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《海洋地质与第四纪地质》2021,41(5)
中国三大河口三角洲包括黄河三角洲、长江三角洲和珠江三角洲,在国民经济发展和全球海陆相互作用研究中均扮演着非常重要的角色。因此,全面揭示河口三角洲演化进程,总结河口三角洲演化模式,对指导河口三角洲可持续开发利用具有重要意义。本文结合前人研究进展及近年来海洋区域地质调查资料,系统总结了全新世以来我国三大河口三角洲"三个阶段,三个尺度,各具特色"的演化模式,揭示了全新世初期、两千年前和工业革命后三个阶段千年-百年-年代际时间尺度下河口三角洲演变模式转化的主控因素,认为河口三角洲的演化模式正在由自然演变向人为控制转型,人类活动正剧烈地影响着河口三角洲的自然演化进程。三大河口三角洲沉积演化模式各具特色,黄河三角洲具有超级叶瓣与叶瓣发育演替特色,长江三角洲具有北岸沙岛并岸、南岸不断推展特色,珠江三角洲则表现为河网发育充填、逐级分汊延伸特色。随着河口三角洲演化受人类活动影响的加剧,正确认识河口三角洲演化规律及其主控因素,不仅有助于提升三角洲地区陆海相互作用研究水平,而且将为三角洲可持续开发利用提供科学依据。 相似文献
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长江口拦门沙深水入海航道整治工程的研究 总被引:5,自引:1,他引:5
随着国民经济的发展和上海浦东新开发区的发展,长江口深水入海航道的选择与治理,已越来越多地引起人们的关注,长江口深水入海航道的选择基本上可以分为避开拦门沙和不避开拦门沙两类。本文根据长江河口的发育模式、河口延伸、汊道演变的规律、汊道的形态与水力条件,提出长江口拦门沙深水入海航道整治规划,近期以北槽-8m航槽为宜,远期可逐步开发至-12.5m 相似文献
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长江河口、苏北海岸发育过程研究概况 总被引:1,自引:1,他引:1
河口、海岸地区是陆海相互作用最显著的地区。长江是中国第一大河 ,径流丰沛 ,悬沙的年输沙量仅次于黄河。长江河口是我国最大的河口 ,亦是典型的潮汐河口 ,潮差大 ,潮流强。长江河口的发育过程与全新世海侵密切相关。长江河口的发育过程亦即长江三角洲的发育过程。长江河口北岸的发育与苏北海岸南段的发育密切相关。长江河口南岸的发育与钱塘江河口湾(杭州湾是其一部分)的发育密切相关。黄河是中国第二大河 ,其高含沙量世界有名。苏北海岸的发育过程与长江、黄河的供沙历史密切相关 ,尤其是黄河在历史时期的改道对苏北海岸的发育有深刻影… 相似文献
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河口回水区长度的时空演变对防洪、供水、航运等水资源高效开发利用具有重要指导意义。本文在经典河流回水理论的基础上考虑潮汐动力的影响,聚焦潮汐动力引起的回水效应问题,基于一维水动力解析模型,重新定义河口回水区上游界限(回水界),并以长江河口为例,探讨河口回水动力演变过程及其影响机制。结果表明:回水界距天生港的距离(即回水区长度)与上游流量、外海边界振幅分别具有显著的负相关和正相关关系,且基本为线性关系;回水界对径潮动力的响应比潮区界更为敏感,能有效表征河口感潮河段径潮动力格局演变;长江河口回水界位置具有明显的季节性差异,其春季和秋季回水界位于芜湖附近(春季和秋季分别距天生港419 km和367 km),冬季回水界位于感潮河段以上区域,夏季潮汐动力引起的回水效应基本可忽略;长江河口潮流因子和径潮相互作用因子控制的余水位梯度的季节性变化,是长江河口回水界位置变动的主导因素。 相似文献
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沙坝和沙脊是广泛发育于河流、河口海岸与浅海陆架的大尺度泥沙堆积体,由于发育环境和动力过程的不同,它们的形成机制和演变规律存在明显的差异。从动力过程、形成机制和预制理论模型等方面分别评述了河流沙坝、河口海岸沙坝与沙脊的研究现状;总结出沙坝与沙脊形成发育的4种预测理论,并指出现有理论存在的问题和可能的发展方向。 相似文献
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河口涨潮槽的研究进展 总被引:3,自引:0,他引:3
河口涨潮槽是河口的重要地貌单元。对河口涨潮槽的发育过程与演化规律的研究在理论上可以丰富河口动力地貌的内容,而在实践上对港口和通航等具有重要的意义。文章认为河口涨潮槽不仅指河口涨潮流作用下形成的冲刷槽,还包括涨潮冲刷坑、涨潮冲刷槽和涨湖水道。国内外关于河口涨潮槽研究较为薄弱,研究内容多集中于涨潮槽的几何形态、涨落槽优势流判别和悬沙输移等方面,定性研究较多,缺乏全面而系统的定量研究,尤其缺乏成因机制方面的深入研究和沉积环境的研究。长江口涨潮槽种类较多,具有一定的研究基础,对其进行系统全面的研究具有重要的意义。 相似文献
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古长江河口湾充填潮流作用机制的初步探讨 总被引:10,自引:0,他引:10
长江三角洲的发育是以古长江河日湾的充填来实现的.研究潮汐、潮流在古长江河口湾充填中所起的作用,可深入了解长江三角洲的形成发育过程.建立了渤海、黄海、东海的二维潮流数学模型,数值模拟了冰后期最大海侵,即现今长江三角洲地区为巨大河口湾时的M2潮汐、潮流.在此基础上,计算了古长江河口湾及其周围海域8种粒径泥沙的潮平均悬移与推移输沙率,并根据输沙率散度的正负,划分了海底冲刷区与淤积区.根据计算结果得出,冰后期最大海侵时,存在大致以古长江河口湾湾口中点为腹点、波腹线向海凸起的独特驻潮波波腹区.在其控制下,外海潮流大致以古长江河口湾湾口中点为顶点作辐聚、辐散运动.在古潮流场作用下,经历每一个潮周期后,古长江河口湾周围海域的泥沙均向河口湾内净输运,并在河口湾内淤积.古长江河口湾的充填是在长江带来大量泥沙,外海的潮汐、潮流又有利于泥沙向河口湾内净输运,且在河口湾内沉积的情况下实现的.外海的潮汐、潮流为古长江河口湾的充填、长江三角洲的发育提供了必要而又有利的水动力环境. 相似文献
