粤东碣石潟湖口沉积地貌演变

本文根据实测和历史资料对碣石潟湖口动力地貌演变进行综合研究,揭示了潟湖泥沙来源主要为SE—NW方向的沿岸漂沙,指出潮汐通道淤塞、弯曲和位移是由于潟湖在自然淤积和人为围筑的影响下,纳潮量减退,导致通道潮汐力减弱和波浪力成为控制因素的结果。最后对口门整治,如增大潟湖纳潮量、均衡通道过水断面积和防沙堤设置等问题提出意见。     

新村港泻湖潮汐通道的形成和演变及整治初探

新村港泻湖位处海南岛东南部的陵水县,其潮汐通道是新村港泻湖与外海之间的水体相互沟通的通道,该通道自形成以来,受其口外海滨风浪、潮流作用、堆积地形以及泻湖纳潮量变化的影响,导致潮汐通道淤浅、断面缩窄、口门位置迁移等复杂变化,对潮汐通道功能的维护产生影响,也直接关系到泻湖这一重要自然资源的维护和进一步开发利用.本文对新村潮汐通道的形成与演变进行探讨,在此基础上提出整治设想,以求达到进一步发挥新村港泻湖潜在的经济效益和社会效益,并维护泻湖资源可持续发展.     

清澜潟湖-沙坝-潮汐通道体系的沉积环境和沉积作用

本文根据区域动力条件、沉积物平面分布和垂直层序,论述清澜潟湖-沙坝-潮汐通道体系的沉积环境和沉积作用,指出来自河流的泥沙主要沉积于潟湖湾北段;口门附近沉积物的搬运和堆积主要受潮流和波浪两大动力因素支配,口门东西两侧各存在一个沉积物的平面环状转移体系;拦湾沙坝沉积的形成主要与外海波浪的辐聚和辐散有关.     

黄河河口莱州湾人工潟湖的设计和功能

在简要概述潟湖基本概念和特征的基础上,围绕黄河河口莱州湾人工潟湖工程的布局方案进行了初步设计。初步设计的莱州湾人工潟湖属于半封闭型海岸潟湖,涉及海岸线长度约35km,海域面积470km2,主要由入海水沙通道、人工沙坝、潮汐通道三大工程体系组成。分析指出:人工潟湖将具有优化黄河入海水沙分配格局、减轻河口防洪防凌防潮压力、改善和维护海岸带生态环境、发展水产养殖、丰富旅游资源等多项功能。本文从施工技术、维护技术两个方面论证分析了人工潟湖的可行性,最后提出了兴建人工潟湖需要解决的诸多关键技术问题,如入海水沙通道的设计标准、补水分洪时机和规模、潮汐通道的设置及其纳潮数量、潟湖形成后泥沙输移与沉积及其容沙能力、对周围海域环境及其滨海生物的影响效应等问题等。     

海南岛小海沙坝-泻湖-潮汐通道体系自动调整及恶化

本文运用历史地图对比方法，结合现场考察及水文泥沙测量资料，分析海南岛小海口门近40a来的变化过程，找出小海口门在人为作用下的演变规律．结果表明，小海沙坝—泻湖—潮汐通道体系曾是一个稳定的系统，它通过口门断面、地形调整以适应在人类活动作用下口门动力的变化并保持相对平衡．三大人为活动的综合影响，尤其是盐墩三岛的围垦及冈箱养殖，破坏了口门维持的最后动力(潮汐动力)，使小海沙坝—泻湖—潮汐通道体系失去了调整作用，直接导致了口门的迅速缩小．因此小海综合治理的首要任务是小海口门的治理。     

