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被动大陆边缘的含盐盆地多在重力作用下发育薄皮盐构造。这些构造不但记录了盆地的演化过程,而且往往富含大量的油气资源。因此,被动陆缘盐构造是学术界与工业界共同关注的热点。在传统的被动陆缘含盐盆地模型中,盆地主要在重力作用下形成上坡的拉张区,下坡的挤压区和两者之间的转移区。近年来,国际学术界围绕重力变形在盆地中的作用机制展开了诸多探讨和研究。重力变形在含盐盆地中主要有盆地倾斜控制的重力滑脱和沉积楔差异负载控制的重力扩展。尽管在演化早期盆地的水深较浅,沉积物厚度较薄,沉积物差异负载的驱动力较弱。但是,由热沉降主导的盆地倾斜在早期倾角较小,其驱动力也不强。因此,这两种变形机制都有可能占据主导地位,而且往往共同控制盆地演化。此外,现有概念模型中盆地中段的转移区在自然界中较为少见。最新研究试图从盐下地貌与沉积模式两个方面来寻找盆地中间地带盐构造广泛发育的原因。最后,由于概念模型是静态的,难以反映构造区迁移和盆地多期次演化的动态特点。在实际的盆地中,被动陆缘盐构造的控制因素可能有多个,所形成的构造样式也较为复杂。总体而言,被动陆缘盐构造的研究进展并未脱离盆地倾斜和沉积物差异负载这两个基本控制因素,但在两者的时空变化上有许多新的发展。此外,相较于盆地倾斜,沉积物这个控制因素的系统性研究较少,可能是下一步研究的重点方向。 相似文献
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Coarse-grained submarine fan and slope apron deposits in a Cretaceous back-arc basin, Antarctica 总被引:1,自引:0,他引:1
J. R. INESON 《Sedimentology》1989,36(5):793-819
The Cretaceous of west James Ross Island, Antarctica represents the proximal fill of a late Mesozoic back-arc basin that was probably initiated by oblique extension during the early development of the Weddell Sea. The succession records sedimentation in two contrasting depositional systems: a laterally persistent slope apron flanking the faulted basin margin interrupted both spatially and temporally by coarse-grained submarine fans. Slope apron deposits are dominated by thinly interbedded turbiditic sandstones and mudstones (mudstone association), interspersed with non-channelized chaotic boulder beds, intraformational slump sheets and isolated exotic blocks representing a spectrum of mass-flow processes from debris flow to submarine gliding. Localized sand-rich sequences (sandstone-breccia association) represent sandy debris lobes at the mouths of active slope chutes. The submarine fan sediments (conglomerate association) are typified by coarse conglomerates and pebbly sandstones, interpreted as the deposits of high-density turbidity currents and non-cohesive debris flows. Three assemblages are recognized and are suggested to represent components of the inner channelled zone of coarse-grained submarine fans, from major fan channels through ephemeral, marginal channels or terraces to levee or interchannel environments. The occurrence of both slope apron and submarine fan depositional systems during the Early and Mid-Cretaceous is attributed to localized input of coarse arc-derived sediment along a tectonically active basin margin. Periods of extensive fan development were probably linked to regional tectonic uplift and rejuvenation of the arc source region; cyclicity within individual fan sequences is attributed to migration or switching of fan channels or canyons. Slope apron sedimentation was controlled largely by intrabasinal tectonics. Local unconformities and packets of amalgamated slide sheets and debris flow deposits probably reflect episodic movement on basin margin faults. Differential subsidence across the basin margin anchored the basin slope for at least 20 Myr and precluded basinward progradation of shallow marine environments. 相似文献