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以长江口南支河段为研究区,利用LandsatETM+遥感影像反演的1999年水下地形和该河段2002年实测水深数据,结合长江口来水来沙现状和河段特征,分析了河段的冲淤变化和沙体迁移规律,提出了需采取的治理措施。研究结果表明:(1)从1999到2002年南支河段总体发生冲刷,年平均冲刷量为0.1926亿m3,河道内白茆沙、新浏河沙和新浏河沙包的沙头年平均后退467,374和421m;(2)上、下扁担沙之间由于串沟发育,两者有分离的趋势,沙体5m等深线的变动格局显示两沙体沙尾向下移动导致新桥水道上段水深加深、下段南侧水深变浅;(3)固定白茆沙和上、下扁担沙沙体,对维持南支河段航道的航运、稳定南北槽河势具有重要作用。 相似文献
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长江口北槽一期工程后滩槽沉积物分布特征及其影响因素 总被引:1,自引:0,他引:1
根据2000年7月和2001年5—6月份长江口北槽航道及两侧滩地进行的沉积物采样分析结果,对长江口深水航道一期工程实施后的滩槽泥沙交换情况以及在自然与工程双重影响下的沉积物分布情况进行了较为详细的讨论。长江口深水航道工程的实施,影响了长江口尤其是北槽及两侧滩地的水沙条件和沉积物分布。强劲的径流和潮流作用和风浪作用造成航槽及两侧滩地的冲淤转换及沉积物分布的变化;深水航道治理工程的实施使工程段内航槽泥沙粒径粗化,两侧滩地和工程段下游泥沙中值粒径变细,这反映了在工程实施后滩槽泥沙交换的变化。 相似文献
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Water velocity and density profiles were obtained in late-spring and late-winter to document reversing mean circulation patterns at the entrance to a semiarid coastal lagoon, the Bay of Guaymas, in the Gulf of California, Mexico. The lagoon is shallow but the bathymetry at its entrance is similar to that of temperate estuaries with an asymmetrically positioned channel flanked by shoals. In late-spring the mean circulation at the entrance to the lagoon was driven by horizontal density gradients that arose from excess evaporation over precipitation in the area as evidenced by water density profiles. The lagoon exported relatively warm (25·8 °C) and salty (36·2) water to the Gulf of California through the channel. This export was consistent with inverse estuarine circulation influenced by bathymetry. In late-winter, the circulation at the entrance of the lagoon was mostly driven by wind stress that blew from the northwest, roughly along the main axis of the lagoon. Relatively cool (16·0) °C) and less salty (35·1) water from the Gulf of California was driven into the lagoon within the channel. Density gradients inside the lagoon seem to have played a secondary role in driving the circulation. The late-winter circulation was then estuarine-like, with outflow in the direction of the wind over the shallow areas and a compensatory inflow appearing in the channel as expected from theory of wind-driven flow over bathymetry. This estuarine-like circulation developed despite the lack of measurable freshwater input to the lagoon and was the opposite to that observed in late-spring. These observations then document a reversal in water exchange patterns from season to season in a semiarid coastal lagoon. The observations also constitute one of the few reported examples of flow over shoals driven in the same direction as the wind stress with a compensatory flow in the channel. 相似文献
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简要介绍了长江下游“三沙”航道整治工程中为了掌握双锏沙横流和如皋沙中汊在刘海沙水道的汇流情况,在福姜沙左汊道→双锏沙→浏海沙水道间进行了表面流速流向观测,并对测量成果和航迹线图进行了初步分析,从而为保持双锏沙的稳定、保证如皋沙群水道的长久贯通提出了一些工程措施。 相似文献
