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1.
Sediment source and transport trends are influenced by various hydrodynamic factors, and thus play important roles in sedimentary evolution and coastal stability. To examine sediment transport trends around the abandoned Yellow River delta promontory and its erosion mechanism, we employ empirical orthogonal function (EOF) analysis to study sedimentary characteristics and transport trends of the abandoned Yellow River delta in northern Jiangsu Province, China. The results showed that: (1) the main sediment source in the abandoned Yellow River delta is the submarine coastal slope and both sides of the abandoned Yellow River Delta; (2) the main hydrodynamics controlling sediment transport is the current that runs along the shore, coupled with waves, especially southward currents; (3) the sediment of the study area was redistributed under hydrodynamics; coarse sediments were eroded and broadly transported to the south. Therefore, it is concluded that the sediment sources and transport have important influence on coastal evolution: the sediment source area shows mass loss of deposits and erosion; deposits in the submarine coastal slope provide the source and were continuously eroded to provide materials to other places as a sediment source. 相似文献
2.
南汇东滩沉积物粒度特征及其与水动力的关系 总被引:2,自引:0,他引:2
沉积物粒度参数可以用来反演沉积物沉积的水动力条件和沉积环境。根据对南汇边滩采集的表层沉积物粒度资料进行分析,结果表明:沉积物类型以黏土质粉砂为主;随着沉积物平均粒径Mz的减小,分选逐渐变好,偏态由极正偏向正偏转变,并向近对称接近。运用Pe- jurp的三角图式对沉积环境进行划分,结果表明南汇东滩的水动力条件总体上较强,沉积物粒径总体上偏粗,属于径流—潮流共同作用的河口浅滩沉积环境。对潮流底应力和沉积物临界起动切应力的计算进一步印证了该区水动力较强,对应沉积物颗粒偏粗的现象。 相似文献
3.
Geospatial-temporal analysis of land-use changes in the Yellow River Delta during the last 40 years 总被引:5,自引:0,他引:5
Qinghua?YeEmail author Gaohuan?Liu Guoliang?Tian Shenliang?Chen Chong?Huang Shupeng?Chen Qingshen?Liu Jun?Chang Yanan?Shi 《中国科学D辑(英文版)》2004,47(11):1008-1024
Research on land use/land cover changes (LUCC)has been the core project of the Global EnvironmentalChanges since the 1990s[1—6]. Scientists at home andabroad have been laying emphasis on integrationstudies on land-use change by “space and process”features[7—10] as researches on LUCC are in a greatdeal. It is of paramount important for us to studyLUCC at various spatial-temporal scales and build aquantitative assessment of land-use conversion by in-tegrated spatial-temporal features. … 相似文献
4.
海岸线演变及其动态监测,对沿海地区生态保护和可持续发展至关重要。受自然过程和人类活动的影响,黄河三角洲海岸线始终处于动态变化之中。本文基于1996-2020年黄河口Landsat系列卫星影像,利用数字岸线分析系统(DSAS),探讨了近25年来黄河口海岸线动态演变规律及其对黄河输沙量变化的响应关系。研究发现:现行河口地区海岸线平均向海淤进260 m/a,老河口岸线平均变化-167 m/a。调水调沙前,河口岸线整体处于蚀退阶段;调水调沙后,现行河口岸线初期快速淤进,后速率逐渐减缓,老河口始终处于蚀退状态。年内尺度上,现行河口岸线在调水调沙年份汛期前后淤进明显,非调水调沙年份汛期前后淤进缓慢,老河口岸线变化基本与年际变化一致。调水调沙前后,黄河入海沙量对岸线演变的影响程度提升,在年内尺度上对汛期前后现行河口岸线变化作用显著(R2=0.93) 相似文献
5.
崎岖列岛海区的水文泥沙及其峡道效应 总被引:28,自引:2,他引:26
崎岖列岛位于杭州湾口北部海域,恰处长江口外海滨段南缘,是最靠近上海的岸外岛屿群(图1).对于近岸海区的水动力和泥沙条件的研究是港口航道工程建设和近岸海洋资源开发的一个重要方面.崎岖列岛海区的水文泥沙特征,是在该地区建设紧邻上海的岸外大型深水港及其航道迫切需要深入了解的重要问题之一.峡道通常是指其两侧为陆地或岛屿,两端与较宽阔海域沟通的狭长的海峡通道.峡道在水动力、泥沙、沉积和地形等多方面所产生的综合效应,即峡道效应.由南、北两列岛屿群构成的崎岖列岛其间水域形成了一定的峡道特征,这对峡道及其周围海区的水文泥沙必然产生一定的影响. 相似文献
6.
