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1.
基于长江河口1959-2011 年实测悬沙浓度数据,通过对河口最大浑浊带外围海域泥沙要素分析的基础上,研究了近期流域人类活动和河口整治工程对最大浑浊带悬沙浓度的影响。研究表明:① 流域人类活动对入海水量影响较小,无明显趋势变化,而沙量和含沙量呈现锐减趋势,也使得进入河口区域的泥沙量呈现一致锐减;② 长江口外海域和南部杭州湾海域悬沙浓度变化不大,北部苏北沿岸略有减小,因数值较长江口海滨区小约1 个数量级,对浑浊带影响较小;③ 最大浑浊带位置受径流和潮流控制,面积变化与入海沙量多寡关系密切;④ 整个浑浊带区域悬沙浓度受入海沙量锐减决定,2000-2009 年较1959-1999 年悬沙浓度减小约为24.73%,向海延伸减幅降低,且峰值区域向口内移动,泥沙再悬浮作用对维持最大浑浊带悬沙浓度起调节作用,但不能决定其锐减趋势;⑤ 北槽航槽最大浑浊带的悬沙浓度向海为低—高—低变化特点,受入海沙量锐减、北槽分流分沙比减少及床沙粗化等影响,使其上段和下段悬沙浓度减小趋势,而中段受南导堤越堤沙量的影响悬沙浓度呈增加趋势。 相似文献
2.
长江口水域悬沙浓度时空变化与泥沙再悬浮 总被引:29,自引:0,他引:29
根据近年来长江河口及其邻近水域8个测站1年的表层悬沙浓度逐日观测资料,并结合水动力状况,对悬沙浓度的时空变化进行了分析。结果发现,长江口自徐六泾以下悬沙浓度不断增高,并呈现口内夏高冬低,而口外冬高夏低,且量值为口外大于口内,杭州湾大于长江口。表明长江入海泥沙在海洋动力作用下强烈再悬浮;悬沙浓度在时间上呈现明显的大小潮周期和季节性变化。进一步分析认为,海洋动力 (风浪和潮流) 是泥沙再悬浮的主导因素,制约悬沙浓度的年内变化,其中潮流控制悬沙浓度的大小潮周期变化,风浪引起悬沙浓度的季节性变化,河流径流和海洋动力的对比制约悬沙浓度的空间分布。 相似文献
3.
长江河口悬浮泥沙的混合过程 总被引:2,自引:0,他引:2
根据准同步观测的悬浮泥沙及表层沉积物粒度、流速、含沙量资料, 分析了长江口及临近海域悬浮泥沙在河口的混合过程。长江河口-陆架系统悬浮泥沙中值粒径呈现“细-粗-细”的变化规律, 河口上段悬浮泥沙中值粒径为8.9 μm, 拦门沙海域为10.5 μm, 陆架区为4.5 μm, 北支为9.9 μm, 杭州湾口为5.6 μm, 泥沙类型为粘土质粉砂。河口上段和陆架区悬浮泥沙与表层沉积物的垂向混合作用较弱, 拦门沙区域二者发生强烈的混合和交换, 悬浮泥沙在由长江河口向陆架系统输移过程中仅有表层泥沙保留了流域输入的泥沙粒度特征。长江口悬浮泥沙中值粒径与含沙量呈良好的正相关关系, 水流的剪切作用是引起拦门沙海域泥沙再悬浮、近底高含沙量和悬浮泥沙粒径增加的主要原因, 悬浮泥沙粒径和含沙量的增加主要由粉砂组分的增加引起。2007 年长江河口区范围内悬浮泥沙中值粒径比2003 年普遍减小11%, 含沙量比2003 年减小22%, 河口上段含沙量对流域来沙减少的响应最为敏感, 而拦门沙区的泥沙粒径对流域来沙减少的响应最敏感。在长江流域来沙量减少的背景下, 河口拦门沙区域仍能维持较高的含沙量, 主要缘于河口系统内部的供沙 相似文献
4.
