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地球科学进展  2008, Vol. 23 Issue (10): 1079-1083    DOI: 10.11867/j.issn.1001-8166.2008.10.1079
研究论文     
沟渠湿地的水文和生态环境效应研究进展
周俊1,2,邓伟1,刘伟龙1
中国科学院/水利部 成都山地灾害与环境研究所山地生态与水文研究室,四川 成都 610041;2.中国科学院研究生院,北京 100049
Advances on the Effects of Ditch Wetland on Hydrology and Eco-environment
Zhou Jun1,2,Deng Wei1,Liu Weilong1
1.Institute of Mountain Hazards and Environment, CAS, Chengdu, Sichuan 610041, China;2.Graduate University of Chinese Academy of Sciences, Beijing 100049, China
 全文: PDF(951 KB)  
摘要:

对沟渠和沟渠湿地进行了定义,从水文效应、生物效应和水环境效应等方面综述了目前国内外沟渠研究的进展,重点阐述了沟渠去除水体中氮、磷等营养物质和农药等污染物的机制,同时简要介绍了沟渠模型和管理方面的研究,并指出了目前研究中存在的不足,提出了加强沟渠野外观测、沟渠模拟研究和沟渠管理研究等进一步研究的建议。

关键词: 沟渠湿地水文效应生态环境富营养化    
Abstract:

Ditch system is important to reduce pollution and prevent eutrophication in rivers and lakes. Firstly, this paper gives the definition of ditch and ditch wetland; secondly, we review the research advances in the effects of ditch wetland on hydrology and eco-environment at home and abroad, and explain explicitly the mechanism that ditch wetlands intercept nutrient (nitrogen and phosphorus, etc.) and contamination (pesticide and herbicide,etc.); additionally, it introduces the advances in ditch modeling and ditch management study; finally, in order to be helpful to ditch studies, we point out the present insufficient research and put forward some suggestions that include strengthening research on field monitoring, modeling ditch and managing ditch.

Key words: Ditch wetland    Hydrological effects    Eco-environment    Eutrophication.
收稿日期: 2008-04-16 出版日期: 2008-10-10
:  S271  
基金资助:

国家重点基础研究发展计划项目“湿地系统水生态过程与格局耦合机理”(编号:2006CB403301)资助.

通讯作者: 邓伟(1957-),男,辽宁沈阳人,研究员,主要从事湿地水文学研究.     E-mail: dengwei@imde.ac.cn
作者简介: 周俊(1983-),男,四川德阳人,硕士研究生,主要从事湿地水文学研究.E-mail:zhoujun@imde.ac.cn
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引用本文:

周俊,邓伟,刘伟龙. 沟渠湿地的水文和生态环境效应研究进展[J]. 地球科学进展, 2008, 23(10): 1079-1083.

Zhou Jun,Deng Wei,Liu Weilong. Advances on the Effects of Ditch Wetland on Hydrology and Eco-environment. Advances in Earth Science, 2008, 23(10): 1079-1083.

链接本文:

http://www.adearth.ac.cn/CN/10.11867/j.issn.1001-8166.2008.10.1079        http://www.adearth.ac.cn/CN/Y2008/V23/I10/1079

[1] Borin M,Bonait G. Controlled drainage and wetlands to reduce agricultural pollution:A lysimetric study[J]. Journal of Environmental Quality,2001,30:1 330-1 340.

[2] Alexander R B,Smith R A. Effect of stream channel size on the delivery of nitrogen to the Gulf of Mexico[J]. Nature,2000,4032:758-761.

[3] Colin D Brown,Igor G Dubus. Exposure to sulfosulfuron in agricultural drainage ditches: Field monitoring and scenario-based modeling[J]. Pest Management Science,2004,60:765-776.

[4] Yang Linzhang,Zhou Xiaoping,Wang Jianguo,et al. Ecological ditch system with interception function and its effects on controlling farmland non-point pollution[J]. Chinese Journal of Ecology,2005,2411:1 371-1 374.[杨林章,周小平,王建国,.用于农田非点源污染控制的生态拦截型沟渠系统及其效果[J].生态学杂志,2005,2411:1 371-1 374.]

[5] Sheryl L Gill,Frank C Spurlock. Vegetated ditches as a management practice in irrigated alfalfa[J]. Environmental Monitoring & Assessment,2007,22:9.

[6] Strock J S,Dell C J,Schmidt J P. Managing natural processes in drainage ditches for nonpoint source nitrogen control[J]. Journal of Soil and Water Conservation,2007,624:188-197.

[7] Needelman B A,Kleinman P J A. Improved management of agricultural drainage ditches for water quality protection: An overview[J]. Journal of Soil and Water Conservation,2007,624:171-179.

[8] Roger Moussa,Marc Voltz,Andrieux P. Effects of the spatial organization of agricultural management on the hydrological behaviour of a farmed catchment during flood events[J]. Hydological Processes,2002,16:393-412.

[9] Barber M E,King S G. Ecology ditch:A best management practice for storm water runoff mitigation[J]. Journal of Hydrologic Engineering,2003,83:111-122.

[10] Deng Wei. Hydrological space effects of wetlands[J]. Advances in Earth Science,2007,227:725-729.[邓伟.湿地水空间效应[J].地球科学进展,2007,227:725-729.]

