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1.
临清坳陷东部中,新生代构造演化特征 总被引:1,自引:0,他引:1
临清坳陷东部是一个中,新生代断陷。早三叠世该区为一台坳,晚三叠世褶皱抬升,侏罗纪一早白垩世为NW走向的拉分盆地,晚白垩世的左旋挤压其再次褶皱,抬升。早第三纪的裂陷作用使其拉张伸展,断块通过水平伸展。差异升降和掀斜运动形成了伸展构造系统,使坳陷最终形成两凹一凸的构造格局和5种结构形式,晚第三纪以后,该区则以整体拗陷为特征。该区中,新生代的构造演化可划分为4个旋回或阶段,即三叠纪的台拗旋回,侏罗-白垩 相似文献
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燕山东段~下辽河地区中新生代断裂演化与构造期次 总被引:5,自引:3,他引:2
通过对燕山东段~下辽河盆地中新生代断裂演化分析,认为中新生代该区共经历了中三叠世末,早侏罗世末,晚侏罗世末,白垩纪末和老第三纪末5期挤压作用。每期挤压作用都形成相应的挤压构造形迹,使得早期盆地萎缩或消亡,或对早期盆地进行改造使其反转。此外,该区还曾经历了中晚侏罗世,白垩纪和新生代3个明显的伸展作用阶段,形成中晚侏罗世断裂盆地,白垩纪断陷盆地和新生代裂谷盆地,构造演化过程中挤压作用和伸展作用交替出现 相似文献
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M盆地位于塔拉斯—费尔干纳(卡拉套)大型走滑断裂最北端,构造特征表明其具有复杂的形成演化过程。笔者从控盆断裂的发育历史出发,分析了盆地发育的构造背景,厘定了盆地类型,进一步研究了盆地演化特征。研究结果表明,控盆断裂受板块构造运动影响,存在早期左行走滑和后期右行走滑;M盆地为早中侏罗世的走滑-拉分盆地,属于走滑-伸展叠瓦扇构造系统。盆地中新生代地质演化大体经历了初始张裂(晚三叠世)、断陷发育(早中侏罗世)、断坳转换(晚侏罗世)、坳陷发育(白垩纪)和萎缩隆起(古近纪)等5个阶段,其中早中侏罗世为盆地断陷伸展、沉积与沉降的主要时期,白垩纪主要为坳陷期。 相似文献
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济阳盆地中生代构造特征与油气 总被引:62,自引:6,他引:56
济阳盆地中生代构造主要包括:印支期NW向压性构造(褶皱及逆断层)、消亡的NW向负反转半地垒及半地堑、燕山期ENE向压性构造(褶皱或逆断层)、SN向地垒。印支期NW向压性构造是华北板块同扬子板块的聚敛运动的产物,而NW向负反转地垒和地堑、ENE向压性构造及SN向地垒导源于郯庐断裂的左旋剪切作用,新生代郯庐断裂右旋剪切运动导致上述构造消亡并成为隐伏构造。中生代隐伏构造为济阳盆地深层勘探提供了潜山圈闭( 相似文献
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塔里木盆地东南缘中新生代变形史与构造演化 总被引:9,自引:1,他引:8
通过野外地质调查、地球物理资料解释和沉积相特征分析,构建了塔里木盆地东南缘地区地质大剖面。在平衡恢复的基础上,探讨了中新生代构造变形历史和盆地构造演化过程。结果表明,塔里木盆地东南缘经历了三叠纪末逆冲推覆变形,早侏罗世伸展变形,晚白垩世晚期-古近纪早期挤压变形,古近纪弱伸展变形和中新世以来逆冲-走滑变形;而塔东南地区盆地构造演化则经历了早侏罗世伸展断陷盆地阶段,中侏罗世-晚白垩世早期坳陷盆地阶段,晚白垩世晚期-古近纪早期挤压-抬升-剥蚀阶段,古近纪弱伸展盆地阶段和中新世以来陆内走滑型挤压挠曲盆地阶段等五个阶段的演化。 相似文献
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燕山东段下辽河地区中新生代盆山构造演化 总被引:8,自引:1,他引:8