西沙群岛宣德环礁的精细水下地貌组合特征及其成因机制

海底地形地貌及类型分布特征对指示区域地质构造影响、海平面升降、海洋水动力等有重要意义。本文通过侧扫声呐、单波束测深、表层沉积物取样等方法,分析了西沙群岛宣德环礁精细水下地貌组合特征,并探讨了其成因机制。结果表明:（1）宣德环礁为残缺型环礁类型,中部为潟湖沉积,礁盘之间形成西沙洲口门、“红草门”、环礁西缺口和环礁南缺口等4处水深超过60 m的深水口门,并首次识别了西沙洲口门;（2）宣德环礁水下地貌类型可划分为3级11类地貌类型。研究区的沙波及槽沟等动力地貌单元显示,宣德环礁浅水区海底特征地貌由盛行季风和波浪场所控制,深水口门形成的潮汐通道水体为塑造宣德环礁潟湖区动力地貌的主要因素。研究区东南部向海坡存在6级水下阶地,通过对比南海珊瑚礁阶地特征,宣德环礁向海坡阶地成因很可能是全球海平面变化和地壳沉降的共同作用。     

山东荣成天鹅湖沙坝水下岸坡地貌冲淤演变分析

山东荣成天鹅湖是一个典型的潟湖-沙坝系统。自20世纪80年代以来, 因受人类活动的影响, 天鹅湖环境系统发生了改变, 沙坝侵蚀后退严重。研究水下岸坡的冲淤对于认识潟湖-沙坝系统演变, 以及保护天鹅湖环境具有重要意义。本文以天鹅湖东侧沙坝水下岸坡为研究区域, 基于1960年至2014年的海图资料, 采用地理信息技术, 获得了天鹅湖东侧近岸海域多年水深数据, 进而分析了1960年以来天鹅湖东侧沙坝地区的等深线变化、冲淤变化以及固定剖面的地形变化。结果表明: 1960—1980年等深线整体向海推移, 而1980—2014年等深线向海推移趋势变缓, 1960—2014年潮汐通道口门处0m等深线向岸退缩了126.70m。天鹅湖水下岸坡在1960—1980年整体处于淤积的状态, 年淤积率为3.60cm∙a^-1; 1980—2014年侵蚀面积显著增大, 且呈现冲淤相间分布的特点, 年淤积率为0.79cm·a^-1。天鹅湖沙坝水下岸坡呈现上陡下缓的形态, 且潮汐通道口门北侧比南侧更易受到侵蚀。人类活动改变了天鹅湖的环境状态, 导致了天鹅湖水下岸坡的局部侵蚀后退。     

粤西水东潮汐通道流速不对称性及流速模拟分析

本文分析了广东西部的水东泻湖-潮汐通道不同地段流速的分布持性。指出通道涨落潮流速不对称主要是由于潮水位不对称引起,通道潮流流速过程一方面决定于潮水位的涨落变率,另一方面与泻湖纳潮水域的地形及通道咽喉断面面积随水位变化的特性有关。     

1979—2009年山东半岛连岛沙坝-潟湖的变迁

以山东半岛3处连岛沙坝-潟湖(朝阳港潟湖、镆铘岛潟湖和林家流潟湖)为研究对象,利用1979—2009年间4期TM/ETM+遥感影像数据,提取了上述潟湖30 a间的变化信息,并应用分形方法讨论了潟湖岸线的复杂度。结果表明,总体上潟湖岸线趋于平直,其复杂度降低,稳定性增加,具体表现为:(1)朝阳港潟湖面积增加;青矶岛西沙嘴向东迅速淤积延伸,每年达30 m左右;东沙嘴随着口门不断东移而蚀退;沙坝长宽比增大;由于水产养殖的增加,导致淤积严重,水体变浅,潟湖逐渐走向衰亡。(2)镆铘岛潟湖面积变化不大;东沙嘴长度基本不变,宽度变窄,长宽比增大;潟湖南部被改造成水产养殖区,呈稳定状态;潟湖北部被开垦成盐田,流向潟湖北部的主流槽变窄、变浅,淤积严重,生态环境恶化,逐渐走向消亡,将演化成潟湖平原。(3)林家流潟湖面积增加;楮岛沙坝长宽比有所增大,岸线长度增加;潟湖西南部淤积;口门变窄,纳潮量聚减,趋势是发展为内陆湖泊。     

