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1.
Amara Masrouhi Olivier Bellier Hemin Koyi 《International Journal of Earth Sciences》2014,103(3):881-900
Detailed geologic mapping, structural analysis, field cross-sections, new dating based on planktonic foraminifera, in addition to gravity signature of Lorbeus diapir, are used to characterize polyphase salt diapirism. This study highlights the role of inherited faulting, which controls and influences the piercement efficiency and the style and geometry of the diapir; and also the localization of evaporite early ascent displaying diapiric growth during extension. Salt was extruded along the graben axis developed within extensional regional early Cretaceous tectonic associated with the North African passive margin evolution. Geologic data highlight reactive diapirism during Albian time (most extreme extension period) and passive diapirism during the late Cretaceous post-rift stage. Northeastern Maghreb salt province gives evidences that contractional deformations are not associated with significant diapirism. During shortening, the initial major graben deforms as complex anticlines where diapirs are squeezed and pinched from their feeding. 相似文献
2.
盐动力层序是指被动盐底辟周缘发育的一套角度不整合地层,是识别盐盆地早期被动底辟的标识。库车地区盐构造由于被上新世区域大规模挤压事件显著破坏,其古新世–中新世的早期演化过程尚存在争议。本文首次将盐动力层序的研究方法运用在库车地区盐构造研究中,并通过对库车褶冲带的博孜敦盐底辟进行野外观察、地层恢复、地震解译后发现,库车地区博孜敦盐底辟南西翼渐新统–中新统发育一套与盐底辟活动相关的沉积层序,小层序之间以角度不整合为界,但随着远离底辟地层之间的接触关系很快变为整合接触,符合直立状复合型盐动力层序的模型。由此认为,库车地区早期被动盐底辟发育,盐构造的演化变形可分为两个期次:早期被动底辟期(渐新世–上新世早期)与后期挤压改造期(上新世–现今)。通过对比物理模拟结果与地震资料解译结果认为,库车地区早期被动底辟作用很可能受控于始新世以来的冲积扇沉积加载作用。 相似文献
3.
根据2-180阶与2-360阶的数字全球模型恢复的卫星重力场数据,主要源于地下18~36 km深处的密度变化,多数大地震的震源也正是位于该层段。 因此卫星重力场资料对于地震研究有很大的意义。笔者详细分析了中国汶川、墨脱、仲巴、伽师和台湾等地的卫星重力资料(这些地区在近几十年来均发生过6级以上的大地震),惊奇地发现,在这些地区,卫星重力场的样式具有极大的相似性,它们表现在:(1)卫星重力场的正负异常值成对出现;(2)震中通常位于重力场峰值间的陡梯度带;(3)由低阶到高阶的重力场正异常的峰值增大而宽度变窄;(4)正、负峰值间的距离随所处的大地构造背景而变; (5)不同应力场壳幔物质底辟的样式不同,从地质上看,高密度壳幔物质的流变底辟作用,可以合理地解释这种独特的样式变化。文中提出高密度生长指数的概念,用以度量密度由深部到浅部的增加。岩石圈断裂带、深大断裂带及多层次滑脱层是壳幔高密度塑性物质底辟活动的优势通道。壳幔物质的非均质性反映了大陆板块构造动力学过程的复杂性。 相似文献
4.
M. Mohr P. A. Kukla J. L. Urai G. Bresser 《International Journal of Earth Sciences》2005,94(5-6):917-940
The Central European Basin is a classic area of salt tectonics, characterized by heterogeneous structural evolution and complex
salt movement history. We studied an area on its SW margin, based on prestack depth-migrated 2D and 3D seismic data. We use
seismic interpretation and retro-deformation to obtain a better understanding of salt tectonics, structural control, and sedimentary
response in this region. The first phase of salt tectonic evolution started with two main events of NW–SE extension and rafting
in the Triassic before the Upper Bunter and before the Upper Muschelkalk. Rafting was accompanied by first salt diapirism
and an increased sedimentary thickness adjacent to the salt structure. After salt supply ceased updip to the salt structure,
a mini-basin grew in the intra-raft area. This sedimentary differential loading caused salt movement and growth of a pillow
structure basinward. The second phase of salt movement was initiated by the formation of a NNW–SSE striking basement graben
in the Middle Keuper that triggered reactive diapirism, the breakthrough of the pillow’s roof and salt extrusion. The following
downbuilding process was characterized by sedimentary wedges with basal unconformities, onlap structures and salt extrusions
that ceased in the Jurassic. The third and latest phase of salt tectonic evolution was activated in the Late Cretaceous to
Lower Tertiary by compressional tectonics indicated by salt rise and a small horizontal shortening of the diapir. The interpreted
salt tectonic processes and the resulting geometries can now be better tied in with the regional heterogeneous framework of
the basin.
