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1.
黄河废弃三角洲叶瓣海岸侵蚀与岸线演化 总被引:1,自引:0,他引:1
A statistic analysis predicting coastal change of the Yellow River abandoned delta lobe formed from 1964 to 1976 using Landsat TM imagery was conducted by calculating the coastal erosion/accumulation rates obtained flom four different classic profiles and plotting the change curves of coastline with time. The studies showed that the regularity of the evolution of the coastline was very obvious after the delta lobe was abandoned. The coastal evolution can be divided into three different phases: erosion phase, transition phase and cyclical change phase. At present, the coast has evolved to the cyclical change phase. The natural coastline change cycle is 4 years between the dam and is 5 years to the west of the dam. In the cyclical change phase, the quasi-equilibrium line of the coast was located near the coastline of 1996, the current coast may recede 1.79 km to reach the natural equilibrium coastline. Therefore, some measures must be taken to protect the dam or the dam will be destroyed by the force of nature. The curves also revealed the magnitude of erosion/accumulation rates would decrease gradually with time. The results of the study offer guidance for coast protection, and proves that the evolution of silty coast actually was a cyclical change process too. 相似文献
2.
A statistic analysis predicting coastal change of the Yellow River abandoned delta lobe formed from 1964 to 1976 using Landsat TM imagery was conducted by calculating the coastal erosion/accumulation rates obtained from four different classic profiles and plotting the change curves of coastline with time. The studies showed that the regularity of the evolution of the coastline was very obvious after the delta lobe was abandoned. The coastal evolution can be divided into three different phases: erosion phase, transition phase and cyclical change phase. At present, the coast has evolved to the cyclical change phase. The natural coastline change cycle is 4 years between the dam and is 5 years to the west of the dam. In the cyclical change phase, the quasi-equilibrium line of the coast was located near the coastline of 1996, the current coast may recede 1.79 km to reach the natural equilibrium coastline. Therefore, some measures must be taken to protect the dam or the dam will be destroyed by the force of nature. The curves also revealed the magnitude of erosion/accumulation rates would decrease gradually with time. The results of the study offer guidance for coast protection, and proves that the evolution of silty coast actually was a cyclical change process too. 相似文献
3.
黄河三角洲废弃叶瓣海岸侵蚀与岸线演化 总被引:13,自引:0,他引:13
利用Landsat TM卫星遥感图像,对黄河1964~1976年间形成的三角洲叶瓣自1976年废弃以后的岸线进行了识别,选取了四个典型剖面,绘制了它们的岸线蚀退或淤进平均速率曲线。结果显示,不同剖面处天然岸线的蚀退或淤进速率很有规律。根据曲线特征将其分为蚀退期,转换过渡期和周期性波动期。现废弃叶瓣已进入周期性波动期。由于受大坝影响,不同位置岸线波动周期不同,两大坝之间约为4年,大坝西侧约为5年,岸线变化准平衡线位于1996年的海岸线附近。岸线变化速率波动幅值将随着时间的延长而减小。 相似文献
4.
7000年来渤海西岸、南岸海岸线变迁 总被引:3,自引:0,他引:3
渤海西岸、南岸从全新世海侵边界至现在海岸线之间的海岸低地是7 000 a B.P.以来多个三角洲进积的结果.由于黄河人海泥沙数量巨大,导致下游河道频繁摆动,活动三角洲(超级叶瓣)位置多次变迁.滦河三角洲活动叶瓣位置也多次变迁.海岸线变迁受三角洲演化控制:活动期推进、废弃初期后退和之后的长期稳定,表现分片突进模式.整体来说研究区各时期海岸线表现出局部突出、局部内凹特点.在这样的三角洲群地区不可能出现近乎匀速的平推式海岸变迁. 相似文献
5.
江苏海岸侵蚀过程及其趋势 总被引:51,自引:2,他引:51
江苏省侵蚀海岸的总长度为 30 1 7km ,分为 4段 :废黄河三角洲海岸、港海岸、吕四海岸以及海州湾的沙质海岸。各段海岸侵蚀原因不同。废黄河三角洲海岸是因黄河改道失去泥沙来源 ;吕四与港海岸则因辐射沙洲调整过程中滨岸水道的向岸移动造成的 ;而北部沙岸则是因人类活动 (上游建设水库及开挖海滩沙 )的干扰。江苏海岸是一个沉积物准封闭系统 ,全球性海平面上升将加剧这一侵蚀过程 ,预计未来侵蚀海岸的长度将增加 ,辐射沙洲区的外围沙洲将因侵蚀而向中心区退缩。一些目前是隐型侵蚀的岸段将向显性侵蚀的阶段发展。由于连云港到长江口北支的岸段是软性海岸 ,缺乏硬质节点 ,在没有建造大型人工设施的前提下 ,估计江苏海岸动态及制定开发规划时必须考虑平直化的大趋势。 相似文献
6.