根据1958-2013各年代长江河口河槽海图水深资料,利用Arcmap地图分析软件建立不同时期的水深数据库,以河口河槽水体和泥沙容量为研究对象,结合典型潮汐过程和典型年代水沙同步实测资料,计算长江口各分汊河槽最大理论进潮量和悬沙含量,探讨近50年来长江分汊型河口河槽水体和泥沙容量的变化过程和影响因素.结果表明:①北港河槽总体稳定,南港河槽仍处于发育阶段,南港河槽发育中心在南港下段,北港河槽上段区域略有萎缩;②目前,南、北槽河槽由于工程影响仍处于持续调整过程中,进潮量主增区域在南港和南槽,北槽发育模式已经被固定和限制.③近30年来,由于流域来水来沙减少,同时北槽深水航道工程的建设,使南、北槽进潮量和悬沙通量及其比例均发生了显著变化;④南北港水道悬沙量主要集中于北港下段及南北槽区域,其洪枯季悬沙含量的变化主要受冬夏季风和海洋动力条件的影响. 相似文献
5.
黄河入海泥沙输运及沉积过程的数值模拟 总被引:19,自引:0,他引:19
以利津站代表的黄河入海径流和泥沙数据驱动ECOMSED模型,对黄河入海泥沙悬移输运过程的逐月时空变化、输送通量以及海底沉积效应进行了数值模拟实验。分析结果表明,在忽略再悬浮作用条件下,黄河入海泥沙的输运扩散过程具有明显的季节变化规律,且这种变化具有年际相似性。黄河泥沙入渤海后总体朝向辽东湾西侧海岸扩散,而主要沉降区域是黄河口附近,且随着距离的增大,沉积通量迅速降低。模拟沉积速率一般在0.5~0.1 mm/年左右,与实际调查结果非常接近。海底地形等高线向渤海海盆西部、渤海湾南部,以及渤海海峡方向突出,也反映了泥沙通量的输送方向。从黄河入海泥沙悬移扩散过程的季节变化特征及其海底沉积效应来看,渤海海域泥沙悬移输运过程受潮汐动力、余流和和底层流场等因子的制约。除了黄河河口地区以外,各月悬浮泥沙高浓度区基本一致,集中分布在潮流能量最强的海域,潮流水平动能的大小与悬沙浓度大小分布基本一致。泥沙悬移输运方向与模拟获得的渤海三维风驱-潮致Lagrange余流的方向具有明显的相关关系,泥沙扩散的方向和强度明显受余流方向和强度的控制。 相似文献
6.
长江口表层沉积物分布特征及动力响应 总被引:10,自引:1,他引:9
基于长江口2003 年2 月采集的58 个表层沉积物样品及以同步水动力资料的分析表明, 表层沉积物中值粒径自江阴-口外逐渐变细, 由江阴附近的217.8 μm 减少到南槽口外的12.1 μm; 浑浊带海域表层沉积物中值粒径北港最大, 平均为126.2 μm, 北槽其次, 平均为48.4 μm, 南槽最小, 平均为14.2 μm; 口外海域则北槽最大, 为22.4 μm, 北港其次, 为16.5 μm, 南槽最小, 为12.1 μm。沉积物分选性大多为中等-很差, 中值粒径越大, 分选系数越 小; 沉积物偏度大多是近对称-极正偏; 峭度表现为中等峭度-很窄尖。横沙以上区域表层 沉积物类型以砂为主, 口外海域沉积物类型以粘土质粉砂为主, 浑浊带海域表层沉积物类型复杂多样。长江口主槽表层沉积物中值粒径与落潮历时、Ve/Vf 值和余流值等动力参数呈正相 关关系, 落潮动力条件是决定长江口表层沉积物中值粒径大小的主要动力因素。 相似文献
7.
长江口浑浊带含沙量的潮流变化及其成因分析 总被引:10,自引:1,他引:10
实测数据显示在长江口南槽浑浊带内,近河床含沙量在很多情况下在转流后1—3h内出现峰值,在涨、落急流速最大时含沙量却迅速下降。本文利用实测数据计算了不问潮时的泥沙垂向紊动扩散系数,发现它与底层含沙量有类似的变化过程,结合近底层高浓度悬沙的迁移,认为转流后出现的含沙量峰值主要是由于憩流期沉降到河床的悬沙重新悬浮引起的。重新悬浮是浑浊带的重要成因。 相似文献
8.
