共查询到20条相似文献,搜索用时 656 毫秒
1.
江苏淤泥质潮滩对海平面变化的形态响应 总被引:9,自引:0,他引:9
通过对江苏滨海平原淤泥质潮滩1980年以来19个固定潮滩断面112个测次滩面高程测量的统计分析,探讨典型淤泥质潮滩剖面形态对海平面变化的形态响应过程。结果表明,典型淤涨岸段海平面上升,多年平均潮位线以上滩面仍将淤积加高,但淤高幅度除多年平均高潮线附近滩面相对较大外,其余均较小,表明随海平面上升该滩带总体淤积速率将趋于减小;与此相反,多年平均潮位线以下滩面则趋于蚀低,且侵蚀强度较大,表明该滩带的侵蚀有加剧趋向,最终滩面总体形态将因上带不断淤高和下带不断蚀低而逐渐变陡,剖面上凸形态的曲率不断加大。曲型侵蚀岸段,海平面上升的效应则相反,海平面上升,多年平均潮位线以上滩面强烈蚀低;而多年平均潮位线以下滩面则强烈淤积加高,剖面的上凹形态最终将因上带不断蚀低和下带不断淤高而趋于平直。 相似文献
2.
黄河三角洲岸线及现行河口区水下地形演变 总被引:2,自引:0,他引:2
根据实测的岸线和水深数据,利用Surfer 和Mapinfo 等软件进行数据处理,结合不同阶段利津站输沙量,分析了黄河三角洲岸线及现行河口区水下地形演变。结果表明:1953-2000年,68%左右的入海泥沙淤积在口门和滨海区。由于入海流路变迁,不同岸段的岸线变化具有各自的特征。刁口河流路以西岸线基本稳定;刁口河流路以东—孤东油田以北岸线经历先淤后冲,属于强侵蚀岸段,但在防潮大堤的保护下得到人为控制下的稳定;清水沟流路形成的岸线整体向海淤进,但清8 出汊后,清水沟老河口沙嘴南侧出现侵蚀。1976-1996 年,现行河口(清水沟流路) 水下地形总体上表现为淤积,顶坡段变缓,前坡段变陡。1996-2005 年,清水沟老河口水下地形顶坡段和前坡段发生侵蚀,底坡段呈现淤积;出汊新河口水下地形继续淤积,但程度和范围都比1976-1996 年的小。孤东油田近岸侵蚀加剧。 相似文献
3.
渤海湾北部滨外沙坝演变的遥感分析 总被引:1,自引:0,他引:1
通过多时相航空遥感影像和MSS、TM、ETM卫星遥感影像的解译、对比,分析渤海湾北部滨外沙坝近50年来的演变过程。结果表明:在波浪、潮汐、潮流和河流等动力因素的作用下,滨外沙坝的动态变化较为明显,在整体西向漂移、向海侧边线蚀退的背景下,个体沙坝的变化表现为陆向蚀退、侵蚀消亡、西南向漂移与端点蚀退、西向漂移与端点延展和海向淤进与陆向蚀退交替等多种态势。 相似文献
4.
现代黄河三角洲叶瓣的划分和识别 总被引:7,自引:0,他引:7
黄河分流河道摆动频繁,自1855年以来形成了8个三角洲叶瓣。1904-1929年的三角洲沉积物划归一个叶瓣较为合适。1934-1938年和1947-1964年也应该划归一个叶瓣。叶瓣活动时间短,平均活动时间只有16年。单个叶瓣形成的沉积物厚度有限。一个钻孔剖面上的三角洲沉积物常常分层于数个叶瓣。叶瓣废弃后改造时间短,还没有形成较粗的改造,沉积物便被新的叶瓣所覆盖。两个叶瓣的界线不很清楚。但根据沉积结构和构造,微体化石,210pb测年方法,土壤层以及历史记录,可以识别出不同的叶瓣。 相似文献
5.
