池塘三维植被网生态坡水质净化调控系统

    3D vegetation net ecological slope purification and regulation system of pond aquaculture

    • 摘要: 为研究养殖池塘三维植被网护坡技术及其水质净化调控效果,试验用三维植被网、布水管和水生植物等构建池塘生态坡净化调控系统。研究发现,池塘三维植被网生态坡净化调控系统具有潜流湿地和表流湿地双重特点,空隙率为4%~9%,构建坡度应低于1:2.5,水流速度应高于0.13 m/s。在池塘水体日循环量10%情况下,三维植被网生态坡可使池塘水体中氨氮、亚硝态氮、硝态氮、总氮和总磷的浓度下降46%、65%、49.2%、64.4%和39%,使养殖水体中叶绿素a浓度下降8.8%;生态坡对水体中总氮、总磷、COD的净化效率分别为0.27、0.015和0.94 g/h·m2。与对照池相比,试验期间,三维植被网生态护坡池塘水体中的绿藻种类比对照池塘增加了10.7%,蓝藻种类减少了2.5%,藻类Shannon Wiener多样性指数(H′)增加了38%。同时,试验池塘水体中的藻类密度下降了23%,其中蓝藻密度下降48.4%,隐藻、裸藻密度分别增加了24%和34%,藻类优势种群结构组成更有利于养殖需要。研究表明池塘三维植被网生态坡系统具有保护池埂和净化调控水质效果,是一种“经济、生态、减排”的护坡技术。

       

      Abstract: In order to study the building technology of 3D vegetation net slope and its purification and regulatory effects on water quality, this experiment used 3D vegetation net, water conduit and aquatic plants to construct aquaculture pond water purification and regulatory eco-slope system. The results showed that, the 3D vegetation net ecological slope system had the characteristics of sub-flow and surface flow wetland, with void ratio of 4-9%, gradient lower than 1:2.5 and the water flow velocity higher than 0.13 m/s. Under the situation of daily water circulation of 10%, the 3D vegetation net eco-slope system could reduce the ammonia nitrogen, nitrite nitrogen, nitrate nitrogen, total nitrogen and total phosphorus of the aquaculture pond water by 46%, 65%, 49.2%, 64.4% and 39%, respectively; the reduction for chlorophyll-a of the aquaculture pond water was 8.8%. The purification efficiency of the eco-slope for total nitrogen, total phosphate and COD were 0.27, 0.015 and 0.94 g/h·m2, respectively. Compared to the control pond water, the green algae in the 3D vegetation nets eco-slope pond water increased by 10.7% and the blue-green algae decreased by 2.5%, and the Shannon Wiener index (H′) of algae increased by 38%. Simultaneously, the algae density in the experimental pond water reduced by 23% in comparison to the control pond water, in which the density of blue-green algae reduced by 48.4%, and the Cryptophyta and Euglenophyta increased by 24% and 34%, respectively. The dominant algae was more benefit for aquaculture needs in vegetation net eco-slope pond water. The study indicated that the 3D vegetation net eco-slope system has the function of protecting ponds ridge and water purification and regulation, which is a kind of “economical, ecological and emission reduction” technologies.

       

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