郯庐断裂带渤海段与沂沭断裂带衔接关系

以郯庐断裂带渤海段和沂沭断裂带的衔接点潍北凹陷为切入点,依据高精度大地电磁和地震剖面,解析了潍北凹陷的多条断裂,并结合地层发育等特征,研究渤海段中生代断裂活动及其与沂沭断裂带的构造关系。研究认为这些断裂可能属于不同的断裂体系。在潍北凹陷解析出的郯西(Fa)和郯东(Fb)两条断裂为古近纪正断裂系,呈现上陡下缓的勺状形态,消失在中地壳,切割部位较浅,主要控制新生界沉积。新生代正断裂系下部发育有6条显著的中生代断裂(F1—F6),为中生代伸展断裂系,其中东(F6)、西(F1)两条断裂的断裂面整体近直立,切穿深部的下地壳,并向下继续延伸,与中间4条断裂共同控制中生界沉积。结合区域地质背景和重磁延拓等资料,推断其向南分别与沂沭断裂带西支鄌郚—葛沟断裂和东支昌邑—大店断裂相衔接,向北伸入渤海湾盆地深部,并对浅部古近纪正断裂系的形成演化具有明显的约束作用。      

塔里木盆地顺北地区11号走滑断裂带变形及其活动特征

塔里木盆地顺北地区发育大量走滑断裂带,并对油气的运聚成藏有重要控制作用。以顺北西部地区地震资料为基础,对顺北11号走滑断裂带的几何变形特征、活动性、活动期次及其形成机制等进行了分析。顺北11号走滑断裂带整体呈NNW走向延伸,具有垂向分层性和平面分段性。断裂带北段主体为压扭和张扭交互段,中段为两条次级断层控制的拉分地堑,南段由数条分支断层构成马尾状构造。顺北11号断裂带整体活动性由北向南减弱,运动学标志显示是一条右旋走滑断层。顺北11号断裂带主要经历了晚奥陶世和晚志留世-中泥盆世两期活动,部分地区的活动持续到石炭纪。顺北11号走滑断裂带的活动性和运动学特征与塔北地区NNW走向的走滑断裂体系比较相似,而不同于塔中地区的NE向左行走滑断裂体系。顺北11号走滑断裂带的形成主要受控于塔里木盆地北部天山洋多期俯冲挤压而产生的自北向南的挤压应力,断裂自北向南扩展延伸,类似于顺北5号走滑断裂带的北段。     

基于历史航卫片的城市“隐形”活动断层精确定位——以大同盆地水峪断裂为例

活动断层是城市地震灾害的重要风险源，准确厘定活动断层的空间几何展布是有效降低城市地震灾害和开展活动断层避让的基础。而城市化建设对原始地貌的严重改造使得原先出露地表的活动断层成为"隐形"断层，难以准确确定断层的几何展布。大同盆地中部的水峪断裂北段位于马铺山东缘，断错地貌明显，但南段进入大同市御东新区被城市建筑物覆盖，成为"隐形"断层。研究基于大同地区1965年历史航片影像资料，结合1∶10000地形图，运用航片像对和航空立体摄影的方法重建了该地区的数字高程模型（DEM）和正射影像（DOM），重点对水峪断裂"隐形"段进行识别和定位，厘定了水峪断裂断层陡坎的几何展布特征。研究结果表明，水峪断裂北段山前陡坎线性特征明显，由影像可以准确解译出断层几何展布位置；水峪断裂南段可基于2000年之前的Keyhole历史遥感影像、DOM与DEM资料，根据断层两侧的颜色差异及陡坎高度差异，精确厘定该段的断层几何展布位置；DEM提取的地形剖面表明"隐形"段陡坎高度在19 m左右。同时，基于野外调查的断层剖面与浅层人工地震剖面证明该陡坎就是水峪断裂的位置，这也表明利用历史航卫片对城市"隐形"活动断层进行精确定位的方法是可行的。该研究不仅为大同地区的地震危险性评估提供了重要依据，而且为城市"隐形"活动断层探测提供了一个新的思路和途径。      

