Articles

Hydro-ecological Processes, Water-Environmental Effects and Integrated Control of Ecological Security for Wetlands in Huang-Huai-Hai Region of China

  • HUANG Guo-he ,
  • YANG Zhi-feng ,
  • LIU Xin-hui ,
  • LI Xiao-wen ,
  • SUN Tao ,
  • CUI Bao-shan ,
  • BAI Jun-hong
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  • State Key Laboratory of Water Environment Simulation, School of Environment, Beijing Normal University, Beijing 100875,China

Received date: 2006-09-14

  Revised date: 2006-09-26

  Online published: 2006-11-15

Abstract

This presentation is based on “Hydro-ecological Processes, Water-Environmental Effects and Integrated Control of Ecological Security for Wetlands in Huang-Huai-Hai Region of China”,a project of the National Basic key Research Program. It recommends the important meaning of hydro-ecological processes, water-environmental effects and integrated control of ecological security for wetlands studies to the China's social & technological development, research status and evolution trend, key scientific issues that need to be solved, main research contents and general approaches. The general goals of the project are to: (1) enrich and develop wetland theory at a wetland-system level including rivers, lakes and estuaries; (2) deal with a series of fundamental scientific problems faced by the wetland researchers in China; (3) effectively coordinate the contradictions between regional socio-economic development and wetland protection and provide basis on theory and technology for integrated control modes of wetland systems and environment-friendly society.

Cite this article

HUANG Guo-he , YANG Zhi-feng , LIU Xin-hui , LI Xiao-wen , SUN Tao , CUI Bao-shan , BAI Jun-hong . Hydro-ecological Processes, Water-Environmental Effects and Integrated Control of Ecological Security for Wetlands in Huang-Huai-Hai Region of China[J]. Advances in Earth Science, 2006 , 21(11) : 1119 -1126 . DOI: 10.11867/j.issn.1001-8166.2006.11.1119

References

[1] Costanza R, d'Arge R, de Groot R, et al. The value of the world's ecosystem services and natural capital[J]. Nature, 1997, 387:253-260.

[2] Deng Wei, Pan Xiangliang, Luan Zhaoqin. Advances in wetland hydrology[J]. Advances in Water Science, 2003, 14(4):521-526.[邓伟,潘响亮,栾兆擎.湿地水文学研究进展[J]. 水科学进展,2003,14(4):521-526.]

[3] Mitsch W J, Gosselink J G. Wetlands[M]. New York: Van Nostrand Reinhold Company,2000.

[4] Baird A J, Price J S, Roulet N T. et al. Special issue of Hydrological Processes: Wetland hydrology and ecohydrology[J]. Hydrological Processes, 2004,18: 211-212.

[5] Hill N M. A hydrological model for predicting the effects of Dams on the shoreline vegetation of lakes and reservoirs[J]. Environmental Management,2002,22(5): 723-736.

[6] Bunn S E, Arthington A H. Basic principles and ecological consequences of altered flow regimes for aquatic biodiversity[J]. Environmental Management,2002,30:492-507.

[7] Tharme R E. A global perspective on environmental flow assessment emerging trends in the development and application of environmental flow methodologies for rivers[J].River Research and Application,2003,19:397-441.

[8] Mitsch W J, Wang N M. Large-scale coastal wetland restoration on the Laurentian Great Lakes: Determining the potential for water quality improvement[J]. Ecological Engineering,2000,15(3/4):267-282.

[9] Qian Zhengying, Zhang Guangdou, eds. Integrated Report and Subproject Report on Water Resources Research—Chinese Sustainable Development[M]. Beijing: China Waterpower Press,2001.[钱正英,张光斗主编.中国可持续发展——水资源战略研究综合报告及各专题报告[M].北京:中国水利水电出版社,2001.]

[10] Yang Z F, Cui B S, Liu J L. Estimation methods of eco-environmental water requirements: Case study[J]. Science in China (Series D), 2005, 48(8):1 280-1 292.

[11] Yang Zhifeng, Cui Baoshan, Liu Jingling, et al. Ecological Water Requirements: Theory, Method and Application[M]. Beijing: Science Press, 2003.[杨志峰,崔保山,刘静玲,.生态环境需水量理论、方法与实践[M].北京:科学出版社,2003.]

