湖泊水库富营养化的控制和生态修复技术
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摘要
近年来,湖泊、水库富营养化已日益成为全球性的水环境污染问题,也受到人们的日益关注,亟待解决。本文分析了湖泊、水库富营养化的主要影响因子和当今湖库富营养化的现状和危害。提出了在点源排放、外源和内源排放方面的控制措施,以及湖泊、水库富营养化的主要的生态修复技术。
引文
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[2]纪丹凤,苏婧,席北斗,等.国外湖泊营养物基准向标准转化方法对我国的启示[J].环境工程技术学报,2012,22(3):229-232.
[3]马经安,李红清.浅谈国内外江河湖库水体富营养化状况[J].长江流域资源与环境,2002,(6):575-578.
[4]崔扬,朱广伟,张运林,等.湖库富营养化指标的高频监测方法研究[J].环境科学学报,2014,34(5):1178-1185.
[5]苏海磊,吴丰昌,李会仙,等.太湖生物区系研究及与北美五大湖的比较[J].环境科学研究,2011,24(12):1346-1354.
[6]G.Zhu,B.Qin,Y.Li,et al.Controlling harmful cyanobacterial blooms in a hyper-eutrophic lake(LakeTaihu,China):The need for a dual nutrient(N&P)management strategy[J].Water Research,2011,45;1973-1983.
[7]S.Dixit,S.Dixit Cost-effective and eco-friendly methods for lake water-purification[J].Hydro Nepal,2015,16:40-43.
[8]L Yang,D.Liu,Y.Huang,et al.Isotope analysis of the nutrient supply in Xiangxi bay of the three gorges Reservoir[J].Ecological Engineering,2015,77:65-73.
[9]蔡龙炎,李颖,郑子航.我国湖泊系统氮磷时空变化及对富营养化影响研究[J].地球与环境,2010,38(2):235-241.
[10]董文龙,闵水发,杨杰峰,等.湖泊富营养化防治对策研究[J].环境科学与管理,2014,39(11):82-85.
[11]肖潇,汪朝辉.丹江口典型库湾富营养化遥感分析及防治措施[J].人民长江,2011,42(9):34-37.
[12]Y.Kong,P.Zou,Q.Yang,et al.Physiological responses of microcystis aeruginosa under the stress ofantialgalactinomycetes[J].Journal of Hazardous Materials,2013,262:274-280.
[13]刘倩,李洁,孟银萍,等.富营养化湖泊生态恢复与重建技术[J].水资源研究,2013,2:150-156.
[14]H.Somura,T.Masunaga,Y.Mori,et al.Estimation of nutrient input by a migratory bird,the Tundra Swan(Cygnus columbianus),to winter-flooded paddyfields[J].Agriculture,Ecosystems and Environment,2014,199;1-9.
[15]刘伟,晏娟.富营养化湖泊治理研究综述[J].安徽农学通报,2014,20(8):121-150.
[16]Q.Chen,D.Li,X.Kong,et al.Remediation of eutrophic water body by zoobenthos[C].Proceedings of 20103rd International Conference on Future Biomedical Information Engineering,2010,3;350-353
[17]M.Naumann,V.Bednarz,W.Niggl,et al.Monitoring of coastal coral reefs near Dahab(Gulf of Aqaba,Red Sea)indicates local eutrophication as potential cause for change in benthic communities[J].EnvironMonit,2015,187:44.
[18]M.Yang,J.Lin,Y.Zhan,et al.Immobilization of phosphorus from water and sedimentusingzirconium modified zeolites[J].Environmental Technology,2015,22:3606-3619.
[19]尤鑫.日本琵琶湖开发与保护对鄱阳湖生态经济区建设的启示—基于国内外大湖开发和保护与鄱阳湖生态经济区开发和保护比较研究[J].江西科学,2012,30(6):848-852.
[20]廖晶新,施泽明,黄鹄飞,等.水体富营养化的来源、危害及治理研究[J].四川有色金属,2012,(3):46-48.
[21]焦雅敏.水库蓝藻“水华”的暴发成因及防治措施[J].中国西部科技,2013,12(3):73-74.
[22]刘扬扬,靳铁胜,杨瑞坤.浅析水体富营养化的危害及防治[J].中国水运,2011,11(5):150-151.
[23]T.Soeprobowati.Integrated lake basin management for save Indonesian lake movement[J].Procedia Environmental Sciences,2015,23:368-374.
[24]罗小勇,李斐,涂敏.长江流域湖库富营养化与防治对策研究[J].水利发展研究,2010,(5):30-36.
[25]张萌,方红亚,倪乐意.我国浅水湖泊富营养化治理的可用水生植物修复技术[J].安徽农业科学,2011,39(8):4649-4652.
[26]S.Zuo,K.Wan,S.Ma.Combined effect of predatory zooplankton and allelopathic aquatic macrophytes on algal suppression[J].Environmental Technology,2015,36(1):54-59.