营口—潍坊断裂带对辽东湾坳陷东部凸起的形成及构造分段的控制作用——来自物理模拟实验和断层几何学特征的证据

辽东湾坳陷是渤海湾盆地的重要组成部分,其发育受营口—潍坊断裂带控制。其东支的两条分支断层大体沿其次级构造单元辽东湾东部凸起的两侧延伸。本文应用大量地震测线的构造几何学特征分析,结合构造物理模拟试验,认为辽东湾坳陷东部凸起是在先期存在的低凸起的基础上,在渐新世东营组沉积期因营口—潍坊断裂带的右行走滑形成的。以Lz205测线和Lz185测线之间为界可分为类似的两段,各自经历了一个自南而北的右旋走滑伸展—剪切走滑—右旋走滑挤压的变化过程。这种变化由北东向的基底断裂与由之派生的新生代内的北北东内断裂间的关系造成,在两者的交汇点(如Lz151)或走向发生转折处(如Lz255)右旋走滑作用发生变换,其南侧拉张下沉,正断层发育,表现为右旋走滑伸展,北侧则挤压隆升,表现为右旋走滑挤压。南、北两侧相反的力学性质是走滑活动派生的局部差异应力场造成的。构造物理模拟试验证实了右旋走滑伸展—剪切走滑—右旋走滑挤压的变化过程。     

Deep seismic reflection profiling across the Ou Backbone range, northern Honshu Island, Japan

Knowledge of the crustal structure, especially the geometry of seismogenic faults, is key to understanding active tectonic processes and assessing the size and frequency of future earthquakes. To reveal the relationship between crustal structure and earthquake activity in northern Honshu Island, common midpoint (CMP) deep reflection profiling and earthquake observations by densely deployed seismic stations were carried out across the active reverse faults that bound the Ou Backbone range. The 40-km-long CMP profiles portray a relatively simple fault geometry within the seismogenic layer. The reverse faults merge at a midcrustal detachment just below the base of the seismogenic layer, producing a pop-up structure that forms the Ou Backbone range. The top of the reflective middle to lower crust (4.5 s in travel time (TWT)) nearly coincides with the bottom of seismogenic layer. The P-wave velocity structure and surface geology suggest that the bounding faults are Miocene normal faults that have been reactivated as reverse faults.     

The character and reactivation history of the southern extension of the seismically active Clarendon–Linden Fault System, western New York State

Integration of 11 types of data sets enabled us to determine the location, character and fault history of the southern extension of the Clarendon–Linden Fault System (CLF) in southwestern New York State. The data sets utilized include detailed stratigraphic and fracture measurements at more than 1000 sites, soil gas anomalies, seismic reflection profiles, well logs and lineaments on air photos, topographic maps, Landsat and SLAR images. The seismically active CLF consists of as many as 10 parallel, segmented faults across the fault system. The fault segments are truncated by NW-striking cross-strike discontinuities (CSDs). The faults of the CLF and intersecting CSDs form fault blocks that have semi-independent subsidence and uplift histories. East-dipping reflectors in the Precambrian basement indicate the southward continuation of thrusts of the intra-Grenvillian Elzevir–Frontenac Boundary Zone. These thrusts were reactivated during Iapetan rifting as normal (listric) growth faults. In Ordovician Black River to Trenton time, the southern CLF segments experienced a second phase of growth fault activity, with faults displaying a cumulative stratigraphic throw of as much as 170 m. Thrusting on the same east-dipping Precambrian reflectors typified the CLF in Taconic (post-Trenton) times. Detailed comparisons among the fault segments show that the fault activity in Silurian and Devonian times generally alternated between the western and central main faults. In Late Devonian time, the fault motion reversed from down-on-the-east to down-on-the-west about the time the Appalachian Basin axis passed across the CLF in its westward migration. The deep Precambrian faults of the CLF were thus reactivated as the Appalachian Basin developed in Acadian times. Finally, the CLF thrust fault imaged on seismic line CLF-1 offsets all bedrock (Devonian) units; thus, significant motion occurred along this fault during Late Acadian, or more likely, Alleghanian time.     

