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1.
河流辫-曲转换特点与废弃河道模式 总被引:4,自引:2,他引:2
通过总结河流变迁规律,明确了辫-曲转换特征,建立了辫-曲过渡型河流的沉积序列;通过分析弯曲度与废弃河道沉积特征的相互关系,提出不同类型河流中存在分叉分流、串沟取直及颈项截直三类废弃河道,并提出三类废弃河道的分类依据,进而建立了相应的沉积模式。通过解剖北京西山军庄二叠系河流相野外露头,分析了辫状河、以曲流河及其过渡型河流的沉积特征与演变特点,识别出该露头中发育的废弃河道,进而明确该露头中产生辫-曲转换的地质因素是不同气候条件下,由于沉积供源的差异导致河道类型的变化。 相似文献
2.
中国现代网状河流沉积特征和沉积模式 总被引:5,自引:0,他引:5
中国境内的许多河流发育有网状河段,从长江、黑龙江、珠江等这样的大型河流到嫩江、赣江等中小型河流都有。依据这些网状河的地理和构造背景的不同,可以把它们划分为:平原网状河流、山谷网状河流、入湖三角洲平原网状河流和入海三角洲平原网状河流四大类型。作者通过实地挖掘探槽、密集采样,对嫩江齐齐哈尔平原网状河段、赣江入湖三角洲平原网状河段、珠江入海三角洲平原网状河段沉积特征进行了详细描述和研究,并建立了网状河的沉积模式,探讨了网状河的成因。认为网状河流体系的发育不受气候和地理位置的限制,低坡降是形成网状河的必要条件,相对稳定的网状河道不同于曲流河和辫状河,湿地环境是网状河流体系中最发育的地貌单元,堤岸植被繁茂、粘结性高是河道稳定的重要因素,与曲流河和辫状河相比,网状河出现的几率较低。 相似文献
3.
通过对博格达山东北缘西大龙口剖面与水西沟剖面上二叠统进行详细观察和精细测量,详细分析了地层特征与沉积相特征,建立了沉积演化模式。结果表明:博格达山东北缘上二叠统自下而上发育泉子街组、梧桐沟组与锅底坑组;泉子街组沉积期,西大龙口剖面与水西沟剖面分别发育冲积扇、曲流河,冲积扇砂砾岩体内有大量的砂岩砾石与油页岩砾石,为博格达山周缘地区中二叠统红雁池组与芦草沟组被剥蚀后在山前沉积的产物;梧桐沟组沉积期,博格达山隆升为物源区,西大龙口剖面与水西沟剖面分别发育辫状河、曲流河,辫状河砂砾岩体内火山岩砾石较多;锅底坑组沉积期,西大龙口剖面与水西沟剖面主要发育曲流河泛滥平原,以紫红色粉砂质泥岩、泥岩为主。 相似文献
4.
博格达地区的盆山关系演化、博格达山初始隆升时间、构造-气候-沉积耦合机制等前沿科学问题一直是国内外研究的热点,也一直困扰和制约准噶尔盆地东南缘的油气勘探开发进程。基于博格达山北缘野外露头和阜康凹陷、吉木萨尔凹陷的岩心、地震及钻测井资料,综合运用沉积学、地球化学等多种方法,阐明了博格达地区中二叠统—下三叠统展布及沉积相特征,恢复了相应的古气候变化,结合区域研究成果重建了中二叠世至早三叠世构造-气候-沉积演化过程。认为博格达地区中二叠世为裂谷—坳陷盆地构造背景,在干旱—半干旱气候条件下,发育以博格达地区为湖泊中心的辫状河三角洲—湖泊沉积体系;晚二叠世博格达山发生初始隆升,早期湖盆消亡并在博格达北坡山前发育冲积扇,古气候由半干旱变化为半湿润;早三叠世博格达地区构造环境相对稳定,但是逐渐趋于温暖湿润的古气候对区域风化程度和沉积条件起主要控制作用,博格达山体遭受强烈风化剥蚀,北侧形成扇三角洲—湖泊沉积体系。 相似文献
5.
