Characterising the nature, evolution and origin of detachment fault in central depression belt, Qiongdongnan Basin of South China Sea: evidence from seismic reflection data

Using regional geological, newly acquired 2D and 3D seismic, drilling and well log data, especially 2D long cable seismic profiles, the structure and stratigraphy in the deep-water area of Qiongdongnan Basin are interpreted. The geometry of No.2 fault system is also re-defined, which is an important fault in the central depression belt of the deep-water area in the Qiongdongnan Basin by employing the quantitative analysis techniques of fault activity and backstripping. Furthermore, the dynamical evolution of the No.2 fault sys-tem and its controls on the central depression belt are analyzed. This study indicates that the Qiongdongnan Basin was strongly influenced by the NW-trending tensile stress field during the Late Eocene. At this time, No.2 fault system initiated and was characterized by several discontinuous fault segments, which controlled a series small NE-trending fault basins. During the Oligocene, the regional extensional stress field changed from NW-SE to SN with the oceanic spreading of South China Sea, the early small faults started to grow along their strikes, eventually connected and merged as the listric shape of the No.2 fault system as ob-served today. No.2 fault detaches along the crustal Moho surface in the deep domain of the seismic profiles as a large-scale detachment fault. A large-scale rollover anticline formed in hanging wall of the detachment fault. There are a series of small fault basins in both limbs of the rollover anticline, showing that the early small basins were involved into fold deformation of the rollover anticline. Structurally, from west to east, the central depression belt is characterized by alternatively arranged graben and half-graben. The central depression belt of the Qiongdongnan Basin lies at the extension zone of the tip of the V-shaped northwest-ern ocean sub-basin of the South China Sea, its activity period is the same as the development period of the northwestern ocean sub-basin, furthermore the emplacement and eruption of magma that originated from the mantle below the Moho surface occurred at the region between Songnan-Baodao and Changchang sags, from east to west with the early-stage spreading of the South China Sea. Therefore, this study not only helps in depicting the structural features and evolution of the deep-water basin in the Qiongdongnan Basin, but also provides the geological and structural evidence for establishing a unified model of continental margin extension and oceanic spreading.

Cenozoic Denudation and Vertical Faulting History of the Central Segment of the Longmenshan Thrust Belt

Objective The uplift process and uplift mechanism of the Tibetan Plateau has been a research focus among geologists in recent years. This work put emphasis on the Cenozoic exhumation histories of the blocks bounded by the major faults at the central segment of the Longmenshan thrust belt, and the vertical faulting history, including the starting time and the total vertical displacement, of the major faults. Then we quantitatively established a complete active process for the central segment of the Longmenshan thrust belt, combining with the previous geophysical data in the deep and geologcial data. This study is critical for deeply and completely understanding the Cenozoic uplift history of the Longmenshan, and also provides thermochronology constraints to the different models for the uplift of the eastern margin of the Tibetan Plateau.

Thermo-tectonic history of the Junggar Alatau within the Central Asian Orogenic Belt(SE Kazakhstan,NW China):Insights from integrated apatite U/Pb,fission track and(U-Th)/He thermochronology

The Junggar Alatau forms the northern extent of the Tian Shan within the Central Asian Orogenic Belt(CAOB)at the border of SE Kazakhstan and NW China.This study presents the Palaeozoic-Mesozoic post-collisional thermo-tectonic history of this frontier locality using an integrated approach based on three apatite geo-/thermochronometers:apatite U-Pb,fission track and(U-Th)/He.The apatite U-Pb dates record Carboniferous-Permian post-magmatic cooling ages for the sampled granitoids,reflecting the progressive closure of the Palaeo-Asian Ocean.The apatite fission track(AFT)data record(partial)preservation of the late Palaeozoic cooling ages,supplemented by limited evidence for Late Triassic(~230-210 Ma)cooling and a more prominent record of(late)Early Cretaceous(~150-110 Ma)cooling.The apatite(U-Th)/He age results are consistent with the(late)Early Cretaceous AFT data,revealing a period of fast cooling at that time in resulting thermal history models.This Cretaceous rapid cooling signal is only observed for samples taken along the major NW-SE orientated shear zone that dissects the study area(the Central Kazakhstan Fault Zone),while Permian and Triassic cooling signals are preserved in low-relief areas,distal to this structure.This distinct geographical trend with respect to the shear zone,suggests that fault reactivation triggered the Cretaceous rapid cooling,which can be linked to a phase of slab-rollback and associated extension in the distant Tethys Ocean.Similar conclusions were drawn for thermochronology studies along other major NW-SE orientated shear zones in the Central Asian Orogenic Belt,suggesting a regional phase of Cretaceous exhumation in response to fault reactivation at that time.