笔者通过分析燕山东段--下辽河地区的前中生代构造背景和中新生代盆山构造演化认为,该区中新生代的构造演化过程中在前中生代华北克拉通岩石圈基础上发育起来的克拉通内(陆内或板内)贫田构造与挤压构造的交替演化过程,经历了早--中三叠世、晚三叠世-早侏罗世、中-晚侏罗世、白垩纪、新生代5个盆山构造演化阶段和中三叠世末、早侏罗世末、晚侏罗世末和白垩纪末、老第三纪末5期挤压作用。每次挤压作用都合得早期盆地萎缩或消亡,造成早期盆地反转,中--晚侏罗世、白垩纪和新生代三个阶段的伸展作用形成中--晚侏罗世断陷盆地、白垩纪断陷盆地和新生代裂谷盆地。在这一构造演化过程中,挤压作用和伸展作用交替出现,挤压构造和伸展构造间互发育。 相似文献
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郯庐断裂带伊通段新生代构造演化特征及其控盆机制 总被引:1,自引:0,他引:1
郯庐断裂带伊通段的构造活动对伊通盆地的形成与油气分布具有重要控制作用。通过对最新的地震、钻井、物探、露头等资料分析,认为郯庐断裂带伊通段新生代以来的构造演化可划分为三个阶段,即:古新世-始新世中期的左旋走滑挤压阶段、始新世中期-渐新世末期的右旋走滑伸展阶段和中新世-第四纪的右旋走滑和隆升阶段。其中第二阶段为主成盆期,控盆断裂活动特征具有南早北晚、由南向北迁移的规律,盆地沉积中心因此也从南西向北东迁移并靠近西北缘主断裂;第三阶段为盆地反转期,控盆断裂发生右行压扭和隆升,盆地东南缘发生拱张使得万昌构造带等早期形成的构造高部位油气藏遭受破坏,而盆地西北缘受侧向挤压则形成宽2~4km的西北缘断褶带,具有良好油气成藏条件和勘探潜力,是盆地新的找油领域。 相似文献
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济阳坳陷中生代盆地演化及其与新生代盆地叠合关系探讨 总被引:61,自引:2,他引:59
济阳坳陷中生代盆地演化受控于欧亚构造域的板块拼接挤压和滨太平洋构造域及其郯庐断裂活动两种动力学背景。早、中三叠世,作为华北大型内陆沉积盆地的一部分,沉积了近2000 m厚的地层;晚三叠世,主要受控于扬子板块与华北板块挤压碰撞所产生的挤压应力场,处于抬升剥蚀状态,早、中三叠世沉积的地层几乎剥蚀殆尽,并开始发育多条NW向逆冲断层;早、中侏罗世是对晚三叠世挤压逆冲断层和褶皱所造成的本区地势高低起伏的一个截凸填凹、填平补齐的过程;晚侏罗世—白垩纪,受郯庐断裂左行走滑的影响,济阳坳陷区前期形成的NW向逆冲断层,发生构造反转,反向伸展,形成了一系列半地堑。控盆断层为NW向的中生代盆地,与控盆断层为NE(或NNE)向的新生代盆地里相干型叠合,可划分出中坳新拗、中坳新隆、中隆新坳、中隆新隆4种叠合单元类型,不同类型的叠合单元经历了不同的沉降史,具有不同的石油地质意义。 相似文献
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《地质科技情报》2017,(1)
北黄海盆地是我国海域勘探程度较低的含油气盆地,断裂构造极其发育并对盆地的沉积构造演化及油气成藏具有重要控制作用。通过对北黄海盆地东部坳陷最新三维地震资料精细构造解释,系统研究了该区的断裂构造类型、特征及其成因演化。断裂构造类型按运动学特征可分为正断层、逆断层、扭动断层和反转断层;按断层级别与规模可分为一级控盆断层、二级控凹断层、三级控带断层、四级控圈断层和五级层内或层间小断层。研究区主要发育了北西向、北东向、近南北向和近东西向4组断层,平面组合样式有平行式、斜交式、雁列式、斜列式等;断裂剖面形态有犁式、座椅式、坡坪式、平直式等,剖面组合样式包括伸展性质的地堑、地垒、"Y"字形、反"Y"字形、复合"Y"字形、同向断阶、反向断阶、"入"字形、羽状、帚状、树枝状、梳状和扭动性质的似花状、半花状以及挤压性质的叠瓦状。中-新生代断裂活动主要有6个地质时期:1中侏罗世-晚侏罗世伸展活动;2侏罗纪末期挤压反转;3早白垩世弱伸展活动;4始新世-早渐新世伸展活动;5晚渐新世伸展活动;6新近纪弱伸展活动。北黄海盆地东部坳陷中、新生代构造演化经历了多期伸展-反转挤压(隆升)构造旋回,上述断裂分期差异活动是周边板块运动和深部地质作用双重控制的结果。 相似文献
11.
