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1.
《Quaternary Science Reviews》2007,26(22-24):2864-2882
In this paper, we report our latest observations concerning a Pliocene and Early Pleistocene record from Western Turkey. The sedimentary sequence described comprises the fluvial deposits of an Early Pleistocene palaeo-Gediz river system and its tributaries prior to the onset of volcanism around Kula and the subsequent lacustrine, volcaniclastic and fluvial deposits associated with the first phase of volcanism (∼1.2 Ma) in this area.Early development of an east–west drainage system in this area resulted from tectonic adjustments to north–south extension and the formation of east–west-oriented grabens. Headward erosion of drainage entering the main Alaşehir graben led to the progressive capture of pre-existing drainage systems as eastward (headward) erosion upstream tapped drainage networks previously formed in internally draining NNE–SSW-oriented basins. Within one of these, the Selendi Basin, part of this evolutionary sequence is preserved as a buried river terrace sequence. Eleven terraces are preserved beneath alluvial fan sediments that are, in turn, capped by basaltic lava flows. Using the available geochronology these terraces are considered to represent sedimentation–incision cycles which span the period ∼1.67–1.2 Ma. Although progressive valley incision is a fluvial system response to regional uplift, the frequency of terrace formation within this time period suggests that the terrace formation resulted from sediment/water supply changes, a consequence of obliquity-driven climate changes. The production of sub-parallel terraces suggests that during this period the river was able to attain a quasi-equilibrium longitudinal profile adjusted to the regional uplift rate. Thus, the incision rate of 0.16 mm a−1 during this period is believed to closely mirror the regional uplift rate.After the onset of volcanism at ∼1.2 Ma, there is a destruction of the dynamic link between fluvial system behaviour and climate change. The repeated damming of the trunk river and its tributaries led to the construction of complex stratigraphic relationships. During the first phase of volcanism the palaeo-Gediz river was dammed on numerous occasions leading to the formation of a series of lakes upstream of the dams in the palaeo-Gediz valley. Variations in lake level forced localised base-level changes that resulted in complex fluvial system response and considerable periods of disequilibrium in profile adjustment. Furthermore, response to these base-level changes most likely disrupted the timing of the incisional adjustment to the on-going regional uplift, thus making the use of this part of the archive for inferring regional uplift rates untenable. 相似文献
2.
通过岩心、钻井、地震等资料以及物源分析,详细研究了东非鲁伍马盆地构造及沉积演化特征,初步提出了研究区窄陆架背景之下的沉积体系模式。研究认为,鲁伍马盆地陆坡较陡峭且峡谷水道非常发育,而深海平原地形趋于平缓,这有利于形成大型海底扇沉积体系。鲁伍马盆地沉积主要受控于鲁伍马河水系,尤其从渐新世开始受区域隆升影响,导致盆地西缘遭受抬升剥蚀,沉积物源供应充足,加之鲁伍马河水系较为发育,并伴随全球性海退,形成了庞大的向海推进的鲁伍马三角洲沉积体系,这也为海底扇的发育提供了丰富的物源,使得研究区发育了鲁伍马三角洲—水道—海底扇复合沉积体系。 相似文献
3.