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西非被动大陆边缘重力滑脱构造发育演化及成因机制 总被引:2,自引:1,他引:1
西非被动大陆边缘盆地在晚侏罗世伴随大西洋的裂开而形成,陆内裂陷构造旋回(晚侏罗世-早白垩世阿普特期(Aptian))主要发育陆内裂陷构造;过渡期构造旋回(阿普特期)沉积了一套潟湖相塑性层(盐岩);被动大陆边缘构造旋回(早白垩世阿尔布期(Albian)至今)共发育了两期重力滑脱构造,早白垩世阿尔布期-渐新世发育一期(早期)重力滑脱构造,中新世至今发育了另一期(晚期)重力滑脱构造。西非被动大陆边缘同一期重力滑脱构造具有从早到晚由陆向海的前展式发育规律,且多期重力滑脱构造具有从早到晚由陆向海迁移的进积叠加规律。西非被动大陆边缘重力滑脱构造发育的主要控制因素是大地构造背景、地层掀斜、滑脱面形态,其中大地构造背景控制重力滑脱构造体系类型,地层掀斜是引起地质体重力滑脱和变形的根本、控制构造变形的强度,滑脱面形态控制着重力滑脱构造类型和发育位置;次要控制因素是差异重力负载和塑性滑脱层等。并在此基础上建立了宽缓型凹面斜坡和窄陡型斜坡滑脱面下的西非被动大陆边缘重力滑脱构造成因发育模式。 相似文献
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The western margin of Myanmar is the northern extension the active Sunda (India-Eurasia) subduction zone. Coastal regions and offshore islands have remarkable exposures of chaotic rock terranes along wave-cut terraces that allow characteristics of tectonic, sedimentary and diapiric mélanges to be recognized. Tectonic shear zones (tectonic mélanges) contain fragments of Cretaceous ophiolites (chrome-spinel-bearing peridotites and radiolarian cherts) that are in contact with thrust packets of Eocene turbidite units (broken formations). The turbidites contain shale-rich beds that have been sheared during soft-sediment deformation (sedimentary broken formations) and are sandwiched between undeformed thick sandy beds. These are mass transport deposits (MTDs) that most likely formed during deposition of the initial detritus of the Himalayan orogenic zone, probably trench slope basins on the accretionary prism. The ophiolitic and turbiditic thrust slices have been exhumed and are currently being intruded by active mud volcanoes that bring fragments of units up from depth to the surface, forming diapiric mélanges. These diapiric mélange bodies contain only small fragments (<50 cm) that are randomly oriented and do not exhibit shear fabrics. Because the region lacks superimposed deformation characteristic of most orogenic belts, the origins of all three rock bodies can easily be distinguished. 相似文献
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南沙北部伸展构造的基本特征及其动力学意义 总被引:16,自引:2,他引:14
南沙地块辫啊以中南-美洲断裂为分界,其东、西两侧伸展构造的几何学与运动学表明,晚白垩世至早渐新世,其伸展作用以纯剪切为主;中渐新世至早中新世,伸展带东段转换为简单剪切,西段剪切渐停。伸展作用的主要动力来源于陆缘俯冲板片的拆沉、软流圈地幔热物质乘隙上拱和部分熔融作用及周边板块的相互作用。 相似文献
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川西北磁组构演化及其揭示的应变特征 总被引:5,自引:2,他引:5
