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1.
前陆盆地挠曲沉降和沉积过程3D模型研究 总被引:1,自引:0,他引:1
前陆盆地是在造山带负荷作用下岩石圈发生挠曲沉降而形成的,并且被主要从造山带搬运的沉积物所充填。为了更好地理解和认识前陆盆地的形成演化机制,特别是受控于周缘多个造山带活动所形成的前陆盆地的演化机制,本文通过建立前陆盆地挠曲沉降与沉积过程的3-D模型,模拟展示了造山带逆冲推覆作用、岩石圈挠曲沉降响应及在山盆体系中由于动力地形变化而导致的河流体系的发育变化及其产生的剥蚀和沉积过程。模型的建立和实验完整体现了逆冲推覆、弹性挠曲沉降和沉积物搬运这三者之间的耦合机制,为全面深入研究前陆盆地动力学提供了理论依据和方法。 相似文献
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陆相坳陷型沉积盆地通常发育在克拉通的内部差异沉降和裂谷盆地后期的热沉降等不同的大地构造阶段,是一类独特而又十分重要的沉积盆地。本文基于该类盆地的特点,提出了综合利用盆地沉积相、残余厚度图、区域构造大剖面及其平衡恢复等多方面资料对其盆地原型进行恢复的方法和流程,具体包括以残余沉积相恢复盆地原始边界、以平衡剖面恢复盆地原始形态、以关键钻井资料与平衡剖面相结合恢复原始沉积厚度。该方法消除了构造运动对盆地形态的改变,真正将盆地原型纳入到其原始形态框架下进行研究。本文还利用该方法对柴达木盆地新生代各地层沉积时的盆地原型分别进行了恢复,并据此对其新生代的沉积演化进行了分析,结果表明柴达木盆地新生代的沉积格局变化与阿尔金断裂的活动息息相关。 相似文献
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《International Geology Review》2012,54(16):2030-2059
Seismic and sequence stratigraphic analysis of deep-marine forearc basin fill (Great Valley Group) in the central Sacramento Basin, California, reveals eight third-order sequence boundaries within the Cenomanian to mid-Campanian second-order sequences. The third-order sequence boundaries are of two types: Bevelling Type, a relationship between underlying strata and onlapping high-density turbidites; and Entrenching Type, a significantly incised surface marked by deep channels and canyons carved during sediment bypass down-slope. Condensed sections of hemipelagic strata draping bathymetric highs and onlapped by turbidites form a third important type of sequence-bounding element, Onlapped Drapes. Five tectonic and sedimentary processes explain this stratigraphic architecture: (1) subduction-related tectonic tilting and deformation of the basin; (2) avulsion of principal loci of submarine fan sedimentation in response to basin tilting; (3) deep incision and sediment bypass; (4) erosive grading and bevelling of tectonically modified topography by sand-rich, high-density turbidite systems; and (5) background hemipelagic sedimentation. The basin-fill architecture supports a model of subduction-related flexure as the principal driver of forearc subsidence and uplift during the Late Cretaceous. Subduction-related tilting of the forearc and growth of the accretionary wedge largely controlled whether and where the Great Valley turbiditic sediments accumulated in the basin. Deeply incised surfaces of erosion, including submarine canyons and channels, indicate periods of turbidity current bypass to deeper parts of the forearc basin or the trench. Fluctuations in sediment supply likely also played an important role in evolution of basin fill, but effects of eustatic fluctuations were overwhelmed by the impact of basin tectonics and sediment supply and capture. Eventual filling and shoaling of the Great Valley forearc during early Campanian time, coupled with dramatically reduced subsidence, correlate with a change in plate convergence, presumed flat-slab subduction, cessation of Sierran arc volcanism, and onset of Laramide orogeny in the retroarc. 相似文献
