流域水环境修复技术综述The Review of Watershed Water Environment Restoration Technique
廖静秋;黄艺;
摘要(Abstract):
流域水环境的恶化使得其修复成为迫切的需要,我国修复技术也日渐成熟。流域水环境中河流、湖泊水库、湿地和地下水与人类生产生活密切相关,对该4种水环境类型的修复技术分别进行了介绍,并简要分析了每种水环境类型较为有效的技术方法,以期能对我国水环境修复技术的研究和管理有所帮助。
关键词(KeyWords): 河流;湖泊水库;湿地;地下水;修复技术
基金项目(Foundation): 国家水体污染控制与治理科技重大专项(2012ZX07501002-006)
作者(Author): 廖静秋;黄艺;
Email:
DOI:
参考文献(References):
- [1]姬鹏程,孙长学.流域水污染防治体制机制研究[M].北京:知识产权出版社,2010.
- [2]吴恒安.国外水资源保护概况[J].水利经济,2008,19(1):69-72.
- [3]程小冰.水资源保护概况[J].水资源保护,2002(1):7-10.
- [4]司全印,冉新权,周孝德,等.区域水污染控制与生态环境保护研究[M].北京:中国环境科学出版社,2000.
- [5]张锡辉.水环境修复工程学原理与应用[M].北京:化学工业出版社,2002.
- [6]李明传.水环境生态修复国内外研究进展[J].中国水利,2007(1):25-27.
- [7]ANNADOTTER H,CRONBERG G,AAGREN R,et al.Multiple techniques for lake restoration[J].Hydrobiologia,1999,395/396:87-97.
- [8]GULLBRING P,HAMMAR T,HELGEE A,et al.治理Jarnsjon湖多氯联苯污染的底泥:调查、思考及治理行动[J].AMBIO,1998,27(5):374-383.
- [9]金相灿.湖泊富营养化控制和管理技术[M].北京:化学工业出版社,2001.
- [10]国家环境保护总局科技标准司.中国湖泊富营养化及其防治研究[M].北京:中国环境科学出版社,2001.
- [11]谢平.鲢、鳙与藻类水华控制[M].北京:科学出版社,2003.
- [12]周怀东,彭文启.水污染与水环境修复[M].北京:化学工业出版社,2005.
- [13]MARTIN R,PERROW A J.Handbook of EcologicalRestoration[M].The United Kingdom:Cambridge UniversityPress,2002.
- [14]汪雯,黄岁棵,张胜红,等.海河流域平原河流生态修复模式研究I—修复模式[J].水利水电技术,2009,40(4):14-21.
- [15]陈亚宁,李卫红,陈亚鹏,等.塔里木河下游断流河道输水的生态响应与生态修复[J].干旱区研究,2006,23(4):521-530.
- [16]侯俊.生态型河道构建原理及应用技术研究[D].南京:河海大学,2005.
- [17]钟萍,李丽,李静媚,等.河流污染底泥的生态修复[J].生态科学,2007,26(2):181-185.
- [18]刘晓海,高云涛,陈建国,等.人工曝气技术在河道污染治理中的应用[J].云南环境科学,2006,25(1):44-46.
- [19]POKORNY J,KVET J,ONDOK J P.Functioning of the plantcomponent in densely stoked fish ponds[J].Bulletin ofEcology,1990,21(3):44-48.
- [20]SCHEFFER M,BERG M,BREUKLAAR A,et al.Vegetatedareas with clear water in turbid shallow lakes[J].AquaticBotany,1994,49:193-196.
- [21]KIVAISI A K.The potential for constructed wetlands forwastewater treatment and reuse in developing countries:areview[J].Ecological Engineering,2001,16:545-560.
- [22]彭喜花,于鹄鹏.城市河道水体修复技术综述[J].水资源研究,2011,32(2):25-28.
- [23]MARTEN S.The effect of aquatic vegetation on turbidity.how important are the filter feeders[J].Hydrobiologia,1999(408):307-316.
- [24]熊万永.福州内河引水冲污工程的实践与认识[J].中国给水排水,2000(7):26-28.
- [25]徐洪文,卢妍.水生植物在水生态修复中的研究进展[J].中国农学通报,2011,27(3):413-416.
- [26]WEBB A A,ERSKINE W D.A practical scientific approachto riparian vegetation rehabilitation in Australia[J].Journal ofEnvironmental Management,2003,68:329-341.
- [27]FAST A W,HULQUIST R G.Oxygen and Temperaturerelationships in nine artificially aerated California reservoirs[J].Calif Fish and Game,1989,75(4):213-217.
- [28]BABIN J,PREPAS E E,MURPHY T P,et al.Hamilton.A test of the effects of lime on algal biomass and totalphosphorus on concentrations in Edmonton storm waterretention lakes[J].Lake and Reserv,Manage,1989,5(1):129-135.
- [29]HANSON M J,STEFAN H G.Side effects of 58 years ofcopper sulphate treatment of the Fairmont Lakes[J],Minnesata Water Res Bull,1984,20:889-900.
- [30]段宁,但智钢,王璠.清洁生产技术:未来环保技术的重点导向[J].环境保护,2010(16):21-24.
- [31]HOLDREN C W,TAGGART J.Managing Lakes andReservoirs(3rd edition)[M].US:North American LakeManagement Society,2001.
- [32]COWARDIN L M,CARTER V,GOLET F C,et a1.Classification of wetlands and deepwater habitats of theUnited States[R].USA:Department of the Interior Fish andWildlife Service,1979.
- [33]孙毅,郭建斌,党普兴,等.湿地生态系统修复理论及技术[J].内蒙古林业科技,2007,33(3):33-36.
- [34]GERSBER G.Role of aquatic plants in wastewater treatmentby artificial wetlands[J].Water Res,1986,20:363-368.
- [35]GROSS M S.A Beneficial gas transport system inNymphyoides peltata[J].Am J Bot,1987,74:947-952.
- [36]MOORHEAD R.Oxygen transport through selected aquaticmacrophytes[J].J Qual,1988,17:138-142.
- [37]TEAL.Gas transport in the marsh grass,Spartina alterniflora[J].J Exp Bot,1996,17:355-361.
- [38]肖羽堂,赵美姿,高立杰.富氧生物膜法修复微污染水源的机理研究[J].长江流域资源与环境,2005,14(6):796-800.
- [39]薛晓菲,崔建国.地下水环境修复技术进展[J/OL].科技情报开发与经济,2006(6):148-150[2005-11-22].http://www.kjqb.cn/Article.asp?articleid=41795.
- [40]杨梅,费宇红.地下水污染修复技术的研究综述[J].勘察科学技术,2008(4):12-20.
- [41]Xu S,Sheng G,Boyd S A.Advance in Agronomy[M].USA:Academic Press,1997.
- [42]刘庆生,邱廷省.受污染土壤及地下水修复的新进展[J].能源环境保护,2004(18):25-28.