郯庐断裂带的形成与演化:综述 总被引:81,自引:0,他引:81
从历史的与整体的观点出发,综合了地质、地貌、地球化学与地球物理的资料,系统地研究了郯庐断裂带各阶段的形态学、运动学以及动力学机制。认为此断裂带开始形成于中、晚三叠世,其长度小于1500km,切割深度小于15~20km,此时最大左行走滑断距为430km左右。侏罗纪(208~135Ma)与中始新世-渐新世(52~23.3Ma),此断裂带表现为逆断层活动,断层面受挤压较紧闭。白垩纪-早始新世(135~52Ma),郯庐断裂呈现为略带右行走滑的正断层(走滑断距不超过100km),郯庐断裂带与其北部切割深度约为30~40km。中新世-更新世(23.3~0.73Ma)断裂带表现为带有左行走滑的正断层,走滑断距约50km,断裂带切割深度在50~80km之间。中更新世(0.73Ma以来)断裂带又变成略带右行走滑的逆断层,走滑断距不足100m。由于断裂带形成以来的剥蚀深度不大,地表的断层岩都是碎裂岩与断层泥。沿此断裂带在早白垩世构成了中国东部重要的内生金属成矿带。 相似文献
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Quantitative studies on the extension and subsidence of the Wanan Basin were carried out based on available seismic and borehole data together with regional geological data.Using balanced cross-section and backstripping techniques,we reconstructed the stratigraphic deposition and tectonic evolution histories of the basin.The basin formed from the Eocene and was generally in an extensional/transtensional state except for the Late Miocene local compressoin.The major basin extension ocurred in the Oligocene and Early Miocene(before ~16.3 Ma) and thereafter uniform stretch in a smaller rate.The northern and middle basin extended intensely earlier during 38.6–23.3 Ma,while the southern basin was mainly stretched during 23.3–16.3 Ma.The basin formation and development are related to alternating sinistral to dextral strike-slip motions along the Wanan Fault Zone.The dominant dynamics may be caused by the seafloor spreading of the South China Sea and the its peripheral plate interaction.The basin tectonic evolution is divided into five phases:initial rifting,main rifting,rift-drift transition,structural inversion,and thermal subsidence. 相似文献
13.
中新生代辽河盆地的形成和发展受控于多期区域应力场变化。对构造现象、火山活动、层序充填型式等多种实际资料的分析表明:辽河盆地经历了侏罗纪末-白垩纪早期、古新世中后期、始新世中后期、中新世等右旋张扭应力场作用阶段,以及白垩纪晚期-古新世初期、始新世早中期、渐新世、上新世以来等左旋压扭应力场作用阶段。区域应力场变化可以用地球自转速度变化引起的岩石圈板块活动及触发的深部过程来解释,亦与先期构造形迹和盆地边界条件有关。不同区域应力场的转化不仅导致了盆地演化的旋回性,也为辽河盆地及其邻区中新生代多套含油气层系的形成奠定了物质基础。 相似文献
14.
琼东南盆地新生代发育机制的模拟研究 总被引:5,自引:0,他引:5
琼东南盆地是南海西北陆缘上一个北东走向的伸展裂陷带,向西与北西走向的莺歌海盆地相接,因此其构造演化包含了较多红河断裂走滑活动的信息。综合地质分析与物理模拟实验,我们发现琼东南盆地的发育既受控于南海北部陆缘的南东向—南南东向伸展作用,而且受到红河断裂左行走滑作用的控制和影响。其中,中央坳陷带主要受控于南东至南南东向的伸展作用;南部坳陷带的发育主要受控于琼东南盆地的伸展及其沿北北西向边界断裂右行走滑作用的构造叠加;而北部坳陷带的发育主要受控于北西向断裂左行走滑作用。红河断裂左行走滑作用可能开始于晚始新世,晚于琼东南盆地的伸展裂陷作用,且早期走滑速率应小于琼东南盆地的伸展速率,早渐新世(T70)以后红河断裂左行走滑速率大于琼东南盆地伸展速率,导致琼盆西段的褶皱反转,以及一组北西—北北西走向张剪断裂的发育。 相似文献
15.