[12] Yang Zhifeng, Liu Jingling, Sun Tao, et al. Environmental Flows in Basin[M]. Beijing: Science Press, 2006.[杨志峰,刘静岭,孙涛,.流域生态需水规律[M].北京:科学出版社, 2006.]

[13] Sinclair K M. Environmental Water Requirements of Groundwater Dependent Ecosystems, Environmental Flows Initiative Technical Report Number 2[R]. Canberra:Common wealth of Australia, 2001.

[14] Gertjec Z, Michanels S M. Bioaccumulation potential of persistent organic chemicals in humans[J]. Environmental Science Technology,2004,38:2 406-2 412.

[15] Borja J, Taleon D M, Auresenia J, et al. Polychlorinated biphenyls and their biodegradation[J]. Progress in Biochemistry,2005,40(6):1 999-2 013.

[16] Foster K L, Mackay D, Parkerton T, et al. Five-Stage environmental exposure assessment strategy for mixtures: Gasoline as a case study[J]. Environmental Science Technology,2005,39:2 711-2 718.

[17] Zheng L, Chen C, Zhang F Y. Development of water quality model in the Satilla River Estuary, Georgia[J]. Ecological Modelling, 2004,178:457-482.

[18] Sohma A, Sekiguchi Y, Yamada H, et al. A new coastal marine ecosystem model study couples with hydrodynamics and tidal flat ecosystem effect[J]. Marine Pollution Bulletin,2001,43:187-208.

[19] Robertson A I, Dixon P, Alongi D M. The influence of fluvial discharge on pelagic production in the Gulf of Papua, Northern Coral Sea[J]. Estuarine, Coastal and Shelf Science,1998,46(3):319-331.

[20] James I D. Modelling pollution dispersion, the ecosystem and water quality in coastal waters: A review[J]. Environmental Modelling & Software, 2002,17:363-385.

[21] Pellerin T A, Andrew J B. Reconstructing the recent dynamics of mires using a multitechnique approach[J]. Journal of Ecology,2003,91:1 008-1 021.

[22] Kenthla M E. Perspectives on setting success criteria for wetland Restoration[J]. Ecological Engineering, 2000,15:199-209.

[23] Zedler J B. Progress in wetland restoration ecology[J]. Trends in Ecology and Evolution,2000,15:402-405.

[24] White D. Modeling the suitability of wetland restoration potential at the watershed scale[J]. Ecological Engineering,2005,24: 359-377.

[25] Richardson C J, Peter R, Najah A H, et al. The restoration potential of the mesopotamian marshes of Iraq[J]. Science,2005,307:1 307-1 310.

[26] Stokstad E. Louisiana's wetlands struggle for survival[J]. Science,2005,310:1 264-1 266.

[27] Chen Yiyu. Chinese Wetlands Research[M]. Changchun: Jilin Science and Technology Press,1995. [陈宜瑜主编.中国湿地研究[M]. 长春:吉林科学技术出版社,1995.]

[28] Tanik A, Baykal B. The impact of agricultural pollutants in six drinking water reservoir[J]. Water Science and Technology, 1999,40(2):11-17.

[29] Lelie D V D, Schwitzguebel J P, Glass D J, et al. Assessing phytoremediations process in the United States and Europe[J]. Environmental Science Technology,2001,35: 446-452.

[30] Kruawal K, Sacher F, Andreas Werner A, et al. Chemical water quality in Thailand and its impacts on the drinking water production in Thailand[J]. Science of the Total Environment,2005,(340):57-70.

[31] Madsen J D, Chambers P A, James W F, et al. The interaction between water movement, sediment dynamics and submersed macrophytes[J]. Hydrobiologia,2001,444: 71-84.

[32] Reynolds C S. Planktic community assembly in flowing water and the ecosystem health of rivers[J]. Ecological Modelling,2003,160:191-203.

[33] Sun Honglie. Chinese Ecosystems[M]. Beijing: Science Press,2005.[孙鸿烈主编.中国生态系统[M].北京:科学出版社,2005.]

[34] Crowe A. Millennium Wetland Event Program with Abstracts [R]. Canada, Quebec,2000.

 

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