对龙门山褶皱冲断带北段前锋带至四川盆地边缘的川西北地区进行了磁组构研究.在江油和广元之间,沿着垂直于龙门山构造走向的4条采样路线,在18个采样点钻取了173个定向样品,样品采自侏罗纪和白垩纪砂岩及粉砂质泥岩.综合分析表明川西北磁组构反映的是新生代的变形,并在研究区域内总结出了3类磁组构:沉积磁组构、初始变形磁组构和铅笔状磁组构.除沉积磁组构之外的所有采样点样品的K1优势方向都是NE-SW向,说明研究区域的最大主压应力方向为NW-SE向,主要来源于龙门山褶皱冲断带.在垂直于龙门山褶皱冲断带构造走向上,从四川盆地到龙门山前锋,磁组构由沉积磁组构逐渐变为初始变形磁组构,直至铅笔状磁组构,说明盆地内部应变十分微弱,靠近造山带应变逐渐增强,且侏罗纪、白垩纪以来研究区的构造变形主要集中在造山带边缘或者还未传递到盆地内部. 相似文献
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C.L. Fergusson 《Journal of Structural Geology》1984,6(3):257-271
The New England Fold Belt of eastern Australia preserves a Palaeozoic fore-arc terrain with a magmatic arc, fore-arc basin and a subduction complex. The Gundahl Complex is a tectonic mélange of regional extent in the subduction complex. The matrix and slabs of the Gundahl Complex have six mappable lithofacies: argillite, greywacke-argillite, greywacke, argillite-tuff, bedded chert and greenstone. The argillite matrix is pervasively sheared with many slickensided shear fractures. Locally the matrix is formed by highly sheared greenstone. Greywacke and greenstone blocks are affected by internal shear zones and the blocks themselves pinch and swell. Folds, in places with axial-surface spaced cleavage, are common within those slabs comprised of well-bedded sequences. Bedding-plane shear and faulting at a high angle to bedding also occur in these slabs. On a map-scale much of the Gundahl Complex comprises slabs up to 10 km long in imbricate fault-bounded slices which repeat the disrupted pre-mélange stratigraphic sequence. Elsewhere there are lithologically distinctive blocks containing thick coherent sequences which are structurally incorporated into the Gundahl Complex. The unit is believed to have formed by accretion, imbrication and subsequent tectonic disruption of arc-derived sediments and less abundant pelagic sediment and greenstone in an ancient subduction complex. 相似文献
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桂中坳陷改造期构造样式及其成因 总被引:6,自引:1,他引:5
桂中坳陷的构造演化一般划分为原型期和改造期两大阶段。改造期主要属于挤压构造样式,目前的研究还相对比较薄弱。从大地构造动力学背景入手,结合区域地质事件,按照盆地发育世代与造山带演化阶段,综合近期野外地质调查与深层地球物理勘探成果等,分析了改造期挤压构造样式。主要有三大区域性冲褶变形构造系,包括大瑶山逆冲推覆构造系,右江逆冲推覆构造系以及雪峰山隆起南缘重力滑覆构造系。总体上,负向地形多褶皱紧闭,正向地形形成相对宽缓的箱状复式背斜褶皱;深层主要发育有基底断裂卷入引发的冲起构造以及与断层相关的断弯、断展、滑动等褶皱样式,浅层有逆冲推覆、纵弯、叠加等褶皱样式。目前桂中坳陷受到东西两侧剪切、向南拉张的应力作用。 相似文献
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The NW–SE-striking Northeast German Basin (NEGB) forms part of the Southern Permian Basin and contains up to 8 km of Permian to Cenozoic deposits. During its polyphase evolution, mobilization of the Zechstein salt layer resulted in a complex structural configuration with thin-skinned deformation in the basin and thick-skinned deformation at the basin margins. We investigated the role of salt as a decoupling horizon between its substratum and its cover during the Mesozoic deformation by integration of 3D structural modelling, backstripping and seismic interpretation. Our results suggest that