崎岖列岛海区百年冲淤特征及其原因 总被引:15,自引:0,他引:15
由南、北两列岛屿群组成的崎岖列岛海区,近百年来总体表现为淤积,年均淤积速率约2.3cm/a。然而,不同时期表现不同的冲淤演变过程。通过图件对比分析并结合海区水文泥沙和长江口河槽演变的研究得出,近百年来该海区总体冲淤演变主要受制于长江口河槽演变:而局部的冲淤变化与该海区独特的动力泥沙及其峡道效应有关,海区的冲淤分布特点反映出峡道效庆的显著影响。 相似文献
7.
沙质海岸沿岸输沙率的数值模型 总被引:1,自引:0,他引:1
为了较为准确地计算沙质海岸沿岸输沙率,基于网格模型建立沙质海岸波浪的传播变化模型,根据求得的波高和波向分布特征,并考虑辐射应力等,计算波生流的分布.并在此基础上通过波浪最大底部轨道速度和沿岸流的分布特点,建立估算破波带内各网格单元上沿岸输沙率的分布模型. 相似文献
8.
岬湾相间的琼州海峡南岸在海岸动力条件作用下,岸滩发生侵蚀或堆积,特别是南岸中部的南渡江三角洲沿岸岸滩演变剧烈。该文从海岸动力地貌的角度,对琼州海峡南岸的海岸动力特征、泥沙运动以及岸滩演变进行分析。根据海峡南部三维潮流场数值模拟结果,结合经验公式初步分析潮流引起的泥沙运移速率和方向,得到岸外水域总的泥沙运移趋势为从西向东。根据波浪动力计算分析沿岸泥沙运移,探讨沙质岸滩的动态与地貌演变之间的关系,得出海峡南岸海岸地貌演变与盛行的NE和NNE向风浪有密切关系,岸滩的演变过程主要受制于这两个方向的风浪及其引起的泥沙沿岸运移。 相似文献
9.
三角洲河道悬浮泥沙的时空分布与河口流路稳定性及水下三角洲发育密切相关。基于Sentinel-2高分辨率卫星影像反演悬沙浓度,结合河道形态和水动力数值模拟,分析了近年来黄河尾闾河道悬沙的时空分布特征和影响因素。结果表明:2016-2020年,黄河尾闾河道平均悬沙浓度具有显著的洪枯季差异和不同的沿程分布;洪季悬沙浓度受上游来沙和底沙起动共同控制,王家庄和清加2断面是底沙起动再悬浮的主要断面;径流流速的增大对不同河段悬沙浓度的影响不尽相同,河口段悬沙浓度更易受径流流速的影响;以王家庄断面为界,上下游悬沙浓度分别呈现“深泓低两岸高”和“深泓高两岸低”两种截然不同的分布模式;尾闾河道悬沙浓度对调水调沙响应敏感,2018年调水调沙期间悬沙浓度达到10.75 g/L,但随着河床底沙粗化,尾闾河道悬沙浓度对调水调沙的响应敏感性下降。 相似文献
10.
The subaerial delta of the Yellow River has undergone a notable reshaping process with drastic changes in erosion and accretion patterns both temporally and spatially. These morphological changes not only have significant impact on the long-term evolution of delta but also pose severe threat to the existing infrastructures adjacent to the eroding delta lobe. This paper presents a data-based study of waves, currents, sediments and subaqueous bedforms including the application of Principal Component Analysis (PCA) to the measured coastal profiles in order to understand qualitative and quantitative processes that are responsible for the observed changes. The results demonstrated that the Yellow River Delta has recently been dominated by recession process due to the reduced sediment supply from the Yellow River in the recent decades. A critical threshold of river sediment discharge was formulated and used to explain the observed morphodynamic processes. It was found that the coast of the Yellow River Delta could be broadly divided into three geomorphic zones: the area near abandoned delta, the estuarine area, and Laizhou Bay. At the nearshore zone of the abandoned delta, waves are the main agent for bed erosion and sediments suspension. The tidal current is effective in transporting suspended sediments and exerts the main control on the depths of the erosion–accretion balance zone on the coastal profiles. The area near the present estuary has seen rapid deposition with the progradation rate being governed by the relative intensity of fluvial and marine processes while the coasts in Laizhou Bay are stable and the particular characteristics of the tidal current field prevent the sediments supplied by the Yellow River from reaching this area. 相似文献