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1.
将水库淤积按沉积动力学特征分为河流沉积淤积和水库沉积淤积两种基本类型,相映建立了两种淤积动力模型。枯水期水库水位下降时,河流沉积淤积体较水库沉积淤积体有较大面积的出露,枯水期淤积面积构成了水库淤积体大小及淤积程度的重要侧面和重要参数,水库淤积程度是枯水期水库淤积面积的函数。结合陆地卫星TM图像,对研究区内的30个水库淤积状况统计后,按淤积程度离差分为三级:Ⅰ级,DEPDEV<-0 3;Ⅱ级,DEPDEV=-0 3~1;Ⅲ级,DEPDEV>1。对图像平面数据与水利部门实测的水库淤积量数据进行对比,发现图像数据与兴利库容以下实测数据协同性好。最后,分别在流域内及整个研究区域,对水库淤积程度的空间分布进行了分析。 相似文献
2.
大型水库运行下内蒙古河道泥沙侵蚀淤积过程 总被引:5,自引:2,他引:3
通过1954—2000年黄河泥沙资料分析,黄河内蒙古河段侵蚀淤积过程对上游水库运行的响应主要表现为:①盐锅峡和三盛公首先将黄河输沙能力由7.33 kg·m-3降为6.27 kg·m-3, 使内蒙古河道由自然淤积状态转变为侵蚀下切状态,小于0.1 mm泥沙侵蚀速率高于大于0.1 mm泥沙淤积速率,河道发生粗化现象;②)刘家峡和青铜峡水库将黄河输沙能力降为3.91 kg·m-3,促使黄河河道中大于0.01 mm泥沙淤积速率大于小于0.01 mm泥沙侵蚀速率,使内蒙古河道发生粗化淤积现象;③龙羊峡水库将黄河输沙能力进一步降为 3.48 kg·m-3,加剧黄河内蒙古河道淤积现象, 大于0.01 mm泥沙和小于0.01 mm泥沙均呈现出淤积状态,淤积速度与黄河上游无水库运作时的自然状态相似。 相似文献
3.
河漫滩地生态系统影响下的河型转化—以红山水库上游河道为例 总被引:3,自引:0,他引:3
将地生态学概念与方法用于水库修建后河床调整过程的研究,以老哈河红山水库上游为例阐述了河漫滩地生态系统影响下的河型转化过程,由于水库上游河漫滩地生态系统的变化,导致了河漫滩淤积过程的改变,使河岸组成物质变细,抗冲性增强,因而促使建库前的游荡河型逐渐转化为曲型。 相似文献
4.
黄河上游内蒙古河段平滩流量对人类活动和气候变化的响应 总被引:1,自引:0,他引:1
冲积河流平滩流量既反映了河道尺度上的水文-地貌耦合关系,又与流域因素密切相关。从这一概念出发,以黄河上游内蒙古河段为例,研究了平滩流量的变化,并在流域层面与河道层面上对其成因进行了研究。结果表明:上游水库调节改变了出库流量过程,使汛期流量大幅度减小,泄流过程均匀化,因而平滩流量减小。在龙羊峡水库修建后洪水流量减小导致漫滩机遇降低的情形下,泥沙淤在主槽内,也是平滩流量减小的重要原因。泥沙冲淤对于平滩流量的影响存在着某种累积或滞后效应,巴彦高勒平滩流量Qbf,BY不仅与当年的冲淤量有关,还与以前冲淤量有关,前4 a平均淤积量对平滩流量的影响最大。建立了平滩流量与前4 a累计淤积量、年均流量、年最大日流量的多元回归方程,该方程表明平滩流量既与当年的流量特征相联系,也与一定时间尺度上河道冲淤造成的后果相联系,反映了某种水文地貌耦合关系。研究还表明,存在着以下因果关系链:龙羊峡水库修建→汛期来沙系数增大→河道淤积加强→平滩流量减小。因此,通过改变龙羊峡水库的运用方式,增大汛期下泄流量,可以减小河道淤积、增大平滩流量,从而增大下泄洪水的能力,降低凌汛期间的防洪压力。平滩流量的变化是流域因素变化的结果,所建立的多元回归方程表明,在50 a的时间尺度上,暖干化指标的增大、引水率的增大、水库总库容的增大和天然径流系数的减小,是黄河上游平滩流量减小的原因。 相似文献
5.