Intra-continental deformation and tectonic evolution of the West Junggar Orogenic Belt,Central Asia:Evidence from remote sensing and structural geological analyses

The West Junggar Orogenic Belt(WJOB)in northwestern Xinjiang,China,is located in the core of the western part of the Central Asian Orogenic Belt(CAOB).It has suffered two stage tectonic evolutions in Phanerozoic,before and after the ocean–continental conversion in Late Paleozoic.The later on intracontinental deformation,characterized by the development of the NE-trending West Junggar sinistral strike-slip fault system(WJFS)since Late Carboniferous and Early Permian,and the NW-trending Chingiz-Junggar dextral strike-slip fault(CJF)in Mesozoic and Cenozoic,has an important significance for the tectonic evolution of the WJOB and the CAOB.In this paper,we conduct geometric and kinematic analyses of the WJOB,based on field geological survey and structural interpretation of remote sensing image data.Using some piercing points such as truncated plutons and anticlines,an average magnitude of^73 km for the left-lateral strike-slip is calculated for the Darabut Fault,a major fault of the WJFS.Some partial of the displacement should be accommodated by strike-slip fault-related folds developed during the strike-slip faulting.Circular and curved faults,asymmetrical folds,and irregular contribution of ultramafic bodies,implies potential opposite vertical rotation of the Miao’ergou and the Akebasitao batholiths,resulted from the sinistral strike-slipping along the Darabut Fault.Due to conjugate shearing set of the sinistral WJFS and the dextral CJF since Early Mesozoic,superimposed folds formed with N–S convergence in southwestern part of the WJOB.

海拉尔盆地中部断陷带下白垩统南屯组致密储层特征及有利区预测

综合运用岩心分析、铸体薄片、高压压汞等资料,对海拉尔盆地中部断陷带下白垩统南屯组储层特征及其主控因素开展了详细研究,并对有利区进行了定量综合评价。研究结果表明:(1)海拉尔盆地中部断陷带南屯组岩石类型主要为岩屑砂岩和长石岩屑砂岩,储层孔隙度小于12%的样品数占总样品数的70.2%,渗透率小于1 mD的样品数占总样品数的66.3%,属于致密砂岩储层,储层储集空间主要为少量原生孔隙和大量次生溶蚀孔隙。(2)沉积相控制了研究区储层物性在空间上的总体分布规律,南屯组最有利的沉积相带是辫状河三角洲前缘和扇三角洲前缘亚相;压实作用对储层具有减孔效应,溶蚀作用普遍发育,形成了大量粒间和粒内溶孔,对储集性具有一定改善作用。(3)盆地中部断陷带发育缓坡断阶构造带、陡坡断阶构造带和洼槽带3种构造带,其中缓坡断阶构造带和陡坡断阶构造带为主要的油气聚集区带,其断裂的大量发育均早于或同期于烃源岩大量排烃阶段,为油气运移提供了通道。(4)将“沉积相-孔隙度-储层厚度-砂地比-埋藏深度”五要素进行叠合,定量评价有利储层发育区,其中Ⅰ类、Ⅱ类优质储层主要分布在盆地中部断陷带的缓坡断阶构造带和陡坡断阶构造带。