针对南苏丹Melut盆地Palogue油田Yabus组独特的辫状河—曲流河沉积体系,利用定量统计和成因动态分析方法,通过引入“微相砂体密度”变量,深入总结了辫状河和曲流河不同的垂向岩相序列,从空间演化角度详细阐述了辫状河和曲流河的差异沉积过程及其河型转化规律,建立了同一物源体系下不同阶段河型转化的沉积模式,并明确了河型转化的主控因素。研究表明: Yabus组河流沉积体系先后经历了3个演化阶段。早期辫状河形成阶段,沉积物顺流加积形成垂向沙坝;中期辫—曲交汇沉积阶段,河流下切作用明显减弱,河流沉积作用转变为侧向加积,在辫状河道中形成斜列砂坝,且辫流坝开始向河道边部迁移形成曲流河点坝;晚期曲流河发育阶段,河道弯度大且砂体沉积规模小。 相似文献
6.
河型转化研究进展综述 总被引:10,自引:0,他引:10
河型研究是河流动力学及河流工程学中的一个基本问题,也是沉积学家判别地下不同成因砂体的一个关键问题。目前河型的分类大都基于河流的平面形态,而这一分类受到了越来越多的质疑,并提出了一些新的分类方案,许多研究者注意到河型并不是离散的,存在一系列连续变化的河型,同时,顺直河、曲流河以及辫状河这些常见的河型之间可能发生突变,河型转化是当前国际河流学界研究的前缘和薄弱环节。本文通过综述河型转化在现代沉积、模拟实验、露头以及地震四个方面的研究进展,认为河型转化主要受到构造作用、沉积物供给、气候条件和海(湖)平面变化四大因素控制,其中前三个因素对于古河型的演化至关重要。在上述因素的影响下,一条河流从上游往下游,往往具有由辫状河→低弯度曲流河→高弯度曲流河→网状河的演化规律。但是河流的位置并不是决定上述变化的主要因素,只要符合条件,即构造作用、沉积物供给及气候等因素发生重大变化的情况下,河型就可能发生转化。然而,河型转化的研究成果尚未引起石油地质学家们的足够重视,并没有被充分的应用到古代河流的解释中去,这将是今后的一个重点研究方向。 相似文献
7.
Aimal K. KASI Akhtar M. KASSI Muhammad UMAR Henrik FRIIS Mohibullah MOHIBULLAH Razzaq A. MANAN 《《地质学报》英文版》2018,92(2):499-518
Detailed facies analysis of the Neogene successions of the Pishin Belt (Katawaz Basin) has enabled documentation of successive depositional systems and paleogeographic settings of the basin formed by the collision of the northwestern continental margin of the Indian Plate and the Afghan Block. During the Early Miocene, subaerial sedimentation started after the final closure of the Katawaz Remnant Ocean. Based on detailed field data, twelve facies were recognized in Neogene successions exposed in the Pishin Belt. These facies were further organized into four facies associations i.e. channels, crevasse splay, natural levee and floodplain facies associations. Facies associations and variations provided ample evidence to recognize a number of fluvial architectural components in the succession e.g., low‐sinuosity sandy braided river, mixed‐load meandering, high‐sinuosity meandering channels, single‐story sandstone and/or conglomerate channels, lateral accretion surfaces (point bars) and alluvial fans. Neogene sedimentation in the Pishin Belt was mainly controlled by active tectonism and thrusting in response to the oblique collision of the Indian Plate with the Afghan Block of the Eurasian Plate along the Chaman‐Nushki Fault. Post Miocene deformation of these formations successively caused them to contribute as an additional source terrain for the younger formations. 相似文献
8.
南堡凹陷位于渤海湾盆地黄骅坳陷北部,新近系馆陶组是该凹陷的重要勘探层段。馆陶组以辫状河沉积为主,中段发育曲流河沉积。其油气勘探的首要问题是优质储集砂体的精确对比及有利盖层分布预测。根据高分辨率层序地层学理论以及录井和测井资料,对馆陶组的层序地层样式、沉积特征和储盖组合进行了分析。研究结果表明,该地层具有两种短期旋回和四个中期旋回。在两种短期旋回中,一种是低可容纳空间的非对称旋回,另一种是高可容纳空间的对称旋回。四个中期旋回中,两个以上升半旋回为主体(MSC1、MSC2),一个是对称旋回(MSC3),一个以下降半旋回为主体(MSC4)。短、中期旋回均以非对称旋回为主。该地层的长期基准面具有缓慢上升而后快速下降的特点。从MSC1到MSC4旋回,沉积相呈现出冲积扇-辫状河→辫状河-曲流河→曲流河-辫状河相组合的演化过程。自北向南,各中期旋回的可容纳空间增大,沉积主体由砾质河道渐变为砂质河道。由于受基准面中期旋回格架控制,南堡凹陷馆陶组发育上、中、下三套储盖组合。上部储盖组合,因其储、盖层条件最好,应是馆陶组最重要的油气勘探层系。 相似文献
9.