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Migration of Depocenters and Accumulation Centers and its Indication of Subsidence Centers in the Mesozoic Ordos Basin 总被引:3,自引:2,他引:1
Based on the integrated study of structure attributions and characteristics of the original basin in combination with lithology and lithofacies, sedimentary provenance analysis and thickness distribution of the Mesozoic Ordos Basin, it is demonstrated that the depocenters migrated counterclockwise from southeast to the north and then to the southwest from the Middle-Late Triassic to the Early Cretaceous. There were no unified and larger-scale accumulation centers except several small isolated accumulation centers before the Early Cretaceous. The reasons why belts of relatively thick strata were well developed in the western basin in several stages are that this area is near the west boundary of the original Ordos Basin, there was abundant sediment supply and the hydrodynamic effect was strong. Therefore, they stand for local accumulation centers. Until the Early Cretaceous, depocenters, accumulation centers and subsidence centers were superposed as an entity in the southwest part of the Ordos Basin. Up to the end of the Middle Jurassic, there still appeared a paleogeographic and paleostructural higher-in-west and lower-in-east framework in the residual basin to the west of the Yellow River. The depocenters of the Ordos Basin from the Middle–Late Triassic to the Middle Jurassic were superposed consistently. The relatively high thermal maturation of Mesozoic and Paleozoic strata in the depocenters and their neighborhood suggest active deep effects in these areas. Generally, superposition of depocenters in several periods and their consistency with high thermal evolution areas reveal the control of subsidence processes. Therefore, depocenters may represent the positions of the subsidence centers. The subsidence centers (or depocenters) are located in the south of the large-scale cratonic Ordos Basin. This is associated with flexural subsidence of the foreland, resulting from the strong convergence and orogenic activity contemporaneous with the Qinling orogeny. 相似文献
5.
盆地的形成和充填过程模拟──以拉伸盆地为例 总被引:18,自引:1,他引:17
沉积盆地定量动力学模拟和分析是目前地学领域的一个研究热点。文中建立的拉伸盆地模拟系统可模拟拉伸盆地的沉降过程、估算盆地的拉伸量、分析盆地深部结构和热流背景;动态模拟盆地的充填过程及预测层序格架和沉积体系域的分布样式。沉降和热史模拟结合了二维的回剥法和简单或纯剪切的盆地形成模型。盆地充填模型综合考虑了盆地的构造沉降、均衡作用。沉积物供给。海(湖)平面变化等对盆地充填过程的控制作用。对莺、琼盆地模拟分析揭示了盆地的幕式拉伸过程和深部热演化;层序模拟提示了盆地沉降。海平面变化等对盆地充填演化的控制作用。 相似文献
6.
民和盆地侏罗系为完整的断陷湖泊充填沉积序列,从侏罗纪早期到中晚期沉积范围逐渐扩大。下侏罗统为断陷初始形成期湖泊沉积,具有断陷盆地形成初期"填平补齐"的沉积特征,周缘及低隆起为水下扇相粗碎屑岩沉积,断陷中以滨浅湖沉积为主;中侏罗统为断陷发展期湖泊沉积,经历了两期次级水进旋回,形成冲积扇—半深湖—三角洲沉积序列;上侏罗统为断陷消亡期沉积,形成湿型扇—辫状河—曲流河沉积序列。中侏罗统窑街组形成了欠补偿沉积环境,发育油页岩、暗色泥页岩和煤系地层,侏罗系可形成自生自储的生储盖组合,具有上、中、下三套含油气组合,油气资源量较丰富,勘探前景较广阔。 相似文献
7.