Climatic versus halokinetic control on sedimentation in a dryland fluvial succession 总被引:1,自引:1,他引:0
Fluvial systems and their preserved stratigraphic expression as the fill of evolving basins are controlled by multiple factors, which can vary both spatially and temporally, including prevailing climate, sediment provenance, localized changes in the rates of creation and infill of accommodation in response to subsidence, and diversion by surface topographic features. In basins that develop in response to halokinesis, mobilized salt tends to be displaced by sediment loading to create a series of rapidly subsiding mini‐basins, each separated by growing salt walls. The style and pattern of fluvial sedimentation governs the rate at which accommodation becomes filled, whereas the rate of growth of basin‐bounding salt walls governs whether an emergent surface topography will develop that has the potential to divert and modify fluvial drainage pathways and thereby dictate the resultant fluvial stratigraphic architecture. Discerning the relative roles played by halokinesis and other factors, such as climate‐driven variations in the rate and style of sediment supply, is far from straightforward. Diverse stratigraphic architectures present in temporally equivalent, neighbouring salt‐walled mini‐basins demonstrate the effectiveness of topographically elevated salt walls as agents that partition and guide fluvial pathways, and thereby control the loci of accumulation of fluvial successions in evolving mini‐basins: drainage pathways can be focused into a single mini‐basin to preserve a sand‐prone fill style, whilst leaving adjoining basins relatively sand‐starved. By contrast, over the evolutionary history of a suite of salt‐walled mini‐basins, region‐wide changes in fluvial style can be shown to have been driven by changes in palaeoclimate and sediment‐delivery style. The Triassic Moenkopi Formation of the south‐western USA represents the preserved expression of a dryland fluvial system that accumulated across a broad, low‐relief alluvial plain, in a regressive continental to paralic setting. Within south‐eastern Utah, the Moenkopi Formation accumulated in a series of actively subsiding salt‐walled mini‐basins, ongoing evolution of which exerted a significant control on the style of drainage and resultant pattern of stratigraphic accumulation. Drainage pathways developed axial (parallel) to salt walls, resulting in compartmentalized accumulation of strata whereby neighbouring mini‐basins record significant variations in sedimentary style at the same stratigraphic level. Despite the complexities created by halokinetic controls, the signature of climate‐driven sediment delivery can be deciphered from the preserved succession by comparison with the stratigraphic expression of part of the system that accumulated beyond the influence of halokinesis, and this approach can be used to demonstrate regional variations in climate‐controlled styles of sediment delivery. 相似文献
4.
Sea-level and tectonic control of middle to late Pleistocene turbidite systems in Santa Monica Basin, offshore California 总被引:1,自引:0,他引:1
Small turbidite systems offshore from southern California provide an opportunity to track sediment from river source through the turbidity‐current initiation process to ultimate deposition, and to evaluate the impact of changing sea level and tectonics. The Santa Monica Basin is almost a closed system for terrigenous sediment input, and is supplied principally from the Santa Clara River. The Hueneme fan is supplied directly by the river, whereas the smaller Mugu and Dume fans are nourished by southward longshore drift. This study of the Late Quaternary turbidite fill of the Santa Monica Basin uses a dense grid of high‐resolution seismic‐reflection profiles tied to new radiocarbon ages for Ocean Drilling Program (ODP) Site 1015 back to 32 ka. Over the last glacial cycle, sedimentation rates in the distal part of Santa Monica Basin averaged 2–3 mm yr?1, with increases at times of extreme relative sea‐level lowstand. Coarser‐grained mid‐fan lobes prograded into the basin from the Hueneme, Mugu and Dume fans at times of rapid sea‐level fall. These pulses of coarse‐grained sediment resulted from river channel incision and delta cannibalization. During the extreme lowstand of the last glacial maximum, sediment delivery was concentrated on the Hueneme Fan, with mean depositional rates of up to 13 mm yr?1 on the mid‐ and upper fan. During the marine isotope stage (MIS) 2 transgression, enhanced rates of sedimentation of > 4 mm yr?1 occurred on the Mugu and Dume fans, as a result of distributary switching and southward littoral drift providing nourishment to these fan systems. Longer‐term sediment delivery to Santa Monica Basin was controlled by tectonics. Prior to MIS 10, the Anacapa ridge blocked the southward discharge of the Santa Clara River into the Santa Monica Basin. The pattern and distribution of turbidite sedimentation was strongly controlled by sea level through the rate of supply of coarse sediment and the style of initiation of turbidity currents. These two factors appear to have been more important than the absolute position of sea level. 相似文献
5.