Unfortunately, the entire article was originally published Online First with errors. The publishers wish to apologize for this mistake. The correct article is shown here.
The online version of the original article can be found at 相似文献
5.
东营凹陷盐底辟作用与中央隆起带断裂构造成因 总被引:23,自引:10,他引:13
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。 相似文献
6.
7.
Hongwei Yin Jie Zhang Lingsen Meng Yuping Liu Shijing Xu 《Journal of Structural Geology》2009,31(9):989-995
Geological mapping, seismic analyses, and analogue experiments show that active salt diapirism results in significant faulting in the overburden strata. Faults associated with active diapirism generally develop over the crest of the dome and form a radial pattern. In this study, we have created a 3-D discrete element model and used this model to investigate the fault system over active diapirs. The model reproduces some common features observed in physical experiments and natural examples. The discrete element results show that most faults initiate near the model surface and have displacement decreasing downward. In addition, model results indicate that the earliest fault, working as the master fault, has a strong influence on the subsequent fault pattern. The footwall of the master fault is mainly deformed by arc-parallel stretching and develops a subradial fault pattern, whereas the hanging wall is deformed by both arc-parallel stretching and gliding along the master fault and top of salt, and hence develops both parallel and oblique faults. Model results replicate the fault pattern and deformation mechanism of the Reitbrook dome, Germany. 相似文献
8.
YIN Xiulan Institute of Geomechanics Chinese Academy of Geological Sciences Beijing China LI Sitian China University of Geosciences Wuhan China YANG Jihai ZHANG Qiming China Offshore Oil Nahai Weast Corp. Zhangjiang China 《Continental Dynamics》2000,(1)
1. Introduction In recent years, growing attention has been focused on diapirs because of their significance to hydrocarbon accumulation in basins (Barber & Brown, 1988; Martin Hovland et al., 1989; Law et al., 1989; Collier et al., 1990; Lewis et al., 1994; Carmelo Monaco et al., 1996; Hieke et al., 1996; Hieke et al., 1996; Lewis et al., 1996; Limonov et al., 1996; Gallardo & Blackwell, 1999). With more and more effort devoted to the studies of the northern continental marginal basins … 相似文献
9.
Alik Ismail-Zadeh Igor Tsepelev Chistopher Talbot Alexander Korotkii 《Tectonophysics》2004,387(1-4):81-103
Numerical studies of ductile deformations induced by salt movements have, until now, been restricted to two-dimensional (2D) modelling of diapirism. This paper suggests a numerical approach to model the evolution of three-dimensional (3D) salt structures toward increasing maturity. This approach is also used here to restore the evolution of salt structures through successive earlier stages. The numerical methodology is applied to study several model examples. We analyse a model of salt diapirs that develop from an initial random perturbation of the interface between salt and its overburden and restore the evolved salt diapirs to their initial stages. We show that the average restoration errors are less than 1%. An evolutionary model of a 2D salt wall loaded by a 2D pile of sediments predicts a decomposition of the salt wall into 3D diapiric structures when the overburden of salt is supplied by 3D synkinematic wedge of sediments. We model salt extrusion feeding a gravity current over the depositional surface and estimate an average rate of extrusion and horizontal velocity of salt spreading. Faulting of the overburden to salt overhangs initiates new secondary diapirs, and we analyse the growth of these secondary diapirs. We also study how lateral flow effects the evolution of salt diapirs. The shape of a salt diapir can be very different if the rate of horizontal flow is much greater than the initial rate of diapiric growth solely due to gravity. We discuss the applicability of the results of the models to the evolution of Late Permian salt structures in the Pricaspian basin (Russia and Kazakhstan). These structures are distinguishable into a variety of styles representing different stages of growth: salt pillows, diapirs, giant salt massifs, 2D diapiric walls and 3D stocks complicated by large overhangs. The different sizes, shapes and maturities of salt structures in different parts of the Pricaspian basin reflect areal differences in salt thickness and loading history. Our results suggest that the numerical methodology can be employed to analyse the evolution of all salt structures that have upbuilt through younger ductile overburdens. 相似文献
10.
