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1.
莱州湾西构造带断裂特征及其对油气成藏的控制 总被引:1,自引:0,他引:1
受古近纪莱州湾凹陷大规模断陷、郯庐断裂右旋走滑和垦东凸起大规模隆升三方面因素共同作用,莱州湾西构造带断裂系统发育,根据断裂性质及发育规模将断裂划分为3组不同方向的断裂组合,对油气的运移、聚集及保存都产生重要影响。根据莱州湾地区油气成藏规律并结合渤海其他区域近年勘探成果综合分析,莱北1号断层、斜坡区东西向反向正断层和走滑末端雁行式断层三类大规模调节断层对于油气成藏影响作用较大,这三类断层所控制的圈闭也是莱州湾凹陷及围区下一步勘探获得突破的重点区域。 相似文献
2.
辽东湾坳陷位于渤海海域东北部,是新生代渤海湾盆地内部重要的油气富集区,其构造特征复杂,体现了多期构造演化、多动力源背景的叠加效应。运用地震三维连片资料、磷灰石裂变径迹反演法和平衡剖面分析技术对辽东湾坳陷构造发育及演化特征进行了分析,研究表明:辽东湾坳陷发育7条主控断裂,整体呈NNE走向,控制了凸起和凹陷的形成;郯庐断裂带在辽东湾段发育有3条分支断裂,分别为辽西走滑断裂带、辽中1号断裂、辽东1号断裂;坳陷内发育"三凸四凹"7个次级构造单元,西部凸起连续性好,形成时间早,隆升强度大;东部辽东凸起不连续,南段形成时间早,隆升强度大,北段形成时间晚。 相似文献
3.
4.
莱州湾地区郯庐断裂带的构造特征及其新生代演化 总被引:22,自引:0,他引:22
郯庐断裂带中段分东西两支从莱州湾进入渤海,在莱州湾地区的构造特征与演化历史一直鲜为人知。通过对横穿研究区的两条地震测线的解释和分析,揭示了该区郯庐断裂带中段在研究区的构造差异,研究表明郯庐断裂带东西两支在该研究区表现出不同的断裂性质,西支断裂表现为正断层,东支断裂表现为走滑断层。郯庐断裂是本研究区的主控断裂,通过对本地区地层形态及其组合、断层的剖面形态和空间展布规律的深入研究,揭示了郯庐断裂带在莱州湾地区新生代以来的构造演化历史:古新世—始新世的伸展阶段、渐新世—中新世早期的挤压和右行走滑阶段、中新世中晚期至今的稳定发展阶段,这几个不同时期的演化阶段主要受太平洋板块运动的方向和速度变化的控制。 相似文献
5.
营口-潍坊断裂带新生代运动学特征 总被引:6,自引:0,他引:6
姜建平 《海洋地质与第四纪地质》2008,28(4)
营口-潍坊断裂带在新生代时期对渤海湾盆地东部构造、沉积及油气成藏规律等方面具有重要影响和控制作用.依据大量实际地震资料,从剖面上识别出了花状构造、丝带效应、反转构造等营口-潍坊断裂带新生代时期走滑活动的标志,在平面上识别出了4种组合构造样式,在此基础上,应用拉分盆地走滑量计算的理论模型,对营口-潍坊断裂带新生代时期的走滑位移量进行了初步估算,认为营口-潍坊断裂带在新生代时期具右旋走滑活动特征,其主要走滑活动表现为3期,分别为始新世早期、渐新世早-中期和上新世晚期-第四纪,新生代累计右旋走滑位移量约为10~20 km. 相似文献
6.
琼东南盆地深水区松南-宝岛凹陷反转构造带发育特征及油气地质意义 总被引:1,自引:1,他引:0
利用新三维地震资料对松南-宝岛凹陷反转构造带发育特征、形成期次进行研究,并从构造背景及力学机制两个方面探讨反转构造的成因机制。研究结果表明,松南-宝岛凹陷反转构造带主要发育一系列"上凸下凹"的大型褶皱背斜,伴生NWW向弱走滑断裂构造和NNW向张剪构造。反转构造及其伴生构造符合NEE右旋剪切应力场特征,形成时间与东沙运动一致,表明该反转构造带可能受晚中新世南海东北部东沙运动产生的右旋走滑应力场作用控制。反转构造有利于研究区圈闭的重建和改造,对琼东南盆地东部新区油气运移和重新优选分配的认识,具有重要的油气地质意义。 相似文献
7.