中国活动构造研究的进展与展望

本文试图在世界活动构造研究背景下概括中国活动构造研究的进展，并对最近20年来中国的活动构造研究，包括几何学、滑动速率、古地震和大震重复间隔、分段理论和应用、活动褶皱、深浅构造耦合关系、城市和海域活动构造探测、块体划分和块体运动、地震危险性的未来断裂滑动量评价及中国现代构造活动动力学等进行简要评述，对今后在这些方面的发展进行概略的讨论。     

准噶尔盆地腹部断裂控油的物理模拟实验及其成藏意义

根据准噶尔盆地腹部地区二维和三维地震断裂构造样式解释、深浅层断裂生长指数和活动速率计算及声发射各主要构造运动期最大主应力值测试, 结合盆地区域构造演化与油气成藏等研究成果, 研究了盆地腹部地区断裂系统的形成演化、基本特征及其控油模式, 并转化为实验模型, 模拟了单一相(油相)连续、稳态流体运动条件下, 深、浅两套断裂输导体系中石油的运移和聚集过程.结果表明盆地腹部地区受周缘板块的相互碰撞产生的挤压和走滑构造作用及多期次构造运动的影响, 断裂发育, 纵向上明显存在深、浅层两套不同性质的断裂系统, 深层为基底卷入式压扭性逆冲断裂系统, 浅层为盖层滑脱型张扭性正断层系统, 其分别形成于海西运动中晚期和燕山运动早中期等强烈构造活动时期; 高渗透性断裂带的确是油气快速运移的优势通道, 盆地腹部地区深、浅层断层均是石油向上运移的主要输导体, 断裂带渗透率大小决定着石油运移的方向和路径.在断层带顶部存在盖层封闭的条件下, 石油在断层带中的运移呈不均匀地向上运动, 断层带中含油饱和度自上而下增加, 在向下增加的过程, 石油倾向于在区域性盖层之下储层物性好的砂层中运移, 而且是优先进入断裂上盘渗透率较大的砂层中, 随着断裂带含油饱和度的不断地增加和断裂上盘储层物性好的砂层中进油量不断增多, 进行侧向运移, 最终聚集成藏, 尔后再进入断裂下盘相应的砂层中, 进油量较少; 而物性较差的砂层中很少有石油进入.该实验结果得到了盆地腹部地区断裂两侧储层流体地球化学分析测试数据的佐证, 对深化断裂输导体系下石油运移聚集成藏的理论认识与指导该地区的油气勘探实践均具有重要意义.      

Temporal variation in the geometry of a strike–slip fault zone: Examples from the Dead Sea Transform

The location of the active fault strands along the Dead Sea Transform fault zone (DST) changed through time. In the western margins of Dead Sea basin, the early activity began a few kilometers west of the preset shores and moved toward the center of the basin in four stages. Similar centerward migration of faulting is apparent in the Hula Valley north of the Sea of Galilee as well as in the Negev and the Sinai Peninsula. In the Arava Valley, seismic surveys reveal a series of buried inactive basins whereas the current active strand is on their eastern margins. In the central Arava the centerward migration of activity was followed by outward migration with Pleistocene faulting along NNE-trending faults nearly 50 km west of the center. Largely the faulting along the DST, which began in the early–middle Miocene over a wide zone of up to 50 km, became localized by the end of the Miocene. The subsidence of fault-controlled basins, which were active in the early stage, stopped at the end of the Miocene. Later during the Plio-Pleistocene new faults were formed in the Negev west of the main transform. They indicate that another cycle has begun with the widening of the fault zone. It is suggested that the localization of faulting goes on as long as there is no change in the stress field. The stresses change because the geometry of the plates must change as they move, and consequently the localization stage ends. The fault zone is rearranged, becomes wide, and a new localization stage begins as slip accumulates. It is hypothesized that alternating periods of widening and narrowing correlate to changes of the plate boundaries, manifest in different Euler poles.     

南海北部陆坡西部海域“海马”冷泉甲烷渗漏及其海底表征

2015年3月"海马"号遥控无人潜水器(ROV)在南海北部陆坡西部海域首次发现活动冷泉,并命名为"海马"冷泉,此后中国地质调查局广州海洋地质调查局先后组织了3个航次,对"海马"冷泉开展进一步勘查和研究。本次研究在综合分析4个航次调查数据的基础上,初步阐述"海马"冷泉的分布范围、地形地貌、生物群落、自生碳酸盐岩和流体活动等特征。总体而言,"海马"冷泉区地势平缓,气体渗漏现象非常发育,是以CH4为主要气体渗漏形成的活动冷泉区,且气体渗漏活动具有时空迁移性。气体碳同位素组成表明,海马冷泉区的CH4为混合成因气,且以微生物成因为主;"海马"冷泉区发育有多种类型的化能自养冷泉生物群落,冷泉区种类丰富,目前已报道了多个冷泉生物新种。这些发现为研究南海北部陆坡西部海域天然气水合物分解及其环境效应、冷泉生物生命起源与演化和南海与印度洋及太平洋物种迁移贯通等科学问题提供重要依据。     