渤海海域莱州湾凹陷盐构造成因探讨 总被引:5,自引:4,他引:1
通过分析莱州湾凹陷盐构造特征,盐构造形成动力条件,探讨莱州湾凹陷盐构造成因,讨论了走滑背景下盐岩活动特点。分析表明,莱州湾凹陷盐层构造发育刺穿性盐株和枕状底辟,欠压实、超压破裂、潜伏走滑断层和楔形体的重力扩张促使了莱州湾凹陷盐岩早期流动;渐新世右行走滑阶段,走滑压扭作用下形成刺穿盐株;盐构造活动可分为沙三末期-沙一段沉积期盐流动阶段、中晚渐新世东营沉积时期盐刺穿阶段、中新世-第四纪盐构造再次活化三个阶段。走滑断裂作用下盐岩以流动为主,发育典型的刺穿型盐底辟。 相似文献
11.
Gong Zaisheng China National Offshore Oil Corporation Beijing Yang Jiaming Institute of Petroleum Exploration Development China National Offshore Oil Corporation Gaobeidian Hu Jianwu Hao Fang Faculty of Earth Resources 《中国地质大学学报(英文版)》2001,12(2)
Overpressurehasbeenfoundinabout 180sedimentarybasins(LawandSpencer,1998;Hunt,1990 ) .Themechanismsfortheoverpressuredgenerationandthefluidflowactivitiesinoverpres suredbasinshavebeenthesubjectsofanumberofstudies (Hunt,1996 ;Ortoleva ,1994) .Probably ,themostimportantasp… 相似文献
12.
近年来在八岭山-花园背斜构造翼部有新的油气发现,有必要对其构造性质进行再认识。通过地震解剖,认为渔洋组-新沟嘴组(K2y-Ex)有盐和盐泥两类构造叠置,可进一步划分为盐丘-盐柱多层叠置构造、盐泥丘-盐泥株(柱)构造和盐泥丘构造;盐泥构造的形成是塑化的盐泥岩顺层蠕动使每一单层变厚、多层累加增厚的叠加效应结果,盐泥沿早期断层侵入或底辟导致逆断层的产生,使断层具有下正上逆的特点;差异负荷和火山热对流为其主导动力学机制;渔洋组-沙市组下段(K2y-Es下)盐丘-盐柱产生期为中始新世,主要形成期为晚渐新世,沙市组上段-新沟嘴组(Es上-Ex)盐泥构造产生期为晚渐新世,两者均于更新世基本定型;盐泥构造翼部地层-盐泥封挡和上倾尖灭岩性-盐泥封挡圈闭为潜在的油气藏勘探类型。 相似文献
13.
Overburden deformation associated with halokinesis in the Southern North Sea: implications for the origin of the Silverpit Crater 总被引:1,自引:0,他引:1
Ken Thomson 《Visual Geosciences》2004,9(1):39-47
Gravitational collapse in response to the creation of salt swells and diapirs is a common phenomenon within regions such as the Southern North Sea. Although collapse faulting and slumping of linear salt swell flanks has previously been documented, the existence of concentric collapse structures surrounding diapirs and isolated salt lows is a recently recognised feature. 3-D seismic data from the Southern North Sea demonstrates that concentric collapse faulting around both diapirs and subcircular salt lows is common. The recognition of concentric collapse structures formed in response to salt withdrawal, and adjacent inflation, provides an alternative mechanism for the origin of the proposed Silverpit impact crater. 相似文献
14.
青海东昆仑埃达克岩的构造环境及成矿意义 总被引:4,自引:0,他引:4
东昆仑地区沿昆中深大断裂分布的一些晚三叠世火山岩和花岗岩,具有高Al2O3、Sr、Sr/Y、(La/Yb)N和低Y、Yb含量,弱负至正Eu异常,表现出与埃达克岩(Adakite)相似的地球化学特征,与岩浆混合作用形成的花岗岩(简称浆混杂岩体)时空伴生,其稀土、微量元素特征和同位素组成与底侵作用形成的基性岩有亲缘性。研究表明:东昆仑地区的埃达克质花岗岩和火山岩不是由俯冲的洋壳熔融形成,而是由晚三叠世幔源岩浆的底侵作用形成,该埃达克质火成岩的物质来源与底侵作用形成的基性岩相似,都为富集地幔Ⅱ。埃达克质岩的发现标志着昆中深大断裂向东延入鄂拉山构造带的南端,揭示了昆中深大断裂独特的动力学背景及成矿意义。在埃达克(质)岩的发育地段,多形成了东昆仑最具魅力的矿产集中区,进一步分析初步认为其中的赛什塘铜矿与埃达克质岩及其共生岩石成矿关系密切,有明显斑岩矿床特点,具进一步找矿潜力。 相似文献
15.