黄河三角洲沉积物的自然固结压实过程及其影响 总被引:15,自引:2,他引:13
对黄河三角洲及下伏沉积物的压实量和压实过程及其引起的地面沉降进行了分析研究。分析认为,在厚度为15 m的新淤积的黄河三角洲沉积重压下,前三角洲粘土和下伏海相粘土总固结量可达约1.35 m,海湾或烂泥湾及前三角洲和海相粘土总压缩量为1.48 m。这些粘土层在亚三角洲建设时期就开始受压固结,但是在亚三角洲废弃后,仍要经过几十年自然固结才会基本完成。除去前10年的固结量,前三角洲粘土与下伏海相粘土叠加形成的14 m厚粘土在随后的27年内可能会压缩50 cm;而海湾或烂泥湾及前三角洲和海相粘土叠加成的20 m厚粘土在50年内可能会压缩86 cm,两者的年平均压缩速率都超过17 mm/a。固结量和速率与上负沉积物重量成正比,而亚三角洲沉积厚度从沉积中心向外围逐渐减少,所以下伏粘土固结量和速率也向周围逐渐降低。但从亚三角洲沉积厚度分布情况看,在大范围内,下伏粘土固结引起的地面沉降在几十年内都将比较明显,从而可能加重三角洲地区风暴潮和海岸侵蚀灾害,降低已有灾害防治工程的作用。 相似文献
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1990年以来中国大陆海岸线稳定性研究 总被引:1,自引:1,他引:0
海岸线变迁是一个动态的演变过程,它是自然与人类共同作用的结果。基于1990年、2000年、2007年和2012年4个时期的资源卫星、Landsat系列卫星的遥感影像,采用色差Canny算子计算方法提取岸线数据,计算近22 a来中国大陆海岸线向海推进或向陆后退的空间位置变化量及年均变化速度,研究中国大陆海岸线空间位置与稳定性的演变规律,得出以下结论:① 中国海岸线空间位置变化以向海推进为主;② 中国海岸线多为相对稳定海岸线,其次为强烈岸进岸线,稳定性岸线全国均有分布,而强烈岸进岸线多分布于江苏和辽宁两省;③ 自1990年以来,中国大陆岸线的稳定性指数逐渐降低,22 a下降了1.1,以长江入海口为分界,南方沿海城市岸线稳定性指数高于北方。 相似文献
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.Introducti0nTheNandujianghiver,withalengthOf3llkIn,adrainageareaof684lkm2andanaverageannunldischargOf60xl09m',isthelargstriveronHainanIsland.IttransportsanaveragannualsedimentloadOfO.68xlO6tonsnorthwdintoQangrhouStrait,wherethetidalrangnisca1.Om,andwavesandlongrhorecurrentsarerelativelystrong.TheNandujiangdeltacoves20OkIn2.ThedePOsitionalSystemOfthedeltaconsistsofrivermouthbars,distribotarymouthbars,marshdepositsfOrmedinbaysandlagoons,sandridges,sandsPitsanddunes.ThedistributionPatt… 相似文献
10.
江苏北部开敞淤泥质海岸的侵蚀过程及防护 总被引:9,自引:0,他引:9
开敞淤泥质海岸是淤泥质海岸的主要类型,其自然演变过程,主要受沿海河流泥沙供应条件的制约,一旦泥沙供应消失,海岸往往进入不可逆转的侵蚀过程。江苏北部淤泥质海岸的侵蚀过程,起自1855年黄河入海口北归利津入海以后,主要是在近岸破波对岸滩物质的冲刷和潮流的输移扩散作用下进行的。通过对淤泥质海岸动力和沉积物性质的认识和概化,对海岸侵蚀过程作出定量模拟,并对该地区海岸防护工程作出评价和讨论。 相似文献
11.
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
12.