近60 年黄河入海水沙多尺度变化及其对河口的影响 总被引:9,自引:0,他引:9
基于1950-2008 年利津站月均径流量和输沙量的时间序列资料,采用小波分析的方法研究了黄河入海水沙多尺度变化,并结合不同年份的黄河口岸线和口门地形资料分析了水沙变化对河口演变的影响。结果表明:黄河入海水沙具有3 个不同时间尺度的显著周期变化,其与厄尔尼诺事件有关,不同尺度下的入海水沙丰枯变化不同;受流域降水和人类活动的影响,入海水沙长期呈减少趋势,并具有阶段变化的特征;入海水沙变化深刻影响着河口演变,不同时期行水河口的岸线延伸速率与河口来沙量有关,亿t 泥沙岸线延伸量与来沙系数显著相关,自1976 年清水沟流路入海以来,河口水下三角洲表现为淤积,淤积程度与入海水沙量密切相关。 相似文献
9.
利用长江口1982-2010年间4个年份的高精度实测地形数据、大通站输沙量数据以及河口工程建设信息等,分3个阶段研究了长江口整体冲淤规律、不同分区冲淤变化时空差异、重点断面垂向冲淤特征、水下三角洲重要区域 (崇明东滩、横沙浅滩、九段沙以及南汇东滩) 的演变趋势与受控因素。结果表明:(1) 近30年长江口整体上表现为略微冲刷,冲刷面积占51.83%,在3个阶段中呈现出“冲刷—淤积—再冲刷”的冲淤演化态势,且冲淤变化时空差异显著,仅长江北港区为持续冲刷。(2) 崇明东滩和横沙浅滩东侧和北侧、九段沙北侧以及南汇东滩的5 m以浅区域以垂向淤积为主,而崇明东滩和横沙浅滩南侧、九段沙东侧和南侧的5 m以浅区域则以垂向冲刷为主。(3) 长江口重要区域2 m和5 m等深线包络面积整体上是不断增加的,1982-2010年时段内年均增加量分别为10.42 km2/a和7.99 km2/a,但各分区则表现不一致;10 m等深线包络面积在整体上及各个分区内均表现为明显减小;15 m等深线包络面积变幅较小,基本保持稳定状态;(4) 受河口工程建设影响,仅崇明东滩水下三角洲等深线包络面积减小的趋势与大通站输沙量减少趋势相同。主要结论:从长江口水下三角洲等深线包络面积和分布形态的变化看,基于目前上游输沙量持续减少的宏观自然背景下,大规模的河口工程建设对近年来长江口水下三角洲演变的控制作用日益明显。 相似文献
10.
我国沿海近岸带水域的悬沙分布特征 总被引:4,自引:1,他引:3
本文根据实测悬沙资料,阐述了我国沿海近岸带水域的悬沙浓度由黄河口和长江口-杭州湾为中心,分别向南、北递减,高低相间,构成波状起伏的分布特征,同时分析了径流输沙、潮流、波浪、海岸类型诸要素在悬沙浓度时空变化中的不同作用. 相似文献
11.
The synchronicity and difference in the change of suspended sediment concentration in the Yangtze River Estuary 总被引:2,自引:1,他引:1
The sediment discharge from the Yangtze River Basin has a stepwise decreasing trend in recent years. The impounding of the Three Gorges Reservoir exacerbated this decreasing trend and affected the change of the suspended sediment concentration (SSC) in the Yangtze River Estuary through the transmission effect. The SSC data of the Yangtze River Estuary during 1959-2012 showed that: (1) The SSC in the South Branch of the Yangtze River in the estuary and in the off-shore sea area displayed decreasing trends and decreased less towards the sea. At the same time, the difference in decreasing magnitude between SSC and sediment discharge became bigger towards the sea. (2) For the North Branch the preferential flow did not change much but the SSC tended to decrease, which was mainly caused by the decrease of SSC in the South Branch and China East Sea. (3) Due to the decreased runoff and the relatively strengthened tide, the peak area of the SSC in the bar shoal section in 2003-2012 moved inward for about 1/6 longitude unit compared with that in 1984-2002, and the inward-moving distance was in the order of flood season > annual average > dry season. (4) In the inlet of the South Passage, the SSC decreased mainly because the increase caused by resuspension and shore-groove exchange was less than the decrease caused by the sharp SSC decrease in the basin and the sea areas. The reverse was true in the middle section, where the SSC showed an increasing trend. (5) In the inlet of the North Passage, under the combined influence of decreased flow split and sediment split ratios, the decreased SSC in the basin and the sea area and decreased amount of resuspension, the SSC displayed a decreasing trend. In the middle section, because the increased amount caused by sediment going over the dyke was markedly more than the decreased amount caused by external environments, the SSC tended to increase. Holistically, the sharp decrease in sediment discharge caused synchronized SSC decreases in the Yangtze River Estuary. But there were still areas, where the SSC displayed increasing trends, indicating synchronicity and difference in the response of SSC to the sharp decrease in sediment discharge from the basin. 相似文献
12.