银川盆地构造发展——深地震反射剖面揭示浅部地质与深部构造的联系

横跨银川盆地北西西向的深地震反射剖面,清晰揭示了银川盆地边界断裂以及整个地壳的结构构造特征,这对研究具活动大陆裂谷性质的银川盆地浅-深构造关系具有重大的意义。贺兰山东麓山前断裂、黄河断裂作为银川盆地的西、东边界断裂,前者为一条缓倾斜、延伸至上、下地壳边界的犁式断裂,而后者则为一条切穿地壳并延伸进入上地幔的深大断裂。根据深地震反射剖面揭示的地壳结构特征,银川盆地浅部结构并非前人认为的"堑中堑"结构,而是表现为由一系列东倾犁式正断层控制的新生代断陷。略微下凹的Moho面几何形态以及厚2~3.2 km的层状强反射带为下地壳最显著的反射特征。Moho面深度与强反射带厚度变化趋势与银川盆地沉积厚度变化趋势几乎一致。本文认为,强反射带的成因可能是由源自地幔的基性岩浆以岩席状的形式底侵进入地壳底部造成的,而这部分形成强反射带的物质可能补偿了因银川盆地断陷而造成的地壳减薄,最终导致银川盆地之下Moho面并未像之前所认为的那样隆起。     

断层体系的分形维数及其对深源气运移条件的指示作用

本文根据分形理论计算了松辽盆地北部大庆长垣以东地区T2、T3、T4反射层不同区域内断层体系的计盒维数和信息维数,通过对各区断层体系分维特征的分析,发现断层体系分维高值区域与深源气藏的分布存在较好的对应关系,这不仅表明断层是该区深源气的主要运移通道,同时也表明断层体系分维特征是定量描述深源气运移、聚集条件的一个重要参数。     

Structure kinematics of a transtensional basin:An example from the Linnan Subsag,Bohai Bay basin,Eastern China

The Linnan subsag is a petroliferous, secondary tectonic unit of the Huimin sag that is located in the western part of the Jiyang depression in the Bohai Bay basin, eastern China. In this study, the authors calculated basin extensional rate and slipping displacement of boundary faults in the dip and strike directions, using seismic and drilling data. The evolution of the Linnan transtensional basin from the Eogene through the Quaternary is quantitatively described, and a dynamic model is established. The Linshan and Xiakou boundary faults of the Linnan subsag are used as a case study to describe a method to calculate the strike and dip slipping displacements of active faults under oblique extension. The results quantitatively illustrate the behavior of the Linnan subsag boundary faults over time. The Linnan subsag transtensional basin experienced four stages of evolution: weak extension during the Kongdian Formation, rapid extension and fault depression during the fourth member of the Shahejie Formation,intensive transtension and fault depression during the third member of the Shahejie Formation-Dongying Formation, and weakening fault depression during the Guantao Formation-Pingyuan Formation.The results of this study provide further understanding of the processes of petroleum migration and accumulation in the region.     

Characteristics of boundary fault systems and its hydrocarbon controlling on hydrocarbon accumulation in Awati Sag,Tarim Basin,China

Based on the interpretation of two-dimensional seismic data, this paper analyzes the characteristics of three boundary fault systems including the Shajingzi fault, the Aqia fault and the Tumuxiuke fault around the Awati sag of the Tarim Basin, and studies its controlling on hydrocarbon accumulation. Neotectonic movement is ubiquitous in oil and gas bearing basins in China, such as Neogene intense activities of large boundary thrusting faults of the Awati sag: Shajingzi fault, Aqia fault and Tumuxiuke fault. Based on a large number of seismic data, it is showed that they have section wise characteristics in the direction of fault strike, and active periods and associated structures formed of different sections are different. Usually, large anticlinal structures are formed in the upper wall, and faulted anticline controlled by companion faults are formed in the bottom wall. Large faults cut the strata from Cambrian up to Neogene. For the anticline in the upper wall, fault activities caused by neotectonic movement played a destructive role in hydrocarbon accumulation, thus the preservation condition is critical for reservoir formation. In this sense, attention should be paid to formations in the upper walls of Aqia fault and Tumuxiuke fault under the Cambrian salt bed, whose plastic deformation could help to heal faults. Companion faults in the bottom wall cut down to the Cambrian and up to the Triassic serving as the pathway for hydrocarbon migration, and associated structures in the bottom wall are noteworthy exploration targets.©2019 China Geology Editorial Office.     