L. Feng Y-C. Lu J. S. Wellner J-S. Liu X-F. Liu X.-Q. Li 《Australian Journal of Earth Sciences》2020,67(2):279-304
AbstractThe Xihu sag, which is the largest petroliferous sub-basin of the East China Sea Shelf Basin, formed in a continental back-arc setting. The Oligocene Huagang Formation consisting of a fluvial–lacustrine succession deposited during the compressional stage is the prime hydrocarbon-bearing interval in the Xihu sag. A third-order sequence-stratigraphic framework has been built, and component sand-body characteristics were investigated based on seismic attribute analysis and well-log correlation. Two overall upward-fining sequences, and an internal low-accommodation systems tract (LAST) (fluvial successions characterised by amalgamated fluvial channel sand bodies interlayered with rare overbank deposits) and high-accommodation systems tract (HAST) (intervals dominated by overbank or lacustrine deposits) have been identified. The thick, multi-storied channel-fill sandstone bodies deposited along the central depression belt, capped by extensive overbank or lacustrine mud deposits, characterise each sequence and form favourable reservoir–seal associations. Proximal-to-distal changes in lithofacies associations were also analysed. The sequence-stratigraphic and lithofacies analysis suggest the existence of an axial, large-scale river channel system in the Oligocene Xihu sag. On the basis of the restoration of basin geomorphology and seismic facies analysis, the depositional architectures of the axial paleodrainage system have been reconstructed. Overall, the Huagang sequences represent the sedimentary evolution of a large-scale fluvial system sourced from axial and lateral supply areas, to form river deltas into an interior-draining basin-centre lake. Two major fluvio-lacustrine transgression–regression cycles have been recorded. During the transgression cycle, the fluvial morphology was dominated by braided fluvial style; whereas during the regression cycle, the fluvial morphology was characterised by a combination of multiple fluvial channel styles in the LAST, from upstream to downstream low-sinuosity braided, high-sinuosity braided and anastomosing fluvial channel patterns were distributed and then replaced by large-scale lake flooding in the HAST. The braided channel centre, paleobathymetric lows of channel networks and delta-front bodies are sand-prone units. The fluvial sedimentation was governed by multiple parameters: tectonics, paleogeomorphology and climate fluctuations. This integrated study on fluvial sedimentation and evolution of the Oligocene drainage system enable us to propose a conceptual model depicting fluvial channel styles and component sand-body architecture in lacustrine rift basins with axial plus transverse sediment supplies. This model can serve as a reference to illustrate channel-sand-body and associated reservoir architecture in similar types of drainage systems in terrestrial basins. 相似文献
6.
7.
《地学前缘(英文版)》2015,6(4)
The Yangtze River is one of the most important components of the East Asia river system.In this study,sediments in the Jianghan Basin,middle Yangtze River,were selected for trace element and rare earth element(REE)measurements,in order to decipher information on the change of sediment provenance and evolution of the Yangtze River.According to the elemental variations,the late Cenozoic sediments of the Jianghan Basin could be divided into four parts.During 2.68e2.28 Ma and 1.25e0 Ma,provenance of the sediments was consistent,whereas sediments were derived from variable sources during2.28e1.25 Ma.Comparison of the elemental compositions between the Pliocene and Quaternary sediments revealed a change in sediment source from a more felsic source area to a more basic source area around the PlioceneeQuaternary boundary.Input from the Emeishan LIP should account for this provenance change.Based on the provenance analysis of sediments in the Jianghan Basin,we infer that the Yangtze River developed into a large river with its drainage basin extended to the Emeishan LIP no later than the PlioceneeQuaternary boundary. 相似文献
8.