Paul Wilson Rob L. Gawthorpe David Hodgetts Franklin Rarity Ian R. Sharp 《Journal of Structural Geology》2009,31(8):759-775
The geometry and architecture of a well exposed syn-rift normal fault array in the Suez rift is examined. At pre-rift level, the Nukhul fault consists of a single zone of intense deformation up to 10 m wide, with a significant monocline in the hanging wall and much more limited folding in the footwall. At syn-rift level, the fault zone is characterised by a single discrete fault zone less than 2 m wide, with damage zone faults up to approximately 200 m into the hanging wall, and with no significant monocline developed. The evolution of the fault from a buried structure with associated fault-propagation folding, to a surface-breaking structure with associated surface faulting, has led to enhanced bedding-parallel slip at lower levels that is absent at higher levels. Strain is enhanced at breached relay ramps and bends inherited from pre-existing structures that were reactivated during rifting. Damage zone faults observed within the pre-rift show ramp-flat geometries associated with contrast in competency of the layers cut and commonly contain zones of scaly shale or clay smear. Damage zone faults within the syn-rift are commonly very straight, and may be discrete fault planes with no visible fault rock at the scale of observation, or contain relatively thin and simple zones of scaly shale or gouge. The geometric and architectural evolution of the fault array is interpreted to be the result of (i) the evolution from distributed trishear deformation during upward propagation of buried fault tips to surface faulting after faults breach the surface; (ii) differences in deformation response between lithified pre-rift units that display high competence contrasts during deformation, and unlithified syn-rift units that display low competence contrasts during deformation, and; (iii) the history of segmentation, growth and linkage of the faults that make up the fault array. This has important implications for fluid flow in fault zones. 相似文献
16.
Radhouane Khouni Mohamed Sabri Arfaoui Soufiane Dridi Fouad Zargouni 《Arabian Journal of Geosciences》2018,11(4):68
During the Mesozoic and Cenozoic rifting, the Pelagian Sea recorded the consequences of the African and European plate’s rapprochement. The interpretation of surface and subsurface data that is the 2D seismic reflection and petroleum well data show new ideas on the geodynamic evolution and halokinesis of the Jeffara basin during the Mesozoic and Cenozoic period. Seismic lines interpretations of the subsurface mainly reveal normal syn-sedimentary NW-SE faulting and where the Jeffara fault seems to be the major play. This syn-sedimentary faulting induced horst and graben structures materialized by major sedimentary sequences thicknesses as well as depths variations on the seismic profiles from the Jeffara fault zone overall towards the East of Jeffara basin. After the Hercynian event of the Permian - Carboniferous age, a general extension took place, which gave rise to the Tethyan opening. This extension has favored the individualization of the Jeffara basin in the South East of Tunisia, characterized by a structuring in Horst and Graben with a Permian carbonate subsidence. During the Triassic - Middle Jurassic period, the Jeffara basin is marked by a pronounced subsidence of essentially evaporate sedimentation accompanied by the birth of normal syn-sedimentary NW-SE faults following an NE-SW extension. This subsidence continuing during the Upper Jurassic period, the accentuation of which is towards the NE of the study zone at the Jerba and El Bibane sub-basin with a dominance of bioclastic limestone and dolomites sedimentation in the same extensive NE-SW direction, during this period, the Jeffara basin was characterized by a beginning of salt activity indicated by the appearance of salt nuclei at the base of the preexisting NW-SE normal faults. During the Lower Cretaceous, we are witnessing an individualization of salt complexes in the SE of the study area at Rass Ajil sub-basin, where this reactive diapirism has produced high zones and erosions in the crest above the salt bodies. During the mid Cretaceous period, the Zebbag formation, hatched by the Gattar carbonate bar, recorded a subsidence inversion phenomenon between the three sub-basins Jerba, El Bibane and Rass Ajil sub-basin, and showed the change of movement of the African plate relative to the European plate related to the opening of the North Atlantic and the beginning of the drift towards the North of Africa. This phenomenon is concretized towards the Upper Cretaceous, where we witness a strong subsidence towards the southeastern part of the study area at Rass Ajil sub-basin with sandstone, marl and clay sedimentation under a regional extensive regime and the individualization of high zones at Jerba sub-basin. The salt movements present an active aspect by piercing their cover and inducing rim synclines in the surroundings. The Cenozoic period is characterized by a strong subsidence of sandstone, clays and carbonates along the Jeffara basin, the salt activity shows a passive aspect at the beginning of this period which slows down and eventually stopped at the late Miocene period, thus indicating the probable exhaustion of the source of the salt material. 相似文献
17.