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受流域来水来沙条件变化及河口大型工程建设的综合影响,长江口呈现新的冲淤格局,为预测未来演变趋势,本研究基于前期研究中建立的长江口年代际冲淤演变预测模型(Delft3D),未来情景考虑不同来沙量条件和相对海平面上升速率。预测结果表明,到2035年长江口整体以冲刷为主,口内河段主槽和浅滩边缘冲刷较明显,仅高滩局部淤积;到2050年口内河段保持净冲刷状态,拦门沙地区在现状来沙量条件下略有淤积,但在极端低来沙量条件下转变为净冲刷状态,海平面上升对拦门沙地区冲刷具有一定抵消作用,但不会使冲淤状态产生本质改变。本研究分析认为,长江口局部区域未来冲淤趋势可能对河口综合治理与保护产生不利影响,针对新格局条件下的滩槽河势稳定、重要洲滩保护、重大工程安全评估、冲刷致灾研判以及海堤防护标准再评估等方面提出了对策建议,可为新时期长江口综合治理与可持续发展提供参考。 相似文献
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Riverbank erosion is an important component of catchment sediment budget models but remains one of the least well-understood processes, particularly at large spatial scales. Here, we develop and test a new bank migration model in New Zealand for large catchment applications that (1) better represents spatial variability in factors influencing bank erosion and (2) improves predictive performance. We represent bank migration rates as a function of reach-scale stream power, channel sinuosity, soil texture, valley confinement, riparian woody vegetation and channel protection works. The new model significantly improves prediction compared to the SedNetNZ model. Comparison of measured bank migration rates with individual variables shows percent silt + clay derived from soil maps exhibited the strongest correlation, whereas other variables were non-significant. The model results demonstrate that improved prediction can be achieved by combining spatial representation of multiple factors over large areas, despite low correlation between individual variables and bank migration rates. 相似文献
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采用 1999年 1~ 2月实测水文泥沙资料 ,1996年 10月底质调查资料以及 1998年水下地形测图 ,对洋山海区岛屿间水流、泥沙及水下地貌特征进行研究。分析表明 ,洋山海域属淤泥质海岸带的中等潮差近岸水域 ,缘于基岩为主体的岛屿与大流速的水流间的相互作用 ,其基本特征为大流速、多通道、高含沙量以及浅滩 (岛屿 )与深槽间布的水下地形 ,从潮量对比看 ,其主要潮汐通道南北岛链间通道为涨、落潮流共同作用且以落潮流为主的通道 ,小洋山 -镬盖塘通道为涨潮流通道 ,镬盖塘 -大岩礁通道为落潮流通道。基于以上认识 ,港口整体布局类型可分为人工岛型和单通道型 ,而布置起步工程时 ,应注意其附近小洋山 -镬盖塘通道以涨潮流为主的特性 ,为减少对原始流场影响 ,以布置在小洋山岛西南侧为佳。 相似文献
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Detailed morphological analyses of a Pleistocene-Holocene submarine channel system in terms of its hierarchical framework, were carried out using a 3D seismic volume from offshore Espírito Santo, SE Brazil. The channel morphology shows marked variations, with five segments (Segments a to e) being identified along its full length. For example, the cross-sectional area of the channel decreases by a factor of 70 from Segment a to Segment c, and is then followed by a nearly four-fold increase from Segment c to Segment d. The significant changes in channel morphology relate to temporal and spatial variations in flow volume