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黄河水文特征对河口海岸变化的影响
The Impact of Hydrological Characteristics of the Yellow River Coastline Changes in the Yellow River Delta

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崔步礼 1   常学礼 1   陈雅琳 1   董琼 1   李维庆 2  
文摘 论文选取海陆变化频繁的黄河口作为研究区,在3S技术支持下采用平均高潮线法对1976-2002年18个年份的遥感影像进行了海岸线信息提取.对研究区海岸变化的叠加分析表明:1976-2002年间黄河口海岸的演变过程分为直线增长、波动增长和波动减少3个阶段.同时,黄河口水文特征的变化规律及其对岸线变化影响的分析揭示了黄河水沙状况与河口海岸线的年际变化呈线性回归关系,指出了输沙量为河口海岸变化的主要驱动力,而径流量和含沙量是通过影响输沙量而间接影响河口海岸线变化,确定了输沙量3.517×108t/a为河口海陆变迁的临界值.
其他语种文摘 The Yellow River delta as a frequently changing area has been studied by using 3S techniques for us to best understand coastline dynamics of the Yellow River estuary. According to the trait of near-infrared wave which has the lowest reflecting ratio in water, the yearly coastline dynamics had been extracted by remote sensing technique during 1976 to 2002.Consequently, the overlay analysis of annual change of coastlines, supported by GIS technique, showed that the coastline stretching distance, the coastline length, and the renewed land area had fluctuated increasing trends in the research period. The changing trends could be divided into three stages obviously in more detailed temporal scales, the first was linear increase stage from 1976 to 1985, the second was fluctuating stage from 1986 to 1996, and the third was decreasing stage during 1997. Due to observation data of the Lijin Hydrological Station which is located in the Yellow River estuary, dynamics of the sediment carrying capacity of the Yellow River had been studied in the same temporal scale. There were significant yearly changing trends during research period, the carrying capacity of the 15 years changed more than 15kg/m~3 during this period of time, and the maximum yearly changing fate of the carrying capacity reached 33.04kg/m~3 between 1987 and 1988.1n the general, the changing trend of the carry capacity of the Yellow River fluctuatedly decreased in the research period .Correlation analysis indicated that relationship between the hydrological characteristics of the Yellow River and the renewed-land amplification was most significant (significant check is more than 0.01 level.),the relation could be expressed as linear regression model. Findings also illustrated that there was a equilibrium point while runoff reached 135.32*10~8m~3, the amount of sediment discharged was 3.517* l0~8t, and the carrying capacity was 19.64kg/m~3,all relating to the hydrological characteristics of the Yellow River.
来源 自然资源学报 ,2006,21(6):957-964 【核心库】
关键词 水文特征 ; 海岸线 ; 动态变化 ; 黄河三角洲
地址

1. 鲁东大学,地理与资源管理学院, 山东, 烟台, 264025  

2. 山东利津县第二中学, 山东, 东营, 257447

语种 中文
文献类型 研究性论文
ISSN 1000-3037
学科 地球物理学
基金 山东省教育厅项目 ;  山东省自然科学基金 ;  鲁东大学大学生创新基金
文献收藏号 CSCD:2539713

参考文献 共 25 共2页

1.  李平. 黄河三角洲湿地资源生态旅游开发利用研究. 海洋科学,2004,28(11):33-38 CSCD被引 4    
2.  张士华. 黄河三角洲岸线变迁和保护措施的研究. 海洋科学,2003,27(10):38-41 CSCD被引 3    
3.  步伟娜. 黄河三角洲二元结构与多元可持续发展初探. 自然资源学报,2005,20(2):242-249 CSCD被引 2    
4.  尹延鸿. 现代黄河三角洲海岸演化研究. 海洋通报,2004,23(2):32-40 CSCD被引 23    
5.  陈沈良. 黄河三角洲海岸强侵蚀机理及治理对策. 水利学报,2004,7:1-6 CSCD被引 43    
6.  Komar P D. Coastal change-scales of processes and dimensions of problems. Coastal Sediments'99-Proceedings of the 4th International Symposium on Coastal Engineering and Science of Coastal Sediment,1999:1-17 CSCD被引 2    
7.  L C Chen. Detection of shoreline changes for tideland areas using multi-temporal satellite images. Int J Remote Sensing,1998,19(17):3383-3397 CSCD被引 27    
8.  X G Zhu. Remote sensing monitoring of coastline change in Pearl River Estuary. The 22nd Asian Conference on Remote Sensing,2001:5-9 CSCD被引 1    
9.  E Frihy. Remote sensing of beach erosion along the Rosetta Promontory Northwestern Nile Delta Egypt. Int J Remote Sensing,1994,15(8):1649-1660 CSCD被引 3    
10.  C A Evans. Changes in the Yellow River Delta. http://aapg.confex.com/aapg/hu2002/techprogram/paper_25681.htm,2002 CSCD被引 1    
11.  范兆木. 黄河三角洲沿岸遥感动态分析图集,1992 CSCD被引 15    
12.  吉祖稳. 运用遥感卫星照片分析黄河河口近期演变. 泥沙研究,1994(3):12-22 CSCD被引 22    
13.  曾庆华. 黄河口演变规律及整治,1997 CSCD被引 19    
14.  李殿魁. 延长黄河口清水沟流路行水年限的研究,2002 CSCD被引 13    
15.  常军. 黄河口海岸线演变时空特征及其与黄河来水来沙关系. 地理研究,2004,23(5):339-346 CSCD被引 39    
16.  Yang X M. Change detection based on remote sensing information model and its application on coastal line of the Yellow River Delta[EB/OL]. http://www.gisdevelopment.net/aars/acrs/1999/ps5/ps5043pf.htm,1999 CSCD被引 1    
17.  杨虎. TM-SAR数据融合在黄河口沙咀动态监测中的应用研究. 地理学与国土研究,2001,17(4):15-19 CSCD被引 12    
18.  田国良. 黄河流域典型地区遥感动态研究,1990 CSCD被引 19    
19.  李福林. 黄河清水沟流路河口三角洲增长面积预测. 海洋湖沼通报,1999(3):16-22 CSCD被引 5    
20.  许炯心. 黄河三角洲造陆过程中的陆域水沙临界条件研究. 地理研究,2002,21(2):163-170 CSCD被引 25    
引证文献 8

1 李晓燕 黄河三角洲生态经济可持续发展研究 安徽农业科学,2008,36(5):1991-1993
CSCD被引 1

2 王苗苗 1979-2013年黄河三角洲岸线变迁的时空异质性研究 海洋湖沼通报,2015(3):185-192
CSCD被引 3

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