基于三维调和分离的同安湾口门断面冬季潮流和余流特征的分析

利用同安湾口门断面走航ADCP观测数据,采用基于高斯基函数的Candela空间插值方法,对海流进行空间三维的调和分离,并对分离的各分潮流与余流进行流场的回归检验分析,F(α=0.01)检验显示流场的回归效果显著.观测期间同安湾口门断面平均潮差为5.15 m,最小潮差4.38m,最大潮差5.98 m,断面上涨落潮最大流速分别为92.3、80.3 cm/s,潮流特征分析表明,同安湾口门断面的潮流运动形式为往复流,以半日潮流为主,约占70%潮流信息,潮流流速从海表面向海底递减.余流最大值为12.5 cm/s,空间分布上将同安湾口门断面一分为二形成北进南出的余流进出通道,这与以往余流格局的认识相符.     

用一维水力学方程求取泻湖水位及潮汐汊道断面流速——以海南陵水新村港为例

本文通过一维水力学运动方程及连续性方程,得出一个反映泻湖水位变化的二阶非线性有阻尼的强迫振动方程,采用龙格-库特四步格式进行求解,并以海南陵水新村港为例,计算了泻湖水位及潮汐汊道的断面流速.研究结果表明:(1)一维水力学方程可容易地求得泻湖-潮汐汊道体系中泻湖内的水位及汊道的断面流速,计算简单快捷.(2)一维水力学方程可分析潮汐汊道体系中的一些基本现象.如潮汐汊道对潮波的"过滤器"特征;由于泻湖-潮汐汊道体系的阻尼系数较大所导致的潮波自外向泻湖传播时衰减剧烈;径流对泻湖水位及汊道流速产生有利于落潮优势的影响;风可使泻湖水位抬升或下降等.(3)无论是否考虑泻湖与潮汐汊道面积随水位的变化,一维水力学方程都具有相当大的缺陷.由于其不能反映泻湖内地形的空间变化,也不能解决漫滩与归槽等过程,在外海潮波无次生波的情况下,它本身不能产生次生潮波,因而不能正确地反映潮汐汊道体系的涨落潮历时与流速不对称,从而不能分析泥沙的净输运及潮汐汊道的稳定性问题.(4)新村港泻湖-潮汐汊道体系中潮汐汊道的断面面积大小对整个体系的稳定性及演变趋势起着控制作用.     

非结构网格三维斜压模型研究人类活动对海南岛清澜潮汐汊道水动力影响

清澜潮汐汊道为海南岛东部一个典型的泻湖-潮汐汊道-沙坝系统,由于其优越的自然条件而成为开发的重点区域。近几年的人类活动主要包括:口门西侧的围填工程,航道的疏浚和八门湾泻湖内的围塘工程。采用SELFE模型,结合观测资料,研究了不同人类活动对潮汐汊道的潮波、潮通量与涨落潮历时、河口重力环流、盐水入侵和河口羽流的影响。结果表明不同的人类活动其对动力的影响不同,口门西侧围填工程减小了潮汐汊道的潮差,对潮通量和盐水入侵影响很小;航道疏浚则加大了潮差和潮通量,加强了河口环流和盐水入侵;泻湖内围塘工程使潮差有所增大,但减小了潮通量,对盐水入侵的影响不显著。口门西侧围填工程改变了河口羽流的路径,而航道疏浚则使河口羽流更加向海扩散。     

Mean water level setup/setdown in the inlet-lagoon system induced by tidal action-a case study of Xincun Inlet, Hainan Island in China

