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1.
Braided rivers exhibit highly variable morphologies, morphodynamic behaviours and resulting depositional records. To evaluate relationships between characteristics of braided-river channel belts and river depth, water discharge and streambed gradient, 39 numerical modelling experiments were conducted with the software Delft3D to simulate braided-river evolution under a broad range of boundary conditions. Data from model outputs were integrated with observations from 63 natural braided rivers differing with respect to river depth and streambed gradient. The modelled rivers each underwent similar evolutions, yet each culminated in markedly different final river morphologies, dependent on discharge and riverbed gradient. The rivers underwent evolutionary stages of: (i) formation of transverse unit bars with limited relief from an initially featureless bed; (ii) channel development around bars and in some cases dissecting transverse unit bars; (iii) formation of relatively simpler compound bars; and (iv) amalgamation of these simpler compound bars into more complex compound bars. Quantitative relationships relating to braided-river channel-belt morphology and organization are established, and the following results are noted: (i) bar elongation (length-to-width ratio) is correlated positively with riverbed gradient; (ii) bar height and area are correlated positively with discharge, and negatively with riverbed gradient; (iii) the river depth is the main predictor of mean braid-bar area; and (iv) the degree of braiding is primarily associated with river width-to-depth ratio and riverbed gradient. Results arising from this research improve our understanding of controls on the morphology and architectures of braided fluvial channel belts; they provide a novel empirical characterization that can be applied for predicting channel depth, bar morphology, streambed gradient, and degree of braiding of modern fluvial systems and of the formative rivers of ancient preserved successions. 相似文献
2.
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
3.
辫状河流属于冲积河流的主要类型,对流水地貌景观、水生栖息地和河流开发与生态保护具有重要科学意义。根据辫状河流演变过程与机理的国内外研究进展,对定义与形态特征进行综合描述,并给出常用的形态表征方法与参数。总结辫状河流的4种野外地形观测方法以及水槽试验和数值模型的应用,比较它们的适合范围;描述辫状河流的不同形态单元的组成,列举沙洲形成、汊道调整与横向迁移、岸滩侵蚀、河漫滩淤积等基本演变规律;对比分析水流功率、床沙粒径、泥沙补给、滨河植被、河谷宽度等影响辫状河流形态动力学过程的主要控制因素;指出青藏高原不同空间尺度辫状河流的形成原因、形态特征和演变规律是河流动力学的重要研究方向。 相似文献
4.
青藏高原是中国及亚洲大河的发源地,高原内部河网水系发达。在高原抬升、气候变化和人类活动的三重叠加作用下高原河流未来可能发生显著变化,由此引发的一系列交叉学科问题正成为关注热点。在前期多年高原河流野外调查的基础上,对近几十年青藏高原河流演变的研究进展,如地质背景、高原抬升和河流地貌特征与演变等进行较系统的分析和总结。展望了中等时间尺度下气候变化对河流演变的影响,短时间尺度下人类活动的局部、突变和加速的作用;提出冲积河群的新概念,初步给出其定义、特征和分布,以期在这个新框架下促进复杂辫状河道和弯曲河道形成与演变的深入研究。 相似文献
5.
Reappraisal of Precambrian sheet‐braided rivers: Evidence for 1·9 Ga deep‐channelled drainage 
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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
6.
白杨河冲积扇是由阵发性洪水期的碎屑流沉积物与间洪期辫状河沉积物组成的复合型冲积扇,其构型与碎屑流扇的构型和河流型扇的构型有很大的不同。本研究选取准噶尔盆地西北缘干旱气候下发育的现代白杨河冲积扇作为解剖实例,对103个天然剖面和9个人工大型探槽进行了详细测量,在沉积微相及不同级别的沉积构型的观测和分析的基础上,分析了阵发性洪水条件下间歇性辫状河型冲积扇体的地貌单元的演化过程和沉积构型特征,研究不同流态的阵发性洪水条件下各种建造和改造机制,明确受阵发性洪水控制的间歇性辫状河型冲积扇的沉积特征,建立了其沉积构型模式。认为: 在洪水期,阵发性洪流(碎屑流)形成席状化的片流(或片洪)沉积,在洪退期,随着洪水强度的减弱,又转变为辫流沉积,而在间洪期,仍有持续的辫状流体(牵引流)在限制性的水道中流动,并对洪水期的碎屑流沉积物进行改造,形成了限制性的(条带状的)辫状河道沉积,2个时期的沉积物在时空上频繁叠置,形成了一种更加复杂的沉积构型。该模式对油田地下冲积扇砂砾储集层的成因识别、预测及对比具有一定的参考价值。 相似文献
7.