沉积体系分析与河道砂岩型铀矿成矿条件讨论--以鄂尔多斯中新生代盆地东胜地区为例 总被引:28,自引:5,他引:28
本运用沉积体系理论,对东胜地区直罗组的沉积相及沉积体系归属进行系统分析,指出直罗组为河流相沉积,其河流演化经历了早期辫状河、中期低弯度曲流河和晚期高弯度曲流河3个阶段。根据气候演变特点将直罗组分为上、下两个岩性段:下段为温湿条件下的辫状河沉积和低弯度曲流河沉积,形成灰色沉积建造;上段为干旱炎热条件下的曲流河沉积,形成以红色为主的杂色沉积建造。本区铀矿化属河道砂岩型,矿化受辫状河道控制,主要赋存于辫状河沉积砂体中。同时,对河道砂岩型铀矿化的成矿条件进行了初步探讨。 相似文献
10.
在对大量钻井岩心观察分析的基础上,结合鄂尔多斯盆地区域地质背景,利用岩性、古生物、沉积构造、粒度分析、地球化学特征等鉴别沉积标志特征,分析鄂尔多斯盆地子洲地区晚古生代各时期沉积相特征,总结其演化规律。晚古生代研究区共发育5种沉积体系,分别是障壁海岸沉积体系、浅海陆棚沉积体系、曲流河三角洲沉积体系、辫状河三角洲沉积体系以及湖泊沉积体系。研究区晚古生代沉积演化经历两大阶段。重点分析山西期与石盒子早期盒8期沉积环境,子洲地区山西组沉积为水下还原环境,受河流三角洲作用控制,仅在山西组早期研究区南部受到短期海泛的影响;石盒子早期研究区处于完全的淡水环境,受辫状河三角洲作用控制。晚古生代沉积时气候特点体现出由温暖潮湿气候向半干旱—干旱气候转变,沉积体系表现为由海相、海陆过渡相向陆相过渡转变的特点。 相似文献
11.
内蒙古平庄盆地黑水地区上白垩统孙家湾组上段沉积相为冲积扇相,宏观上分为近端砾质辫状平原、远端砂质辫状平原及扇前洪泛平原3个亚相,进一步细分为泥石流、砾质辫状河道、砾质坝、砂质辫状河道、砂质坝、洪泛细粒、泥炭沼泽等微相。孙家湾组上段可划分为3个亚段,第一亚段为干旱_潮湿过渡气候下形成的退积型序列的旱地扇沉积;第二亚段为潮湿气候下形成的退积型序列的湿地扇沉积;第三亚段为潮湿气候下形成的进积型序列的湿地扇沉积。黑水地区的孙家湾组上段经历了早期退积型旱地扇—中期退积型湿地扇—晚期进积型湿地扇的过程。沉积相对该区铀成矿具有控制作用,铀矿化主要以不连续、局部富集的形式赋存于远端砂质辫状平原前缘的砂质辫状河砂体中,泥炭沼泽和泥质含量少的泥石流沉积中有少量存在。泥炭沼泽沉积所形成的泥岩及泥质含量高的泥石流沉积充当了局部隔水层,但由于泥炭沼泽沉积较薄,以及泥石流沉积的不均一性,致使铀矿(化)不连续、不稳定。 相似文献
12.
Detailed fieldwork and new extensive 14C dating of residual channel infillings provide data for the reconstruction of the Late‐glacial channel downcutting and incision history of the Venlo–Boxmeer lower reach of the River Meuse (= Maas) in the southern Netherlands. Within a period of 500–1300 yr after Late‐glacial climatic amelioration, the Meuse responded to increased discharges and decreased sediment supply by adjusting the width/depth ratio of its channels. Two main phases of channel downcutting are followed by two main phases of floodplain lowering and narrowing, indicating net floodplain degradation by the fluvial system as a non‐linear response to Late‐glacial and Early Holocene climate change. Some 1300 yr after initial late‐glacial warming, channels downcut rapidly during the Early Bølling (13.3–12.5 kyr BP) and adopted a high‐sinuosity meandering style. Channel downcutting paused around 11.9 kyr BP, possibly in response to rising groundwater levels and/or the Older Dryas cooling event. Between 11.9 and 11.3 kyr BP a new floodplain was formed. Then, lateral erosion took place and initiated a first phase of 2.6 m floodplain lowering during the Late Allerød. Gradual climate deterioration during the Allerød progressively broke up soils and vegetation cover, from 11.3 to 10.9 kyr BP. The Meuse gradually adjusted to an increased ratio of sediment supply over transport capacity through higher width/depth ratios. Main channels became shallower and adopted a low‐sinuosity pattern, finally culminating in a braided river system during the Younger Dryas. The final Holocene warming resulted, within 500 yr, in renewed rapid channel downcutting by a single low‐sinuosity channel during the Early Preboreal, followed by a second phase of 1.8–2.8 m floodplain lowering. Copyright © 1999 John Wiley & Sons, Ltd. 相似文献
13.