K. Sobczak S. E. Bryan C. R. Fielding M. Corkeron 《Australian Journal of Earth Sciences》2019,66(4):497-518
The Drummond Basin of central Queensland preserves a large-volume succession of little studied, predominantly fluviatile, coarse-grained sedimentary rocks of mid-Mississippian age. The stratigraphy of the basin has been subdivided into three sedimentary cycles. The Cycle 1/Cycle 2 boundary records a distinct, but poorly understood change in provenance from a volcanic-dominated succession related to initial basin rifting (Cycle 1) to a quartz-rich, craton-derived succession (Cycle 2). Cycle 3 has been thought to mark a resumption of intrabasinal volcanism and related sedimentation. The purpose of this study was to enhance the understanding of the basin-wide siliciclastic sedimentation of Cycles 2 and 3, and causes for the changes in sediment provenance. This objective was achieved by constraining large-scale spatial and temporal depositional trends and investigating sediment transport pathways into and through the basin. Petrographic, QFL, paleocurrent and conglomerate clast analyses were undertaken. The observations presented here have several implications relevant to understanding the stratigraphy of the Drummond Basin and regional tectonic events at this time. Cycle 3 is revised here primarily to be a continuation of Cycle 2-style basement-derived sedimentation, rather than recording a resumption of volcanism in the area, as per prevailing models. Quartz-rich sedimentation in the Drummond Basin was, therefore, more long-lived than previously envisaged, and once established, was not significantly disrupted by volcanism. Cycle 2 formation thicknesses appear highly variable across the basin. This is unlikely to be a result of pre-existing rift-related topography as suggested in previous models. The thickness variations are more likely related to sediment bypassing and post-depositional deformation in the area. The distinctive coarse-grained, relatively quartz-rich sedimentation of Cycles 2 and 3 is unusual in its volume and extent. The sediment was transported into the basin from its southern/southwestern margin, implying long-distance transport and extrabasinal sediment supply. While the specific source terrain(s) remain unknown, one plausible tectonic driver was far-field influence of the intraplate Alice Springs Orogeny. 相似文献
9.
沉积物源分析在确定沉积物源位置、母岩性质及沉积物搬运距离,甚至整个盆地的沉积作用和构造演化等方面都有重要意义。本文从重矿物组合、轻矿物组合、稀土元素分配和古水流恢复等方面系统地分析了柴达木盆地西部地区渐新世物源方向,确定了阿尔金东段物源、阿尔金西段物源、阿拉尔物源、铁木里克物源、祁漫塔格—东柴山物源和弯西—甘森物源6大沉积物源。沉积物源特征明显控制了沉积物特征,来自阿尔金西段物源的沉积物搬运距离短,碎屑物供给明显受季节性洪水控制,故稳定性差,发育近源陡坡型的扇三角洲、近岸水下扇沉积物;来自其余物源的沉积物搬运距离较长,最长搬运距离约190 km,碎屑物供给的稳定性较好,发育远源缓坡型的辫状三角洲沉积物,受不同沉积物源的影响,其沉积特征具有明显的差异性。 相似文献
10.
Maria A. Jensen Igor N. Demidov Eiliv Larsen Astrid Lyså 《Quaternary Science Reviews》2009,28(23-24):2489-2506
The modern Severnaya Dvina and Mezen river systems in the Arkhangelsk region, NW Russia, are located within extensive palaeovalley systems. The palaeovalleys form depressions in bedrock and have controlled the drainage systems in the area at least since the Last Interglacial. Vertically stacked marine to fluvial sediments reflect deposition during fluctuating climate and sea levels.A compilation of lithostratigraphical data collected during the last decade has been coupled with bedrock topography and geomorphology from satellite images in order to describe the valley fill architecture for the two valley systems. Each system has been divided into a number of depositional units (storeys) separated by incision/non-deposition and used to investigate the timing of aggradational versus incisional phases. Time constraints for each phase are provided by optically stimulated luminescence (OSL) ages, and aggradation and incision are linked to independent records of climate and sea level change.The pattern of aggradation and erosion is regional and primarily driven by episodes of increasing and decreasing sediment supply. Aggradation is correlated to times of deglaciation with high sediment supply from the ice margin, release of sediment from ice-dammed lakes and low vegetation and degradation of permafrost on the flood plain. Incision is related to cold intervals with low sediment supply, delayed incision due to isostatic uplift and drainage of ice-dammed lakes. Relative sea level change controls the distribution of marine deposits, which show significant regional variations due to variable isostatic response across the region. Sea level change plays a limited role for fluvial aggradation/incision in the study area. 相似文献
11.