C. L. Petrovitch L. J. Pyrak-Nolte D. D. Nolte 《Rock Mechanics and Rock Engineering》2014,47(5):1613-1623
The connection between fluid flow and seismic stiffness in single fractures is governed by the geometry of the fracture through the size and spatial distributions of the void and contact areas. Flow and stiffness each exhibit scaling behavior as the scale of observation shifts from local to global sample sizes. The purpose of this study was to explore the joint scaling of both properties using numerical models. Finite-size scaling methods are used to extract critical thresholds and power laws for fluid flow through weakly correlated fractures under increasing load. An important element in the numerical fracture deformation is the use of extended boundary conditions that simulate differences between laboratory cores relative to in situ field studies. The simulated field conditions enable joint scaling of flow and stiffness to emerge with the potential to extrapolate from small laboratory samples to behavior on the field scale. 相似文献
8.
The Smith and Bretherton model for fluvial landsurfaces consists of a pair of partial differential equations: one governing water flow and one governing sediment flow. Numerical solutions of these equations have been shown to provide realistic models of the evolution of fluvial landscapes. Further analysis of these equations shows that they possess scaling laws (Hack’s Law) that are known to exist in nature. The preservation of these scaling laws in simulations is highly dependent on the numerical method used. Two numerical methods, both optimized for overland flow, have been used to simulate these surfaces. The implicit method exhibits the correct scaling laws, but the explicit method fails to do so. These equations, and the resulting models, help to bridge the gap between the deterministic and the stochastic theories of landscape evolution. Slight modifications have been made to this model to make the resulting surfaces more realistic. The most successful of these was the addition of an abrasion term to assist in the channelization of rivers. 相似文献
9.
泉头组是松辽盆地中白垩世早期地层,为主要含油层位之一,由一套含轮藻、瓣鳃类、介形虫、叶肢介及陆生植物化石为主的红色陆屑组成,自下而上可分为四段,最大厚度可达2000m。在泉头期,河流相沉积占有相当的比重。对河流相沉积特征研究及古河流的再造,无疑对确定河流砂体规模、几何形态、空间分布及油气勘探具指导意义。一、泉头组河流相沉积特征 相似文献
10.
Alessandro Ielpi Martin R. Gibling Arden R. Bashforth Corinne Lally Michael C. Rygel Saif Al‐Silwadi 《Sedimentology》2014,61(6):1659-1700
Vegetation is a major driver of fluvial dynamics in modern rivers, but few facies models incorporate its influence. This article partially fills that gap by documenting the stratigraphy, architecture and palaeobotany of the Lower Pennsylvanian Boss Point Formation of Atlantic Canada, which contains some of the Earth's earliest accumulations of large woody debris. Braided‐fluvial systems occupied channel belts of varied scale within valleys several tens of metres deep and more than 12 km wide, and their deposits predominantly consist of sandy and gravelly bedforms with subordinate accretionary macroforms, high flow‐strength sand sheets and rippled abandonment facies. Discrete accumulations of clastic detritus and woody debris are up to 6 m thick and constitute at least 18% of the in‐channel deposits; they represent lags at the base of large and small channels, fills of minor channels and sandy macroforms that developed in central positions in the upper parts of channel fills. Sandstones with roots and other remnants of in situ vegetation demonstrate that vegetated islands were present, and the abundance of discrete channel fills suggests that the formation represents an anabranching, island‐braided sandbed river, the earliest example documented to date. Although some sphenopsid and lycopsid remains are present, most woody fragments are derived from cordaitalean trees, and the evolution of this group late in the Mississippian is inferred to have exerted a significant influence on fluvial morphodynamic patterns. The formation records a landscape in which active channel belts alternated with well‐drained floodplains colonized by dense, mature forests and local patches of pioneering, disturbance‐tolerant vegetation. Lakes and poorly drained floodplains dominated by carbonate and organic deposition, respectively, were also present. A large supply of woody debris triggered channel blockage and avulsion, and active channel margins and islands within the channel belts were initially colonized by pioneer vegetation and subsequently stabilized by large trees. A similar alternation of stable and unstable conditions is observed in modern braided rivers actively influenced by vegetation. 相似文献
11.