为探讨辫状河向曲流河转换的模式,以准噶尔盆地南缘头屯河剖面中侏罗统头屯河组为例,在层序地层学与沉积学的理论指导下,在层序划分与河流成因岩相类型确定的基础上,通过野外露头实测、剖面精细解剖及沉积观察描述,对头屯河组辫状河-曲流河(辫-曲)转换进行成因分析与特征总结,明确了辫-曲转换的控制因素,再现了辫-曲转换的沉积背景。研究表明:基准面旋回、物源供给、地形坡度及古气候4个方面控制着头屯河组辫-曲转换的过程。随着基准面的逐渐升高,物源供给的减弱,地形坡度的减缓,古气候环境炎热干旱,头屯河组逐渐由辫状河向曲流河转换。最终由头屯河组野外露头垂向序列,建立了辫-曲转换的局部沉积构型模式和区域沉积演化模式。 相似文献
14.
Fluvial styles recorded by the uppermost part of the Neoproterozoic ‘Rivieradal sandstones' succession of eastern North Greenland reflect variations in rate of generated accommodation space and possibly climatic changes. Three facies associations, arranged in two genetic sequences, are recognised within the succession. The lower sequence initially records little available accommodation space. A high degree of reworking results in sheet-like, high-energy, bed-load-dominated, braided river deposits lacking recurrent facies patterns. As accommodation space increases upwards through the sequence, reduction in reworking is recorded by the development of fining- and thickening-upward muddy fluvial cycles. Evidence of desiccation or prolonged periods of drought are absent within the deposits and climate was probably relatively humid. Channel deposits in the lower sequence reflect mixed-load, braided fluvial systems with stable channel banks and floodplains, and the gradient appears to have been low to moderate. These features are generally considered favourable for the establishment of meandering river systems, but channels, nevertheless, retained an overall braided character and their deposits show no evidence of meandering. Despite indications of a climatic setting without significant periods of drought sediments indicate that large fluctuations in discharge occurred within the mixed-load streams and this is suggested to be the main cause for the absence of meandering. The swift and rather dramatic response of the fluvial systems to changes in precipitation, probably resulted from rapid runoff rates caused by the absence of vegetation. The upper sequence shows an initial return to shallow, sandy braided river deposition recording little available accommodation space. A subsequent increase in the rate of generated accommodation space is indicated by the presence of alternating sheet sandstones and sand-streaked mudstones with abundant desiccation cracks. The sheet sandstones show evidence of high-energy, unconfined ephemeral fluvial flash-flood deposition, while the mudstones are interpreted to represent muddy floodplain deposits. The change in fluvial style, combined with the widespread evidence of desiccation, suggest an evolution towards a more semi-arid climate in the upper sequence. This climatic change could account for the reduced clastic input seen in the overlying marine succession which culminated in carbonate platform deposition. The present study suggests that even under conditions considered favourable for the formation of meandering streams, these will rarely occur in Proterozoic deposits due to the lacking influence of vegetation. Although meandering deposits cannot be ruled out as having formed in pre-vegetational times, the conditions for their formation appear to have been even more restricted than previously realised. 相似文献
15.