within the channel. In the same channel system, the valley reveals three distinct segments (Segments A to C), with similar aspect ratios but marked variations in morphology along the valley distance. Valley morphological changes are chiefly affected by erosional processes. Segment B is characterised by the largest valley-base width, valley width, and cross-sectional area compared to the other two segments. Valley enlargement in Segment B results from relatively high degrees of lateral channel migration and associated cut bank erosion, leading to the widening of the valley, especially the valley base. In Segment C, the valley is characterised by inner bank erosion in the form of shallow-seated mass failures, which only enlarged the upper part of the valley wall. The spatial variations in both channel and valley morphology documented here suggest an important role of local factors (e.g. salt diapirs, tributaries, overbank collapse) in the development of channel systems. Hence, the morphological analyses developed in this work provide an effective tool for studying channels and valleys on continental slopes around the world. 相似文献
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The residual circulation pattern of Winyah Bay, the fourth largest estuary on the eastern coast of the US, is examined using stationary and shipborne current measurements during periods of low freshwater discharge. The estuary has a complex morphology with a single channel and narrow banks at the river entrance and the bay mouth, and a bifurcated channel system (main and western channels, respectively) in the middle part that appears to affect the residual circulation.Overall, the upper (single channel morphology) and middle (dual-channel morphology) parts of the estuary exhibit a baroclinic residual circulation. The presence of bifurcated channels in the middle part of the estuary modifies the typical gravitational circulation. The near-bed landward-directed residual flow is stronger in the deeper main channel than the shallower western channel. This is the result of the fact that the magnitude of residual flow scales with the water depth of the channel and it is also influenced by the opposing patterns of channel alignment in the northern and southern junctions. Analytical modeling confirms that the observed residual currents in the upper and middle estuary are density-induced. In the lower estuary, residual flow is directed seaward throughout the water column of the channel while in the adjacent shoals the residual flow is directed landward, suggesting that in contrast to the upper and middle estuary, the residual flow near the mouth is barotropic, controlled by the tides and the channel-bank morphology. 相似文献