基于渤海辽北地区钻井资料和三维地震资料精细解释,对走滑断裂发育特征开展精细研究,并进一步完成对走滑转换构造的宏观判识和精细刻画,总结走滑转换构造对圈闭样式的差异控制作用。研究结果表明:(1)辽北地区断裂体系整体表现出强烈的右旋走滑性质,在走滑断裂叠接带、弯曲、尾端等构造位置,因构造应力调整而发育大量走滑转换构造;(2)依据走滑转换带的力学性质划分为增压型和释压型2大类,每一大类依据断裂空间展布关系进一步细化为单支弯曲型和双支叠复型,其中,单支弯曲型表现为单条走滑断层平面呈现“S”型变形,双支叠复型则表现为右旋左阶或右旋右阶;(3)增压型和释压型走滑转换构造控制发育的圈闭类型分别以断背斜和断块构造圈闭为主,增压型走滑转换构造控制的圈闭相对于释压型具有更大的勘探潜力。该研究丰富了走滑转换构造体系,填补了辽北地区走滑转换构造研究的空白,对渤海海域郯庐走滑断裂带油气勘探具有一定的借鉴指导意义。 相似文献
8.
1郯庐断裂带的构造特征
1.1右旋走滑
郯庐断裂具有几个右旋走滑特点:①比较平直,弯曲性不大;②花状构造;③区域性延伸的雁列式褶皱和断层;④地震相发生突然改变;⑤单个断层由正到逆的变化。 相似文献
9.
惠民凹陷走滑构造特征及其对油气的控制 总被引:1,自引:0,他引:1
济阳坳陷内广泛分布着走滑构造系统,其形成主要受控于其东边的郯庐断裂带。通过详细的地震解释,得出了济阳坳陷深层的绝大多数走滑构造以负花状构造为特征,表现出离散式走滑或走滑伸展型断裂性质,且多是在早期正断层的基础上继承发育。平面上主要以NNE向与NE向展布。 相似文献
10.
《热带海洋学报》2017,(5)
为深入理解被动大陆边缘凹陷斜坡断裂的构造特征和演化机制,利用最新的三维地震资料分析珠江口盆地白云凹陷北坡带的断裂发育特征,应用断层生长指数研究断裂的活动期次,结合断裂活动期间的沉积响应特点,分析断层发育演化机制。结果显示,白云凹陷北坡断裂走向以NWW向为主,发育部分NEE至近E—W向小断裂;断层倾角较陡,单条断层剖面形态主要为板式断层,组合构造样式主要呈阶梯状和"X"形断裂组合样式;裂后阶段主要有23.03~21Ma和19.1~15.97Ma和10~2.59Ma三期活动,其中10Ma后断层活动强度显著增大。断裂走向研究表明新生代区域伸展应力场由近N—S向向NNE向顺时针偏转,偏转角度约为8°。相对于陆架凹陷发育的断裂,位于陆坡深水区白云凹陷断裂体系特点主要是断裂活动时间较长且活动强度多变。研究表明,白云凹陷北坡裂后断裂的发育演化主控因素是主凹持续强烈的热沉降,南海扩张对北缘的弱挤压作用也是重要的影响因素,南海块体和西菲律宾海板块的汇聚活动则对断裂构造活化有重要影响。白云北坡的沉积发育对构造活动具有较为明显的响应,尤其是裂后第三期的构造活化期,受东沙运动影响,表现为一系列水道下切、深水沉积滑塌和削截抬升,根据其变形特点,推测东沙运动的构造应力主要来自东侧。 相似文献
11.
华北板块东部新生代断裂构造特征与盆地成因 总被引:22,自引:3,他引:19
华北板块东部新生代的构造特征及动力学演化主要受左行郯庐断裂带和右行兰考-聊城-台安-大洼-法哈牛断裂带的控制。这两条断裂都是新生代岩石圈断裂。在兰考-聊城-台安-大洼-法哈牛断裂带以西,新生代伸展盆地为NNE走向的铲形正断层控制的箕状断陷;两断裂之间为北断南超的NWW走向的断陷盆地;郯庐断裂以东的北黄海盆地为南断北超的Nww走向的断陷盆地。这些构造特征继承了该区中生代的构造格局,但其构造性质发生了根本变化,在这两条走滑方向相反的断裂带控制下,这两条断裂带内古近纪以张扭作用下的裂陷为主,随后以伸展断陷为主,第四纪沿两断裂带局部发生挤压,而鲁西地块和渤海湾盆地区仍然为伸展正断。渤海湾盆地及邻区这些新生代复杂的断块或断裂构造格局受控于应力-应变-基底格局3个基本要素。 相似文献
12.
