks by large faults within the orogen. The deformation in the interior of Tianshan can be accommodated or absorbed by relative movement or rotation. The relative movement of the two sub-blocks surrounded by Boa Fault, Kaiduhe Fault and BETF is the dominant cause for the left-lateral movement of BETF. The left-lateral strike-slip with reverse component of BETF in late Quaternary not only accommodates the horizontal stain within eastern Tianshan but also absorbs some SN shortening of the crust.     

Late Cenozoic Normal Faulting on the Western Side of Wenquan Graben, Central Qianghai-Xizang(Tibet) Plateau

INTRODUCTION ThesustainedcollisionoftheIndiaplateintotheEurasiaplatesince50MaBPgaverisetotheintenseCenozoictectonicdeformationandupliftingofmountainsintheQinghai Xizang(Tibet)Plateauanditsvicinityandhadafar reachingimpactonthegeomorphicpatternsandenvironm…     

青藏高原东部构造块体的运动学及形变特征分析

通过分析青藏高原东部的活动断裂资料和GPS速度场数据,试图阐述活动地块的几何学、运动学和形变特征。初步认为:(1)第四纪特别是晚更新世以来的活动地块边界带与早期的构造单元边界密切相关,但也具有明显的新生性;(2)根据两种资料推导出的各个活动地块的运动学特征基本上是吻合的,其中鲜水河-玉树-玛尼断裂带是一条重要的分界线,其南、北部活动地块的运动方式差异明显;(3)除了活动地块的边界带强烈活动外,各个地块内部也显示出很强的变形;(4)晚更新世以来,青藏高原地壳的运动学和形变特征表现为在印度板块挤压力作用下,活动地块在向NE方向的运动过程中遇到稳定地块阻挡,调节方式是地壳增厚以及南、北部地块分别向SE-SSE和NWW-W方向的构造软弱部位水平侧向迁移。     

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。     

USING DEFORMED FLUVIALTERRACES OF THE QINGYIJIANG RIVER TO STUDY THE TECTONIC ACTIVITY OF THE SOUTHERN SEGMENT OF LONGMENSHAN FAULT ZONE

On 20 April 2013, a destructive earthquake, the Lushan M_S7.0 earthquake, occurred in the southern segment of the Longmenshan Fault zone, the eastern margin of the Tibetan plateau in Sichuan, China. This earthquake did not produce surface rupture zone, and its seismogenic structure is not clear. Due to the lack of Quaternary sediment in the southern segment of the Longmenshan fault zone and the fact that fault outcrops are not obvious, there is a shortage of data concerning the tectonic activity of this region. This paper takes the upper reaches of the Qingyijiang River as the research target, which runs through the Yanjing-Wulong Fault, Dachuan-Shuangshi Fault and Lushan Basin, with an attempt to improve the understanding of the tectonic activity of the southern segment of the Longmenshan fault zone and explore the seismogenic structure of Lushan earthquake. In the paper, the important morphological features and tectonic evolution of this area were reviewed. Then, field sites were selected to provide profiles of different parts of the Qingyijiang River terraces, and the longitudinal profile of the terraces of the Qingyijiang River in the south segment of the Longmenshan fault zone was reconstructed based on geological interpretation of high-resolution remote sensing images, continuous differential GPS surveying along the terrace surfaces, geomorphic field evidence, and correlation of the fluvial terraces. The deformed longitudinal profile reveals that the most active tectonics during the late Quaternary in the south segment of the Longmenshan Fault zone are the Yanjing-Wulong Fault and the Longmenshan range front anticline. The vertical thrust rate of the Yanjing-Wulong Fault is nearly 0.6~1.2mm/a in the late Quaternary. The tectonic activity of the Longmenshan range front anticline may be higher than the Yanjing-Wulong Fault. Combined with the relocations of aftershocks and other geophysical data about the Lushan earthquake, we found that the seismogenic structure of the Lushan earthquake is the range front blind thrust and the back thrust fault, and the pop-up structure between the two faults controls the surface deformation of the range front anticline.     

陕南汉中盆地西部梁山南缘断裂隐伏段的活动性鉴定

汉中盆地是青藏高原、 秦岭与大巴山—龙门山差异隆升区中间的新生代断陷盆地, 是重要的地质体连结点. 通过新近开展的汉中市活断层探测工作中的地面地质调查、 浅层地震勘探与钻孔联合地质剖面分析等工作认为, 汉中盆地内部存在一条活动断裂, 即梁山南缘断裂. 浅层地震勘探资料显示, 梁山南缘断裂错断多套第四纪以来的地层, 错距自下而上逐渐减小. 钻孔联合地质剖面显示, 梁山南缘断裂错断晚更新世中晚期以来的砾砂及卵石层, 距今58 ka的砾砂层错距约为6 m. 这些现象首次揭示了汉中盆地内部梁山南缘断裂的最新活动时代和活动性质.