The Change of Yeyahu Wetland Resources in Beijing

  • 1. Key Lab of 3D Information Acquisition and Application, MOE, School of Resource and Environmental Science, Capital Normal University, Beijing 100037, China;
    2. Key Lab of Resources Environment and GIS, Beijing City, Beijing 100037, China

Received date: 2005-01-20

  Revised date: 2005-05-06

  Online published: 2005-07-25

Supported by

National Natural Science of China, No.70073045, 40471090; Biejing Natural Science, No. 222126; Beijing Municipal Education Commision, No. 222146


Wetland, considered as a natural ecosystem and landscape style, has great resource potentiality and environmental function. For a long time, the change of wetland landscape pattern posed by human activity has not only changed the existing wetland function, but also exerted influence on wetland environment. This paper focuses on the fusion of Landsat-TM image with IRS image in Yeyahu wetland for getting color images with higher resolution. Combined with on-the-spot investigation, we set up interpretable symbols, carry out image vectorization, spatial analysis and data statistics using ArcGIS 9.0, and then analyze and research vegetation cover changes and changing characters of Yeyahu wetland resources during the period 1998-2004. The result shows that the decrease of water area leads to the reduction of vegetation and species, non-point pollution in agriculture, and water resource scarcity. On the basis of the above-mentioned technological trajectory and research approaches, we identify the changing characters of wetlands, utilize the principle and method of accumulating effect to propose restoration measures. For the protection of environment, it is necessary to return lands to nature, get back the swamps, and utilize and exploit wetland resources with rationality.

Key words: Beijing; Yeyahu; wetland; NDVI; RS

Cite this article

WANG Ying, GONG Huili, ZHAO Wenji, LI Xiaojuan, ZHANG Zhifeng, ZHAO Wei . The Change of Yeyahu Wetland Resources in Beijing[J]. Acta Geographica Sinica, 2005 , 60(4) : 656 -664 . DOI: 10.11821/xb200504014


[1] Yang Yongxing. New knowledge on the progress of international wetland science research and priority field and prospect of Chinese wetland science research. Advances in Earth Science, 2002, 17(4): 508-514.
[杨永兴. 国际湿地科学研究进展和中国湿地科学研究优先领域与展望. 地球科学进展, 2002, 17(4): 508-514.]

[2] Zhang Mingliang, Jiao Tuxing. Analysis and countermeasures of the degraded environment and ecosystem in China. Territory & Natural Resources Study, 2003, (2): 32-34.
[张明亮, 焦土兴. 我国生态环境退化的问题分析及对策. 国土与自然资源研究, 2003, (2): 32-34.]

[3] Zhang Zhifeng, Gong Huili, Zhao Wei et al. Research on dynamic change in wetland resource in Peking Widgeon-lake based on 3S techniques. Remote Sensing Technology and Application, 2003, 18(5): 291-296.
[张志锋, 宫辉力, 赵薇 等. 基于3S技术的北京野鸭湖湿地资源的动态变化研究. 遥感技术与应用, 2003, 18(5): 291-296.]

[4] Zhao Yingshi. The Theory and Technology of Remote Sensing Application. Beijing: Science Press, 2003.
[赵英时. 遥感应用分析原理与方法. 北京: 科学出版社, 2003.]

[5] Li Miaomiao, Wu Bingfang, Yan Changzhen. Estimation of vegetation fraction in the upper basin of Miyun Reservoir by remote sensing. Resources Science, 2004, 26(4): 153-159.
[李苗苗, 吴炳方, 颜长珍. 密云水库上游植被盖度的遥感估算. 资源科学, 2004, 26(4): 153-159.]

[6] Chen Yunhao, Li Xiaobing, Shi Peijun et al. Estimating vegetation coverage change using remote sensing data in Haidian district, Beijing. Acta Phytoecologica Sinica, 2001, 25(5): 588-593.
[陈云浩, 李晓兵, 史培军 等. 北京海淀区植被覆盖的遥感动态研究. 植物生态学报, 2001, 25(5): 588-593.]

[7] Wang Xiaoyan. Non-point Source Pollution and Management. Beijing: China Ocean Press, 2003.
[王晓燕. 非点源污染及其管理. 北京: 海洋出版社, 2003.]

[8] Zhang Zhifeng. The assessment of wetland eco-environmental quality based on 3S technology: a case study at Yeyahu wetland. SDIC. CASS. NET. CN, 2004.
[张志锋. 基于3S技术的湿地生态环境质量评价——以野鸭湖湿地为例. 中国优秀博硕士学位论文全文数据库, 2004.]

[9] Shen Xianchen, Du Xia, Zou Xiaowen. A study of water quality index system for water supply. Advances in Water Science, 2000, 11(3): 260-265.
[申献辰, 杜霞, 邹晓雯. 水源地水质评价指数系统的研究. 水科学进展, 2000, 11(3): 260-265.]

[10] Mei Xuebin, Wang Fugang, Cao Jianfeng. The application of fuzzy comprehensive evaluation on water quality and discussion. World Geology, 2000, 19(2): 172-177.
[梅学彬, 王福刚, 曹剑锋. 模糊综合评判法在水质评价中的应用及探讨. 世界地质, 2000, 19(2): 172-177.]

[11] Wang Xiangsan, Zhang Guoqing, Liu Zengmei. Synthetic fuzzy majorized model of water quality evaluation in lake and reservoir. International Journal of Hydroelectric Energy, 1998, 16(4): 18-22.
[王祥三, 张国庆, 刘曾美. 湖库水质评价综合模糊优化模型的研究及应用. 水电能源科学, 1998, 16(4): 18-22.]

[12] Ren Hai, Cai Xi'an, Rao Xingquan et al. The theory on succession of plant community. Ecologic Science, 2001, 20(4): 59-67.
[任海, 蔡锡安, 饶兴权 等. 植物群落的演替理论. 生态科学, 2001, 20(4): 59-67.]

[13] Tian Xun, Bu Zhaojun, Yang Yunfei et al. Response of the wetland vegetation to dry-wet alternating habitat in the Songnen plain of China. Wetland Science, 2004, 2(2): 122-127.
[田迅, 卜兆君, 杨允菲 等. 松嫩平原湿地植被对生境干——湿交替的响应. 湿地科学, 2004, 2(2): 122-127.]

[14] Zhao Wei, Gong Huili, Zhao Wenji. Research on the dynamic change of land use and land cover in Yeyahu river based on RS and GIS. Remote Sensing Technology and Application, 2004, 19(3): 177-183.
[赵微, 宫辉力, 赵文吉. 基于RS与GIS的野鸭湖湿地土地利用/土地覆盖动态变化研究. 遥感技术与应用, 2004, 19(3): 177-183.]

[15] Chen Fangqing, Jean Marie Hartman. The ecological restoration and management of degraded wetland ecosystem. Journal of Natural Resources, 2004, 19(2): 217-223.
[陈芳清, Jean Marie Hartman. 退化湿地生态系统的生态恢复与管理. 自然资源学报, 2004, 19(2): 217-223.]