风暴潮前后莱州湾西岸岸滩演化特征研究     

刘桂卫  黄海军  刘艳霞  严立文  杜廷芹 《海洋科学集刊》2010,(0)

<正>作者通过对2007年3月初风暴潮前后典型岸滩的剖面测量、沉积物取样分析及数值计算等方法,探讨了莱州湾西岸岸滩在大风天气下的演化特征及其对风暴潮的响应。结果表明:正常天气下,该区岸滩泥沙来源不丰富,岸滩基本处于稳定状态;大风天气下,黄河南下泥沙与海岸侵蚀物质为主要泥沙来源,河口北侧岸滩受侵严重,而河口南侧岸  相似文献   

基于高频观测数据的徐闻青安湾海滩对台风“贝碧嘉”的响应研究     

曾春华  朱士兵  李志强  张会领  李高聪 《海洋学报》2020,42(11):100-111

风暴是造成海滩剧烈变化的重要因子。由于观测环境的恶劣，目前极少有风暴过程中海滩响应的现场高频观测工作。本研究在2018年台风“贝碧嘉”期间对徐闻青安湾海滩开展了历时6天半的高频观测，获得了全时水动力要素和164组逐时海滩滩面高程变化数据。通过分析表明:(1)青安湾海域风暴增水及波浪受控于海南岛?雷州半岛特有的地形地貌和台风“贝碧嘉”的多变路径，增水稳定在0.38～0.5 m之间，而波高先由0.78 m衰减至0.43 m，再增加至0.56 m；(2)海滩剖面地形变化总体表现为滩肩侵蚀，形成水下沙坝，滩肩响应过程分为快速向下侵蚀、缓慢侵蚀至最大值、振荡回淤恢复3个阶段，台风期间滩肩振荡恢复幅度可达最大侵蚀深度的1/4；(3)海滩的风暴响应过程主要由4个模态耦合而成:第一模态体现大潮滩肩侵蚀生成水下沙坝过程；第二模态体现风暴滩肩侵蚀，补偿大潮滩肩侵蚀位置和进一步促进沙坝形成过程；第三模态揭示了波浪二次破碎位置的上冲流和离岸底流使泥沙发生双向输移过程；第四模态表明台风大浪使得碎波带内泥沙大量悬浮，在沿岸流和离岸流作用下部分悬沙进入深水区，可能造成海滩泥沙的永久亏损。  相似文献   

不同沉积物养护海滩对台风响应的差异性研究   总被引：2，自引：2，他引：0  

束芳芳  蔡锋  戚洪帅  刘建辉  雷刚 《海洋学报》2019,41(7):103-115

本文通过对厦门天泉湾人工卵石滩和会展人工沙滩在1614“莫兰蒂”超强台风影响前后的典型剖面监测，结合水文动力要素的观测和数值模拟，计算了台风影响过程的波浪场、总水位，分析了剖面形态和台风过程的剖面平均变化量。结果表明，强潮海岸人工卵石滩与人工沙滩对台风响应的特征明显不同，人工卵石滩横向上大部分卵石向岸输移堆积，滩面侵蚀，滩肩堆积形成更高的风暴滩肩，坡度明显变陡。而人工沙滩则表现为明显的沉积物离岸输运，上部滩面侵蚀，下部滩面淤积，滩面坡度明显变缓，受台风登陆后的强烈向岸风作用，滩肩顶有所夷平，滩肩高度变化很小。海滩滩肩在台风过程中是否侵蚀与台风登陆和影响过程的总水位(天文潮、风暴增水、波浪爬高)密切相关，两个人工海滩的风暴响应模式均为冲蚀；台风影响过程中，波浪能量相对强、滩面坡度相对陡的人工卵石滩比人工沙滩的剖面平均变化量小，对于台风的响应程度小，在强侵蚀高能海岸采用砾石等粗粒径沉积物进行海滩养护是减缓砂质海滩侵蚀的一种有效手段。  相似文献   