periods of Mesozoic salt movement correlate temporally with changes of the regional stress field structures. Post-depositional salt mobilisation was weakest in the area of highest initial salt thickness and thickest overburden. This also indicates that regional tectonics is responsible for the initiation of salt movements rather than stratigraphic density inversion.Salt movement mainly took place in post-Muschelkalk times. The onset of salt diapirism with the formation of N–S-oriented rim synclines in Late Triassic was synchronous with the development of the NNE–SSW-striking Rheinsberg Trough due to regional E–W extension. In the Middle and Late Jurassic, uplift affected the northern part of the basin and may have induced south-directed gravity gliding in the salt layer. In the southern part, deposition continued in the Early Cretaceous. However, rotation of salt rim synclines axes to NW–SE as well as accelerated rim syncline subsidence near the NW–SE-striking Gardelegen Fault at the southern basin margin indicates a change from E–W extension to a tectonic regime favoring the activation of NW–SE-oriented structural elements. During the Late Cretaceous–Earliest Cenozoic, diapirism was associated with regional N–S compression and progressed further north and west. The Mesozoic interval was folded with the formation of WNW-trending salt-cored anticlines parallel to inversion structures and to differentially uplifted blocks. Late Cretaceous–Early Cenozoic compression caused partial inversion of older rim synclines and reverse reactivation of some Late Triassic to Jurassic normal faults in the salt cover. Subsequent uplift and erosion affected the pre-Cenozoic layers in the entire basin. In the Cenozoic, a last phase of salt tectonic deformation was associated with regional subsidence of the basin. Diapirism of the maturest pre-Cenozoic salt structures continued with some Cenozoic rim synclines overstepping older structures. The difference between the structural wavelength of the tighter folded Mesozoic interval and the wider Cenozoic structures indicates different tectonic regimes in Late Cretaceous and Cenozoic.We suggest that horizontal strain propagation in the brittle salt cover was accommodated by viscous flow in the decoupling salt layer and thus salt motion passively balanced Late Triassic extension as well as parts of Late Cretaceous–Early Tertiary compression. 相似文献
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Mesozoic structural architecture of the Lang Shan, North-Central China: Intraplate contraction, extension, and synorogenic sedimentation 总被引:3,自引:0,他引:3