The Qiongdongnan Basin has the first proprietary high-yield gas field in deep-water areas of China and makes the significant breakthroughs in oil and gas exploration. The central depression belt of deep-water area in the Qiongdongnan Basin is constituted by five sags, i.e. Ledong Sag, Lingshui Sag, Songnan Sag, Baodao Sag and Changchang Sag. It is a Cenozoic extensional basin with the basement of pre-Paleogene as a whole. The structural research in central depression belt of deep-water area in the Qiongdongnan Basin has the important meaning in solving the basic geological problems, and improving the exploration of oil and gas of this basin. The seismic interpretation and structural analysis in this article was operated with the 3D seismic of about 1.5×10~4 km~2 and the 2D seismic of about 1×10~4 km. Eighteen sampling points were selected to calculate the fault activity rates of the No.2 Fault. The deposition rate was calculated by the ratio of residual formation thickness to deposition time scale. The paleo-geomorphic restoration was obtained by residual thickness method and impression method. The faults in the central depression belt of deep-water area of this basin were mainly developed during Paleogene, and chiefly trend in NE–SW, E–W and NW–SE directions. The architectures of these sags change regularly from east to west: the asymmetric grabens are developed in the Ledong Sag, western Lingshui Sag, eastern Baodao Sag, and western Changchang Sag; half-grabens are developed in the Songnan Sag, eastern Lingshui Sag, and eastern Changchang Sag. The tectonic evolution history in deep-water area of this basin can be divided into three stages,i.e. faulted-depression stage, thermal subsidence stage, and neotectonic stage. The Ledong-Lingshui sags, near the Red River Fault, developed large-scale sedimentary and subsidence by the uplift of Qinghai-Tibet Plateau during neotectonic stage. The Baodao-Changchang sags, near the northwest oceanic sub-basin, developed the large-scale magmatic activities and the transition of stress direction by the expansion of the South China Sea. The east sag belt and west sag belt of the deep-water area in the Qiongdongnan Basin, separated by the ancient Songnan bulge, present prominent differences in deposition filling, diaper genesis, and sag connectivity. The west sag belt has the advantages in high maturity, well-developed fluid diapirs and channel sand bodies, thus it has superior conditions for oil and gas migration and accumulation. The east sag belt is qualified by the abundant resources of oil and gas. The Paleogene of Songnan low bulge, located between the west sag belt and the east sag belt, is the exploration potential. The YL 8 area, located in the southwestern high part of the Songnan low bulge, is a favorable target for the future gas exploration. The Well 8-1-1 was drilled in August 2018 and obtained potential business discovery, and the Well YL8-3-1 was drilled in July 2019 and obtained the business discovery. 相似文献
13.
1IntroductionThe South China Sea(SCS)is one of the lar-gest marginal seas of the West Pacific.A complexstrike-slip faultsystemdeveloped in the westof SCS,which is trending NW to nearly SN.This fault sys-tem is the strike-slip boundary of Indo-China blockm… 相似文献
14.
During basin burial, interstitial fluids initially trapped within the sedimentary pile easily move under thermal and pressure gradients. As the main mechanism is linked to fluid overpressure, such fluids play a significant role on frictional mechanics for fault reactivation and sediment deformation.The Lodève Permian Basin (Hérault, France) is an exhumed half-graben with exceptional outcrop conditions providing access to barite-sulfide mineralized systems and hydrocarbon trapped into syn-rift roll-over faults. Architectural studies show a cyclic infilling of fault zone and associated bedding-parallel veins according to three main fluid events during dextral/normal faulting. Contrasting fluid entrapment conditions are deduced from textural analysis, fluid inclusion microthermometry and sulfur isotope geothermometer. We conclude that a polyphase history of trapping occurred during Permian syn-rift formation of the basin.The first stage is characterized by an implosion breccia cemented by silicifications and barite during an abrupt pressure drop within fault zone. This mechanism is linked to the dextral strike-slip motion on faults and leads to a first sealing of the fault zone by basinal fluid mineralization.The second stage consists of a succession of barite ribbons precipitated under overpressure fluctuations, derived from fault-valve action. This corresponds to periodic reactivations of fault planes and bedding-controlled opening localized at sulphide-rich micro-shearing structures showing a normal movement. This process formed the main mineralized ore bodies by the single action of fluid overpressure fluctuations undergoing changes in local stress distribution.The last stage is associated with the formation of dextral strike-slip pull-apart infilled by large barite and contemporaneous hydrocarbons under suprahydrostatic pressure values. This final tectonic activation of fault is linked to late basinal fluids and hydrocarbon migration during which shear stress restoration on the fault plane is faster than fluid pressure build-up.This integrated study shows the interplay action between tectonic stress and fluid overpressure in fault reactivation during basin burial that clearly impact potential economic reservoirs. 相似文献
15.