Quantitative models of sedimentary basin filling 总被引:1,自引:0,他引:1
Chris Paola 《Sedimentology》2000,47(Z1):121-178
Quantitative modelling of the filling of sedimentary basins was begun in earnest in the 1960s. Dozens of themes and variations have been proposed since then, and have yielded an abundance of idealized stratigraphic patterns as functions of both imposed changes and basin properties. Post‐plate‐tectonic modelling began with ‘rigid‐lid' models, which show the stratigraphic signature of subsidence variation. This work introduced the connection between stratigraphy and the rheology of the lithosphere. Rigid‐lid models are the simplest type of geometric model, in which the sediment surface is assigned prescribed geometries, usually corresponding to different depositional environments. These can reproduce many aspects of overall stratal geometry but are formally restricted to relatively long timescales, for which quasi‐steady surface topography can be assumed. So‐called dynamic models attempt to represent the morphodynamics of the sediment surface by abstracting and averaging short‐term transport processes. Most of the dynamic models proposed to date can be seen as special cases of a single general morpho‐dynamic equation. The most important result of the first wave of quantitative basin‐filling models is that even relatively simple models can produce reasonable stratal patterns. We now have a wide array of tools for exploring scenarios, searching for general behaviours and effects, and making initial quantitative predictions. We have also learned that basin response to external forcing as recorded in stratigraphy can be as sensitive to the characteristics of the basin as to the forcing. The main brake on the development of basin modelling is not computing power but lack of methods and data for testing the models we have already developed. Physical experiments, which are only just beginning, are one means of doing this. Experimental stratigraphy is a bridge to quantitative field tests, which will require collaboration among academic researchers from a wide range of areas, and between academia and industry, on projects of greater scale and degree of integration than we have seen so far. The advancement of quantitative sedimentary geology will also require significant changes in the way the subject is taught, at all levels. 相似文献
8.
中国东部中新生代断陷盆地幕式裂陷过程的动力学响应和模拟模型 总被引:23,自引:0,他引:23
结合盆地充填和构造演化的整体分析并进行计算机定量模拟, 揭示了中国东部中新生代断陷盆地的沉降-充填、构造及热演化等对幕式裂陷过程的动力学响应.渤海湾和江汉等盆地的整个裂陷期常表现出3~ 4个裂陷作用幕, 不同裂陷幕的断裂展布方向、岩浆作用、沉降中心以及沉积体系分布等都发生了明显变化.如江汉盆地从白垩至新近纪同沉积断裂的展布就显示出从北西向北东向转化的趋势.幕式裂陷构造沉降速率的变化控制着区域性(二级)沉积旋回和层序类型的发育和演化, 强烈裂陷沉降幕常发育深湖盆型层序, 而初始和晚期裂陷幕以发育浅湖和河流-浅湖型层序为特征.幕式裂陷过程不能用经典的单幕裂谷模型进行正确的描述; 通过校正每一裂陷幕的初始条件和拉伸系数, 建立了适用于幕式拉伸裂陷过程的多幕均匀瞬时拉伸模拟模型.应用这一模型对莺歌海盆地的模拟分析揭示了多幕裂陷过程中岩石圈结构及深部热流等的演化趋势, 其结果得到了地质和地球物理资料的佐证. 相似文献
9.
Stratal composition and stratigraphic organization of stratal elements in an ancient deep‐marine basin‐floor succession,Neoproterozoic Windermere Supergroup,British Columbia,Canada 
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下载免费PDF全文 Despite a globally growing seismic and outcrop analogue data set, the detailed (centimetre to decametre) internal stratal make up of deep‐marine basin‐floor ‘channelized‐lobe’ strata remain poorly known. An ancient analogue for modern, mixed‐sediment, passive margin, deep‐marine basin‐floor fans is the well‐preserved Neoproterozoic Upper and Middle Kaza groups in the southern Canadian Cordillera. This succession is a few kilometres thick and comprises six sedimentary facies representing deposition from different kinds of sediment‐gravity flows. Representative lateral and vertical assemblages of one or more of these facies comprise six stratal elements, including: isolated scours, avulsion splays, feeder channels, distributary channels, terminal splays, and distal and off‐axis fine‐grained turbidite units. The internal characteristics of the various stratal elements do not differ from more distal to more proximal settings, but the relative abundance of the various stratal elements does. The difference in relative abundance of stratal elements in the kilometre‐scale stratigraphy of the Kaza Group results in a systematic upward change in architecture. The systematic arrangement of the stratal elements within the interpreted larger bodies, or lobes, and then lobes within the basin‐floor fan, suggests a hierarchical organization. In this article a hierarchy is proposed that is based on avulsion but, also importantly, the location of avulsion. The proposed avulsion‐based hierarchical scheme will be a useful tool to bridge the scalar gap between outcrop and seismic studies by providing a single stratigraphic framework and terminology for basin‐floor stratal elements. 相似文献
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11.