基于遥感的江苏省大陆岸线岸滩时空演变 总被引:2,自引:0,他引:2
基于江苏省1984-2016年61景多源遥感影像数据和部分实测潮位、坡度数据,利用遥感技术结合改进的水边线方法提取了多时相的海岸线和平均大潮低潮线,研究了江苏省绣针河口至连兴河口大陆岸线岸滩的时空演变特征。结果表明:1984-2016年,由于海岸带开发,江苏省的海岸线整体以向海推进为主,自然岸线由458.24 km逐渐减少至166.74 km,人工岸线由163.66 km快速增加至598.74 km,大陆岸线长度由621.90 km增加至765.48 km。发生位置和长度变化的岸段中,淤长岸段长127.62 km,年均向海推进83.03 m;围垦岸段长401.21 km,年均向海推进87.63 m;冲刷岸段长71.17 km,年均离海后退10.81 m;围垦被侵蚀岸段长25.95 km,年均离海后退8.64 m。海岸线的空间变化导致江苏省沿海陆地面积净增加104332 hm2,其中由于围垦增加的陆地面积98520 hm2,围垦是陆地面积增加的主要原因。海岸线的离海后退主要发生在废黄河三角洲岸段,但是到2008-2016年,岸线的侵蚀范围已向南扩大至新洋河口至斗龙港岸段。受围垦活动及岸线侵蚀影响,江苏省潮间带坡度不断变陡,统计断面的平均坡度由1.4‰增加至1.9‰,其中废黄河三角洲岸段的中山河口至扁担河口岸段坡度最陡,基本在3~14‰之间;辐射沙洲陆岸岸段坡度最为平缓,但坡度也在逐渐陡化,由0.9‰增加至1.5‰。潮间带面积由271747 hm2减少至168645 hm2,减幅38%;潮间带平均宽度由5064 m减少至3096 m,减幅39%。 相似文献
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Shoreline positions established from beach profile surveys combined with wave data are jointly analyzed, as a function of their contribution to coastal processes, to investigate the interaction between waves, shoreline orientation and coastal structures along the Nile delta promontories, Rosetta, Burullus and Damietta. Repeated beach profile surveys along the promontory sectors (64 km long in total) have been analyzed to determine rates of shoreline changes prior to construction (1971–1990) and after construction of protective structures (1990–2000). The behavior of coastline pre- and post-construction indicates that coastal erosion fronting protective structures has declined in the case of the seawalls at the tips of the Rosetta and Damietta promontories, or has been partially replaced by sand accumulation in the case of detached breakwaters at Baltim (east of Burullus promontory) and at Ras El Bar (west of the Damietta promontory). As a consequence, downdrift erosion has been initiated in local areas adjacent to these structures in the direction of longshore sediment transport. The 5-km-long seawall protecting the Rosetta promontory has stopped the dramatic erosion of this highly eroded area (formerly shoreward retreated 88 m/year), with adverse local erosion at its west and east ends, being 3 and 13 m/year, respectively. Similarly, the 6-km-long seawall built on the eastern tip of the Damietta Promontory, still under construction, has nearly stopped the severe erosion, which was formerly 10 m/year. The detached breakwaters at both Baltim and at Ras El Bar have accumulated sand at accretion rates of 37 and 14 m/year, respectively. This sand accumulation is associated with downdrift erosion of 25 and 13 m/year at Baltim and Ras El Bar, respectively. Results reaffirm that the original erosion/accretion patterns along the Nile delta promontories have been reshaped due to the massive protective structures built during the last decade. This reshaping along the examined promontories is generally controlled by the temporal variability in the intensity and reversibility of wave directions and associated longshore currents, coastline orientation and by the existing coastal protection structures. 相似文献
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黄河中游土壤侵蚀与下游古河道三角洲演化的过程响应 总被引:10,自引:7,他引:10
根据黄土高原土壤侵蚀的周期特点,结合华北平原古河道,古三角洲的演化过程,应用泥沙输移的过程响应,分析了晚更新世以来黄河中游黄土高原土壤侵蚀与下游古河道,三角洲演化的关系,在人类历史之前,黄土高原土壤侵蚀基本上遵循自在生态环境演化规律,强裂侵蚀期发生在干冷向湿湿气候转化的过渡期,在强裂侵蚀的初期是古道形成期,强烈侵蚀期发生在干冷向温湿气候转化的过渡期,在强裂侵蚀的期是古河道形成期,强烈侵蚀的外营力迭加了人为作用,黄河下游河游泳以改道,三角洲横向扩展发生在强烈侵蚀的衰退期,人类历史时期,土壤侵蚀的外营力迭加了人为作用,破坏了地质历史时期的规律性,土壤侵蚀强度越来越强,基本上按照旱涝变化频率而演化,干冷期降雨不均匀系数增加,土训侵蚀加重,径流量较少,河床以淤积为主,是古河道形成期,正常年黄河泥少输移比接近于一,是三角洲进积期,温湿期降雨量增加,径流量加大,下游河流改道,三角洲横向发展。 相似文献
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Documenting the history of catchment deforestation using paleolimnological data involves understanding both the timing and magnitude of change in the input of erosional products to the downstream lake. These products include both physically-eroded soil and the byproducts of burning, primarily charcoal, which arise from both intentional and climatically-induced changes in fire frequency. As a part of the Lake Tanganyika Biodiversity Projects special study on sedimentation, we have investigated the sedimentological composition of seven dated cores from six deltas