Analysing the spatio-temporal evolution of an active debris slide in Eastern Himalaya,India 总被引:1,自引:0,他引:1
Saibal Ghosh Anjan Bora Sudipta Nath Ashok Kumar 《Journal of the Geological Society of India》2014,84(3):292-302
Landslide is one of the prominent geohazards in the Himalayas where loss of lives and property are common. Owing to the complicated geomorphic and tectono-stratigraphic setting of this active Fold-thrust belt (FTB), landsliding of all possible types and spatial scales observed exhibit conspicuous spatio-temporal signatures and evolution. This evolution of landslides is commonly studied by regional assessment and by examining the multi-temporal landslide inventories of a particular area. The success of creating such multi-temporal landslide inventory depends on (i) the availability of relevant past source data (e.g., images, post event maps, air photos etc.) of suitable resolution, scale and quality, (ii) time of generation of source data with respect to the time of landsliding event, (iii) skill of the investigators in interpreting the old images, air photos etc. However, this method is of restricted use in studying the spatio-temporal evolution of a single landslide which is perennially active in the Himalayan terrain, where rapid changes in land use and land cover patterns readily obliterate the signatures of past landsliding. Moreover because of scale constraints, subtle and frequent changes in the spatial dimensions of these individual landslides, and their temporal activity become difficult to identify in such regional assessment carried out over a larger area. In this study therefore, a different approach is adopted whereby the spatio-temporal activity and style of Lanta Khola landslide, a perennially active and large (0.25 km2) debris flow in the Eastern Himalayas, has been studied in detail through detailed scale (1:1000) site-specific geological mapping in phases during the last 28 years (1983–2011). Such site-specific geological observations coupled with numerical slope stability analysis utilising the limit equilibrium method facilitate in detailed understanding of the temporal and spatial evolution and inherent mechanism of this perennial landslide. 相似文献
12.
DAVID HUDDART MATTHEW R. BENNETT NEIL F. GLASSER 《Boreas: An International Journal of Quaternary Research》1999,28(2):253-273
Although eskers are frequently described glaciofluvial landforms, they are poorly understood. To assist with the interpretation of Pleistocene examples, modern analogue data are required. This paper documents the morphology, sedimentology and formation of a 650 m long esker system in front of the high-arctic glacier Vegbreen in Svalbard. The esker is located between the Neoglacial maximum and the present ice front and appears to have formed both as a supraglacial trough-fill and as a channel/conduit-fill along the suture formed by two confluent glacier lobes. A range of sedimentary facies is preserved within this ridge system providing evidence for braided rivers, ephemeral lakes, episodic flow regimes and sediment gravity flows. This case study provides an important analogue for glaciofluvial sedimentation between retreating ice lobes. 相似文献
13.
YIN Senlin ZHU Baiyu GUO Haiping XU Zhenhu LI Xiaoshan WU Xiaojun CHEN Yukun JIANG Zhibin 《《地质学报》英文版》2023,97(1):269-285
Three-dimensional unmanned aerial vehicle(UAV) oblique photogrammetric data were used to infer mountainous gravel braided river lithofacies, lithofacies associations and architectural elements. Hierarchical architecture and lithofacies associations with detailed lithofacies characterizations were comprehensively described to document the architectural model, architectural element scale and gravel particle scale.(1) Nine lithofacies(i.e., Gmm, Gcm, Gcc, Gci, Gcl, Ss, Sm, Fsm and Fl) were identifi... 相似文献
14.