黄河内蒙河段河床冲淤演变特征及原因 总被引:4,自引:0,他引:4
利用黄河内蒙段1962-2000年间4期大断面观测资料,计算了各期河床冲淤和河槽形态指标。发现从1962-2000年间前20年、中间9年及后9年,内蒙河段河槽500m2过水面积下河底高程发生了降低-升高-再升高的过程;河槽漫滩过水面积经历了升高-降低-再降低的过程,2000年只有1982年的大约一半;滩地经历了持续淤积过程,平均抬升0.25m;河槽宽深比值经历了变化不显著-增加-减小的过程。分析结果表明:气候变化、引水、水库拦沙和重点产沙支流来沙变化在河床冲淤和河床形态调整中作用较大;水库对径流的年内调节对1982年后河槽淤积贡献较大;来水来沙变化下河流多要素自动调整是造成河槽形态变化过程复杂的原因。 相似文献
6.
水库联合运行对于库下河道的影响是河流地貌学近年来的热点问题,如何定量表征河道的因应调整则是其难点所在。基于同水位河道过水断面形态参数变化率分析方法,针对黄河内蒙古河段磴口、巴彦高勒、三湖河口、头道拐4个水文站,利用刘家峡水库、龙羊峡水库联合运行之前的1978-1982年、之后的2008-2012年汛期前后实测断面资料,计算了相应年份上述各站同水位下的河道断面面积、水面宽、平均水深等特征参数在经历汛期冲刷后的变化率。结果表明,每年在经历汛期洪水冲刷之后,上述形态参数总体上以增大为主,变化率为正值;大型水库联合运行之前与之后的两个时期相比,同水位下河道断面面积、水面宽和平均水深的变化率分别减小了3.4、3.5和2.8倍。过水断面形态参数的沿程空间变化也由之前的上凸形曲线变为之后增减相间的"S"形曲线。其原因在于,大型水库联合运行削减了洪峰流量、降低了汛期最大流速,从而导致洪水造床能力显著变弱,河道断面形态参数的变化率因之显著减小。大型水库联合运行使黄河内蒙古河道明显萎缩,这不利于可能遭遇的极端大洪水的安全行洪,因此,需要合理利用这些水库的调节功能,有效控制汛期总水沙量和洪峰流量,避免因过度调节而使河道持续萎缩,为可能出现的极端大洪水的安全行洪创造条件。 相似文献
7.
为揭示三峡水库库区不同类型支流河口泥沙淤积的内在机理和变化趋势,本文充分利用水文、泥沙、固定断面和河道地形等原型观测资料,从支流水沙输移规律和河口局部水沙分布特征出发,研究了不同类型支流河口段泥沙淤积规律及主要影响因素的作用机理,探讨其淤积趋势及形成拦门沙的风险。结果表明:三峡水库蓄水后,库区不同类型支流河口普遍淤积,淤积范围及河道形态的变化各有特点;水库蓄水造成水动力条件减弱是河口泥沙淤积的根本原因,淤积幅度和范围主要取决于干支流来沙量和局部河势。在干支流来沙均明显减少的情况下,三峡水库库区支流河口泥沙淤积速度显著下降,形成拦门沙坎的可能性较小。 相似文献
8.
