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复合塘—湿地系统水生植物时空分布对氮磷去除的影响 被引量:7

Effect of spatiotemporal patterns of hydrophytes on N and P removal in a multistage ponds-wetlands treatment system
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摘要 利用复合生态塘-湿地处理系统水生植物时空格局异质性,研究了水生植物分布对氮、磷去除影响。结果表明,水生植物种类和数量的分布差异导致各单元氮、磷去除呈现不同的周期变化;水生植物主要通过改变硝化/反硝化进程、自身代谢和化学沉降速率影响NH3、NOx、有机氮和总磷的去除。系统不同单元中氮、磷去除机制差异决定了NH3和总磷主要在-曝气养鱼塘(去除率分别为29.5%、30.1%)、鱼塘(16.9%、17.8%)和水生植物塘(24.5%、19.4%)去除;NOx主要在芦-苇湿地(出水<0.4mg/L)去除;而有机氮则主要在复合兼性塘(32.3%)和鱼塘(28.1%)去除。此外,生态塘出水中水生植物绝大部分被芦苇湿地所截滤,它们的腐败/释放导致湿地中NH3和总磷的表观去除率偏低(分别小于8.5%和11.5%)。 The effects of variations in hydrophytes on nitrogen and phosphorus removal were evaluated in different units of a com- bined pond-wetland wastewater treatment facility, based on the heterogeneity of spatiotemporal patterns of hydrophytes in these sys- tems. Variations in species and biomass of hydrophytes led to periodic variations in nitrogen and phosphorus removal in each unit. Hydrophytes affected the removal of NH3, NOx , total phosphorus and organic nitrogen through influencing rates of various mecha- - nisms, especially nitrification-denitrification, chemical precipitation and metabolism of algae. Different mechanisms involved in nitrogen and phosphate removal determined that different species of nitrogen and phosphate are mainly removed in different unit. Briefly, the removal of NH3 and total phosphorus mainly occurred in aeration-fish ponds (29.5%, 30.1%), fish ponds (16.9%, 17.8%) and hydrophyte ponds (24.5%, 19.4%); the removal of NOx mainly occurred in the constructed wetland (<0.4 mg/L in final effluent); - and the removal of organic nitrogen mainly occurred in hybrid facultative ponds (32.3%) and fish ponds (28.1%). Additionally, con- structed wetland exhibits relatively low potential of removing NH3 and total phosphate, less than 8.5% and 11.5% respectively, ow- ing to its high capacity of filtrating algae and subsequent mineralization of algae biomass.
作者 彭剑峰 王宝贞 夏圣骥 王琳
机构地区 哈尔滨工业大学市政环境工程学院 中国海洋大学
出处 《生态环境》 CSCD 2004年第4期508-511,共4页 Ecology and Environmnet
基金 黑龙江省重大科技攻关项目(GA02C201-01)
关键词 水生植物 生态塘 湿地 hydrophytes nitrogen phosphorus eco-pond constructed wetland
分类号 X703.1 [环境科学与工程—环境工程]
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参考文献8

  • 1KATRIN T. Phytoplankton, pelagic community and nutrients in a deep oligotrophic alpine lake: ratios as sensitive indicators of the use of P-resources (DRP∶DOP∶:PP and TN∶TP∶SRSi) [J]. Water Research, 2003, 37(7): 1583-1592.
  • 2吴生才,陈伟民.太湖浮游植物生物量的周期性变化[J].中国环境科学,2004,24(2):151-154. 被引量:28
  • 3CANOVAS S, PICOT B. Seasonal development of phytoplankton and zooplankton in a high-rate algal pond [J]. Water Science Technology, 1996, 33(7): 199-206.
  • 4KIM Y, KIM W. Roles of water hyacinths and their roots for reducing algal concentration in the effluent from waste stabilization ponds [J]. Water Research, 2000, 34(13): 3285-3294.
  • 5SENZIA M A, MASHAURI D A. Suitability of constructed wetlands and waste stabilization ponds in wastewater treatment: nitrogen transformation and removal [J]. Physics and Chemistry of the Earth, 2003, 28(3): 1117-1124.
  • 6KEMP M C, GEORGE D B. Subsurface flow constructed wetlands treating municipal wastewater for nitrogen transformation and removal [J]. Water Environmental Research, 1997, 69(7): 1254-1262.
  • 7BURFORD M A, LORENZEN K. Modelling nitrogen dynamics in intensive shrimp ponds: the role of sediment remineralization [J]. Aquaculture, 2004, 229(1): 129-145.
  • 8MICHAL G, ERAN F. Enhancing nitrification in vertical flow constructed wetland utilizing a passive air pump [J]. Water Research, 1998, 32(12): 3513-3520.

二级参考文献12

  • 1蔡后建,陈宇伟,蔡启铭,高锡芸.太湖梅梁湾口浮游植物初级生产力及其相关因素关系的研究[J].湖泊科学,1994,6(4):340-347. 被引量:31
  • 2赵以军,刘永定.有害藻类及其微生物防治的基础──藻菌关系的研究动态[J].水生生物学报,1996,20(2):173-181. 被引量:139
  • 3Berman T, Yacobi Y Z, Pollingher U. Lake Kinneret phytoplankton: stability and variability during twenty years (1970-1989) [J]. Aquat. Sci., 1992,54(3/4):104-127.
  • 4Polli B, Simona M. Qualitative and quantitative aspects of the evolution of the planktonic populations in lake Lugano [J]. Aquat. Sci., 1992,54(3/4):303-320.
  • 5Bostrom B, Pettersson A-K, Ahlgren I. Seasonal dynamics of a cyanobacteria-dominated microbial community in surface sediments of a shallow, eutrophic lake [J]. Aquat. Sci., 1989,51: 153-178.
  • 6Frangoulis C, Belkhiria S, Goffart A. Dynamics of copepod faecal pellets in relation to a Phaeocystis dominated phytoplankton bloom: characteristics, production and flux [J]. J. Plankton Research, 2001,23(1):75-88.
  • 7Reynolds C S. The ecology of freshwater phytoplankton [M]. Cambridge: Cambridge University Press, 1983.83-122.
  • 8Marten S. Ecology of shallow lakes [M]. Kluwer Academic Publisher, 1998.77-121.
  • 9Webster I T, Hutchinson P A. Effects of wind on the distribution of phytoplankton cells in lakes-revisited [J]. Limnol. Oceanogr., 1994,39:365-373.
  • 10陈宇炜 高锡云.太湖梅梁湾浮游植物动态及其初级生产力周年变化的研究 [A].蔡启铭.太湖环境生态研究 [C].北京:气象出版社,1998.98-107.

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生态环境
2004年 第4期

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