With the tides propagating from the open sea to the lagoon, the mean water level （MWL） in the inlet and lagoon becomes different from that at the open sea, and a setup/setdown is generated. The change of MWL （setup/setdown） in the system imposes a great impact on regulating the development of tidal marshes, on determining the long-term water level for harbor maintenance, on the planning for the water front development with the flood control for the possible inundation, and on the interpretation of the historical sea level change when using tidal marsh peat deposits in the lagoon as the indicator for open sea＇ s sea level. In this case study on the mechanisms which control the setup/setdown in Xincun Inlet, Hainan in China, the 2-D barotropic mode of Eulerian - Lagrangian CIRCulation （ELCIRC） model was utilized. After model calibration and verification, a series of numerical experiments were conducted to examine the effects of bottom friction and advection terms, wetting and drying of intertidal areas, bathymetry and boundary conditions on the setup/setdown in the system. The modeling results show that setup occurs over the inlet and lagoon areas with an order of one tenth of the tide range at the entrance. The larger the bottom friction is, a larger setup is generated. Without the advection term, the setup is reduced clue to a decrease of water level gradient to compensate for the disappearance of the advection term. Even without overtides, a setup can still be developed in the system. Sea level rise and dredging in the inlet and tidal channel can cause a decrease of setup in the system, whereas shoaling of the system can increase the setup. The uniqueness of the Xincun Inlet with respect to MWL change is that there is no evident setdown in the inlet, which can be attributed to the complex geometry and bathymetry associated with the inlet system.     

The dynamic behaviour of a river-dominated tidal inlet, River Murray, Australia

Australia's largest river, the River Murray, discharges to the southern ocean through a coastal lagoon and river-dominated tidal inlet. Increased water extractions upstream for irrigation have led to significantly reduced flows at the mouth and, as a result, the area is undergoing rapid change, particularly with regard to the rate at which sediment is being transported into the lagoon. Based on detailed and accurate bathymetric surveys it has been possible to estimate that the rate of lagoon in-filling is of the order of 100,000 m³ per year for the period June 2000 to May 2003, although the actual rate shows significant year to year variability. Dredging of the lagoon commenced in 2000 in an attempt to reverse the trend.In an effort to understand the behaviour of the inlet a one-dimensional numerical model of the inlet has been developed. The model extends the original of van de Kreeke by including a dynamic inlet throat area based on predicted river flows and a sediment transport module to predict the resulting net sediment transport. Comparisons with water level data collected on both the ocean and lagoon sides of the mouth have shown that the model is able to predict the attenuation and lag of the tidal signal reasonably well. The sediment transport model was based on predicted sediment concentrations in the surf zone and was found to predict the rate of sediment in-filling to an acceptable level of accuracy. It is envisaged that the model will be a useful management tool, especially since it is possible to manipulate river discharges to the mouth.     

曹妃甸老龙沟动力地貌体系及演化

老龙沟为典型沙坝-泻湖型潮汐汊道,潮汐汊道地貌结构完整.老龙沟口门处潮流动力最强,发育-20m的深槽.口门内涨潮流三角洲上发育完整的多级水道体系.口门外落潮三角洲止于-11 m水深处.以突起的末端坝为地形标志,落潮主水道偏于落潮三角洲东侧发育,落潮三角洲西侧发育宽缓冲流平台.落潮主水道以落潮流为优势,冲流平台上潮流动力...     

海南新村潟湖潮汐、潮流特征及其对营养盐的影响

基于海南新村潟湖2020年12月水文和水质多要素实测数据,研究了该海域的潮汐、潮流变化特征,并探讨了潮位变化对潟湖营养盐的影响。结果表明,新村潟湖的潮汐为不规则全日潮,潟湖口门处的潮流为往复流,涨潮历时15 h,落潮历时10 h。大、小潮期间3个观测站点溶解性无机氮(DIN)浓度变化范围为0.91~20.87 μmol/L,磷酸盐(PO3-4)浓度变化范围为0.11~5.92 μmol/L,硅酸盐(SiO2-3)浓度变化范围为2.36~134.75 μmol/L。大、小潮期间,潟湖内3个观测站点DIN、PO3-4、SiO2-3浓度随着涨、落潮过程发生变化。潟湖口门处流速对观测站点潮位变化有着重要的影响,潮通量基本决定了潮位的变化。潟湖口门处和渔排密集区域的营养盐浓度与潮位呈现显著的负相关关系,潮流流速对口门处和渔排密集区域的营养盐变化有着重要影响。该研究结果将为新村潟湖的污染治理及生态修复提供科学依据。     