A detailed analysis of suspended sediment concentration (SSC) variations over a year period is presented using the data from 8 stations in the Yangtze River estuary and its adjacent waters, together with a discussion of the hydrodynamic regimes of the estuary. Spatially, the SSC from Xuliujing downwards to Hangzhou Bay increases almost constantly, and the suspended sediment in the inner estuary shows higher concentration in summer than in winter, while in the outer estuary it shows higher concentration in winter than in summer, and the magnitude is greater in the outer estuary than in the inner estuary, greater in the Hangzhou Bay than in the Yangtze River estuary. The sediments discharged by the Yangtze River into the sea are resuspended by marine dynamics included tidal currents and wind waves. Temporally, the SSC shows a pronounced neap-spring tidal cycle and seasonal variations. Furthermore, through the analysis of dynamic mechanism, it is concluded that wave and tidal current are two predominant factors of sediment resuspension and control the distribution and changes of SSC, in which tidal currents control neap-spring tidal cycles, and wind waves control seasonal variations. The ratio between river discharge and marine dynamics controls spatial distribution of SSC. 相似文献
13.
长江口水域悬沙浓度时空变化与泥沙再悬浮 总被引:4,自引:0,他引:4
A detailed analysis of suspended sediment concentration (SSC) variations over a year period is presented using the data from 8 stations in the Yangtze River estuary and its adjacent waters, together with a discussion of the hydrodynamic regimes of the estuary. Spatially, the SSC from Xuliujing downwards to Hangzhou Bay increases almost constantly, and the suspended sediment in the inner estuary shows higher concentration in summer than in winter, while in the outer estuary it shows higher concentration in winter than in summer, and the magnitude is greater in the outer estuary than in the inner estuary, greater in the Hangzhou Bay than in the Yangtze River estuary. The sediments discharged by the Yangtze River into the sea are resuspended by marine dynamics included tidal currents and wind waves. Temporally, the SSC shows a pronounced neap-spring tidal cycle and seasonal variations. Furthermore, through the analysis of dynamic mechanism, it is concluded that wave and tidal current are two predominant factors of sediment resuspension and control the distribution and changes of SSC, in which tidal currents control neap-spring tidal cycles, and wind waves control seasonal variations. The ratio between river discharge and marine dynamics controls soatial distribution of SSC. 相似文献
14.
51 年来珠江流域输沙量的变化 总被引:11,自引:0,他引:11
根据1955~2005 年珠江流域主要水文站的径流量和输沙量数据以及流域降水量数据, 对珠江流域输沙量的变化进行了研究, 结果发现: (1) 石角站(北江)、博罗站(东江)、迁江站 (红水河) 以及高要站(西江干流) 输沙量呈下降趋势, 而柳州站(柳江)、南宁站(郁江) 的输沙量则呈上升趋势。(2) 1955~2005 年珠江入海泥沙(石角站、博罗站、高要站输沙量之和) 均 值为7529×104 t/yr, 并在总体上也呈下降趋势。珠江入海泥沙还存在着年际变化上的波动性和阶段性特征, 即从1950 年代到1980 年代呈显著的上升趋势, 而此后呈显著下降趋势。通过分析认为: (1) 气候变化是造成珠江流域输沙量年际波动性变化的主要因素, 但不是造成珠江入海泥沙下降的主要影响因素; (2) 珠江流域入海泥沙的阶段性变化特征与水土流失和水土保持相关; (3) 水库建设是造成1955~2005 年珠江流域入海泥沙减少的主要因素。(4) 珠江流域入海泥沙将可能进一步减少, 这将对未来珠江河口环境和三角洲的演变产生影响, 加强进一步的研究非常必要。 相似文献
15.