综合地球化学、野外剖面和钻测井等资料,运用岩石学和地层对比、盆地模拟等方法,剖析了龙门山造山带和川西前陆盆地的盆山耦合关系,探讨了这种盆山耦合关系对油气成藏的控制作用,最后给出了勘探建议及有利区带预测。结果表明:龙门山造山带和川西前陆盆地在沉积和构造方面表现出良好的盆山耦合关系,具体表现在沉降与隆升的对应、物源与沉积的对应以及构造多幕性和沉积旋回性的对应等特征上;沉积耦合关系控制着烃源岩的沉积厚度及热演化程度,并影响着储层的垂向和横向分布,而构造耦合关系则对造山带和前陆盆地的断层发育以及油气运移和成藏所需圈闭具有决定性作用;盆山耦合呈多期性,具有沉积、沉降中心以及沉积相展布不断迁移和多期叠加的特征;形成了川西前陆盆地深、中、浅层的三维立体幕式演化成藏模式。有利区带预测表明:梓潼坳陷南端是深盆气的有利聚集区;浅层气主要分布在古隆起发育的盆地中、南段;深层气则多分布于盆地北部及中部地层尖灭带。 相似文献
12.
IODP333航次:科学目标、钻探进展与研究潜力 总被引:1,自引:0,他引:1
在“地震带实验项目”(NanTroSEIZE)的总体框架下,IODP333航次的任务是在日本四国岛岸外一条断面的3个站位获取岩芯。钻探于2010年12月12日至2011年1月10日实施,钻取了4个长岩芯,总长达1005m。IODP333航次的主要研究内容是陆坡、海沟底部和海山脊部的第四纪沉积过程,包括沉积层内的孔隙压力... 相似文献
13.
湖平面相对升降对断陷湖盆充填过程影响的数值模拟 总被引:1,自引:0,他引:1
数值模拟工作的研究对象多为海相被动大陆边缘盆地, 湖平面相对升降对盆地充填过程影响的数值模拟尚处于起步阶段.根据松辽断陷盆地的充填特征, 采用数值模拟方法, 模拟了在湖平面总体上升背景下, 3个湖平面变化周期的断陷湖盆充填特征.在模拟过程中, 假定构造沉降和碎屑供应为常数, 湖平面升降为一正弦函数.模拟结果表明: (1) 每一个湖平面升降周期形成一个相应的层序, 在湖平面升降周期的极小值点形成层序界面; (2) 湖平面升降规模直接控制了所发育的层序规模, 所模拟的3个湖平面升降周期中, 第二周期湖平面升降规模较大, 所形成的层序的分布范围及厚度均较大; (3) 湖平面升降所形成的沉积层序要很好地保存下来, 必须具备以下条件: ①湖平面保持总体上升, 在总体上升的背景上叠加次一级的湖平面升降; ②在湖平面发生周期性变化的同时, 叠加盆地基底的沉降.在具备上述条件下所得到的模拟结果与实际剖面吻合较好. 相似文献
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沉积盆地动力学与模拟研究 总被引:20,自引:0,他引:20
沉积盆地动力学过程与模拟研究是当前地球科学研究的前沿领域。盆地形成演化的动力学机制、盆地沉积充填过程与模拟、盆地规模的流体动力学等方面的研究近年来取得了重要进展。从定性的静态描述分析转向定量的动态过程研究是当前盆地动力学研究的主要发展趋势。盆地形成机制研究在深部过程控制、多重机制联合作用、幕式裂陷和反转过程等方面取得显著进展。前陆盆地构造—充填过程和模拟、构造活动盆地层序地层学、盆地充填过程分析与模拟等研究代表了盆地充填动力学研究的最新成果。盆地流体过程和模拟是当前的一个研究热点,盆地流体的识别、追踪和盆地规模的流体动力学分析与模拟获得突出性进展。 相似文献
15.