The Villanueva Complex is a lacustrine alluvial fan - fan delta system which accumulated on the northern margin of the Guadix Basin during the Pliocene. Five transitional zones can be distinguished from proximal to distal areas: proximal alluvial fan, mid-fan, fan fringe (transition zone), proximal fan delta and distal fan delta (lacustrine). This paper focuses on sedimentation in the fan fringe and the proximal fan delta areas, where the effects of fluctuations in the base level (lacustrine level) are more easily observed. The stratigraphical succession is here characterized by an alternation of fine lacustrine sediments (mudstones and siltstones) and gravels. The gravels appear as isolated channels, stacked channels, lenses and sheets. The isolated channels, which have a V-shaped profile and better developed wings towards the top, appear in the fan fringe zone and in the fan delta. The stacked channels originate in the fan fringe zone and evolve laterally and distally to isolated channels. The lenticular gravel bodies (lenses) are well represented throughout the fan delta and present small channels at the base, indicating a radial flow pattern. Finally, the sheets are characteristic of the fan fringe zone. The first episodes of channel incision occurred at lowstand lake level. The channels and lenses developed in rising lake level conditions, and sheet deposit took place at highstand lake level. Although the final form of the lithosome was heavily controlled by the fluctuations in lake level, it depended on the relative proportions of gravel and silt sedimentation. The gravel-siltstone interface therefore represents an equilibrium surface between the proportions of sedimentation of these lithologies. The bodies mentioned above are organized in coarsening and thickening upwards sequences tens of metres thick, in which a distal to proximal evolution can be observed from isolated channels to lenses or from stacked channels to sheets. The building and thickness of these sequences were controlled by fluctuations in the lake level. An initial fall in base level caused lengthening of the channels and entrenchment from distal to proximal areas, and a continuous increase in supply due to erosion in the drainage basin installed on the subaerial fan. When the lake level rose, lobes were formed at the channel endings and overbank processes were made possible, thus generating radial channels, whose levees were formed by amalgamation with the levees of the main lens channels. At the same time, sheets were formed in proximal areas, where the available amount of sediment was greater. 相似文献
12.
晋中盆地是位于汾渭地堑系中部的新生代陆内断陷沉积盆地,研究晋中盆地第四纪的沉积序列对于进一步认识该盆地区域构造和区域气候环境变化具有重要意义。为查明晋中盆地第四纪沉积序列结构、研究揭示晋中盆地第四纪沉积环境及演化,通过构造岩相学方法,对晋中盆地地表和钻孔内第四纪沉积物和沉积环境进行了研究。结果表明:晋中盆地清徐地区地表第四纪沉积序列结构为盆地内部沱阳组河床相和河漫滩相-盆地边缘汾河组河流相—盆山过渡带峙峪组河流相、汾河组冲积扇相及马兰组风积相-基岩山地(盆地外围)二叠系浅海相。钻孔岩芯内第四纪沉积序列结构为下更新统浅湖相和滨湖相—中更新统浅湖相和河流相—上更新统河流相和冲积扇相—全新统冲积扇相。研究认为晋中新生代陆内断陷盆地内沉积序列和演化结构为早更新世陆相湖盆沉积环境—中更新世萎缩湖泊环境—晚更新世强烈萎缩的湖泊和河流环境—全新世再度沉降的陆相湖盆;陆相湖盆从中心向山地沉积环境分带为湖泊沉积环境—河流和湖泊沉积环境—冲积扇沉积环境(盆地边缘出山口区)。盆山过渡带地区上更新世沉积物错位现象与同沉积活动断裂有关,断裂活动性揭示了晋中盆地阶梯式断陷成盆的动力学机制。这些研究成果为区域气候环境变化和晋中盆地区域构造研究提供了新证据,也为太原市城市群建设中工程场址的选择提了供参考。 相似文献
13.