海滩风暴效应若干问题思考与我国研究前景   总被引：1，自引：0，他引：1  

戚洪帅  蔡锋  任建业  郑连远 《台湾海峡》2010,29(4):578-588

热带风暴是一种频发的灾害性事件,其诱发的大浪及其伴生的风暴潮会在短时间内搬运大量沉积物,对海岸地貌、海底地形和海洋沉积的影响极为严重.总结了未来风暴变化趋势和风暴动力方面的研究进展,概述了近几十年来海滩风暴效应领域几个重要方向的进展,内容包括岸滩风暴灾害调查和研究、海滩风暴效应差异性研究、风暴作用下的泥沙运动和岸滩风暴响应沉积学特征等方面.从国内外的研究现状来看,我国在风暴作用下泥沙运动实测与定量分析、多因素耦合控制下海滩风暴效应差异和海滩风暴地貌过程等方面存在着明显的不足.作为我国海岸科学研究中必需又薄弱的环节,今后该领域的研究应该在强化野外现场实验和监测的基础上,深入探讨极端条件下的海滩过程,发展海滩风暴响应预测模型,并积极开展海滩风暴潮防护技术开发与应用.  相似文献   

Applications of EMD to analyses of high-frequency beachface responses to Storm Bebinca in the Qing'an Bay,Guangdong Province,China     

Taihuan Hu  Zhiqiang Li  Chunhua Zeng  Gaocong Li  Huiling Zhang 《海洋学报(英文版)》2022,41(5):147-162

On average, five to six storms occur in the Qiongzhou Strait every year, causing significant damage to coastal geomorphology and several property losses. Tropical Storm Bebinca is the most unusual and complex storm event that has occurred in this region over the last 10 years. To detect the high-frequency beachface responses to the storm, a pressure sensor was deployed in the surf zone to record the free sea surface height, and the heights of grid pile points on the beachface were measured manua...  相似文献   

广西北海涠洲岛典型岸滩剖面短期冲淤变化特征   总被引：1，自引：0，他引：1  

张鑫  李萍  杨奇铮  姚子恒  杨庆乐  徐元芹 《海洋科学》2016,40(6):77-83

基于涠洲岛2012年12月、2013年7月和2013年12月砂质岸滩剖面高程数据以及沉积物粒度数据,作者分析了2012~2013年涠洲岛砂质海岸短期冲淤变化。结果表明:(1)2012年12月~2013年7月,在热带风暴的影响下,涠洲岛大部分岸滩发生侵蚀现象,侵蚀最严重部位一般在中滩;(2)2012年12月~2013年12月,侵蚀岸段主要在东南部、西南部和西北部低滩,淤积岸段主要在北部、西北部高中滩;(3)根据沉积物颗粒平均粒径分析结果,一般高滩沉积物较低滩粗,说明水动力环境高滩相对较强,各岸段沉积物颗粒变化基本与岸滩剖面冲淤变化相一致。短时期内,影响涠洲岛岸滩冲淤变化的因素有波浪、潮汐、风暴潮和人类活动等。  相似文献   

涠洲岛西南部海域造礁石珊瑚的群落结构特征分析     

梁文  周浩郎  王欣  黄荣永  余克服 《海洋学报》2021,43(11):123-135

采用2019年5月14?22日开展的断面法调查数据,分析了涠洲岛西南部海域的造礁石珊瑚群落结构特征。结果表明:涠洲岛西南部海域造礁石珊瑚共有9科38种,优势种为滨珊瑚(Porites sp.)、秘密角蜂巢珊瑚(Favites abdita)、斯氏角孔珊瑚(Goniopora stutchburyi)等团块状珊瑚。活造礁石珊瑚覆盖率为5.20%～31.20%,平均值为16.66%,远离海岸或靠近海岸但水较深的站位覆盖率较高。石珊瑚补充量较低、病害少、死亡率较低。造礁石珊瑚群落的物种多样性、优势度、均匀度互相呈显著正相关关系(p<0.05)。靠近岩壁的站位,水较深且船舶通行和游客潜水等影响较少,活造礁石珊瑚覆盖率和多样性程度均较高。受侵蚀海岸悬浮泥沙和潜水旅游影响较大的砂质岸段站位,活造礁石珊瑚覆盖率最低、优势种的优势度最高、多样性程度相对较低。人为活动、西南季风、风暴潮、海岸侵蚀悬沙、极端气候是影响涠洲岛西南部海域造礁石珊瑚礁生态系统的主要因素。  相似文献   