In this paper, we analyze the morphology of the Andes of Peru and its evolution based on the geometry of river channels, their bedrock profiles, stream gradient indices and the relation between thrust faults and morphology. The rivers of the Pacific Basin incised Mesozoic sediments of the Marañon thrust belt, Cenozoic volcanics and the granitic rocks of the Coastal Batholith. They are mainly bedrock channels with convex upward shapes and show signs of active ongoing incision. The changes in lithology do not correlate with breaks in slope of the channels (or knick points) such that the high gradient indices (K) with values between 2,000–3,000 and higher than 3,000 suggest that incision is controlled by tectonic activity. Our analysis reveals that many of the ranges of the Western Cordillera were uplifted to the actual elevations where peaks reach to 6,000 m above sea level by thrusting along steeply dipping faults. We correlate this uplift with the Quechua Phase of Neogene age documented for the Subandean thrust belt. The rivers of the Amazonas Basin have steep slopes and high gradient indices of 2,000–3,000 and locally more than 3,000 in those segments where the rivers flow over the crystalline basement of the Eastern Cordillera affected by vertical faulting. Gradient indices decrease to 1,000–2,000 within the east-vergent thrust belt of the Subandean Zone. Here a correlation between breaks in river channel slopes and location of thrust faults can be established, suggesting that the young, Quechua Phase thrust faults of the Subandean thrust belt, which involve Neogene sediments, influenced the channel geometry. In the eastern lowlands, these rivers become meandering and flow parallel to anticlines that formed in the hanging wall of Quechua Phase thrust faults, suggesting that the river courses were actively displaced outward into the foreland. 相似文献
15.
河流沉积学研究热点与进展--第11届国际河流沉积学大会综述 总被引:1,自引:1,他引:0
第11届国际河流沉积学大会于2017年7月17日-21日在加拿大卡尔加里大学举行,每四年举行一次的国际河流沉积学学术会议,吸引了当今北美、欧洲、澳洲及亚洲从事河流沉积学及相关学科研究的众多知名学者参会,研究成果充分体现了当前国际河流沉积学研究取得的重要进展和发展方向。重要进展有:1)河流动力学及其变化过程研究。其中包括将今论古法论现代河流沉积过程与古老地层对比,河道-洪泛平原体系的越岸复合沉积动力学,河流动力学与变化过程研究展望,恢复河道迁移过程:新一代平面图演化模式的讨论,冲积河流和基岩河流的湍流、颗粒间作用和沉积作用;2)陆缘河流。包括河流入海处的地貌动力学与沉积学,河流补给边缘的沉积物搬运、地貌和地层特征,干旱地区河流、冲积扇体系与风的相互作用,植被生长前、无植物生长、或是植被发育区河流的沉积过程研究;3)河流沉积地层及其地下资源。包括源-汇系统,"河流相模式"是否有用的讨论,辫状河、网状河、曲流河概念的厘定等;4)河流地貌变化。包括气候改变、泥泞植被洪泛平原等对河流沉积物通量、河流模式等产生影响,河道中冲积岛屿的演化和稳定河流的蛇曲化,河流环境中沉积物生物作用等。基于上述资料分析,认为河流演化过程从定性向定量化研究,物理模拟与数值模拟技术是河流沉积学研究不可或缺的手段,应用定量建模、数学计算等方法进行精准研究,碎屑锆石U-Pb定年技术是新一代从源到汇研究的重要工具等诸多方面,是我国学者应该重视并开展研究的方向。 相似文献
16.
依据新的地层划分方案及大量钻井、露头及岩芯资料,详细研究了鄂尔多斯中南部地区中侏罗世延安期沉积体系、岩相古地理特征及演化。认为延10期为冲积扇-河流沉积体系,低弯度砾砂质河道发育,盆地内存在多个古地貌高地,4条水系汇入甘陕主河;延9至延6期为多源河湖三角洲沉积体系,具大三角洲平原、中三角洲前缘和小前三角洲的特征,三角洲平原及前缘的位置不断向湖区推进;延4+5期为网状河-残余湖泊沉积体系,湖泊淤塞,水体变浅。延9至延4+5期网状砂质河道发育,西部地区广泛发育平原沼泽煤系沉积。 相似文献
17.
准噶尔盆地车排子凸起新近系沙湾组为湖盆缓坡多物源、复杂沉积体系沉积,其沉积体系认识争议很大,时空演化难以刻画.准确刻画其沉积体系类型、演化规律和砂体分布特征,是精细刻画单砂体及内部构型等储层的基石,对后期油气开发具有重要指导意义.在岩心、测井、测试分析及地震资料,充分利用相位转换、地层切片等地震沉积学技术方法,对其沉积体系特征进行深入研究.建立研究区精细层序地层格架,将沙湾组划分为2个三级层序、4个四级层序;识别出冲积扇、辫状河、曲流河、曲流河三角洲、扇三角洲及滨浅湖6种沉积体系类型,并确定沉积体系边界及演化规律;建立了多物源冲积扇-辫状河、扇三角洲-曲流河三角洲沉积模式及砂体分布模式.辫状河道、心滩、点坝复合体及冲积扇砂体均钻遇较好油气显示,为重要储集体.此次研究丰富了地震沉积学在湖盆缓坡多物源、多沉积体系类型中的应用. 相似文献
18.