乌石凹陷古近系层序地层特征及充填演化 总被引:2,自引:0,他引:2
依据层序地层学、沉积学理论方法,综合地震剖面、钻测井、岩心、古生物、地球化学等资料研究认为;乌石凹陷古近系可识别3种级别不整合面,划分为7个三级地震(测井)层序,是一个进积(加积)—退积—加积序列。构造沉降是控制层序几何形态,充填叠置方式、演化及沉积体系分布的最重要因素:凹陷由多个半地堑在不同层序发育时期以不同方式叠置联结而成;受断层控制,层序外部形态有箱状-楔形、楔形-席状披覆型,边界终止方式有双断终止型、单断终止超覆型;不同构造演化阶段层序内部充填的沉积体系各具特征,初始断陷阶段的SQ1沉积冲积层序,强烈断陷阶段的SQ2—SQ4充填湖相层序,晚期断陷阶段SQ5—SQ7内部充填浅湖和河流三角洲沉积;同沉积断层陡坡带沉降迅速、可容纳空间快速增长,是凹陷的沉积和沉降中心,断陷期主控断裂活动时间和空间的变化导致了凹陷沉积和沉降中心的迁移。 相似文献
16.
深层气理论分析和深层气潜势研究 总被引:9,自引:3,他引:9
近年来的一些文献表述深层气时在"深层"和"深部"名词概念上容易造成不必要的费解。就沉积层而言,宜将生油主带(生油窗)作为"深"的界限,从此界限开始到基底以上地层范围的天然气统统称为"深层气";就整个地球而言,宜将沉积层结晶基底和该基底以下的天然气统统称为"深部气"。当然,还应更多地注意来源于深部"深生浅储"的"深层气"。深层气的形成与地壳烃类形成的垂直分带性有关。在一定的历史时期和一定的沉积盆地油气形成分带性理论对勘探实践发挥了一定的指导作用,随着油气地质科研和勘探实践的发展,人们逐渐发现了油气形成分带性理论中油相消失和气相生成带开始门限指标的局限性。不同盆地有不同深度的生油主带,因而也有不同深度范围生气主带(干气带)。腐泥型有机质的演化需要更高的活化能,而需更高的温度和更大的深度,其生气主带深于腐殖型有机质源岩层的位置。生气主带有机质演化受多种因素控制,其中温度、深度和时间是重要因素,引起深层温度升高的条件有地球动力和深部热流等。古生界以前的重大生物地质事件为深层气形成准备了有机质及其演化条件,从物质基础上讲,深层气有巨大的资源潜势。油气形成的地球动力学观点及其他新观点为研究深层气提供了新的思路,岩石圈的烃类资源远未枯竭,被发现和开采的资源仅是其中的一部分,更多的需在深部去发掘。 相似文献
17.
Distribution and architecture of slope basins across a continental slope vary as a consequence of accommodation forming, sediment dispersal rates, canyon cutting, sediment filling and different sediment transporting mechanisms. The area offshore Southwestern Taiwan is generally recognized as having active tectonics and high sediment deposition rates. In the Gaoping Slope, slope basins are formed by the developments of folds, faults and diapiric intrusions. Portions of the sediments discharged from the Taiwan mountain belt have been trapped in these basins in the Gaoping Shelf and Gaoping Slope. The rest of the sediments were transported to deep sea areas through submarine canyons. This complex system of folds, faults, diapirs, slope basins, submarine canyons, and sediment deposits has also readjusted the morphology of the Gaoping Slope. This study examines the linkage between accommodation spaces of tectonic and sedimentary processes in the Gaoping Slope through seismic facies analysis. Four seismic facies which include convergent-symmetrical facies, convergent-baselapping facies, chaotic facies, and parallel and drape facies, and different deposition patterns have been recognized in the Gaoping Slope basins. The thick mud layers which are regarded as the source of diapiric intrusions are first observed beneath the basin. Strata records show that the accommodation spaces in various slope basins have increased or decreased during different stages of basin evolution. Because of the competition between regional tectonism (accommodation space variations) and sediment routing distance from provenance to depository (sediment input variations), most under-filled basins lie in the lower slope domain in the Gaoping Slope, but also in the upper slope domain east of the Gaoping Submarine Canyon. This observation suggests that in the inner Gaoping Slope west of the Gaoping Submarine Canyon, sediment deposition rate is higher than the basin subsidence rate, the topography of the upper slope domain there is “healed”, and most sediments are overfilled in the slope basins now. Besides the sequential steps of sedimentary disposal in the filling-and-spilling model, we have also observed evidences which indicate that mass movements and submarine canyons in the area have significantly changed the sediment dispersal patterns in the slope basins of the Gaoping Slope. We suggest that although filling-and-spilling is a key sedimentary process in the Gaoping Slope, tectonic activities, mass wasting events and canyon feeding processes have diversified sediment transporting mechanisms from the inner to outer slopes in the area offshore Southwest Taiwan. 相似文献
18.
