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水生植物修复氮、磷污染水体研究进展 被引量:49

Research advances on phytoremediation of nitrogen and phosphorus polluted water by aquatic macrophytes
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摘要 氮、磷是引起水体富营养化、导致水质恶化的重要因素,因此去除氮、磷一直是污水处理的重要任务。鉴于传统物理、化学方法存在的操作难、成本高、易产生二次污染等问题,人们越来越多地将目光转向利用水生植物去除氮、磷营养物质、净化水质上。介绍了近年来国内外应用水生植物修复氮、磷污染水体的方法、效果及其影响因素,探讨了水生植物净化污染水体的机制。针对目前研究中的不足,提出今后应在不同植物种类开发、植物组合优化以及植物的净化机制等方面加强研究。 Nitrogen and phosphorus are important factors causing eutrophication of water system and leading to deterioration of water quality, so the removal of nitrogen and phosphorus has always been an important task in wastewater treatment. In view of the problems brought by traditional physical and chemical methods, such as difficult operation, high costs and easy to produce second-pollution, people gradually pay more attention to the phytoremedi- ation technique, which primary use the plants, animals and microbes for nutrient removal and water purification. The latest research achievement both at home and abroad on the polluted water purification by phytoremediation is summa rized including the treatment performance and influence factors; the restoration mechanism of phytoremediation is also discussed. The future research directions should be focus on developing different vegetation species, optimization of plant composition and purification mechanism of aquatic plants.
作者 何娜 张玉龙 孙占祥 刘鸣达
机构地区 辽宁省农业科学院 沈阳农业大学土地与环境学院
出处 《环境污染与防治》 CAS CSCD 北大核心 2012年第3期73-78,共6页 Environmental Pollution & Control
基金 国家水体污染控制与治理科技重大专项(No.2008ZX07425-004)
关键词 水生植物 植物修复 氮磷 研究进展 aquatic macrophytes phytoremediation nitrogen phosphorus research advances
分类号 X52 [环境科学与工程—环境工程] X173 [环境科学与工程—环境科学]
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参考文献48

  • 1JAYAWEERA M W,KASTURIARACHCHI J C.Removal ofnitrogen and phosphorus from industrial wastewaters by phy-toremediation using water hyacinth(Eichhornia crassipes(Mart.)Solms)[J].Water Science and Technology,2004,50(6):217-225.
  • 2RECTENWALD L L,DRENNER R W.Nutrient removal fromwastewater effluent using an ecological water treatment system[J].Environmental Science and Technology,2000,34(3):522-526.
  • 3REDDY K R,DE BUSK W F.Nutrient removal potential of se-lected aquatic macrophytes[J].Journal of Environmental Quali-ty,1985,14(4):459-462.
  • 4BRAMWELL S A,DEVI PRASAD P V.Performance of asmall aquatic plant wastewater treatment system under Carib-bean conditions[J].Journal of Environment Management,1995,44(3):213-220.
  • 5ZHU J,ZHU X Y.Treatment and utilization of wastewater inthe Beijing Zoo by an aquatic macrophyte system[J].EcologicalEngineering,1998,11(1/2/3/4):101-110.
  • 6沈耀良,王美敬,李勇,张维佳,费忠民,罗麟,黄勇.沉水植物修复受污水体净化效能的研究[J].苏州科技学院学报(工程技术版),2005,18(4):1-4. 被引量:24
  • 7NAKAMURA K,SHIMATANI Y.Water purification and en-vironmental enhancement by the floating wetland[R].Seoul,Korea:Proceeding of the 6th IAWQ Asia-Pacific Regional Con-ference,1997.
  • 8NATHALIE V,FABIEN M,HUGUETE S,et al.Treatment ofdomestic wastewater by an hydroponic NFT system[J].Chem-osphere,2003,50(1):121-129.
  • 9胡芳,冯民权.五里湖富营养化及治理对策研究[J].电网与清洁能源,2008,24(9):72-76. 被引量:3
  • 10沈治蕊,卞小红,赵燕,吴云海,夏红.南京煦园太平湖富营养化及其防治[J].湖泊科学,1997,9(4):377-380. 被引量:65

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引证文献49

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环境污染与防治
2012年 第3期

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