以Fe-C多孔过滤材料为基质的浅层人工湿地的脱氮效果和微生物群落变化

IF 1.5 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Clean-soil Air Water Pub Date : 2024-07-04 DOI:10.1002/clen.202300246
Shuyi Chu, Zhuangzhuang Cao, Zhongping Su, Jibo Xiao, Jun Li
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引用次数: 0

摘要

本研究旨在考察以铁碳(Fe-C)多孔过滤材料(PFM)为基质的浅层建造湿地(SCW)在低水力停留时间(HRT)下的脱氮特性和微生物群落变化。研究了进水氮形式和化学需氧量/氮比率对水力停留时间为 1 天时脱氮性能的影响。结果表明,总氮(TN)的去除率随着进水 NH4+-N 与NO3-N 比值的降低而下降。当进水 NH4+-N/NO3-N 比率为 0.1 时,TN 去除率比比率为 2.0 时下降了 15.4%。进水 COD/N 比的增加提高了对 NO3-N 的去除率,当进水 COD/N 比为 7.0 时,对 TN 的去除率达到 74.5%。对位于 SCW 前端(WF)、中间(WM)和背面(WB)的 Fe-C PFM 上的生物膜样品进行了微生物群落分析。变形菌、类杆菌、绿藻菌和固着菌是主要的细菌门类。参与硝化和反硝化的菌属的相对丰度随着进水流量的增加而降低。铁自养反硝化细菌和大分子有机物降解菌大量存在于南华水厂的中部和后部。微生物硝化和反硝化、植物吸收和植物协同作用对氮的去除率分别为 86.3%、7.41% 和 19.9%。这些结果表明,以Fe-C PFM为基质的SCW在低HRT条件下的脱氮效率很高。
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Nitrogen removal and microbial community variation in a shallow constructed wetland with Fe–C porous filter material as substrate

This study aims to examine the nitrogen removal characteristics and microbial community variation at low hydraulic retention time (HRT) in a shallow constructed wetland (SCW) using iron–carbon (Fe–C) porous filter material (PFM) as substrate. Effects of influent nitrogen forms and chemical oxygen demand (COD)/N ratio on nitrogen removal performance at HRT of 1 day were investigated. Results showed that total nitrogen (TN) removal declined with the decrease of influent NH4+-N-to-NO3-N ratio. When the influent NH4+-N/NO3-N ratio was 0.1, TN removal decreased by 15.4% compared with that at ratio of 2.0. The increase of influent COD/N ratio enhanced NO3-N reduction, and TN removal reached 74.5% at influent COD/N ratio 7.0. The microbial community was analyzed for the biofilm samples on Fe–C PFM at front (WF), middle (WM), and back (WB) of SCW. Proteobacteria, Bacteroidetes, Chloroflexi, and Firmicutes were dominant bacteria phyla. The relative abundance of genera involved in the nitrification and denitrification decreased with the influent flow. The iron autotrophic denitrifying and macromolecular organics degrading bacteria were abundant in the middle and back of SCW. Microbial nitrification and denitrification, plant uptake, and plant synergism contributed to 86.3%, 7.41%, and 19.9% of N removal, respectively. These results demonstrated that the SCW with Fe–C PFM as substrate was efficient in nitrogen removal at low HRT.

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来源期刊
Clean-soil Air Water
Clean-soil Air Water 环境科学-海洋与淡水生物学
CiteScore
2.80
自引率
5.90%
发文量
88
审稿时长
3.6 months
期刊介绍: CLEAN covers all aspects of Sustainability and Environmental Safety. The journal focuses on organ/human--environment interactions giving interdisciplinary insights on a broad range of topics including air pollution, waste management, the water cycle, and environmental conservation. With a 2019 Journal Impact Factor of 1.603 (Journal Citation Reports (Clarivate Analytics, 2020), the journal publishes an attractive mixture of peer-reviewed scientific reviews, research papers, and short communications. Papers dealing with environmental sustainability issues from such fields as agriculture, biological sciences, energy, food sciences, geography, geology, meteorology, nutrition, soil and water sciences, etc., are welcome.
期刊最新文献
Issue Information: Clean Soil Air Water. 11/2024 Effect of Intercropping Soybean on the Diversity of the Rhizosphere Soil Arbuscular Mycorrhizal Fungi Communities in Wheat Field Short-Term Benefits of Tillage and Agronomic Biofortification for Soybean–Wheat Cropping in Central India Issue Information: Clean Soil Air Water. 10/2024 Geochemical Interaction and Bioavailability of Zinc in Soil Under Long-Term Integrated Nutrient Management in Pearl Millet–Wheat System
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