Submarine canyons are conduits for the distribution of sediment across continental margins. Although many canyons connect directly with fluvial or marine littoral system feeders, canyons detached from direct hinterland supply are also recognized. The fill of detached canyons remains enigmatic, because their deep‐water setting restricts analysis of their evolution and stratigraphic architecture. Therefore, this study aims to investigate the sedimentary processes that infilled deep‐water canyons and the resulting architecture. Miocene outcrops of an exhumed deep‐water system from the East Coast Basin, New Zealand, are documented and compared with the morphology and seismic scale architecture of a modern detached canyon system on the same convergent margin. The outcropping system preserves the downstream margin of a sub‐basin deposited at palaeo‐water depths >700 m. A 6 km wide by 430 m deep incision is filled by heterogeneous siliciclastic sediments, 50% of which comprise graded thin‐beds with traction structures, interpreted to result from oscillatory flows. These are intercalated with concave‐up lenses, up to 15 m thick, of sigmoidally‐bedded, amalgamated sandstones, which preserve ripple casts on bed bases, interpreted as deposits at the head of a deep‐marine canyon. Palaeo‐flow was eastward, into the sub‐basin margin. On the adjacent margin of the sub‐basin down‐dip, stacked and amalgamated sandstones and conglomerates represent the fill of a submarine channel complex, at least 3 km wide. The channels are inferred to have been fed by the up‐dip canyon, which traversed the intervening structural high; similar relationships are seen in the bathymetry data. Seismic studies on this margin demonstrate that multiple phases of canyon cut and fill may occur, with downstream architectural evolution comparable to that seen at outcrop, demonstrating that detached canyons may act as sediment conduits. Breaching of developing sea‐floor structures by detached canyons can modify tortuous sediment pathways, supplying sediment to otherwise starved areas of the slope. 相似文献
19.
十万大山盆地中生代沉积充填特征及其演化 总被引:2,自引:0,他引:2
十万大山盆地是印支期以来发展起来的中、新生代陆相盆地。盆地自晚三叠世-白垩纪具有比较典型的碰撞前陆盆地特征。该时期盆地的地层、沉积相类型及时空展布、沉积旋回和沉积边界的迁移具有明显的规律性。盆地的沉积地层多以山麓相、河流相为主,尚有少量滨浅湖相沉积,具近物源沉积特征;沉积相展布自晚三叠世至白垩纪具有沉积范围小-大-小-大的规律;沉积旋回呈现了浅-深-浅的规律;沉积边界和沉降中心不断向北和北东方向迁移。这些规律反映了十万大山前陆盆地的构造演化,即晚三叠世碰撞逆冲活动启动,盆地进入前陆盆地发育阶段;早、中侏罗世造山活动强烈,盆地沉降幅度大,物源供应充足;晚侏罗世造山活动减缓,盆地相对萎缩;白垩纪造山活动再次加强,盆地处于第二个发育期。 相似文献
20.
盆地沉降是构造作用与充填盆地的沉积物和水体载荷产生的重力作用共同作用的结果。文章提出了水载荷沉降的概念,推导出了水载荷沉降的计算公式,定量地分析了水载荷对盆地沉降的贡献,并在充分考虑沉积物载荷、水载荷、海平面变化、古水深等的情况下,对Steckler和Watts构造沉降量计算公式作了修正。对美国纽约大西洋大陆边缘COSTB-2井的定量分析表明,每发生1km的构造沉降将产生约0.435km的水载荷沉降,去除水载荷影响后的实际构造沉降比Steckler和Watts估算的结果约小30.3%,水载荷是导致美国大西洋大陆边缘强烈沉降的重要因素之一。 相似文献