湛江湾口外落潮三角洲演变特征

基于湛江湾口外海图地形资料,采用GIS与动力地貌分析的方法,研究了近50年来湛江湾口外落潮三角洲的冲淤变化特征,对湛江湾口外落潮三角洲的演变机制进行了探讨。湛江口外落潮三角洲体系包括口外东北浅滩、西南边滩及口门通道深槽。近50年来,东北浅滩东缘及滩顶出现了侵蚀后退,浅滩西缘和南缘呈淤积趋势,东北浅滩整体有西移南扩趋势;西南边滩有不同程度的侵蚀后退;口门通道深槽有所淤积。湛江湾口外落潮三角洲侵蚀与沿岸泥沙供给不足及人类活动影响有关,口门通道深槽淤积除与落潮三角洲侵蚀泥沙向西搬运有关外,还可能与湛江湾内围垦导致口门通道潮汐动力减弱有关。航道北侧东北浅滩变化对航道回淤的可能影响值得关注。     

The effect of a topographic high on the morphological stability of a two-inlet bay system

The cross-sectional stability of two tidal inlets connecting the same back-barrier lagoon to the ocean is investigated. The condition for equilibrium is the cross-sectional area tidal prism relationship. In an earlier study [Van de Kreeke, J., 1990. Can multiple inlets be stable? Estuarine, Coastal and Shelf Science 30: 261–273.], using the same equilibrium condition, it was concluded that where two inlets connect the same basin to the ocean ultimately one inlet will close. One of the major assumptions in that study was that the water level in the basin fluctuated uniformly. In hindsight this assumption might be too restrictive. For example, in the Wadden Sea the back barrier lagoon consists of a series of basins, rather than one single basin, separated by topographic highs. These topographic highs limit but do not exclude the exchange of water between the sub-basins. For this reason in the present study, a topographic high in the form of a weir was added, separating the back-barrier lagoon in two sub-basins. The water level in the sub-basins, rather than in the back-barrier as a whole, is assumed to fluctuate uniformly. For this schematization the hydrodynamic equations are solved using a finite difference method. The results, together with the equilibrium condition, yield the equilibrium flow curve for each of the inlets. The intersections of the two equilibrium flow curves represent combinations of cross-sectional areas for which both inlets are in equilibrium. The stability of the equilibriums was investigated using a non-linear stability analysis resulting in a flow diagram. Calculations were carried out for different inlet and weir characteristics. Sinussoidal tides were the same for both inlets. The results show that for relatively large wetted cross-sectional areas over the topographic high, approaching the situation of a single basin, there are no combinations of inlet cross-sectional areas for which both inlets are in a stable equilibrium. This supports the conclusion in the earlier study. For relatively small wetted cross-sectional areas over the topographic high there is one set of stable equilibriums. In that case the two-inlet bay system approaches that of two single-inlet bay systems.     

胶州湾潮汐通道地貌体系

胶州湾属基岩海湾型潮汐通道,湾口内、外发育较为典型的涨、落潮流三角洲,地貌体系较为完整。总的说来,胶州湾涨潮流占优势,但涨、落潮优势流路平面分异明显：落潮流三角洲中央以落潮优势流为主,两侧涨潮流占优势;涨潮流三角洲中部以涨潮优势流为主,两侧落潮流占优势,涨、落潮优势流在内、外汊道口之间发生交叉。由于水流的非正向入射,潮汐通道地貌体系不对称,潮流三角洲在湾内东侧发育、在湾外东北侧发育。