基于影像间潮滩地形修正的海岸线监测研究——以黄河三角洲为例 总被引:6,自引:0,他引:6
针对潮滩环境中潮汐和坡度变化对海岸线变化监测的影响,提出一种通过两景影像计算潮滩坡降进而准确获得海岸线的方法,并利用坡降值估算潮滩体积。以岸线变化较剧烈的黄河三角洲南部的甜水沟口至小清河口的粉砂淤泥质潮滩为例进行应用研究。结合遥感影像、实测固定断面数据和水深测量数据分析表明,影像间的潮差对坡降估算值虽有较大影响,但选择合适潮位估算潮滩坡降是可行的,估算坡降的最小相对误差可达0.2%,均方根误差小于实测坡降一个数量级。1973-2009 年甜水沟口至小清河口14 个年份的岸线变化分析显示,黄河改道对本区的直接淤积影响在甜水沟向南3 km范围内,最大淤积区位于甜水沟口附近,年均淤积率31 m/a,而后在1989-2002 年海区南部出现较大幅度淤积,主要为黄河入海水沙直接或间接淤积造成的;研究时段内岸滩总体演化趋势为蚀退,最大年均蚀退速率51 m/a,黄河改道造成的海洋动力变化是影响本区海岸冲刷的主要因素。验证表明,本文方法计算的潮滩体积用于指示海滩冲淤变迁是合理可行的。 相似文献
6.
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
7.
黄河海港动力地貌条件的初步探讨 总被引:5,自引:0,他引:5
在黄河海港选址及未来预测中,作者通过海岸动力、悬沙分布、粒度特征、地形对比研究法等分析,获得了黄河口迁离黄河海港附近8年后的海底蚀淤厚度、侵蚀与淤积速率、净余侵蚀总重量、泥沙活动带的活动规律与海岸剖面塑造及其演变的关系,从而为黄河海港的设置与工程布局提供了科学依据。 相似文献
8.
温州地区淤泥质潮滩冲淤遥感反演研究 总被引:11,自引:1,他引:11
滩涂围垦、水产养殖、防波堤建设和航道疏浚等往往涉及潮滩冲淤变化的研究。冲淤变化是一种复杂的物理过程,它包括许多自然因素和人类诱发因素。该文使用MSS、TM、ETM及SPOT四类数据源,共计24个时相,时间跨度为1976—2002年,利用多时相卫星遥感图像水边线高程反演技术,确定了温州地区不同部位淤泥质潮滩岸线的变化,计算不同部位潮滩坡度及淤积、侵蚀速度,为温州地区潮滩的开发建设提供了理论依据。 相似文献
9.
东北典型黑土区不同土地利用方式土壤水分动态变化特征 总被引:4,自引:0,他引:4
土壤水分是农业生产和区域生态系统的重要影响因子。以黑龙江省鹤山农场2号小流域为研究区域,系统研究不同土地利用方式土壤水分的动态变化过程和剖面变化特征。结果发现:不同土地利用方式土壤含水量随观察期内降雨量时间分布波动,并且总体呈降低趋势,但各变化曲线有所差异。观测时段内土壤水分变化分为相对稳定期、消耗期和补给期;土地利用方式对土壤剖面含水量的影响随土层的加深而增大,各土地利用方式的土壤含水量随土层的加深也呈现出不同的变化趋势,并且其土壤剖面含水量变化均存在季节差异。 相似文献
10.