《Journal of South American Earth Sciences》2009,27(4):369-382
Changes in the sedimentologic and stratigraphic characteristics of the coal-bearing middle Oligocene–late Miocene siliciclastic Amagá Formation, northwestern Colombia, reflect major fluctuations in the stratigraphic base level within the Amagá Basin, which paralleled three major stages of evolution of the middle Cenozoic Andean Orogeny. These stages, which are also traceable by the changes in the compositional modes of sandstones, controlled the occurrence of important coal deposits. The initial stage of evolution of the Amagá Basin was related to the initial uplift of the Central Cordillera of Colombia around 25 Ma, which promoted moderate subsidence rates and high rates of sediment supply into the basin. This allowed the development of aggradational braided rivers and widespread channel amalgamation resulting in poor preservation of both, low energy facies and geomorphic elements. The presence of poorly preserved Alfisols within the scarce flood plains and the absence of swamp deposits suggest arid climate during this stage. The compositional modes of sandstones suggest sediment supply from uplifted basement-cored blocks. The second stage of evolution was related to the late Oligocene eastward migration of the Pre-Andean tholeitic magmatic arc from the Western Cordillera towards the Cauca depression. This generated extensional movements along the Amagá Basin, enhancing the subsidence and increasing the accommodation space along the basin. As a result of the enhanced subsidence rates, meandering rivers developed, allowing the formation of extensive swamps deposits (currently coal beds). The excellent preservation of Entisols and Alfisols within the flood plain deposits suggests rapid channels migration and a humid climate during deposition. Moderate to highly mature channel sandstones support this contention, and point out the Central Cordillera of Colombia as the main source of sediment. Enhanced subsidence during this stage also prevented channels amalgamation and promoted both, high preservation of geomorphic elements and high diversity of sedimentary facies. This resulted in the most symmetric stratigraphic cycles of the entire Amagá Formation. The final stage of evolution of the Amagá Basin was related to the early stage of development of the late Miocene northwestern Andes tholeitic volcanism (from ∼10 to ∼8 Ma). The extensive thrusting and folding associated to this volcanism reduced the subsidence rates along the basin and thus the accommodation space. This permitted the development of highly aggradational braided rivers and promoted channels amalgamation. Little preservation of low energy facies, poor preservation of the geomorphic elements and a complete obliteration of important swamp deposits (coal beds) within the basin are reflected by the most asymmetric stratigraphic cycles of the whole formation. The presence of greenish/reddish flood plain deposits and Alfisols suggests a dry climate during this depositional stage. The presence of channel sandstones with high contents of volcanic rock fragments supports a dry climate, and suggests an incipient phase of the Combia tholeiitic magmatism present during deposition of the Amagá Formation. The subsequent eastward migration of the NW Andes magmatic arc (after ∼8 Ma) may have produced basin inversion and suppressed deposition along the Amagá Basin. 相似文献
16.
沼泽环境中的河流类型及其侧向演化模式 总被引:6,自引:3,他引:6
本文以准噶尔盆地南缘侏罗系煤系地层为例,研究了在大面积地貌准平原化、低坡度沼泽沉积表面河流沉积的类型,提出了沼泽背景下河流的辫状河-低弯度曲流-高弯度曲流河-辫状型曲流河-交织河侧向演化模式。 相似文献
17.
The alluvial architecture of a suspended sediment dominated meandering river: the Río Bermejo,Argentina 
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下载免费PDF全文 Gregory H. Sambrook Smith James L. Best Jessica Z. Leroy Oscar Orfeo 《Sedimentology》2016,63(5):1187-1208
The alluvial architecture of fine‐grained (silt‐bed) meandering rivers remains poorly understood in comparison to the extensive study given to sand‐bed and gravel‐bed channels. This paucity of knowledge stems, in part, from the difficulty of studying such modern rivers and deriving analogue information from which to inform facies models for ancient sediments. This paper employs a new technique, the parametric echosounder, to quantify the subsurface structure of the Río Bermejo, Argentina, which is a predominantly silt‐bed river with a large suspended sediment load. These results show that the parametric echosounder can provide high‐resolution (decimetre) subsurface imaging from fine‐grained rivers that is equivalent to the more commonly used ground‐penetrating radar that has been shown to work well in coarser‐grained rivers. Analysis of the data reveals that the alluvial architecture of the Río Bermejo is characterized by large‐scale inclined heterolithic stratification generated by point‐bar evolution, and associated large‐scale scour surfaces that result from channel migration. The small‐scale and medium‐scale structure of the sedimentary architecture is generated by vertical accretion deposits, bed sets associated with small bars, dunes and climbing ripples and the cut and fill from small cross‐bar channels. This style of alluvial architecture is very different from other modern fine‐grained rivers reported in the literature that emphasize the presence of oblique accretion. The Río Bermejo differs from these other rivers because it is much more active, with very high rates of bank erosion and channel migration. Modern examples of this type of highly active fine‐grained river have been reported rarely in the literature, although ancient examples are more prevalent and show similarities with the alluvial architecture of the Río Bermejo, which thus represents a useful analogue for their identification and interpretation. Although the full spectrum of the sedimentology of fine‐grained rivers has yet to be revealed, meandering rivers dominated by lateral or oblique accretion probably represent end members of such channels, with the specific style of sedimentation being controlled by grain size and sediment load characteristics. 相似文献
18.