Response of sediment dynamics in the York River Estuary,USA to tropical cyclone Isabel of 2003     

Wenping Gong  Jian Shen 《Estuarine, Coastal and Shelf Science》2009

Tropical Cyclone Isabel of 2003 generated large storm surge, strong waves, and subsequent river flooding in the York River Estuary, USA during its passage across the Chesapeake Bay region. A 3D model was used to investigate the changes of sediment concentration, sediment flux, and the recovery time of the York River Estuary to its naturally evolved condition without the storm. The results showed that two sediment concentration peaks appeared during the storm event. The first one was induced by the large upstream flow and waves during the storm surge rising period, and the later one was caused by the strong downstream flow during the descent of the storm surge. The advection, which was induced by the barotropic gradient, dominated the sediment flux during the storm event. The sediment fluxes increased by a factor of 100 during the rise and descent of the storm surge. A large amount of sediment that was transported into the estuary and eroded from the seabed during the rising of the storm surge was quickly transported out of the estuary during the descent of the storm surge. Waves played a key role in stirring the seabed and increasing the sediment concentration during the storm. Subsequent high freshwater inflow changed the sediment loading and hydrodynamics in the estuary, and thus, influenced the estuarine turbidity maximum (ETM) dynamics profoundly. The ETM moved downstream with the river flooding initially and returned upstream with the waning of river flooding and the re-establishment of gravitational circulation. The effect of river flooding on sediment concentration varied spatially and depended on the changes of ETM locations and vertical mixing. The model results suggest that a large amount of sediment was transported out of the estuary during the storm event and the subsequent river flooding had a larger impact on recovery time of the estuary.  相似文献   

Numerical simulation of time-dependent beach and dune erosion     

David L. Kriebel  Robert G. Dean 《Coastal Engineering》1985,9(3):221-245

A computational procedure is developed for predicting the time-dependent, two-dimensional beach and dune erosion during severe storms due to elevated water levels and waves. The model employs the equation of sediment continuity and a dynamic equation governing the cross-shore sediment transport due to a disequilibrium of wave energy dissipation levels. These equations are solved numerically by an implicit, double-sweep procedure to determine the change in position of elevation contours in the profile. Given sufficient time, the profile will evolve to a form where the depth, h, in the surf zone is related to the distance seaward of the waterline by the relationship: $\text{h = Ax}{}^{\mathrm{<mtext>2</mtext><mtext>3</mtext>}}$, which is consistent with many natural profiles and in which A depends on sediment characteristics.The model is verified qualitatively and quantitatively through application to several idealized cases and through a preliminary simulation of erosion during Hurricane Eloise. In general, the time scales for shoreline response were found to be quite long relative to natural storm systems and erosion in the early response stages was found to be sensitive to storm surge height, but much less sensitive to wave height. The model response characteristics for simulation of erosion due to time-varying storm conditions show a lag between the maximum storm surge elevation and maximum erosion with the maximum erosion rate occurring at the time of the peak surge. For the simulated erosion due to Hurricane Eloise, reasonable agreement was found between the post-hurricane dune profiles and those calculated. However, the eroded volumes were in better agreement than the profile forms as the steepening of the natural dune profiles was not reproduced in the model.  相似文献   

河北省沿海风暴潮特征及成因分析     

褚芹芹  张万磊  洪新  李杰  张彦龙  张建乐 《海洋预报》2020,37(1):18-27

以秦皇岛、京唐港、曹妃甸、黄骅4个验潮站的实测潮位和逐时风的数据为基础,以2013年河北省政府发布的风暴潮四色警戒潮位值为标准,统计了2008-2017年10 a河北省沿海的风暴潮过程,从警报级别、区域分布、时间分布、天气系统、经济损失5个方面分析河北省沿海风暴潮特征,并从地形、天文潮与天气系统配合、海平面上升、全球变暖引发的气候异常4个方面分析了影响河北省沿海风暴潮的成因,分析得出:受天气系统的影响,7-10月是河北省风暴潮高发时段,且由于河北省岸线分布特点,沧州市沿海受到风暴潮影响的次数最多,唐山和秦皇岛次之,沧州和唐山地区的风暴潮过程多由东北向大风引起,而秦皇岛地区的风暴潮过程多由东南向风引起。  相似文献