长江干流河道对流域输沙的调节作用 总被引:1,自引:0,他引:1
利用长江干流和主要支流上测站1956~2004年的输沙量资料,对干流未测区域的来沙进行了估计。根据泥沙平衡 (Sediment budget) 概念,对长江干流河道的冲淤对来水来沙的响应以及对入海泥沙的影响进行研究发现,长江干流屏山至大通河道平均淤积速率为88.58×106 t/a,河道淤积占总的来沙量及大通站输沙量比例分别为14%与21%。由于河道淤积,大通站输沙量减少了17.5%。总体来说上游淤积较轻,宜昌至汉口区间淤积严重,汉口至大通区间为微冲。长江干流的河道冲淤与流域总的来沙具有显著的相关关系,但各段河道的冲淤对流域来沙的响应各不一样。上游的冲淤与流域的径流量和来沙量均没有很好的相关性,宜昌-汉口段河道冲淤的变化与宜昌站的来沙具有显著的相关性;影响汉口-大通间河道的冲淤变化的主要因素是流域的来水量,河道的冲淤与大通站径流量的存在显著的负相关关系。三峡水库蓄水后整个长江干流的冲淤形势发生了根本的变化。三峡水库的蓄水运用有效地减轻了洞庭湖的泥沙淤积,同时也降低了洞庭湖的对长江干流泥沙的调节作用;长江上游干流河道淤积增强,中下游河道出现冲刷,但不同的河段表现不一;中下游河道冲刷量小于预测值,三峡水库的蓄水运用直接导致了长江入海泥沙的减少。 相似文献
16.
In order to find out the variation process of water-sediment and its effect on the Yellow River Delta, the water discharge and sediment load at Lijin from 1950 to 2007 and the decrease of water discharge and sediment load in the Yellow River Basin caused by human disturbances were analyzed by means of statistics. It was shown that the water discharge and sediment load into the sea were decreasing from 1950 to 2007 with serious fluctuation. The human activities were the main cause for decrease of water discharge and sediment load into the sea. From 1950 to 2005, the average annual reduction of water discharge and sediment load by means of water-soil conservation practices were 2.02×109 m3 and 3.41×108 t respectively, and the average annual volume by water abstraction for industry and agriculture were 2.52×1010 m3 and 2.42×108 t respectively. The average sediment trapped by Sanmenxia Reservoir was 1.45×108 t from 1960 to 2007, and the average sediment retention of Xiaolangdi Reservoir was 2.398×108 t from 1997 to 2007. Compared to the data records at Huanyuankou, the water discharge and sediment load into the sea decreased with siltation in the lower reaches and increased with scouring in the lower reaches. The coastline near river mouth extended and the delta area increased when the ratio of accumulative sediment load and accumulative water discharge into the sea (SSCT) is 25.4–26.0 kg/m3 in different time periods. However, the sharp decrease of water discharge and sediment load into the sea in recent years, especially the Yellow River into the sea at Qing 8, the entire Yellow River Delta has turned into erosion from siltation, and the time for a reversal of the state was about 1997. 相似文献
17.
近10 年来长江口水下三角洲的冲淤变化 ——-兼论三峡工程蓄水的影响 总被引:4,自引:0,他引:4
根据对近10 年来长江入海泥沙量和河口冲淤的对比分析, 探讨水下三角洲冲淤对长江入海泥沙锐减以及三峡工程运行的响应。结果表明: (1) 三峡水库蓄水导致长江入海泥沙减少1×108 t/a 量级; (2) 1995-2000 年、2000-2004 年和2004-2005 年研究区淤积(冲刷) 面积分别占75.5% (24.5%)、30.5% (69.5%) 和14% (86%), 垂向冲淤速率(负为冲刷) 分别为6.4 cm/a、-3.8 cm/a 和-21 cm/a。(3) 由于地形和水动力的变化以及工程的影响, 研究区内冲淤对河流来沙减少的响应存在显著空间差异。结论包括: 三峡水库蓄水加剧了长江入海泥沙的减少; 入海泥沙的锐减是水下三角洲从淤积为主向侵蚀为主转变的主要原因。随着水库拦沙能力的增强等流域人类活动的影响, 长江入海泥沙将进一步下降, 河口口门区的冲刷可能加剧, 值得有关部门重视。 相似文献