or delta complexes along the east coast of Lake Tanganyika: the Lubulungu River delta, the Kabesi River delta, the Nyasanga/Kahama River delta, and the Mwamgongo River delta in Tanzania, and the Nyamusenyi River delta and Karonge/Kirasa River delta in Burundi. Changes in sediment mass accumulation rates, composition, and charcoal flux in the littoral and sublittoral zones of the lake that can be linked to watershed disturbance factors in the deltas were examined. Total organic carbon accumulation rates, in particular, are strongly linked to higher sediment mass accumulation from terrestrial sources, and show striking mid-20th century increases at disturbed watershed deltas that may indicate a connection between increased watershed erosion and increased nearshore productivity. However, changes in sedimentation patterns are not solely correlated with the 20th century period of increasing human population in the basin. Fire activity, as recorded by charcoal accumulation rates, was also elevated during arid intervals of the 13th–early 19th centuries. Some differences between northern and southern sedimentation histories appear to be correlated with different histories of human population in central Tanzania in contrast with northern Tanzania and Burundi. 相似文献
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基于匀光遥感的6000年来盐城海岸演变研究 总被引:2,自引:0,他引:2
本文研究盐城串场河一线至黄海60 km宽的海积平原海岸演变过程。对1975 年的MSS影像,进行遥感匀光处理、阈值分割等影像解译,获取了盐城海积平原古海岸演变解译图,即“斑马条纹”二值图;对19 个实测底质样品进行分析,发现海积平原呈现砂质(粗颗粒) 与淤泥质(细颗粒) 沉积相间平行的分布规律,而这一空间交替分布特征与解译图上“斑马条纹”的二值条带具有良好的对应关系;同时,搜集整理了近几十年来的盐城古海岸调查资料与研究成果,发现前人历史岸线的空间分布与“斑马条纹”整体趋势相同。综上所述,“斑马条纹”应为盐城海岸演变标志,解译出砂冈10 条,冈间低地10 条,形成了对盐城海积平原地貌沉积及海岸演变过程的新认识。 相似文献
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海平面上升的灾害效应研究--以江苏沿海低地为例 总被引:14,自引:6,他引:8
海平面上升是全球变暖和沿海地区人类活动加剧的必然结果,其灾害效应直接影响沿海地区社会经济的持续发展。文章运用地面沉降与绝对海面变化叠加法和潮位记录法,预测未来30年,50年和100年江苏沿海海平面将分别上升0.30 m,0.53 m和1.37 m。在此基础上,对不同海平面上升量引起的风暴潮灾害、海岸侵蚀、潮滩盐沼损失、涵闸破坏、洪涝灾害加剧和海堤工程受损等方面的灾害效应进行了定量分析,并对江苏沿海低地进行分区灾害预警,认为海平面上升后的灾害效应在江苏中部海积平原表现得最为严重,废黄河三角洲平原和长江三角洲平原中等,而海州湾海积平原最轻。 相似文献
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基于遥感和GIS的江苏省海岸线时空变化 总被引:5,自引:0,他引:5
以江苏省海岸1973-2012年的Landsat MSS/TM/ETM+遥感影像为数据源,利用遥感和GIS技术,对江苏省海岸线的时空变化进行分析。结果表明:显著侵蚀岸段以废黄河口为中心,北至新淮河口,南至双洋港,长度约79.05 km,占研究区岸线总长度的8%;淤涨岸段以弶港为中心,北至运粮河口,南至新中港,长约715.50 km,占72%;其它部分稳定岸段与淤涨岸段相间存在。最大侵蚀速率为-23.37±11.92 m/a,位于废黄河口南侧;最大淤涨速率为445.37±66.80 m/a,位于射阳河口南侧。围垦是江苏省岸线变化的主要因素。总的来看,1973年以来40年间共围垦1912.4 km2,1980年前后出现了一个围垦高峰,之后围垦强度明显减弱且进入休养期,90年代以后围垦又普遍加强。 相似文献
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The construction of multiple dams and barrages in many Indian River basins over the last few decades significantly reduced river flow to the sea and affected the sediment regime. More reservoir construction is planned through the proposed National River Linking Project (NRLP), which will transfer massive amounts of water from the North to the South of India. The impacts of these developments on fertile and ecologically sensitive deltaic environments are poorly understood and quantified at present. In this paper an attempt is made to identify, locate and quantify coastal erosion and deposition processes in one of the major river basins in India—the Krishna—using a time series of Landsat images for 1977, 1990 and 2001 with a spatial resolution ranging from 57.0 m to 28.5 m. The dynamics of these processes are analyzed together with the time series of river flow, sediment discharge and sediment storage in the basin. Comparisons are made with similar processes identified and quantified earlier in the delta of a neighboring similarly large river basin—the Godavari. The results suggest that coastal erosion in the Krishna Delta progressed over the last 25 years at the average rate of 77.6 ha yr− 1, dominating the entire delta coastline and exceeding the deposition rate threefold. The retreat of the Krishna Delta may be explained primarily by the reduced river inflow to the delta (which is three times less at present than 50 years ago) and the associated reduction of sediment load. Both are invariably related to upstream reservoir storage development. 相似文献