渤海湾盆地惠民凹陷中央隆起带张扭性断裂演化的构造物理模拟研究

惠民凹陷位于渤海湾盆地济阳坳陷西部,新生代时期经历了南北向伸展,形成了典型的“北断南超”半地堑结构。平面上,惠民凹陷中央隆起带发育了NE至近EW向的张扭断裂体系;垂向上,中央隆起带断裂体系从深部到浅部呈现出由雁列式分段到逐渐连接贯通的特征。目前对惠民凹陷中央隆起带断裂体系的结构特征有了较好的刻画,但是对于该断裂体系形成的运动学过程及其控制因素仍然停留在描述阶段。文章设计了一组张扭构造物理模拟实验,以探究惠民中央隆起带断裂构造演化过程及其控制因素。实验再现了惠民凹陷中央隆起带断裂体系在平面上由早期孤立分段、侧向传播、最终贯通的三个阶段;在剖面上也很好对应了中央隆起带沿走向由共轭断裂系向阶梯式断裂的结构转变特征。基于粒子成像测速(PIV)的应变分析,文章构建了三阶段的应变—断层距离统计图,揭示了各分段断裂由早期无连接,经历侧向生长,从软连接到硬连接的构造演化过程。研究证实在南北向区域伸展作用下,盆地基底NEE向先存断裂的活化是惠民凹陷中央隆起带张扭构造形成的根本原因。文章利用砂箱构造物理模拟实验揭示了惠民凹陷中央隆起带断裂发育的机制,可为类似的张扭性断陷盆地的断裂演化与油气成藏研究提供有益的启示。

西湖凹陷玉泉构造油气成藏时空匹配关系研究

以地质录井资料为基础,结合流体包裹体、自生伊利石同位素等地球化学资料,运用平衡剖面、盆地模拟技术,研究玉泉构造断裂演化史、圈闭发育史、埋藏史、成岩史、生烃史、油气成藏史及其时空匹配关系。研究表明:玉泉构造经历了前挤压反转期、挤压反转早期和挤压反转晚期3个阶段,其中挤压反转早期和晚期为NWW向调节断层和圈闭发育、定型的关键阶段;花港组下段H6—H7自13.0 Ma以来油气持续充注成藏至今,储层物性较差,花港组上段为13.0~11.4 Ma和4.2 Ma至今两期油气充注成藏,且第二期为主要油气成藏期,储层物性较好,龙井组为3.4 Ma至今一期充注成藏,储层物性好。总结出玉泉构造寻找有利勘探目标的关键条件为:以花港组上段为勘探主要目的层,靠近早期发育的NNE油源断层,避开晚期NWW向调节断层,指出玉泉3井区北部、玉泉1井区北部花港组上段以及玉泉3井区NWW向断层上盘龙井组、玉泉1井区龙井组上段为有利勘探区。

基于S7-1200 PLC的矿用带式输送机智能控制系统设计

针对煤矿井下带式输送机单机运行、故障监测、保护报警等问题,设计了基于S7-1200 PLC的带式输送机智能控制系统。介绍了带式输送机智能控制系统的组成和功能,详细论述了系统软件设计。实际应用表明,该系统实现了多台带式输送机调度中心集中控制、连锁联控、故障监测、保护试验报警等功能,与巡检机器人相结合,实现井下带式输送机无人值守,提高了带式输送机的运行效率,节约了能源,达到了少人则安、无人则安的目的。

东营凹陷盐底辟作用与中央隆起带断裂构造成因

华北渤海湾盆地济阳坳陷的东营凹陷中央隆起带同生断层非常发育,断层数量较多。主干正断层的下降盘上形成“逆牵引”构造,组成“负花状”地堑断裂系。这些断裂系将中央隆起带分割为一系列小断块。本文将这些断裂系和相关的小断块划分为3个构造,分别称为辛镇、东营和郝家—现河庄(简称郝—现)构造。研究证明,复杂断裂与断块组合构造主要为盐底辟作用的结果,伴生的逆牵引作用形成“包心状”的复杂断裂构造形态,总体上,东营凹陷中央隆起带构造成因是区域北北西—南南东向伸展作用下局部底辟作用和逆牵引作用共同形成的,而不是走滑成因。据强度,底辟构造可分为低幅度隆起和隐刺穿构造。其形成时期主要为沙河街组三段沉积期开始持续到馆陶组沉积前。底辟物质由盐岩为主的塑性层组成。