Geomechanical modelling of fault reactivation in the Cooper Basin,Australia

The Australian Cooper Basin is a structurally complex intra-cratonic basin with large unconventional hydrocarbon potential. Fracture stimulation treatments are used extensively in this basin to improve the economic feasibility; however, such treatments may induce fault activity and risk the integrity of hydrocarbon accumulations. Fault reactivation may not only encourage tertiary fluid migration but also decrease porosity through cataclasis and potentially compartmentalise the reservoir. Relatively new depth-converted three-dimensional seismic surveys covering the Dullingari and Swan Lake 3D seismic surveys were structurally interpreted and geomechanically modelled to constrain the slip tendency, dilation tendency and fracture stability of faults under the present-day stress. A field-scale pore pressure study found a maximum pressure gradient of 11.31 kPa/m within the Dullingari 3D seismic survey, and 11.14 kPa/m within the Swan Lake 3D seismic survey. The present-day stress tensor was taken from previously published work, and combined with local pore pressure gradients and depth-converted field-scale fault geometries, to conclude that SE–NW-striking strike-slip faults are optimally oriented to reactivate and dilate. High-angle faults striking approximately E–W appear most likely to dilate, and act as fluid conduits irrespective of being modelled under a strike-slip or compressional stress regime. Near-vertical SE–NW and NE–SW-striking faults were modelled to be preferentially oriented to slip and reactivate under a strike-slip stress regime. Considering that SE–NW-striking strike-slip faults have only recently been interpreted in the literature, it is possible that many reservoir simulations and development plans have overlooked or underestimated the effect that fault reactivation may have on reservoir properties. Future work investigating the likelihood that fracture stimulation treatments may be interacting, and reactivating, pre-existing faults and fractures would benefit field development programs utilising high-pressure hydraulic fracture stimulation treatments.     

鄂尔多斯盆地基底断裂及其现代活动性

对鄂尔多斯盆地基底断裂特征及其活动性作了总结、归纳与分析。结果表明,鄂尔多斯盆地不仅是一个四周被活动断裂或深大断裂围限的块体,其内部还存在大量规模不等的基底断裂,并具有明显的分区特征。盆地内基底断裂带可分成4组：几乎贯穿整个盆地的华池-米脂-大同北东向断裂带;盆地北部的多条东西向断裂带和中部的定边-绥德、南部的庆阳-富县-宜川等东西向断裂带;中部发育的定边-吴起、乌审旗-榆林北西向断裂带与盆地东西两侧的近南北向巨型断裂带。鄂尔多斯盆地内存在的现代构造地貌以及普遍发育的雁行状、X共轭状节理等现象,是新构造运动的直接表现;盆地内存在的深部流体活动信息、现代地球化学景观特征以及众多的小地震、微地震活动及其与基底构造的密切关系,反映了这些断裂的现代活动性。     

滇西北永胜地区主要活动断裂与活动构造体系

位于滇西北断陷带东北部、程海-宾川断裂带北端的永胜地区上新世以来断裂活动强烈,构造地貌特征显著。永胜地区1:50000活动构造填图发现,区内共存在各类断裂14条。其中金官断裂（F₁）、永胜断裂（F₂）、木耳坪羊坪断裂（F₃）三者规模最大,活动性亦远超其他断裂,属于程海-宾川断裂带的一级分支断裂,其他断裂为程海-宾川断裂的二级分支断裂。构造地貌特征、错断地质体及擦痕统计等均指示区内断裂现今主要以伸展正断活动为主,根据活动性的差异可将其分为强、较强、中等、弱、极弱5类,其中金官断裂的活动性最强,垂向活动速率可达0.20~0.26 mm/a。对永胜地区主要断裂几何学、运动学特征的研究及动力学机制的讨论可知,永胜地区主要断裂在平面上构成向东突出的弧形旋扭构造体系,在剖面上表现为张扭性断裂常见的负花状构造;程海-宾川断裂带现今活动主要是在近南北向主压应力作用下产生的近东西向的伸展正断,并因为叠加了旋扭作用而具有一定左旋走滑。永胜地区的弧形旋扭构造体系及滇西北断陷带等均是在川滇内弧带顺时针旋转及南汀河断裂、畹町断裂与理塘断裂的走滑拉分共同作用下形成的。      