[27]杨品红,王志陶.湖泊主要生态因子及富营养化治理研究展望[J].湖南文理学院学报,2010,22(3):45-56.
[28]X.Tang,M.Wu,W.Yang,et al.Ecological strategy for eutrophication control[J].Water Air SoilPollut,2012,223:723-737.
[29]周杨,许振成,蔡立梅,等.高州水库水体富营养化评价与控制对策研究[J].环境科学与管理,2011,36(2):179-183.
[30]L Yang,S.Chen,Y.Lu,et al.The assessment of hydrochemistry characteristics and eutrophication level of lake baiyangdian,north of China[J].Advanced Materials Research,2013,864:2357-2362.
[31]H.Marquez-Pacheco,A.M.Hansen,A.Falcon-Rojas.Phosphorous control in a eutrophied reservoir[J].Environ Sci Pollut,2013,20:8446-8456.
[32]A.Tekile,I.Kim,J.Kim?Mini-review on river eutrophication and bottomimprovement techniques,with special emphasis onthe Nakdong River[J].Journal of environmental sciences,2015,30:113-121.
[33]潘轲曼,王景仕.密云水库富营养化控制与管理探讨[J].水环境,2010,(6):25-17.
[34]X.Li,Y.Xu,G.Zhao,et al.Assessing threshold values for eutrophication management using Bayesianmethod in Yuqiao Reservoir,North China[J].Environ Monit,2015,187:195.
[35]X.Li,T.Huang,W.Ma,et al.Effectsofrainfallpattemsonwaterqualityinastratifiedreservoirsubjectto eutrophication:Implications for management[J].Science of the Total Environment,2015,521-522:27-36.
[36]C.Yen,K Chen,Y.Sheu,et al.Pollution source investigation and water quality management in the CarpLake watershed,Taiwan[J].Clean-Soil,Air,Water,2012,40(1):24-33.
[37]A.Sharpley,X.Wang.Managing agricultural phosphorus for water quality:Lessons from the USA andChina[J].Journal of Environmental Sciences,2014,26:1770-1782.
[38]M.Oliveira,A.V.Machado.The role of phosphorus on eutrophication:a historical review and future perspectives[J].Environmental Technology Reviews,2013,2(1):117-127.
[39]J.Severiano,A.Moura,E.Magalhaes,et al.Study about top-down and bottom-up controls in regulating the phytoplankton biomass in a eutrophic reservoir in Northeastern Brazil[J].Journal of Water ResourceandProtection,2012,4:616-621.
[40]王俊德,梅春辉,施强,等.湖泊富营养化控制的适应性管理研究[J].安徽农业科学,2013,41(11):4991-4996.
[41]S.Nemethy,G.Molnar.Sustainable management of lakes in connection withmitigation of adverseeffects of climate change agriculture and development of green micro regions based on renewable energy production[J].Environmental Quality,2014,13:21-35.
[42]X.Tang,Q.Li,M.Wu,et al.Ecological environment protection in Chinese rural hydropower development practices:areview[J].Water Air Soil Pollut,2012,223:3033-3048.
[43]A.Steinman,M.Ogdahl.TMDL reevaluation:reconciling internal phosphorus loadreductions in eutrophic lake[J].Lake and Reservoir Management,2015,31:115-126.
[44]宋菲菲,胡小贞,金相灿,等.国外不同类型湖泊治理思路分析与启示[J].环境工程技术学报,2013,3(2):156-162.
[45]J.Wang,Q.Yuan,B.Xie.Temporal dynamics of cyanobacterial communitystructure in Dianshan Lake oiShanghai,China[J].Ann Microbiol,2015,65:105-113.
[46]张震,隋晓松,关柏清.浅析水体富营养化的生态修复技术[J].环境通报,2011,35(1):63-65.
[47]李晶晶,裘巧俊,邹朝望.富营养化水体水生植被恢复和重建研究[C].河湖水生态水环境专题论坛文集.湖北:中国学术期刊电子出版社,2011.
[48]W.Zou,L Yuan,L Zhang.Analyzingthespectralresponseofsubmergedaquaticvegetationinaeutrophic lake,Shanghai,China[J].Water Air SoilPollut,2013,57:65-71.
[49]李晶晶,裘巧俊,邹朝望.入湖污水湿地修复技术研究[C].河湖水生态水环境专题论坛论文集.湖北:中国学术期刊电子出版社,2011.
[50]K.Li,W.He,X.Kong,et al.Exological restoration of reclaimed wastewater lakes using submerged plants and zooplankton[J].Water and Environment Journal,2014,28:323-328.
[51]B.Qin.A large-scale biological control experiment to improve waterquality in eutrophic Lake Taihu,China[J].Lake and Reservoir Management,2013,29;33-46.
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