This paper deals with the segmentation and inversion of the Hangjinqi fault zone (HFZ), which is the dominant structure in the northern part of the Ordos basin in North China. HFZ was reactivated during the Late Triassic and obliquely inverted during the Middle Jurassic shortening. Subsurface geological mapping and structural analysis were carried out to determine the segmentation and kinematic history of the deformation. The HFZ was a left-stepping fault zone and was made up of three segments: the Porjianghaizi fault (PF), Wulanjilinmiao fault (WF) and Sanyanjing fault (SF), which are separated by two relay ramps. Two distinct phases can be identified in its structural evolution: (1) during the Late Triassic compressional deformation, the HFZ was characterized by shortening and thrusting to the north; and (2) During the Middle Jurassic phase the HFZ was oblique to the extensional fault trends, the reverse faults were reactivated as dextral strike-slip faults as a result of transtensional inversion. The inversion ratio of the HFZ indicates an increase in deformational degree from east to west over the whole region. The first deformation stage resulted from the N–S compression between the South China and North China plates during the Late Triassic. The second deformation stage of compression was related to the west-northwestward subduction of the paleo-Pacific plate during the Middle Jurassic. In the Jurassic deformation framework, the HFZ may be interpreted as an accommodation structure parallel to the Yanshan–Yinshan orogenic belt developed in the northern Ordos area. 相似文献
16.
Philipp Strauss Michael Wagreich Kurt Decker Reinhard F. Sachsenhofer 《International Journal of Earth Sciences》2001,90(3):549-559
The Miocene intramontane Fohnsdorf-Seckau Basin is situated at the junction of the sinistral Mur-Mürz-fault system and the dextral Pöls-Lavanttal fault system. The basin comprises a 2,400-m-thick coal-bearing fluviodeltaic-lacustrine succession (Lower to Middle Miocene, Upper Karpatian?/Lower Badenian) which is overlain by a 1,000-m-thick alluvio-deltaic conglomeratic succession (Apfelberg Formation, ?Middle/Upper Badenian) in the south. A three-stage model for the basin evolution has been reconstructed from structural analysis and basin fill geometries. During a first pull-apart phase, subsidence occurred along ENE-trending, sinistral strike-slip faults of the Mur-Mürz fault system and NE-SW to N-S-trending normal faults, forming a composite pull-apart basin between overstepping en-echelon strike-slip faults. The Seckau and Fohnsdorf sub-basins are considered as two adjacent pull-aparts which merged into one basin. During the second phase, N-S to NNW-SSE extension and normal faulting along the southern basin margin fault formed a half-graben, filled by wedge-shaped alluvial strata (Apfelberg Formation). During the third phase, after the end of basin sedimentation, the dextral Pöls-Lavanttal fault system reshaped the western basin margin into a positive flower structure. 相似文献
17.
剑川盆地第三纪以来地壳变形的地质分析与FT测年 总被引:1,自引:0,他引:1
通过地层沉积、褶皱变形、断裂活动性质转化等分析可以看出:始新世早期,剑川盆地的宝相寺组(Eb)构成轴向近南北向的褶皱和与之相伴的NNE向盆缘主断裂右旋逆推运动;中新世以来,双河组(N1s)地层的褶皱走向为NE向,此期间盆缘主断裂变为左旋逆推性质;上新世以后(N2Q)剑川地壳块体以伸展裂陷为主,伴随地壳的差异隆升,盆缘断裂以正断裂为主,同时有晚上新世粗面岩沿裂隙侵位。裂变径迹测年(简称FT测年,下同)表明:遭褶皱变形的双河组(N1s)地层年龄为(15.8±1.8)Ma;盆缘主断裂的左旋逆推运动发生在(5.4±1.1)Ma,后期正断裂运动发生在(1.6±0.7)Ma;被断裂抬升的剑川组(N2j)和晚上新世(τ6)粗面岩的FT年龄介于(2.4±0.85~3.1±0.5)Ma。上述资料揭示:盆地近EW向挤压作用发生在15Ma.BP,而区内NW向挤压运动发生在(15~5.4)Ma.BP间,后期正断引张运动开始于距今5.4Ma前,强烈活动于(1.5~1.6)Ma.BP。也即区内地壳变形由早期(E3)近EW向挤压经中新世(N2)NW向挤压至上新世(N2)后,则以引张裂陷作用为主。该变形过程可能与印度洋板块推挤、青藏高原隆升及高原物质作SE向流展的地壳动力学过程有关。 相似文献
18.