Faults in the upper crust initiate from pre-existing (inherited) or precursory (early-formed) structures and typically grow by the mechanical interaction and linkage of these structures. In crystalline rock, rock architecture, composition, cooling, and exhumation influence the initiation of faults, with contrasting styles observed in plutonic rocks, extrusive igneous rocks, and foliated metamorphic rocks. Brittle fault growth in granitic rock is commonly controlled by the architecture of inherited joints or preexisting dikes. In basalt, abundant joints control the surface expression of faulting, and enhanced compliance due to abundant joints leads to folding and deformation asymmetry in the fault zone. Highly reactive mafic minerals likely become rapidly evolving fault rocks. In foliated metamorphic rocks, fault initiation style is strongly influenced by strength anisotropy relative to the principal stress directions, with fracturing favored when the foliation is aligned with the directions of principal stress. The continuity of micas within the foliation also influences the micromechanics of fault initiation. Brittle kink bands are an example of a strain-hardening precursory structure unique to foliated rock. Each of these fault initiation processes produces different initial fault geometry and spatial heterogeneity that influence such properties as fault permeability and seismogenesis. 相似文献
18.
潜江凹陷位于江汉盆地的中部,潭口油田靠近潜北大断层.通过勘探开发,根据测、钻井资料及生产动态数据发现,该区地层厚度在短距离内发生较大变化,砂体间的侧向连续性差,范围小.该地区盐岩十分发育,根据地震剖面以及盐层的发育,分析该地区产生一系列盐构造的类型,分别有盐层滑脱带以及滑脱断层、盐隆构造、盐辟构造等几种类型.该地区的盐构造的成因机制主要为走滑作用,根据盐构造的类型,成因机制可分为盐层滑脱作用、盐层隆升作用以及盐层刺穿作用.将盐构造的演化分为3个阶段,分别为荆沙组盐构造孕育期、潜江组潜四-潜三段盐构造生成期、潜江组潜二段-荆河镇组盐构造定型期.盐岩的发育以及盐构造的形成,在一定程度上导致目的层砂体侧向连续性差,油层展布范围小,对油气成藏产生影响. 相似文献
19.
潜江凹陷位于江汉盆地的中部,潭口油田靠近潜北大断层.通过勘探开发,根据测、钻井资料及生产动态数据发现,该区地层厚度在短距离内发生较大变化,砂体间的侧向连续性差,范围小.该地区盐岩十分发育,根据地震剖面以及盐层的发育,分析该地区产生一系列盐构造的类型,分别有盐层滑脱带以及滑脱断层、盐隆构造、盐辟构造等几种类型.该地区的盐构造的成因机制主要为走滑作用,根据盐构造的类型,成因机制可分为盐层滑脱作用、盐层隆升作用以及盐层刺穿作用.将盐构造的演化分为3个阶段,分别为荆沙组盐构造孕育期、潜江组潜四-潜三段盐构造生成期、潜江组潜二段-荆河镇组盐构造定型期.盐岩的发育以及盐构造的形成,在一定程度上导致目的层砂体侧向连续性差,油层展布范围小,对油气成藏产生影响. 相似文献
20.
We investigate the structural style and evolution of a salt-influenced, extensional fault array in the Egersund Basin (Norwegian North Sea) through analysis of 3D reflection seismic and well data. Analysis of fault geometry/morphology, throw distribution and syn-kinematic strata reveal an intricate but systematic style of displacement and growth, suggesting an evolution of (1) initial syn-sedimentary fault growth contemporaneous with salt mobilization initiated during the Late Triassic, (2) cessation of fault activity and burial of the stagnant fault tips, and (3) subsequent nucleation of new faults in the cover above contemporaneous salt re-mobilization initiated during the Late Cretaceous, with downward propagation and linkage with faults. Stage 3 was apparently largely controlled by salt mobilization in response to basin inversion, as reactivated faults are located where the underlying salt is thick, while the non-reactivated faults are found where salt is depleted. Based on the 3D-throw analyses, we conclude that a combination of basement faulting and salt (re-) mobilization is the driving mechanisms behind fault activation and reactivation. Even though the sub- and supra-salt faults are mainly geometrically decoupled through the salt, a kinematic coupling must have existed as sub-salt faults still affected nucleation and localization of the cover faults. 相似文献