Reappraisal of Precambrian sheet‐braided rivers: Evidence for 1·9 Ga deep‐channelled drainage 下载免费PDF全文
下载免费PDF全文 The repetitive sedimentology of many Precambrian sheet‐dominated fluvial sandstones favoured their attribution to unconfined depositional processes. This article presents outcrop evidence for deep‐channelled drainage in the 1·9 Ga Burnside River Formation of Kilohigok Basin, Arctic Canada. On the ground, sheet‐like sandbodies with ubiquitous cross‐bedding are at first consistent with classic, unconfined depositional models. However, satellite and oblique‐aerial imagery of sections up to 15 km wide and 500 m thick reveals the occurrence of incised palaeovalleys hosting clustered, kilometre‐scale, channel bodies with attached large foreset bars pointing to downstream‐lateral accretion, sand sheets with aspect ratios (i.e. width to thickness) as high as 2500, and scattered aeolian intervals. The genetic association of these architectural elements points to aggradational fluvial piedmonts composed of low‐relief unit bars generated by braidplain channels several metres deep. Preservation of aeolianites was facilitated by fluctuating groundwater table and accommodation. Fluvial piedmonts were transected by weakly sinuous channel belts up to 25 m deep and characterized by through‐going or tributary planform. Aspect ratios comparable with those of late Palaeozoic to modern braided channels disprove the inference that all Precambrian streams readily widened in response to increased discharge. Previous facies models for large‐scale Precambrian sheet‐braided rivers failed to depict entire channel forms, possibly because they could not be resolved by ground‐based observations. Based on their limited geomorphic variability and abundance of architectural elements with very high aspect ratios, this study recommends that large sheet‐braided fluvial systems should still be considered separately from their post‐Silurian (i.e. vegetated) braided counterparts. Parallels between sheet‐braided and modern dryland rivers do not, however, reconcile with the deep, perennial, channelized processes described here. Yet, distal sand‐bed and perennial reaches of modern sandur plains remain the closest analogue to sheet‐braided rivers. This conjecture contradicts the assumption that all Precambrian rivers were prone to simulate seasonal behaviours independently from their actual climate regime. 相似文献
19.
依据露头、岩心、测井及地震等资料并运用层序地层学分析及基准面旋回分析等手段,对本区地层进行了小层划分与对比,首次将地层划分到岩性段。在此基础上,将研究区置于构造及其控制的海侵[CD*1/2]海退旋回背景下,运用比较沉积学理论,总结出本区晚古生代发育有潮坪、扇三角洲、浅水三角洲、冲积扇、辫状河和曲流河6种沉积体系及一系列亚微相;提出9种构成储集砂体的重要成因类型,并阐述了其形成条件、发育特征和识别标志。对不同时期岩相古地理研究表明,本区处于伊克昭盟隆起南坡,在北高南低及西陡东缓的古地形控制下,北或北北东向水系继承性发育,西部以形成扇三角洲(太原组)和冲积扇(山西组-上石盒子组)沉积为主,而东部则以形成浅水三角洲(太原组)、辫状河(下石盒子组)、曲流河(山西组、上石盒子组)沉积为主。 相似文献
20.
冲积-河流相层序地层模式--以济阳坳陷新近系为例 总被引:8,自引:0,他引:8
从层序边界分析人手,对层序类型体系域类型等进行了研究,认为冲积-河流相地层体系域划分具4分性,即发育有低位体系域、扩张体系域、高位体系域,当基准面缓慢下降时,还可发育收缩体系域.同时,根据济阳坳陷新近系沉积特征,指出各体系域对应的沉积体系及相类型,认为低位体系域以侵蚀下切、冲积扇.辫状河沉积为主;扩张体系域由辫状河向曲流河过渡;高位体系域时期以曲流河为主.其次,根据构造演化、古气候变化、古地形等研究认为,尽管新近纪济阳坳陷进入坳陷发育时期,断裂活动明显减弱,但是构造运动对层序发育仍有一定影响;根据古气候分析认为,新近纪经历了北亚热带温湿气候,中亚热带温湿气候,北亚热带干旱气候等阶段.这种气候变化导致了馆陶组沉积早、中期河流纵横交错,辫状河道发育,馆陶组沉积后期逐渐向曲流河过渡;明化镇组沉积期河道相对不发育.由古地形及物源供给分析,认为古地形差异的变化与物源供给对济阳坳陷新近系层序发育、层序样式等有一定程度影响. 相似文献