构造样式为盆内各类构造组合的几何形态表达,反映了盆地所处应力场性质变化与构造演化过程。本文基于近5年来针对东海陆架盆地所取得的地震资料解释成果,并综合盆地构造演化特征及其地球动力学背景,对盆地内中生界构造样式进行了系统的分类与总结,详细划分为5类构造样式:伸展构造样式、挤压构造样式、走滑构造样式、反转构造样式和底辟构造样式,并进一步细化为12种构造组合。同时,对东海陆架盆地内西部坳陷、中部低隆起、东部坳陷3个构造单元内的中生界构造样式发育情况分别进行了总结,各类构造样式自西至东具有各异的展布特征。综合盆内中生界构造样式几何学特点与展布特征可见,由于伊佐奈歧板块的俯冲、碰撞作用,区内处于挤压构造环境,进而形成了挤压背斜、断背斜、正反转等构造组合;大洋板块的后退翻卷及板块碰撞、俯冲的远程效应下,区内构造环境以伸展作用为主,形成了一系列NNE向裂陷盆地,发育了丰富的伸展构造组合;走滑-拉分构造的发育较好体现了构造环境的转变,地震剖面上见有花状断裂发育;岩浆底辟构造多发育于拉张环境下,与断裂展布息息相关,多沿NE-NNE向断裂展布。此外,新生代多期构造运动是影响中生界构造样式发育展布的重要因素。 相似文献
16.
南冲绳海槽及其邻域的基底断裂构造 总被引:1,自引:1,他引:0
EW、NEE和NE向基底断裂沿主构造线方向展布,多属张性断裂.基底大断裂宏观上形成和控制了各主构造带的基本构造格架和各具特色的地质构造发育.它们的形成与弧后地慢流上涌和岛弧的旋张掀斜运动而出现的海槽张裂运动密切相关.NW、NNW和NW向基底断裂多属张扭性平移断层.它们对主构造带分割断错,形成和控制了次一级构造区块各具特色的地球物理和地质构造特征.宫古断裂带长期活动,作用十分强烈.它们的形成是由于受来自菲律宾海方向的水平应力作用,地壳作破坏性应力调整的结果. 相似文献
17.
We studied the active deformation zone of the middle strand of the North Anatolian Fault Zone through the southern part of
the Sea of Marmara by means of high-resolution as well as deep seismic reflection data. Our main objective was to investigate
the active deformation within the uppermost sedimentary layers at high resolution as well as deeper sedimentary layers, focusing
on the tectonic and stratigraphic setting between Gemlik and Bandırma. The middle strand of the North Anatolian Fault reaching
the Gulf of Gemlik is a main fault which has a lazy-S shape in the Gulf of Gemlik, and extends westwards to Bandırma as a
main fault which is an E–W-trending single right-lateral fault controlling the zone along the Gemlik and Bandırma sub-basins.
Small-scale faults, consistent with a dextral shear regime, are present in the vicinity of the main fault. Several oblique
fault groups parallel to the main fault were detected. The deformation in the Gulf of Gemlik is characterized by a series
of synthetic and antithetic faults emanating from the main fault. The boundary faults in the Gulf of Gemlik have a compressive
component, which indicates the sill areas of the gulfs of Gemlik and Bandırma to be push-up structures. Four seismic stratigraphic
units were identified in the sediments of the gulfs of Gemlik and Bandırma, providing evidence of tectonic influence. The
present tectonic structure between Gemlik and Bandırma is not a pull-apart structure. The microseismic study in this area
has shown that fault planes are either strike-slip or compressional, and that the stress tensor is compatible with pure strike-slip
in the E–W fault system. 相似文献
18.
阳江-一统东断裂是珠江口盆地西部一条重要的NW向区域大断裂,是盆地东西分块的重要分界线。南海北部陆缘在新生代经历了大陆裂谷-裂离-海底扩张-热沉降的过程,阳江-一统东断裂在新生代的活动是这一复杂过程的一部分。对分处断裂两侧的从陆架延伸至洋陆边界的两条NNW向多道地震剖面进行了地质解释,研究了珠江口西部的构造和沉积特征。利用2D-Move软件及构造回剥法建立了平衡剖面模型,计算了断层活动速率,结合构造位置、构造演化史、标志构造和应力分析推断了阳江-一统东断裂在新生代的活动史。结果表明,阳江-一统东断裂可以中部坳陷带为界分为两段,从65Ma到32Ma,断裂整体表现为左旋活动,继承了断裂在中生代时期的先存左旋走滑,其中,在此时期断裂南段主要表现为伸展活动,伴随着轻微的左旋走滑,这种伸展活动控制了云开低凸起的形成和演化;从32Ma到23.8Ma,断裂北段的左旋走滑活动持续,而南段逐渐转为轻微的右旋走滑或左旋活动停止。在23.8Ma之后,断裂南段的右旋走滑活动持续,北段的左旋走滑逐渐停止,或转为轻微的右旋走滑。阳江-一统东断裂的这种走滑旋向的转变可能与在珠江口盆地南部洋陆过渡带区域的岩浆底侵作用有关。根据对盆地构造活动强度和裂谷格架的分析,认为阳江-一统东断裂的新生代活动在珠江口盆地裂谷伸展过程中起到了应力调节的作用。 相似文献