湿地植物与基质组合对尾水氮磷的去除效果OA
Effect of Wetland Plants-Substrate Combinations on Nitrogen and Phosphorus Removal from Tail Water
为探讨不同植物与复合基质对污水厂尾水中氮磷的去除效果,选用水菖蒲、黄花鸢尾和水葱3种挺水植物,结合天然锰砂、沸石和陶粒组成的复合基质,构建人工湿地系统,模拟污水厂尾水处理过程.试验结果表明,水葱和水菖蒲组合(Gp3组)在总磷、总氮、氨氮和硝态氮的去除效果上表现最佳,总磷去除率达93.2%,总氮去除率为77.7%,氨氮去除率为91.7%,硝态氮去除率为70.6%.污染物浓度在前30天快速下降,之后趋于平缓.微生物群落分析显示,Gp3组的微生物多样性最高,优势菌门为变形菌门和拟杆菌门,其中γ-变形菌纲在反硝化过程中起关键作用.结果表明,植物组合及其根系微生物群落的协同作用对氮磷去除效果显著,锰砂作为基质材料具有潜在的应用价值.
[Objective]This study focuses on the practical demand for advanced nitrogen and phosphorus removal from the tail water of urban wastewater treatment plants.Aiming at the problem of low carbon-to-nitrogen ratios in urban wastewater treatment that result in unsatisfactory nitrogen removal efficiency,this study investigates the effects of different combinations of emergent plants and composite substrates on nitrogen and phosphorus removal from tail water through experiments.The application potential of natural manganese sand as a substrate is evaluated,providing theoretical and practical support for the optimization of constructed wetland technology and the resource u-tilization of manganese ore.[Methods]Three emergent plants,Acorus calamus L.,Iris wilsonii C.H.Wright,and Scirpus validus Vahl were selected.Three experimental groups were established based on pairwise plant combina-tions,including Gp1(Iris wilsonii C.H.Wright+Scirpus validus Vahl),Gp2(Iris wilsonii C.H.Wright+Acorus calamus L.),and Gp3(Scirpus validus Vahl+Acorus calamus L.).A composite substrate without plants was used as the blank control group(BC).The composite substrate consisted of natural manganese sand,zeolite,and ceram-site mixed at a ratio of 1∶3∶1.Constructed wetland systems were built using transparent polyethylene cylindrical columns with a height of 500 mm and a diameter of 160 mm to simulate the tail water treatment process of wastewater treatment plants.The experiment lasted for 70 days.During the experimental period,water quality indi-cators including total nitrogen,total phosphorus,ammonia nitrogen,and nitrate nitrogen were measured regularly.High-throughput sequencing was used to analyze the structure of microbial communities in plant root zones.[Results]All three plant combinations effectively removed nitrogen and phosphorus pollutants from the tail water,and the Gp3 group(Scirpus validus Vahl+Acorus calamus L.)showed the best performance.The total phosphorus removal rate reached 93.2%,the total nitrogen removal rate was 77.7%,the ammonia nitrogen removal rate was 91.7%,and the nitrate nitrogen removal rate was 70.6%.Pollutant concentrations in all experimental groups de-creased rapidly during the first 30 days and then tended to stabilize,while the purification performance of the blank control group was significantly poorer.Microbial community analysis showed that the Gp3 group exhibited the high-est microbial diversity and richness,with a Shannon index of 7.24 and unique OTUs accounting for 69.15%.The dominant phyla were Proteobacteria and Bacteroidetes,which together accounted for nearly 80%.Among them,Gammaproteobacteria played a key role in the denitrification process,and its relative abundance in the Gp3 group reached 29.2%,which was the highest among the three groups.[Conclusion]The synergistic effects of plant com-binations and root-associated microbial communities in constructed wetlands are the key to efficient nitrogen and phosphorus removal,and the combination of Scirpus validus Vahl and Acorus calamus L.performs particularly well in advanced tail water treatment.The composite substrate containing manganese sand shows potential application val-ue,while the specific mechanisms by which it promotes plant growth and microbial community formation still re-quire further investigation.This study confirms the optimal purification performance of the Scirpus validus Vahl and Acorus calamus L.combination and the potential application value of manganese sand as a substrate,providing a reference for plant selection and targeted microbial cultivation in constructed wetlands for wastewater treatment plant tail water.
李权;李春立
长江生态环保集团有限公司,武汉 430010长江生态环保集团有限公司,武汉 430010
资源环境
人工湿地植物组合尾水氮磷去除微生物群落
constructed wetlandsplant combinationtail waternitrogen and phosphorus removalmicrobial com-munities
《长江科学院院报》 2026 (3)
63-70,8
长江生态环保集团有限公司员工科研资助项目(NBYG202300005)
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