东营凹陷中央隆起带油-源特征分析

东营凹陷的沙河街组三段的烃源岩具有姥鲛烷占优势 ,姥植烷比为 0 .5～ 1.0 ,微弱的伽马蜡烷等特征 ;沙河街组四段烃源岩具有较强的植烷优势 ,姥植烷比小于 0 .5 ,丰富的伽马蜡烷等特征。根据这一显著差异 ,将东营凹陷中央隆起带上各油田的油源类型划分为沙三型、沙四型以及混合型 ,其中以沙三型和混合类型为主。不同地区和不同层系原油的来源存在较大差异 ,通过对构造特征与地化特征的平面分布规律研究 ,认为石油遵循就近运移聚集的规律 ,各洼陷中心即为油源中心 ;西部地区的油源主要以利津洼陷沙河街组三段烃源岩为主 ;少量东南部的原油由牛庄洼陷沙河街组四段烃源岩供应 ;而东北部的则由民丰洼陷烃源岩供给。断裂发育处混源石油较为普遍 ,说明了断裂对混源的作用较大。

中天山南缘乌瓦门地区发现蛇绿混杂岩

新发现的乌瓦门蛇绿混杂岩出露于中天山南缘断裂带中,主要表现为以变质粉砂岩为主的基质中混杂着大小不一、性质各异的块体。基质主要为泥盆纪绢云石英片岩、绢云绿泥石英片岩、二云石英片岩、千枚岩和变质粉砂岩,块体有肢解的蛇绿岩岩块、片麻岩岩块和大理岩岩块。肢解蛇绿岩岩块主要有含辉纯橄岩岩块、辉长岩岩块、基性火山岩岩块和硅质岩岩块。

东营凹陷中央隆起带断裂构造及油气运移

东营凹陷中央隆起带的形成是在区域和局部构造应力场的控制下,由陈南断裂的伸展断弯褶皱和盐-泥塑性层拱张共同作用的结果。受盐-泥层分布、断层活动时的沉积特征、盆地区域构造应力场等因素的差异作用,中央隆起带构造的发育程度及组合特征在空间上有较显著的差异,可划分为辛镇、东营及梁家楼-现河庄3个构造带。中央隆起带上,油气分布与断裂活动关系密切:①断层活动强度由弱变强,油气主要分布于浅层,形成次生油藏;②断层的活动强度由强变弱,油气主要分布于下部,多为原生油藏;③断层的活动强度由弱变强又变弱,油气在上下层位均有分布,形成具多套含油层系。

吐哈盆地中央构造带正反转演化特征

吐哈盆地中央构造带由火焰山构造和七克台构造组成。中央构造带形成于三叠纪晚期至侏罗纪早期,表现为伸展构造特征,生长断层上盘地层厚度明显大于下盘,并于断层上盘所在的台北凹陷形成沉降中心。晚侏罗世,由于拉萨陆块与欧亚大陆的碰撞作用导致吐哈盆地由伸展盆地转变为挤压盆地,中央构造带也于此时发生构造反转,由早期的伸展正断层转变为挤压逆断层。发生于55Ma的喜山构造事件对天山地区产生了深刻的影响,但影响时间略有滞后,大致发生在晚渐新世至早中新世,中央构造带即在此次构造事件中强烈变形,逆冲出露于地表。

试论柴达木盆地基底中央断裂带

重力、航磁、地震、遥感、地表地质等资料的研究结果表明，柴达木盆地基底存在着中央断裂带。中央断裂带将柴达木盆地基底分为南北性质截然不同的两部分，说明柴达木盆地存在吕梁期以前的古陆核。结合中酸性岩浆岩氧化物成分构造环境判别结果，进一步可以推断古阿尔金洋的存在，使古秦祁昆洋的范围扩大。阿尔金运动使阿尔金洋封闭，岛弧成陆，形成前寒武纪的褶皱镶嵌边。