玛湖凹陷是准噶尔盆地最具规模的油气聚集带与勘探区,发育以砾岩为主、具有较强非均质性的粗粒沉积复杂地层。对粗粒沉积体的精细刻画有助于研究沉积体内部的非均质性特征。应用储层构型分析法,结合研究区岩心、测井、录井资料,对玛湖凹陷夏子街扇区三叠系百口泉组沉积体内部9个级次构型要素的几何形态、大小、方向以及相互之间的叠置关系进行了表征,识别出12种岩石相类型以及10种由岩石相组合而成的沉积微相类型。通过分析沉积微相在垂向、平面上的不同组合特征,扇体的类型受沉积环境影响发生变化,逐渐由冲积扇、河流扇转换为扇三角洲,整体反映了湖平面上升或沉积物供给量逐渐减小的沉积背景。分析夏子街扇区各期次的扇体特征,包括长轴、短轴距离、长轴短轴比、扇根与扇缘厚度变化、扇体坡度变化、扇体最大粒径变化等,认为扇体顺物源方向有以下变化趋势: 沉积物粒径大小随河道搬运逐渐减小,减小的幅度受扇体坡度影响,坡度越陡沉积物粒径减小的越快;河道数量减少,流量降低;河道沉积物在横向和纵向上的连通性逐渐降低;砂岩、砾岩厚度逐渐减小,泥岩厚度逐渐增加,湖相沉积变得较为发育。总结玛湖凹陷百口泉组的各期次扇体共可归纳出6种扇体模式: 冲积扇、冲积—河流扇、河流—末梢扇、河流扇—扇三角洲、扇三角洲、大型河流扇。 相似文献
14.
珠江口盆地的沉积充填与珠江的形成演变 总被引:13,自引:2,他引:11
沉积物元素地球化学分析表明,南海北部地区沉积物渐新统与中新统明显不同,两者之间存在物源突变事件。这一沉积地质事件在时间上与南海扩张轴发生跳跃、滇西高原以及东喜马拉雅构造结的快速隆升等一系列地质构造事件十分吻合,是珠江以及珠江口盆地搬运—沉积—充填演化史上一次重大的转变。Ca/Si、CIA以及Al2O3等参数变化显示,珠江侵蚀区极有可能由渐新世近源硅酸盐为主的华南沿海地区拓展为中新世远达青藏高原东麓的云贵高原碳酸盐为主的地区,流域范围突然扩大。同时伴随沉积物供给增大,造成珠江口盆地从渐新世富砂为主的沉积堆积体系转变为中新世以来以泥为主的沉积堆积体系,显示出珠江的发育演化以及中新世以来的青藏高原隆升在南海北部的沉积充填演变中扮演了重要角色,对南海北部地区油气藏的形成影响深远。 相似文献
15.
为了深入认识河流相储层分布规律,通过地层对比、沉积相、主控断裂特征等分析对饶阳凹陷留北地区新近系河流相砂体展布特征及影响因素进行了研究.结果表明:饶阳凹陷新近系各超短期旋回的砂体在平面上呈带状展布,砂体主要延伸方向与边部控洼断层大致平行.留北地区的NE向及NEE向主控断裂在新近纪仍表现为继承性生长的特征,受NE及NEE向近平行于盆地轴向的盆缘继承性主控断裂的影响,在下降盘形成大致平行于其轴向的河谷洼地、斜坡或山脊复合古地貌体系,断层上盘发育的沉降中心沿轴向延伸,地层厚度呈NE向展布.盆缘断层附近发育高梯度扇体或河流沉积,以沉积物的横向搬运体系为主.远离物源区,在主控断层下降盘,来自短轴物源的横向河流或冲积扇的影响变弱,河流向着轴向倾斜下端方向(最大斜坡方向)改道,汇聚形成轴向搬运沉积体系,平行于主要断层边界走向的方向延伸. 相似文献
16.