中全新世以来乌鲁木齐东道海子B剖面沉积物源探讨与分析 总被引:2,自引:1,他引:1
用激光粒度仪对乌鲁木齐河尾闾的东道海子B剖面样品进行测试,获得机械组成的原始数据。样品粒度分布频率曲线可以分为4种类型。不同类型的曲线反映了不同的碎屑物源组成和不同的沉积环境:在该剖面正态尖峰代表风沙物源,偏态宽峰代表河水物源,正态尖峰和偏态宽峰的叠加代表风沙物源与河水物源的混合,鞍状宽峰可能与深水环境有关。整个剖面反映了从约5000aBP到约200aBP湖面逐步扩大、湖水加深,碎屑物源由以风沙补给为主,逐步转为水源碎屑的趋势。剖面下部的风沙沉积层代表全新世大暖期晚期的暖干环境。约自4500aBP碎屑物源反映湖面开始扩张,4500至3100aBP显示3次快速气候波动,3100aBP之后水深增加,除1980aBP前后显示有短暂的风沙活动之外,主要反映河流碎屑入湖变化情况和湖水水深变化。 相似文献
11.
1IntroductionThe river deltas are generally those areas with a wealth of natural resources, and lots of ports, moreover they are important locations of human activity. Therefore, deltaic areas around the world, such as the Mississippi River delta, the Nile River delta, and the Yangtze River delta, have attracted the attentions of governments, scientists and common people. There are three big deltas in China, i.e., the Yangtze River, the Zhujiang River and the Yellow River deltas. The for… 相似文献
12.
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
13.
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
14.
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
15.
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
16.
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
17.
18.
The delta evolution and erosion process of the abandoned Yellow River Delta (AYRD) have been extensively studied. However, the variation of sediment at a large littoral scale along the north coast of Jiangsu is less understood. In this study, the data of surface sediment samples obtained in the littoral area of the Yellow River Delta in 2006 and 2012 is used to study the sediment variability and sediment transport trends by using the geostatistics analysis tool and the grain size trend analysis model. In order to ensure the applicability of the model, the geostatistics method is used to determine the characteristic distance (Dc) with the average range value (Ao) of grain size parameter. Filtering method (removing data that not at a sampling station) is used to improve accuracy of data selection. The results show that sedimentary spatial correlation in Lianyun Port area and southern part of the abandoned Yellow River Delta (AS) is better than that in the northern part of the abandoned Yellow River Delta (AN). Sediment in the area is found to be anisotropy at the northeast-southeast direction. The grain size trend analysis reveals that the sediment trend is towards bayhead and southerly in the Haizhou Bay, southeasterly along the shoreline in the south Lianyun Port, northwesterly in AN and easterly-southeasterly in AS respectively. The investigation of possible relationships between Dc, Ao, sediment transport and delta evolution shows a close link between Dc and Ao of one sediment combination. It is also found that sediment transport trends could reasonably represent the delta evolution to a certain degree. 相似文献
19.
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
20.
Sediment variability and transport in the littoral area of the abandoned Yellow River Delta,northern Jiangsu 总被引:1,自引:0,他引:1
The delta evolution and erosion process of the abandoned Yellow River Delta (AYRD) have been extensively studied. However, the variation of sediment at a large littoral scale along the north coast of Jiangsu is less understood. In this study, the data of surface sediment samples obtained in the littoral area of the Yellow River Delta in 2006 and 2012 is used to study the sediment variability and sediment transport trends by using the geostatistics analysis tool and the grain size trend analysis model. In order to ensure the applicability of the model, the geostatistics method is used to determine the characteristic distance (D c) with the average range value (Ao) of grain size parameter. Filtering method (removing data that not at a sampling station) is used to improve accuracy of data selection. The results show that sedimentary spatial correlation in Lianyun Port area and southern part of the abandoned Yellow River Delta (AS) is better than that in the northern part of the abandoned Yellow River Delta (AN). Sediment in the area is found to be anisotropy at the northeast-southeast direction. The grain size trend analysis reveals that the sediment trend is towards bayhead and southerly in the Haizhou Bay, southeasterly along the shoreline in the south Lianyun Port, northwesterly in AN and easterly-southeasterly in AS respectively. The investigation of possible relationships between D c, Ao, sediment transport and delta evolution shows a close link between D c and Ao of one sediment combination. It is also found that sediment transport trends could reasonably represent the delta evolution to a certain degree. 相似文献