塔里木盆地中部满深1断裂带的多期断裂活动

满深1断裂带位于塔里木盆地中部的阿满过渡带,走向NNE‑SSW,是三维地震解释发现的一条断裂带。精细的三维地震解释识别出6期断裂,从老到新包括:南华—震旦纪正断层、晚奥陶世—早志留世逆冲断层、中志留世—石炭纪正断层、二叠纪正断层、三叠纪逆冲断层和侏罗纪正断层。中志留世—石炭纪的正断层可以进一步划分为中志留世—中泥盆世正断层和晚泥盆世—石炭纪正断层两期。前者为主,是昆仑—阿尔金早古生代碰撞造山带的造山后构造;后者是前者的复活。中志留世—石炭纪正断层作用形成一系列近南北走向的正断层,组合成一条NNE‑SSW走向的右列左旋张扭性断层带,形成满深1断裂带。二叠纪裂谷作用成因的正断层和岩浆活动显著改造断裂带,使之基本定型。三叠纪的冲断构造叠加于依合2构造之上。侏罗纪伸展作用对构造带有一定的调整影响。南华—震旦纪正断层和晚奥陶世—早志留世的冲断构造与满深1断裂带相交,对构造带的形成影响不大。侏罗纪正断层的发现,是塔里木盆地当时处于区域性伸展构造背景的重要证据。

汶川M_S8.0地震中央断裂北段地表破裂特征

研究了2008年汶川大地震的发震构造龙门山构造带的北段,即北川-南坝-林庵寺断裂的地表破裂。通过黄家坝、桂溪、平通、南坝、石坎子等地的考察和测量,显示该段地表破裂沿断裂带连续分布,走向为N45°～65°E。垂直位错与水平位错比值从西南段黄家坝的2.8:1逐渐降低到北东段南坝、石坎子的0.9:1。地表破裂特征表明,断裂以右旋走滑分量为主,并具有较高的逆冲分量。余震分布表明,青川断裂与北川-南坝-林庵寺断裂之间可能存在隐伏活动断裂。

卡拉麦里断裂带造山期活动规律及其对造山过程的指示

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本文根据近两年来在黑龙江省中西部沿断裂带逸出的H2、CO、H2S等还原性气体组合,结合C、H、S、He、Ar同位素研究,讨论了还原性气体组合的深源特征。在此基础上以安达地震为例,作者阐明了以氢气为首的还原性气体逸出与深部构造背景及其与地震的关系。深源还原性气体的逸出孕育着地壳不稳定的因素,有诱发地震和其他自然灾害的可能。地球排气作用与地震作用关系的研究在类似黑龙江省中西部大面积被第四系覆盖的地区是地震预报较为有效的手段。

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中非右行走滑断裂东端南侧形成苏丹的M盆地等一系列走滑型盆地。FL凹陷位于M盆地东北端 ,为典型的张扭性凹陷 ,基底为前寒武系变质岩系 ,沉积盖层主要是白垩系。下白垩统阿布加布拉 (AbuGabra)组下部暗色泥岩是主要烃源岩 ,阿布加布拉组、本蒂乌 (Bentiu)组砂岩和阿拉德巴 (Aradeiba)组泥岩所夹砂岩是高孔隙度、中渗透率的良好储集层 ,凹陷内部的阿拉德巴组暗色泥岩是封盖能力良好的区域盖层 ,发育有阿布加布拉组自生自储层状断块油藏、本蒂乌组和阿拉德巴组下生上储块状油藏以及新生古储基岩潜山油藏。FL凹陷中部构造带是油气运移的主要指向区 ,沿断层垂向运移和横穿断面侧向运移交替进行 ,在与阿布加布拉组砂体叠合的构造圈闭富集。由于断层属走滑型断层 ,以平移为主 ,垂向断距多小于区域盖层厚度 ,因此断层一般不破坏区域盖层的有效性 ,选准构造圈闭高点钻探 ,是发现高产富集断块油藏的有效途径。FL凹陷中部构造带是油气运移的主要指向区 ,是寻找规模储量的重点勘探区带 ,南部和北部断阶带是油气聚集的有利地区 ,西部陡坡带是勘探新生古储潜山油气藏的有利地区。图 2参

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