[11] Xi Mi,Lü Xianguo,Liu Hongyu. Effects of man-made ditch on eco-environment:A research review[J]. Chinese Journal of Ecology,2005,2412:1 471-1 476.[郗敏,吕宪国,刘红玉.人工沟渠的生态环境效应研究综述[J].生态学杂志,2005,2412:1 471-1 476.]

[12] Konyha K D,Skaggs R W,Gilliam J W. Effects of drainage and water-management practices on hydrology[J]. Journal of Irrigation and Drainage Engineering-ASCE,1992,1185:807-819.

[13] Institute of Hydrology.Impact of improved land drainage on river flows, Report No.113. 1990,12[EB/OL].http:www.ceh.ac.uk/products/publications/documents/IH113IMPACTOFIM/PROVEDLANDDRAINAGE.pdf,2008.

[14] Holden J,Horton M. Impact of land drainage on peatland hydrology[J]. Journal of Environmental Quality,2006,35:1 764-1 778.

[15] Armstrong A C. DITCH:A model to simulate field conditions in response to ditch levels managed for environmental aims[J]. Agriculture,Ecosystems and Environment,2000,77:179-192.

[16] Armitage P,Szoszkiewicz K. Ditch communities:A major contributor to floodplain biodiversity[J]. Aquatic Conservation Mar Freshwater Ecosyst,2003,13:165-185.

[17] Osamu Katano,Kazumi Hosoya. Species diversity and abundance of freshwater fishes in irrigation ditches around rice fields[J]. Environmental Biology of Fishes,2003,66:107-121.

[18] Mazerolle M J. Drainage ditches facilitate frog movements in a hostile landscape[J]. Landscape Ecology,2004,20:579-590.

[19] Gilliam J W,Skaggs R W. Controlled agricultural drainage to maintain water quality[J]. Journal of Irrigation and Drainage Engineering,1986,112:254-263.

[20] Hill A R. Nitrate removal in stream riparian zones[J]. Journal of Environmental Quality,1996,254: 743-755.

[21] Abe K,Ozaki Y. Removal of N and P from eutrophic pond water by using plant bed filter ditches planted with crops and flowers[C]Horst W J,et al,eds. Plant Nutrition Food Security and Sustainability of Agro-ecosystems,2001:956-957.

[22] Borin M,Tocchetto D. Five year water and nitrogen balance for a constructed surface flow wetland treating agricultural drainage waters[J]. Science of the Total Environment,2007,380:38-47.

[23] Jiang Cuiling,Fan Xiaoqiu,Zhang Yibing. Accumulation of non-point source pollutants in ditch wetland and their uptake and purification by plants[J]. Chinese Journal of Applied Ecology,2005,167:1 351-1 354.[姜翠玲,范晓秋,章亦兵.非点源污染物在沟渠湿地中的累积和植物吸收净化[J].应用生态学报,2005,167:1 351-1 354.]

[24] Xu Hongdeng,Xi Beidou,Wang Jinggang,et al. Study on the interception of nitrogen and phosphorus by macrophyte in agriculture drainage ditch[J]. Research of Environmental Sciences,2007,202:84-88.[徐红灯,席北斗,王京刚,.水生植物对农田排水沟渠中氮、磷的截留效应[J].环境科学研究,2007,202:84-88.]

[25] Hamilton S K,Tank J L. Nitrogen uptake and transformation in a Midwestern US stream: A stable isotope enrichment study[J]. Biogeochemistry,2001,54:297-340.

[26] Peterson B J,Wollheim W M. Control of nitrogen export from watersheds by headwater streams[J]. Science,2001,2925 514:86-90.

[27] Wesstrom I,Messing I. Controlled drainage—Effects on drain outflow and water quality[J]. Agricultural Water Management,2001,47:85-100.

[28] Braskerud B C. Factors affecting phosphorus retention in small constructed wetlands treating agricultural non-point source pollution[J]. Ecological Engineering,2002,19:41-61.

[29] Kröger R, Holland M. Agricultural drainage ditches mitigate phosphorus loads as a function of hydrological variability[J]. Journal of Environmental Quality,2008,37:107-113.

[30] Sallade Y,Sims J. Phosphorus transformations in the sediments of Delaware′s agricultural drainage ways: I. Phosphorus forms and sorption;II. Effect of reducing conditions on phosphorus release[J]. Journal of Environmental Quality,1997,266:1 571-1 588.

[31] Cooper C M,Moore M T. Innovative uses of vegetated drainage ditches for reducing agricultural runoff[J]. Water Science and Technology,2004,493:117-123.

[32] Bennett E R,Moore M T. Vegetated agricultural drainage ditches for the mitigation of pyrethroid-associated runoff[J]. Environmental Toxicology and Chemistry,2005,249:2 121-2 127.

[33] de Vos J A,van Bakel P J. Waterpas-model:A predictive tool for water management,agriculture,and environment[J]. Agricultural Water Management,2006,86:187-195.

[34] Janse J H,Van Puijenbroek P J. Effects of eutrophication in drainage ditches[J]. Environmental Pollution,1998,102:547-552.

[35] Skaggs R W,Breve M A. Hydrologic and water-quality impacts of agricultural drainage[J].Critical Reviews in Environmental Science and Technology,1994,241:1-32.

[36] South Carolina Forestry Commission. Best Management Practices: Minor Drainage[EB/OL]. http:www.sta-te.sc.us/forest/rbmd.htm,2008.

[37] Smith D R,Warnemuende E A. Dredging of drainage ditches increases short-term transport of soluble phosphorus[J]. Journal of Environmental Quality,2006,35:611-616.

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