黄河下游河道断面形态参数变化及其水沙过程响应 总被引:1,自引:0,他引:1
基于1965—2015年黄河下游花园口、高村、泺口站的逐年水文和汛前河道断面的实测资料,分析了河道断面形态参数(河道断面面积,河道宽深比等)的变化,以及对河道断面形态与来水来沙间的关系做出定量化分析。结果表明:主槽断面形态参数与水沙搭配以及前期断面形态密切相关,沿程3个断面形态参数调整方式存在显著差异。河宽调整幅度沿程减小,辫状河段变幅最大,尤其在1986—1999年,辫状河段萎缩程度最为严重,其次为弯曲河段,顺直河段横向调整幅度最小。受到前期断面形态的影响,辫状河段河道断面调整方式既有横向展宽(萎缩)又有垂直加深(淤积);弯曲河段河道宽深比与流量呈较弱的正相关关系,具有横向和垂向的调整方式;而顺直河段的宽深比与流量呈负相关关系,与来沙系数呈正相关关系,河道以垂直加深(淤积)为主。 相似文献
9.
黄河内蒙古河段冲淤演变及其影响因素 总被引:6,自引:1,他引:5
冲淤平衡的河流具有调整河床变形使之趋向不变形的特性,这种特性必然反映在河床横断面冲淤演变的趋势之中。据此,采用横断面冲淤指标跟踪计算法生成黄河上游巴彦高勒、三湖河口站1976-2006 年的横断面冲淤演变时间序列,对该长期序列的趋势变化和突变特点进行分析后发现:内蒙古河床演变明显存在3 个阶段,即演变相对稳定阶段、河床快速萎缩变形阶段和新的相对稳定阶段,以及孔兑来沙大的年份是横断面冲淤面积趋势改变的时间。大型水库修建后,孔兑来沙对河道横断面冲淤趋势变化的影响更加显著,表明近年来大洪水缺失和孔兑来沙的共同作用是导致河床萎缩的重要根源。90 年代中后期横断面冲淤演变再次发生突变之后,内蒙河段进入到一个新的相对稳定期,河床边界条件已经和来水来沙条件相适应,因此在新的稳定条件下,如何治理内蒙河道的淤积萎缩值得探讨。 相似文献
10.
长江干流江苏段44 年来河道冲淤变化的时空特征 总被引:3,自引:0,他引:3
通常认为气候变暖引起的海平面上升将导致下游河道的淤积, 流域水土保持和水库建设引起的上游来沙量的减少将导致下游河道的冲刷。然而, 长江下游河道是如何对海平面上升和上游来沙量的减少做出响应的, 至今还没有直接的确凿的证据。在地理信息技术支撑下, 对长江干流江苏段(约330 km) 5 个时期1:25000~1:60000 的河道地形图进行了数字化, 建立了1959、1970、1985、1992 和2003 年河道数字地形图, 对河道的冲淤变化进行了计算分析。 结果表明, 长江干流江苏段在1985 年前后发生过明显的河道冲淤转换: 由1959-1985 年之间的平均淤积状态转变为1985-2003 年之间的平均冲刷状态。主要原因是1985 年以后该河段的上游来沙量的减少。1959-1985 年之间长江干流江苏段河道的淤积过程, 存在着由上游向下游推进的“顺流堆积”现象。1985-2003 年之间, 下段冲刷速率大于中段和上段。 相似文献
11.
Recent morphological evolution of the Lower Mississippi River 总被引:1,自引:0,他引:1
This study documents slope and stream power changes in the Lower Mississippi River during the pre-cutoff (1880s–1930s), and post-cutoff (1943–1992) periods. The study reach extends from New Madrid, MO, to Natchez, MS, a distance of about 900 km. Analyses for six major reaches and 13 sub-reaches for the pre- and post-cutoff periods indicate that the river presently has a much larger slope and stream power than prior to the cutoffs. The largest increases have occurred between Fulton, TN, and Lake Providence, LA, where slope and stream power increases range from about 27% to 36% and 20% to 38%, respectively. Increases in slope and stream power in reaches upstream and downstream have also occurred, but to a lesser degree. Previous investigations have shown that no coarsening of the bed material has occurred since 1932, and that the bed material may actually be somewhat finer overall. As the Lower Mississippi River is not a sediment-starved system, an increase in stream power with no change in D50 would be expected to be offset by an increase in the bed material load as the river adjusts towards equilibrium. Previous investigators have inferred a reduction in the sediment loads on the Mississippi River this century based on analyses of total measured suspended loads. However, these results should be viewed as primarily representing the changes in wash load and should not be taken to imply that bed material loads have also decreased. Therefore, the bed material loads in the study reach should be greater than in the pre-cutoff period. Excess stream power in the sub-reaches directly affected by cutoffs resulted in scour that increased downstream bed material load. These elevated sediment loads play a key role in driving morphological adjustments towards equilibrium in the post-cutoff channel. The stability status of the channel in the study reach currently ranges from dynamic equilibrium in the farthest upstream reaches through severe degradation to dynamic equilibrium in the middle reaches, and aggradation in the lowest reaches. These evolutionary trends cannot be explained by consideration of changes in slope and stream power alone. Changes in the incoming bed material load to each reach generated by upstream channel evolution must also be considered. 相似文献
12.