The Lang Shan, North-Central China, has experienced a complex Mesozoic to recent history of intraplate deformation and sedimentation. Well-exposed cross-cutting relationships document Jurassic right-lateral strike-slip faulting (transtension) followed by several tens of kilometers of Late Jurassic to Early Cretaceous north-northwest–south-southeast crustal shortening and development of an associated foreland basin. Since the Early Cretaceous, the south-central Lang Shan has undergone two phases of extension. The first, which occurred along north–south oriented structures, may represent collapse of an overthickened crust. The youngest deformation is represented by the active Cenozoic mountain-front normal fault system. This compound history may be the result of the complicated far-field effects of plate interactions combined with structural inheritance in a region adjacent to a rigid and undeformed crustal block, the Ordos block. 相似文献
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胶莱盆地及其邻区白垩纪-古新世沉积构造演化历史及其区域动力学意义 总被引:15,自引:2,他引:13
基于野外和钻孔测井资料分析、火山岩同位素年代学分析 (40Ar-39Ar and SHRIMP U-Pb)、地震剖面的构造解释、断层运动学的野外分析结果,综合研究了胶莱盆地及其邻区白垩纪-古新世沉积构造演化历史。岩性地层分析表明,胶莱断陷盆地由三套地层单元所充填:早白垩世莱阳群和青山群、晚白垩世-古新世王氏群。青山群火山岩的同位素年代学测试结果给出了该火山岩的喷发时代在120~105 Ma。地震剖面的构造解译结果揭示胶莱盆地伸展构造受到深部两个拆离构造系统控制:一个发育于盆地南部地区,拆离断面位于深部8~10 km,向南缓倾于苏鲁造山带之下;另一个拆离系统由一系列北倾的犁式断层组成、分布于宽阔的胶莱盆地北部地区,主拆离面向北倾。这两个拆离系统分别形成于早白垩世莱阳群和晚白垩世-古新世王氏群沉积阶段。通过对不同地层单元断层滑动矢量的野外测量和古构造应力场反演,以及地层时代和同位素年代学测试结果的制约,建立了白垩纪-古新世构造应力场演替的年代序列。结果表明,胶莱盆地在白垩纪-古新世之间经历了伸展-挤压应力体制的交替演化。早白垩世伸展作用经历了两个不同的阶段:早期NW-SE向伸展和晚期近W-E向伸展。在早白垩世末期至晚白垩世初期,盆地遭受NW-SE向挤压,导致了胶莱盆地的缩短变形和郯庐断裂带的左旋走滑活动。晚白垩世-古新世时期,构造应力场转变为N-S向伸展,直到古新世末期,构造应力场转换为NE-SW向挤压。胶莱盆地和沂沭裂谷系白垩纪-古新世沉积构造演化历史对华北地区岩石圈减薄过程的动力学背景提供了重要的构造地质学制约。笔者推断,早白垩世两期引张应力作用是分别对华北地区增厚地壳或岩石圈的重力垮塌和岩石圈拆沉的响应,而早白垩世末期NW-SE向挤压记录了古太平洋板块与亚洲陆缘俯冲碰撞产生的远程效应。晚白垩世-古新世的引张伸展作用完全不同于早白垩世伸展构造,它指示了沿NNE向郯庐断裂带的右旋走滑活动及其拉分作用,在动力学上受到青藏地区块体的陆-陆碰撞产生的远程效应和古太平洋板块向亚洲大陆俯冲作用的联合应力场控制。 相似文献
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内蒙古苏尼特左旗早白垩世宝德尔花岗岩伸展穹隆的确定及其地质意义 总被引:3,自引:1,他引:2
内蒙古宝德尔穹隆是发育在苏尼特左旗中蒙边境地区的不对称同构造伸展穹隆。该穹隆由内向外由核部早白垩世花岗岩、边缘韧性剪切带和脆性拆离断层组成,上盘为未变形的早二叠世花岗闪长岩、泥盆系片岩和早白垩世盆地,韧性剪切带和拆离断层仅发育在穹隆西南部。区域构造解析和显微构造分析表明,岩体侵位和韧性剪切带形成于同一构造应力场,指示上盘统一向NW方向剪切,变形程度由未变形的岩体核部向外侧逐渐增强,面理的形成与岩体的侵位和隆升过程密切相关。因此,该穹隆和东北亚其他岩浆穹隆相似,是不对称的花岗岩穹隆,反映了区域伸展拆离环境下侵位的同构造花岗岩穹隆的特点。 相似文献
14.
柴达木盆地西南缘与之毗邻的阿达滩盆地对周边造山带构造应力场的变化响应敏感,并有较多的地质记录。中新生代以后,其与阿尔金断裂带同处于统一左行走滑剪切应力场作用之下,构造形迹保存较好。通过对盆地内沉积建造、断裂系性质及区域构造特征的识别分析,推断柴达木盆地西南缘在始新世时构造活动处于南北向挤压环境,而渐新世后则转换为左行平移构造应力之下。推测柴达木西南缘在三维空间上应当存在着来自塔里木地块斜向上的推挤力。通过盆地沉积及构造序列分析,初步建立了该区晚古近纪构造运动阶段性演化模式。 相似文献
15.
西藏甲玛-卡军果推-滑覆构造系特征 总被引:5,自引:0,他引:5
通过矿区填图和路线调查,结合室内研究,指出:①甲玛-卡军果推-滑覆构造系由印度-欧亚板块碰撞引发,具有递进变形、自盆地中心向边部推覆、新盖老等特点,强变形于50Ma±。②推覆体下盘为叶巴组构造岩系;推覆体由上侏罗统和下白垩统碳酸盐-碎屑沉积岩系构成,主体为轴面北倾的复式褶皱,自南而北分为前部带、中部带和后部带。滑覆构造系推覆形成的复背斜轴部高位岩块失稳向北滑覆形成,自南而北分为后部带、中部带和前部带。③导致矿区蚀变的主要岩浆活动发生于推覆强变形后的松弛期,上侵受近南北向基底断裂和推覆断裂联合控制,就位受控于前部带推-滑覆褶断系,其后发生多次构造-岩浆-成矿液叠加,造就甲玛铜多金属矿床。 相似文献
16.
