摘要
构建表面流和水平潜流人工湿地系统处理水产养殖池塘排放的废水,以减少水产养殖废水对周围水域环境的污染。结果表明,经湿地净化处理后,养殖废水中总氮、总磷、CODMn、氨氮分别从2.32、0.50、14.88、0.61 mg/L降至0.98、0.18、9.72、0.30 mg/L,叶绿素a从369.6μg/L降至61.78μg/L,水质明显得到净化。湿地植物存活时组织氮、磷含量明显高于死亡时,湿地植物死亡时梭鱼草、黄菖蒲、小香蒲的组织氮含量分别仅为存活时的18.8%、26.8%、38.1%。湿地植物死亡时收割可去除氮、磷含量分别为11.68 g/m2和4.81 g/m2,再力花去除氮、磷能力最强。在湿地植物死亡前收割能够提高湿地植物吸收所贡献的净化率。
For reducing the pollution effect on the surround waters, surface and subsurface flow constructed wetlands were utilized to effectively treat the pond aquaculture wastewater of Shatianhu in Qingpu, Shanghai With wetland purification treatment, the concentrations of TN, TP, CODMn, and NH4-N of aquaculture wastewater were dropped from 2.32,0.50,14.88,0.61 mg/L,to 0. 98 ,0.18 ,9. 72 ,0. 30 mg/L respectively, chlorophyll a from 369.6 μg/L to 61.78 μg/L. The water quality of the aquaculture wastewater was efficiently purified. It was found that the contents of nitrogen and phosphorous in alive wetland plants were obviously higher than those in the dead. Nitrogen concentration measured in dead Pontederia cordata,Iris pseudacorus, Typha minima were respectively 18.8% ,26.8% and 38.1% of that measured in alive. Harvesting the wetland plants in dead can remove nitrogen and phosphorus 11.68 g/m2and 4.81 g/mErespectively. Thalia dealbata has the highest nitrogen and phosphorous removal capacity. Harvesting wetlands plants prior to their death can improve the purification effect of plants absorption purification in the entire wetlands system.
出处
《渔业现代化》
北大核心
2009年第4期8-12,共5页
Fishery Modernization
基金
上海市重点学科水生生物学建设项目基金(s30701)
上海市科委科研计划项目(08DZ1981000)
关键词
人工湿地
水产养殖废水
湿地植物
水处理
constructed wetlands treatment
pond aquaculture wastewater
wetlands plant
water treatment