Lars J. Noorbergen Antonio Turtu Klaudia F. Kuiper Cornelis Kasse Sverre van Ginneken Mark J. Dekkers Wout Krijgsman Hemmo A. Abels Frederik J. Hilgen 《Sedimentology》2020,67(5):2529-2560
Aggradation and fluvial incision controlled by downstream base-level changes at timescales of 10 to 500 kyr is incorporated in classic sequence stratigraphic models. However, upstream climate control on sediment supply and discharge variability causes fluvial incision and aggradation as well. Orbital forcing often regulates climate change at 10 to 500 kyr timescales while tectonic processes such as flexural (un)loading exert a dominant control at timescales longer than 500 kyr. It remains challenging to attribute fluvial incision and aggradation to upstream or downstream processes or disentangle allogenic from autogenic forcing, because time control is mostly limited in fluvial successions. The Palaeocene outcrops of the fluvial Lebo Shale Member in north-eastern Montana (Williston Basin, USA) constitute an exception. This study uses a distinctive tephra layer and two geomagnetic polarity reversals to create a 15 km long chronostratigraphic framework based on the correlation of twelve sections. Three aggradation–incision sequences are identified with durations of approximately 400 kyr, suggesting a relation with long-eccentricity. This age control further reveals that incision occurred during the approach of – or during – a 405 kyr long-eccentricity minimum. A long-term relaxation of the hydrological cycle related to such an orbital phasing potentially exerts an upstream climate control on river incision. Upstream, an expanding vegetation cover is expected because of an increasingly constant moisture supply to source areas. Entrapping by vegetation led to a significantly reduced sediment supply relative to discharge, especially at times of low evapotranspiration. Hence, high discharges resulted in incision. This study assesses the long-eccentricity regulated climate control on fluvial aggradation and incision in a new aggradation–incision sequence model. 相似文献
17.
北黄海盆地东部坳陷经历了多期复杂的构造演化,同沉积期盆地的古地形控制了物源区、沉积区及沉积物的搬运方向和方式。本文利用单井剥蚀量和原始沉积厚度计算、构造沉降量计算等方法,恢复了东部坳陷中侏罗世(J_2SQ1和J_2SQ2)和晚侏罗世(J_3SQ1和J_3SQ2)的古地形。J_2SQ1时期盆缘隆起连片,东部隆起已初具雏形,东部隆起两侧形成了两个凹陷区;J_2SQ2时期东部隆起扩大,成为坳中隆起,隆起两侧的凹陷区加深,北部的凹陷逐渐转变为主凹陷区;J_3SQ1时期东部隆起两侧凹陷继续加深;J_3SQ2凹陷区抬升,盆地整体沉积面积比前期略有减小。构造古地形控制了沉积物搬运和堆积。古隆起、古斜坡是沉积物通道,控制砂体的堆积和分布,其中陡坡带发育冲积扇和扇三角洲沉积,而缓坡带发育河流和三角洲沉积;古凹陷是沉积物的堆积场所,一般发育水下扇和湖泊沉积。东部隆起作为坳中隆起,不仅分隔了凹陷区,且成为重要的物源区。 相似文献
18.