准噶尔盆地车排子凸起西翼断裂特征及其控藏作用

通过对地震和测井资料的分析,认为车排子凸起西翼存在深浅两套断裂系统,大致以古近系顶部不整合为界,深层断裂系统发育逆断层,浅层断裂系统发育正断层,且断裂形成分为3个期次,深层断裂影响浅层断裂的发育,控制了中生界的沉积.断槽内侏罗系砂体和断裂是油气运移的重要通道.通过对断裂封闭性的分析,认为车排子凸起西翼的浅层正断层在沙一段主要起输导作用,在沙二段对油气起遮挡作用,深层逆断层在侏罗系主要起输导作用.根据对断裂控藏作用的分析,认为车排子凸起西翼不同位置断裂的控藏作用具有差异性,断裂控制了圈闭的有效性,同时为油气运移提供通道,沟通深、浅层油气,控制了油气的分布.根据断裂封闭性分析结果,结合油气显示和断裂控藏作用,认为车排子凸起西翼油气运移存在3个方向.     

柴达木盆地北缘南八仙背斜深、浅断裂系统耦合分析

柴达木盆地内部发育有丰富的基底和浅层断裂，二者之间的成因机制目前还存在较大争议。文章基于高精度三维地 震反射数据和钻井资料，对柴达木盆地北缘南八仙背斜的深、浅断裂系统的几何形态和相互耦合关系进行了分析。南八仙 地区主要发育两条近EW走向的高角度基底断裂，分别为南倾的马仙断裂和北倾的仙南断裂，都是中生代晚期就开始发育 的老断裂，并在新生代重新活化。在新生界内部还发育NW走向和近EW走向两组浅层正断层体系，断距都很小。NW走向 正断层主要位于马仙断裂南侧（上盘），呈雁列式排列。近EW走向正断层范围较小，仅局限在南八仙背斜核部、仙南断裂 上部，由一系列近平行的正断层组成，在仙南断裂上部形成一个小型的地堑构造，切割了NW走向的正断层体系。分析认 为NW走向正断层与马仙断裂左旋走滑导致的尾端拉张有关，而近EW走向正断层体系与高角度仙南断裂逆冲活动导致的 浅层剪切拉张有关。综合前人研究成果认为柴达木盆地广泛存在的浅层断裂成因多变，深、浅断裂耦合关系十分复杂，先 存断裂在新生代构造活动中起到了一定的控制作用。     

柴达木盆地北缘南八仙背斜深、浅断裂系统耦合分析

柴达木盆地内部发育有丰富的基底和浅层断裂,二者之间的成因机制目前还存在较大争议。文章基于高精度三维地 震反射数据和钻井资料,对柴达木盆地北缘南八仙背斜的深、浅断裂系统的几何形态和相互耦合关系进行了分析。南八仙 地区主要发育两条近EW走向的高角度基底断裂,分别为南倾的马仙断裂和北倾的仙南断裂,都是中生代晚期就开始发育 的老断裂,并在新生代重新活化。在新生界内部还发育NW走向和近EW走向两组浅层正断层体系,断距都很小。NW走向 正断层主要位于马仙断裂南侧（上盘）,呈雁列式排列。近EW走向正断层范围较小,仅局限在南八仙背斜核部、仙南断裂 上部,由一系列近平行的正断层组成,在仙南断裂上部形成一个小型的地堑构造,切割了NW走向的正断层体系。分析认 为NW走向正断层与马仙断裂左旋走滑导致的尾端拉张有关,而近EW走向正断层体系与高角度仙南断裂逆冲活动导致的 浅层剪切拉张有关。综合前人研究成果认为柴达木盆地广泛存在的浅层断裂成因多变,深、浅断裂耦合关系十分复杂,先 存断裂在新生代构造活动中起到了一定的控制作用。