AbstractThe east Anatolian plateau and the Lesser Caucasus are characterised and shaped by three major structures: (1) NW- and NE-trending dextral to sinistral active strike-slip faults, (2) N-S to NNW-trending fissures and /or Plio-Quatemary volcanoes, and (3) a 5-km thick, undeformed Plio-Quatemary continental volcanosedimentary sequence accumulated in various strike-slip basins. In contrast to the situation in the east Anatolian plateau and the Lesser Caucasus, the Transcaucasus and the Great Caucasus are characterised by WNW-trending active thrust to reverse faults, folds, and 6-km thick, undeformed (except for the fault-bounded basin margins) continuous Oligocene-Quaternary molassic sequence accumulated in actively developing ramp basins. Hence, the neotectonic regime in the Great Caucasus and the Transcaucasus is compressional-contractional, and Oligocene-Quaternary in age; whereas it is compressional-extensional, and Plio-Quatemary in age in the east Anatolian plateau and the Lesser Caucasus.Middle and Upper Miocene volcano-sedimentary sequences are folded and thrust-to-reverse-faulted as a result of compressional- contractional tectonic regime accompanied by mostly calc-alkaline volcanic activity, whereas Middle Pliocene-Quaternary sequences, which rest with angular unconformity on the pre-Middle Pliocene rocks, are nearly flat-lying and dominated by strike-slip faulting accompanied by mostly alkali volcanic activity implying an inversion in tectonic regime. The strike-slip faults cut and displace dykes, reverse to thrust faults and fold axes of Late Miocene age up to maximum 7 km: hence these faults are younger than Late Miocene, i.e., these formed after Late Miocene. Therefore, the time period between late Serravalian (~ 12 Ma) continent-continent collision of Arabian and Eurasian plates and the late Early Pliocene inversion in both the tectonic regime, basin type and deformation pattern (from folding and thrusting to strike-slip faulting) is here termed as the Transitional period.Orientation patterns of various neotectonic structures and focal mechanism solutions of recent earthquakes that occurred in the east Anatolian plateau and the Caucasus fit well with the N-S directed intracontinental convergence between the Arabian plate in the south and the Eurasian plate in the north lasting since Late Miocene or Early Pliocene in places. © 2001 Éditions scientifiques et médicales Elsevier SAS 相似文献
19.
不同于华北克拉通东部普遍存在的NE走向断层,鲁西地块广泛发育一组特征明显的NW走向断层,包括非控盆断层和控盆断层两类。前者位于鲁西地块最南部,倾角相对较陡,错开了古生界及以下地层,下盘太古宇中发育韧性剪切带,断层碎裂岩指示断层存在多期活动;后者位于非控盆断层以北,除蒙山断层外韧性剪切带不发育,倾角相对较缓,控制了中生代以来的沉积。磷灰石/锆石裂变径迹证据分析得出NW走向断层的活动存在差异。断层上、下盘样品磷灰石裂变径迹表观年龄在在67±5~35±2Ma之间,径迹直方图表明样品在冷却过程中没有受到热扰动。通过平均径迹长度-年龄(或香蕉图)图、单颗粒峰值年龄、径迹年龄谱模式以及热史反演模拟综合分析来约束断层的活动时间,结果表明非控盆断层可能在早侏罗世约184Ma开始活动,之后在晚白垩世80~75Ma以及新生代~61Ma和51~43Ma活动,43Ma之后不再活动。控盆断层活动时间稍晚,于早白垩世约141Ma、晚白垩世80~75Ma活动,新生代活动时间为约61Ma、49~42Ma以及36~32Ma。总体上,NW走向断层由早到晚由南向北发育,非控盆断层活动时间早、结束早;控盆断层活动晚、结束晚,并控制了凹陷的向北发育。中生代以来区域构造应力场的变化和郯庐断裂带的走滑作用是导致两类NW走向断层差异演化的根本原因,在深部则受控于晚三叠世以来华北、扬子板块陆陆碰撞和古太平洋板块俯冲方向和速度的改变。印支期后挤压到伸展的转变,加上郯庐断裂带的左行走滑,使靠近华北克拉通南缘的前端NW走向断层首先发育,因倾角较大故不控制盆地发育;向北的后端相对伸展,成为控盆断层,后经早白垩世约141Ma期间的伸展、晚白垩世末80~75Ma和新生代的发育断层最终成型。NW走向断层的这种大致向北迁移的规律,隐示华北克拉通破坏可能始于早侏罗世或晚侏罗世,且由南向北逐渐拆沉。 相似文献