The Sis palaeovalley: a record of proximal fluvial sedimentation and drainage basin development in response to Pyrenean mountain building 总被引:2,自引:0,他引:2
Stephen J. Vincent 《Sedimentology》2001,48(6):1235-1276
The Sis conglomerate body represents the Middle Eocene to Oligocene transfer‐zone trunk palaeovalley fill of the Sis fluvial system, a drainage system established within the Pyrenees during Late Palaeocene times. The spatial stability of the fluvial transfer zone (active for at least 38 My), and hence the longevity of its aggradational palaeovalley component (>19·5 My), was controlled by its location between long‐lived pre‐existing structures. Coarse‐grained fluvial facies dominate the palaeovalley fill, with alluvial fan facies shed from its defining marginal structures. The detailed sedimentology of very proximal fluvial facies deposited within the dominantly erosional realm of an active mountain belt has rarely been documented before because of their poor preservation potential. The Sis conglomerate body contains a robust internal stratigraphy with stratigraphic units defined by distinct bounding surfaces, across which there are pronounced changes in facies and provenance. These mark the reorganization of the headward portions of the Sis fluvial system during the evolution of the Pyrenean Axial Zone antiformal stack. Major changes in discharge resulted, demonstrating the highly variable nature of even mountain belt‐scale fluvial systems when viewed on timescales of several to tens of millions of years. Provenance details indicate that initial unroofing of Hercynian granitoids, situated within the Pyrenean Axial Zone, occurred around 54·5 Ma (early Ypresian) immediately before the first significant exhumation event within the drainage basin of the Sis fluvial system. This is earlier than previously constrained by apatite fission track studies. Rock uplift accelerated in the Lutetian and Bartonian with the initial aggradation of the palaeovalley fill (the Cajigar and Cornudella Formations and Sis One and Two Members). This became marked in the Priabonian (Sis Three and Four Members), with significant activity on local structures including the Morreres backthrust. An increase in basement‐derived clasts and a headwater decapitation event also indicate pronounced Axial Zone antiformal stack development at this time. Axial Zone development intensified further in the Oligocene with the deposition of the Collegats Formation and the switch in the main depositional loci of the system from the Tremp‐Graus thrust‐sheet‐top basin to the Ebro Basin to the south. 相似文献
19.
柴西缘阿尔金山前下侏罗统层序地层与岩相古地理研究 总被引:1,自引:1,他引:0
柴西缘阿尔金山前侏罗系与柴北缘侏罗系具有相似的沉积背景,发育较好的泥页岩层段,具有一定的页岩气资源潜力。通过对野外露头与钻孔岩芯沉积特征的研究,建立了柴西缘阿尔金山前下侏罗统小煤沟组层序地层格架,恢复了基于三级层序的岩相古地理,并对沉积演化特征进行分析。小煤沟组岩性主要为泥岩、页岩、粉砂岩、砂岩、砾岩,发育湖泊、扇三角洲和辫状河沉积体系,包含半深湖、滨浅湖、湖湾、扇三角洲平原、扇三角洲前缘、河床、泛滥平原等沉积相。根据区域不整合面、河流下切谷冲刷面等层序界面,将小煤沟组划分为3个三级层序,每个层序内均发育一定厚度的泥页岩段。在单剖面和对比剖面沉积相分析的基础上,以三级层序为作图单元,利用单因素分析多因素综合作图法恢复了研究区古地理面貌。小煤沟组整体呈现北部半深湖、滨浅湖,南部以及东北部扇三角洲、河流的古地理格局,地势具有东南高西北低的特点,此时阿尔金山尚未隆升,物源主要来自于南部的柴达木盆地腹部隆起以及东北部的古阿拉巴什套山,盆地沉积中心主要为清水沟以及小西沟东北地区,发育厚度巨大的泥页岩段,为侏罗系页岩气勘探的有利地区。 相似文献
20.
准噶尔盆地车排子凸起春光区块沙湾组沉积特征新认识 总被引:1,自引:0,他引:1
准噶尔盆地车排子凸起沙湾组沉积环境存在较大争议,主流观点认为辫状河三角洲或者滩坝砂沉积。通过对研究区内钻井、古生物、地球物理资料分析认为,车排子凸起沙湾组并非水下环境,而是处于陆上暴露环境,发育冲积扇和河流沉积体系,其中研究区北部发育冲积扇体系,而中南部则发育河流体系,且不同沉积时期沉积体系类型发生变化:沙一段发育冲积扇-辫状河沉积,沙二段发育冲积扇-曲流河沉积,沙三段则缺少典型的河流沉积,以冲积扇体系及洪泛平原沉积为主。总体而言,春光区块沙湾组沉积期具有多物源、多沉积体系发育的特征,垂向上构成了两类冲积扇-河流体系沉积模式。 相似文献