弯道水流结构在天然河流形态演变过程中起着重要作用,为进一步深化对弯道环流结构与紊动特性的认识,以三峡库区黄花城河段具有的连续弯道为研究对象,采用声学多普勒剖面流速仪(ADCP)开展原型三维瞬时速度测量,初步分析弯道环流结构与湍流结构尺度分布特性。研究结果表明:三峡库区黄花城河段存在河道层面宏观尺度的弯道环流结构;受局部壅水以及河床地形影响,在测量垂线上表现为全水深环流结构或双环流结构特征;超大尺度湍流结构仍然存在于库区连续弯道河流中,但尺度以及分布受弯道环流结构影响较大。 相似文献
19.
Patrick G. Eriksson Adam J. Bumby Jacobus J. Brümer Markus van der Neut 《Sedimentary Geology》2006,190(1-4):25-46
Precambrian fluvial systems, lacking the influence of rooted vegetation, probably were characterised by flashy surface runoff, low bank stability, broad channels with abundant bedload, and faster rates of channel migration; consequently, a braided fluvial style is generally accepted. Pre-vegetational braided river systems, active under highly variable palaeoclimatic conditions, may have been more widespread than are modern, ephemeral dry-land braided systems. Aeolian deflation of fine fluvial detritus does not appear to have been prevalent. With the onset of large cratons by the Neoarchaean–Palaeoproterozoic, very large, perennial braided river systems became typical. The c. 2.06–1.88 Ga Waterberg Group, preserved within a Main and a smaller Middelburg basin on the Kaapvaal craton, was deposited largely by alluvial/braided-fluvial and subordinate palaeo-desert environments, within fault-bounded, possibly pull-apart type depositories.
Palaeohydrological data obtained from earlier work in the Middelburg basin (Wilgerivier Formation) are compared to such data derived from the correlated Blouberg Formation, situated along the NE margin of the Main basin. Within the preserved Blouberg depository, palaeohydrological parameters estimated from clast size and cross-bed set thickness data, exhibit rational changes in their values, either in a down-palaeocurrent direction, or from inferred basin margin to palaeo-basin centre. In both the Wilgerivier and Blouberg Formations, calculated palaeoslope values (derived from two separate formulae) plot within the gap separating typical alluvial fan gradients from those which characterise rivers (cf. [Blair, T.C., McPherson, J.G., 1994. Alluvial fans and their natural distinction from rivers based on morphology, hydraulic processes, sedimentary processes, and facies assemblages. J. Sediment. Res. A64, 450–489.]). Although it may be argued that such data support possibly unique fluvial styles within the Precambrian, perhaps related to a combination of major global-scale tectono-thermal and atmospheric–palaeoclimatic events, a simpler explanation of these apparently enigmatic palaeoslope values may be pertinent. Of the two possible palaeohydrological formulae for calculating palaeoslope, one provides results close to typical fluvial gradients; the other formula relies on preserved channel-width data. We suggest that the latter will not be reliable due to problematic preservation of original channel-widths within an active braided fluvial system. We thus find no unequivocal support for a unique fluvial style for the Precambrian, beyond that generally accepted for that period and discussed briefly in the first paragraph. 相似文献
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川井坳陷位于二连盆地西部,坳陷内目的层赛汉组上段发育辫状河、辫状河三角洲-湖沼沉积,砂体发育。受构造、构造演化影响,在坳陷东部发育晚白垩世苏海布龙剥蚀窗口,在坳陷西部白音查干地区发育古近纪剥蚀窗口,剥蚀窗口控制了后生含铀含氧流体向盆地内入渗参与成矿,找矿类型为赛汉期斜坡带型及古河谷型。东西二个剥蚀窗口的发现,对合理解释已发现的矿化异常、找矿预测模型的构建提供了基础。通过构建坳陷三位一体找矿预测模型,预测了苏海布龙、白音查干西及包龙凹陷东三个铀成矿远景区。 相似文献