The Milk River, the northernmost tributary to the Missouri–Mississippi River system, exhibits an anomalous sand-bed braiding reach in an otherwise meandering system. Shortly after leaving Alberta and entering Montana the river suddenly changes to braiding and maintains this pattern for 47 km before entering Fresno Reservoir. Measured stream gradient and bankfull discharge in the braiding reach severely fail the Leopold and Wolman [U.S. Geol. Surv. Prof. Pap. 282B (1957) 39] slope–discharge test for differentiating channel patterns. While channel slope has long been regarded as one of the primary variables associated with braiding, our data from the sand-bed Milk River do not support this relationship. Instead, the data show that the braiding reach has a lower channel slope (0.00047) than the meandering reach (0.00055). Coupled with a constant discharge the unit length stream power is comparable between the two reaches. At the morphologic transition between meandering and braiding, a dramatic reduction in channel bank strength occurs where the sampled silt–clay content declines from 65% in the meandering reach to 18% in the braiding. This enables channel widening which is reflected in a 60% reduction in unit area stream power in the braiding reach. Thus, sediment transport capacity declines and channel bars are deposited. During waning flows, these bars are dissected, producing a braiding morphology. We suggest that for sand-bed braiding rivers the silt–clay percentage in the channel banks may be more important than slope. A review of the original Leopold and Wolman [U.S. Geol. Surv. Prof. Pap. 282B (1957) 39] dataset, and many subsequent analyses, reveals that most braided rivers studied were gravel-bed. As a result, causal variables associated with braiding in sand-bed environments may need a thorough evaluation. 相似文献
13.
黄河流域河型转化现象初探 总被引:9,自引:0,他引:9
黄河以其高含沙水流以及下游河道的高沉积速率而著称于世。迄今的研究, 主要针对黄河中下游流域的 侵蚀、水文泥沙和河床演变方面的研究, 而对黄河流域主支流发生河型转化的现象关注不够。在黄河的不同河段, 河型的变化频繁, 类型多样, 现象复杂, 是研究者不可回避的科学问题。本文选取黄河上游第一弯的玛曲河段、黄河 上游末段托克托附近河段及黄河下游高村上下河段来研究河型转化的形式及影响因素。玛曲河段沿流向发生网状 河型→弯曲河型→辫状河型的转化现象, 该系列转化呈现出由极稳定河型向极不稳定河型的转化, 这与世界上通 常可以观察到的沿流向不稳定河型向稳定河型转化的情况完全相反。这主要受到地壳的抬升、上下峡谷卡口、水动 力特征、边界沉积物特征及植被的区域分布等因素的控制。托克托附近沿流向发生了弯曲河型→顺直河型转化的 现象, 这是较稳定河型向极稳定河型的转化, 主要受到边界沉积物、水动力等因素的控制。高村上下河段沿流向发 生的辫状河型→弯曲河型转化的现象, 是由极不稳定河型向较稳定河型转化的现象, 河道边界沉积物及水动力是 其主要控制因素, 人工大堤只是限制了河道摆动的最大幅度, 对河型的性质影响不大, 但其上游河段修筑的水库导 致下泻的水流在辫状河段的侵蚀能力增强而使其边界沉积物粗化, 并将泥质物大量沉积在弯曲河段, 客观上促进 了河型的转化。 相似文献
14.