通过柴达木盆地西部茫崖-赛什腾山地表地质、航磁、重力、大地电磁测深和地震资料的综合分析,认为柴达木盆地夹持在昆北地块与赛什腾构造带之间,其中包括柴达木地块与祁连地块南缘2个一级构造单元和昆北地体北缘,柴达木盆地,赛什腾构造带和祁连地块南部的苏干湖盆地等4个二级构造单元。盆地的总体结构表现为东昆仑山和祁连山相向向盆地挤压对冲,盆地中部沉降的构造格局。盆地内部的构造样式以自盆地边缘至中心以此形成背斜构造为显著特征,背斜两翼多发育逆断层,构成“两断夹-隆”的构造格局。挤压应力主要来自南西方向、北东方向起阻挡作用。在两侧造山带的强烈挤压作用下,侏罗纪时期在祁连造山带南缘形成并不典型的前陆盆地,古近纪至新近纪时期则在祁连造山带与昆仑造山带之间形成双侧前陆盆地,第四纪属挤压坳陷盆地。 相似文献
17.
冀北崇礼—赤城地区水泉沟岩体是一个钾质—高钾质的钙碱性、弱碱性和碱性岩石共存的杂岩体。总体上以富碱、准铝、低钙、低钛为特征。稀土、微量元素和同位素特征表明该岩体源于上地幔与下地壳的边界附近,在各类地球化学构造判别图解中大多落于火山弧区。侵位机制分析表明该岩体是拉张作用下的产物。结合同位素年龄,认为水泉沟杂岩体形成于西伯利亚板块和中朝板块碰撞后的应力松弛阶段。 相似文献
18.
渤海湾盆地张巨河复杂断块区平面砂箱模拟实验及其启示 总被引:7,自引:0,他引:7
伸展盆地复杂断块区往往发育多个方向的断层,这种复杂的正断层组合过去有人认为是多期构造矗加作用的结果。本文针对渤海湾盆地张巨河复杂断块区进行了平面砂箱模拟实验。实验结果表明,在基底有先存构造(如基底断裂)的情况下,如果区域伸展方向和先存断裂或基底构造活动(底辟上拱)不协调,通过递进变形就可以形成复杂的断层组合,即复杂的断层组合可以在一个伸展构造期内、在统一的区域伸展构造力作用下在递进变形过程中逐渐形成,复杂断层组合并不一定需要多期变形叠加。在此基础上,结合理论分析,提出了复杂断层组合成因的另一种模式——不协调伸展递进变形模式。该模式为揭示伸展构造系统中复杂断层组合之间的内在联系提供了新的思路。 相似文献
19.
The components of deformation related to endogenic (tectonic) and exogenic (glaciotectonic, gravitational sliding) factors are considered in the sedimentary platform cover by a study of Andoma dislocations in the Upper Devonian sedimentary rocks of the Lake Onega district. These structures are localized in the eponymous segment of the southeastern margin of the Fennoscandian (Baltic) Shield; indications of high tectonic activity are noted along this margin. As has been shown by a structural study, the development of the Andoma structure is caused by long-term (Late Devonian–Quaternary) multistage deformations related to tectonic factors and, to a lesser degree, glaciotectonics. The consecutive stages of synsedimentation normal faulting and landsliding, bedding-plane gliding, various forms of shear flow in a regime of transpression, glaciotectonic thrusting, and neotectonic transpression are recognized in the deformation history. 相似文献
20.
被动陆边边缘含盐盆地广泛发育的盐筏是一种重力滑脱作用下的极端薄皮伸展形成的构造样式,对于盆地后裂谷期的演化都有着重要的影响。基于物理模拟,除去考虑常规的盐层厚度、基底倾角、前构造沉积层厚度等单因素的影响之外,研究着重基底倾角与同沉积速率的组合影响,同时注重初始模型的设置与实际地质条件的吻合,使模拟结果更有意义。实验结果表明,触发下刚果盆地白垩系盐筏活动的机制为重力滑脱作用而非差异负载作用;盐筏构造最关键的控制因素为基底倾角及同沉积速率;其中基底倾角控制了盐筏形成过程中断裂的分布及筏体的滑脱速率,而同沉积速率则控制了筏体之间沉积填充的样式,两者相对速度的快慢控制了盐筏的构造样式,下刚果盆地白垩系盐筏构造是沉积速率相对较快条件控制的结果。 相似文献