燕山板内造山带中段近东西向中生代右行走滑构造系统

阐述了分布燕山板内造山带中段的近东西向中生代右行走滑构造系统的几何学与运动学特征，指出该右行走滑断裂系统由古北口－平泉断裂和密云－喜峰口－锦西断裂两条主干断裂，以及夹于其间的北西向张性断层和张裂脉，北东向压性断层和褶皱等共同组成，近东西向主干断裂具有右行右列“P破裂”结构形式，北西向的张性断层和张裂脉则具有“T破裂”性质，主干断裂与北东向压性断裂和褶皱构成了一幅右行走滑双重构造（strike-slip duplexs)格局，而不是不同期次变形的产物。该走滑断裂系统形成于侏罗纪末一早白垩世初（147－132Ma)，由于它恰好构成了位于辽西的走向北东，向南东逆冲的逆冲推覆构造系统与冀北，冀西北地区北东走向，上盘向北西逆冲的推覆构造的转换和调节部位，所以本文提出了一个右行走滑构造系统的统一构造模式，在该模式中，辽西和冀北，冀西北同时代而运动方向相反的逆冲构造系统分别构成了近东西向右行走滑系统的断盘前缘挤压逆冲构造区，认为惦记山板内造山带总体构造格局的区域构造作用方式是：在总体北西一南东向挤压的一级构造应力场作用下，造山带北部的块体相对于中生代华北地台为主体的块体做向东的右景下，燕山板内造山带可能构成了亚洲东部另一个重要的“挤出构造带”或“逃逸构造域”，这种推测需要得到北部东西向断裂系具有同期左行走滑运动的支持。     

莺歌海盆地晚第三纪构造特征的三维泥料模拟实验及其动力学意义

莺歌海盆地是发育在古红河断裂带之上的新生代盆地，晚第三纪的构造运动触发了盆地中热流体自超压封存箱向外大规模突破，使热流体及泥质的活动具有规律性成群成带的特征。本次实验基于相似理论，在对盆地的演化史及区域构造应力场充分分析的基础上，进行了晚第三纪盆地构造应力场的三维泥料模拟，证实了红河断裂右旋走滑派生的拉分效应控制了莺歌海盆地晚第三纪的构造活动，而晚第三纪的构造活动又是雁列式断裂展布及底辟体分布的主导因素。     

Seismo-tectonic divisions of strong earthquakes with M_s≥7.0 and their tectonic geomorphology along Xianshuihe-Xiaojiang fault zone

IntroductionXianshuihe-Xiaojiang fault zone is an important active fault zone and a strong earthquake belt in the southeastern margin of Qinghai-Tibet Plateau (Figure 1). Since 814 AD a total of 14 earthquakes with M ( 7, including one of magnitude 8.0, took place there. This large-scale fault zone runs from north to south, includes the northwesterly Xianshuihe fault, the near-NS An(ninghe fault, NNW Zemuhe fault, and near-NS Xiaojiang fault. It forms the east boundary of Sichuan-Yunn…     

Seismo-tectonic divisions of strong earthquakes with M S≥7.0 and their tectonic geomorphology along Xianshuihe-Xiaojiang fault zone

Seismo-tectonic areas of historical strong earthquakes with M _S≥7 along Xianshuihe-Xiaojiang fault zone are divided, and their individual fault-pattern and tectonic geomorphology are analyzed. Those strong-earthquake areas are located in some special parts of the fault zone, where the major branch-faults of the fault zone form left stepping, parallel, and fork-like patterns. In the strong-earthquake areas structurally complicated basins are developed, such as pull-apart basins in fork-like area, in double stepping area, and in stepping and fork-like areas. Foundation item: Chinese Joint Seismological Science Foundation (9507424). Contribution No. 2001A003, Institute of Crustal Dynamics, China Seismological Bureau.     

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

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.     

Morphological characteristics of the earthquake surface ruptures on Awaji Island, associated with the 1995 Southern Hyogo Prefecture Earthquake