对黄河内蒙古段河道大断面进行了连续4 a的测量,分析了断面泥沙冲淤与形态调整的变化过程;通过对河床形态指标变化与水沙条件的相关分析,揭示了河床调整主要的影响因素。结果显示:近4 a内不存在河槽萎缩的现象,整个河段河道存在总的冲刷降低的趋势,继承了自2004年以来该段河道以深度加大为主,河槽逐渐缓慢扩大的变化方向。整个河段平均从2011年汛后至2014年汛后,全断面冲刷了64 m2,河槽河底降低了0.16 m,河槽断面面积增加了4.4%,平均深度增加了4.9%,河槽宽度只增加了0.88%,河槽宽深比减小了4.8%。河槽冲刷和形态调整主要发生在2011年汛后至2012年汛后期间,与2012年较大的洪峰有关。分析河槽冲淤和断面形态变化与水沙条件的关系,结果显示滩唇高度、河槽过水面积、平均深度及宽深比变率与流量大小关系密切。滩唇高度、河槽过水面积、平均深度随着流量的增大而增加,宽深比随着流量的增大而减小。相反,河床断面面积和主槽宽度的变化与水沙条件的关系不显著。除了滩唇高度与平均含沙量有关外,平均含沙量和来沙系数与河床冲淤以及河槽形态变化之间关系都不显著。揭示出近年来内蒙河道主槽以垂向冲淤为主,并且流量变化控制着河槽冲淤与形态调整过程。 相似文献
15.
Hydraulic and sedimentary processes causing anastomosing morphology of the upper Columbia River, British Columbia, Canada 总被引:2,自引:0,他引:2
Bart Makaske Derald G. Smith Henk J.A. Berendsen Arjan G. de Boer Marinka F. van Nielen-Kiezebrink Tracey Locking 《Geomorphology》2009,111(3-4):194-205
The upper Columbia River, British Columbia, Canada, shows typical anastomosing morphology — multiple interconnected channels that enclose floodbasins — and lateral channel stability. We analysed field data on hydraulic and sedimentary processes and show that the anastomosing morphology of the upper Columbia River is caused by sediment (bedload) transport inefficiency, in combination with very limited potential for lateral bank erosion because of very low specific stream power (≤ 2.3 W/m2) and cohesive silty banks. In a diagram of channel type in relation to flow energy and median grain size of the bed material, data points for the straight upper Columbia River channels cluster separately from the data points for braided and meandering channels. Measurements and calculations indicate that bedload transport in the anastomosing reach of the upper Columbia River decreases downstream. Because of lateral channel stability no lateral storage capacity for bedload is created. Therefore, the surplus of bedload leads to channel bed aggradation, which outpaces levee accretion and causes avulsions because of loss of channel flow capacity. This avulsion mechanism applies only to the main channel of the system, which transports 87% of the water and > 90% of the sediment in the cross-valley transect studied. Because of very low sediment transport capacity, the morphological evolution of most secondary channels is slow. Measurements and calculations indicate that much more bedload is sequestered in the relatively steep upper anastomosing reach of the upper Columbia River than in the relatively gentle lower anastomosing reach. With anastomosing morphology and related processes (e.g., crevassing) being best developed in the upper reach, this confirms the notion of upstream rather than downstream control of upper Columbia River anastomosis. 相似文献
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Analysis of controls upon channel planform at the First Great Bend of the Upper Yellow River, Qinghai-Tibet Plateau 总被引:3,自引:3,他引:0
Zhiwei Li Zhaoyin Wang Baozhu Pan Jun Du Gary Brierley Guo-an Yu Brendon Blue 《地理学报(英文版)》2013,23(5):833-848
The 270 km long section of the Upper Yellow River at the First Great Bend is comprised of single channel and multiple channel systems that alternate among anastomosing, anabranching, meandering and braided reaches. The sequence of downstream pattern changes is characterized as: anastomosing-anabranching, anabranching-meandering, meandering-braided and braided-meandering. Remote sensing images, DEM data and field investigations are used to assess ahd interpret controls on these reach transitions. Channel slope and bed sediment size are key determinants of transitions in channel planform. Anas- tomosing reaches have a relatively high bed slope (0.86‰) and coarser sediment bed material (d50 = 3.5 mm). In contrast, meandering reaches have a low slope (0.30‰) and fine sediment bed material (d50 = 0.036 mm). The transition from a meandering to braided pattern is characterized by an increase in channel width-depth ratio, indicating the important role of bank strength (i.e. cohesive versus non-cohesive versus channel boundaries). Interestingly, the braided-meandering and meandering-braided transitions are coincident with variable flow inputs from tributary rivers (Baihe and Heihe rivers respectively). Theoretical analysis of the meandering-braided transition highlights the key control of channel width-depth ratio as a determinant of channel planform. 相似文献
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Channel bed adjustments following major aggradation in a steep headwater setting: findings from Oyabu Creek, Kyushu, Japan 总被引:1,自引:0,他引:1
A typhoon in 1993 induced major aggradation along Oyabu Creek, a steep, gravel bed mountain stream in Kyushu, Japan. Processes of sediment reworking are inferred from a 7-year monitoring program that measured adjustments to channel cross-sections, the longitudinal profile, and the extent/distribution of bedrock outcrops along a 3-km study reach. Over time, the reach adopted a riffle and pool structure, with notable increase in the area of exposed bedrock on the bed. This adjustment process was characterised by progressive reduction in sediment storage change per unit flow. The relaxation pathway following disturbance induced by the typhoon was shaped by the magnitude and frequency of subsequent rainfall events, the capacity of these events to transport available sediments, and physical linkages between reaches. Adjacent subreaches demonstrated differing relaxation pathways in response to these influences, induced by spatial and temporal variability in threshold conditions along the channel. Longer-term evidence indicates that responses to major disturbance, such as the 1993 typhoon, occur as ‘cycles’ of around 20-year duration. A relaxation period of 7 years is required to attain a quasi-equilibrium bed configuration and rate of sediment flux. The timeframe of cycles is considered to reflect changes to hillslope–channel bed coupling, marking the period required to generate sufficient sediment stores to reactivate phases of aggradation and subsequent degradation. 相似文献
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游荡性河道在中国广泛分布,其中以黄河下游上段最为典型,但关于游荡性河型的归属问题尚存在很大争议,国际上多将游荡性河流归属为辫状河型。本文以黄河下游游荡性河道为典型案例,系统总结了游荡性河流的演变特征、主要影响因素和形成机理,并从定义、成因、特征及河道形成过程方面,将游荡与辫状河型的异同点进行对比分析。得到以下启示:游荡性河型是一种重要的河道型态,与辫状河型在许多方面存在较明显差异。特别是游荡河型主要发育于能量小于输沙需求的环境,因而形态呈现不稳定特性,但辫状河型不仅出现在能量较多的环境,而且也常在能量较小的环境中出现,因而一部分具有稳定形态,另一部分则表现出不稳定的特性,因此,有必要对游荡性河道和辫状河道给予区分。最后对未来研究进行了展望,提出应重视河型形成的内在机理,对能量理论进行发展及深化,进一步系统性评价游荡性河道与辫状河道的异同性,以解决游荡性河道的河型归属问题。 相似文献
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北洛河下游河槽形成与输沙特性 总被引:8,自引:0,他引:8
北洛河发湖泊于黄河粗沙来源区,年均含沙量达128kg/m^3年均流量仅25m^3.s,是典型的多沙河流,但由于泥沙主要由高含沙洪水输送,平水流量小,含沙量低,经常保持窄深稳定河槽,使高含沙洪水挟带的泥沙能顺利输送而不淤,并形成弯曲性河流。 相似文献