Abstract The earthquake surface ruptures on the northern side of Awaji Island accompanying the 1995 Southern Hyogo Prefecture Earthquake in Japan consist of three earthquake surface rupture zones called the Nojima, Matsuho, and Kusumoto Earthquake Surface Rupture Zones. The Nojima Earthquake Surface Rupture Zone is - 18 km long and was formed from Awaji-cho at the northern end of Awaji Island to Ichinomiya-cho. It occurred along the pre-existing Nojima geological fault in the northern segment and as a new fault in the southern segment. The northern segment of the Nojima Earthquake Surface Rupture Zone is composed of some subparallel shear faults showing a right-step en echelon form and many extensional cracks showing a left-step en echelon form. The southern segment consists of some discontinuous surface ruptures which are concentrated in a narrow zone a few tens of meters in width. This surface rupture zone shows a general trend striking north 30°-60° east, and dipping 75°-85° east. The deformational topographies and striations on the fault plane generated during the co-seismic displacement show that the Nojima Earthquake Surface Rupture Zone is a right-lateral strike-slip fault with some reverse component. Displacements measured at many of the outcrops are generally 100-200 em horizontally and 50-100 em vertically in the northern segment and a few em to 20 em both horizontally and vertically in the southern segment. The largest displacements are 180 em horizontally, 130 em vertically, and 215 em in netslip measured at the Hirabayashi fault scarp. The Matsuho Earthquake Surface Rupture Zone striking north 40°-60° west was also found along the coastline trending northwest-southeast in Awaji-cho for ～1 km at the northern end of Awaji Island. The Kusumoto Earthquake Surface Rupture Zone occurred along the pre-existing Kusumoto geological fault for ～ 1.5 km near the northeastern coastline, generally striking north 35°-60° east, dipping 60°-70° west. From the morphological and geomorphological characteristics, the Nojima Earthquake Surface Rupture Zone can be divided into four segments which form a right-step en echelon formation. The geological and geomorphological evidence and the aftershock epicenter distributions show clearly that the distributions and geometry of these four segments are controlled by the pre-existing geological structures.     

内蒙造山带南部古板块构造演化

对内蒙造山带南部构造岩石组合、构造序列和部分岩石的同位素年龄研究表明，华北板块北缘在中元古代由大陆裂谷发展成被动陆缘，晚元古代开始转为活动陆缘，延续至早古生代转为俯冲－左旋走滑。随着温都尔庙蛇绿岩的定位和俯冲带北移、贺根山蛇绿岩的定位，内蒙造山带南部分别经历了两次均衡抬升－裂陷。海西末期华北－西伯利亚两大板块已缝合，进入超碰撞阶段，区内花岗岩大量侵位并形成了一系列推覆构造。     

新疆阿尔泰山的掀斜隆升及其构造制约

新疆北部阿尔泰山自渐新世以来,不断发生自北东向南西的掀斜隆升和右行走滑剪切作用,从而对额尔齐斯河、乌伦古河流域的环境,尤其是水系的演化产生重要影响.主要表现在:南北向河流的阶地高差自北东向南西逐渐降低;右行走滑剪切作用使水系同步发生异常弯曲;主河道向西南方向迁移,紧逼西南岸;河道两岸水系和河谷地貌发育不对称;现代地壳形变资料表明,阿尔泰山的掀斜隆升和右行走滑剪切作用仍在继续,由此引起的环境问题还将继续存在和发展.认为由北东向南西的掀斜隆升和右行走滑剪切作用是欧亚大陆阿尔泰山脉西南麓隆升的主要机制.     

胶东半岛牟平-即墨断裂带晚中生代运动学转换历史

牟平-即墨断裂带不仅构成了苏鲁造山带与胶北地块（华北地块）的边界，也是中国东部巨型郯庐走滑断裂系（即郯城-庐江走滑断裂系）的主要组成部分。基于野外断层滑动矢量分析和古构造应力场反演、侵入岩和火山岩锆石U-Pb离子探针和Ar-Ar测年分析，结合海域地球物理资料解释成果，研究了该断裂带平面展布形态和晚中生代构造演化历史。结果表明，牟平-即墨断裂带在晚侏罗世-白垩纪时期经历了挤压左旋平移引张伸展右旋走滑拉分等3个显著不同的运动学转变历史。晚侏罗世是重要的挤压作用时期，沿断裂带发生显著的左旋走滑活动，牟平-即墨断裂带东支桃村-东陡山断裂记录了约30km的左旋错移量。早白垩世时期，构造体制以引张伸展活动为主，引张应力方向为NW-SE至近W-E向，沿断裂带形成一系列深而狭长的断陷盆地；盆地中侵入岩和火山喷发岩锆石U-Pb离子探针和Ar-Ar测试，获得了一致的年龄在106～123Ma。晚白垩世古新世时期，断裂带以右旋走滑活动为主，右旋剪切拉分作用控制了胶县-莱阳伸展断陷盆地的发育，沿断裂带局部凹陷区控制了晚白垩世王氏群沉积。早、晚白垩世之间发生一期构造挤压事件，挤压方向NW-SE，导致断陷盆地构造反转和断裂带左旋走滑活动，但这期走滑位移量不大。牟平即墨断裂带运动学历史和构造应力场演化较完整地记录了中国东部晚中生代构造体制转换过程，并对构造体制转换过程的动力学背景提供了重要的构造地质学制约。