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1.
香蒲?灯心草人工湿地的研究:净化污水的空间 总被引:26,自引:1,他引:25
从人工湿地水生植物根系实际生长深度、微生物用酶的空间分布以及不同深度人工湿地对污水的净化效果比较出发,研究了人工湿地污水处理系统的净化空间,以种植香蒲Typhaangustifolia和灯心草Juncus effusus的人工湿地为例,水生植物根系主要分布在湿地基质上层25cm区域,微生物的数量随深度增加而递减,且35cm层的数量远远的低于上层;5-10cm层的磷酸,纤维素酶和蛋白酶活性亦大于20 相似文献
2.
香蒲、灯心草人工湿地的研究─Ⅲ.净化污水的机理 总被引:40,自引:3,他引:37
通过香蒲Typha angustifolia和灯心草Juncus effusus人工湿地微生物分布状况的调查,水生植物生长状况的观察,研究了介质、水生植物和微生物三者净化污水的作者,探讨了人工湿地对污水中污染物质的去除机制。研究表明,人工湿地对污水的氮、磷的化学耗氧量的去除作用是介质、水生植物和微生物综合作用的结果,粘性土壤和花岗石介质更利用于污水中磷的去除。 相似文献
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人工湿地植物研究 总被引:203,自引:10,他引:193
本文阐述了植物在人工湿地污水净化过程中作用及存在的若干问题,提出了研究人工湿地植物的一些设想,植物在人工湿地中起着非常重要的作用,不但直接摄取利用污水中的营养物质、吸收富集污水中的重金属等有毒有害物质;而且输送氧气到根区,提供根区微生物生长、繁殖和降解对氧的需求;还能维持和加强人工湿地系统内的水力学传输,但目前人工湿地植物的应用还存在着枯死衰退、杂草丛生和根系扩展较浅等问题,影响人工湿地的净化功能,通过对人工湿地植物生理生态特性如气体代谢、光合作用、逆境生理和相生相克等研究,筛选出优良植物种类,创造适宜人工生,将有利于发育发挥湿地植物功能,提高人工湿地污水处理能力。 相似文献
4.
潜流湿地中微生物对三峡库区微污染水净化效果的影响 总被引:2,自引:1,他引:1
为了探讨潜流湿地对三峡库区微污染河水的净化效果,在野外构建芦竹、菖蒲、空心菜和无植物(空白)水平潜流人工湿地,研究人工湿地系统中微生物基本菌群和功能菌群数量分布,探讨污染物去除与微生物菌群种类和数量的相关性.结果表明:实验湿地系统运行情况良好,植物湿地系统对各污染物指标的去除效果优于空白湿地系统;芦竹、菖蒲、空心菜和空白湿地系统的微生物数量均随温度的降低而减少,其中,植物湿地系统的微生物数量高于空白系统;各湿地系统的微生物数量与水质指标去除率之间的相关性较强,在夏季,不同人工湿地系统的细菌总数与CODMn的去除率之间存在着显著的正相关,真菌、亚硝酸细菌总数与铵氮去除率之间均存在着显著的正相关,在冬季,不同人工湿地系统的反硝化细菌总数与总氮去除率之间存在着显著的正相关. 相似文献
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人工湿地植物根区微生物与净化效果的季节变化 总被引:43,自引:1,他引:42
人工湿地污水处理系统具有净化效果显著、建设和运行费用低廉、管理简便等优点.近年来越来越受到人们的重视.人工湿地生态系统受环境影响较大,研究人工湿地在不同季节的净化功能对于充分发挥其作用具有重要意义.对不同季节的芦苇(Phragmite saus-tralis)、茭白(Zizania caduciflora)和香蒲(Typha latifolia)等湿地系统植物根区、无植物对照基质微生物分布状况以及净化效果进行了研究,结果显示:(1)种植不同植物的湿地系统根区微生物数量不同,其湿地净化效果也不同;(2)季节变化显示湿地系统秋季的细菌总数量比夏季高;但对照系统夏季的真菌和放线菌数量明显高于秋季;(3)湿地系统总磷(TP)的去除率夏季高于秋季;(4)相关性分析发现湿地植物根区的细菌总数与BOD5的去除率之间存在显著相关性;而根区微生物数量与TP、CODCr和凯氏氮(KN)的去除率之间不存在显著相关性,具体机理还需进一步研究. 相似文献
6.
人工湿地对城市污染河水的净化效果及机理 总被引:17,自引:2,他引:15
针对采用人工湿地系统净化镇江市内污染较为严重的古运河河水中遇到的问题,采用复合垂直流人工湿地小试装置,研究人工湿地系统对污染河水的净化效果及净化机理.镇江古运河水质调查结果表明,河水中悬浮态污染物质含量较高,为劣V类水体;当水力负荷为750mm/d时,人工湿地系统对CODMn去除率约为50%-60%,TN去除率约为40%-50%,TP去除率约为30%-40%,能够将劣V类水处理为Ⅳ类水甚至Ⅲ类水,表明其对污染河水处理的有效性.研究人工湿地内部污染物浓度的沿程变化规律,可以发现河水中污染物质的去除主要发生在湿地下行池,尤其是表层30 cm处,而上行池未能发挥应有的作用,分析表明与可能与污染河水中的碳氮比有一定的关系.通过本次实验发现湿地表层对污染物的去除表现为滤料及植物根系的过滤、吸附、截留以及微生物的降解、植物吸收等综合作用. 相似文献
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8.
人工湿地废水处理系统的生物学基础研究进展 总被引:48,自引:3,他引:45
主要阐述了人工湿地废水处理系统中生物学基础的研究进展,至今,对作为湿地生产者的水生植物研究较多,水生植物除直接吸收利用废水中的营养物质,吸附和富集重金属外,还起输送氧气至根区,形成根区多种微环境和维护湿地水力传输的作用;而对作为湿地分解者的微生物的研究较少,湿地微生物的代谢活动是废水中有机物质降解的基础机制。 相似文献
9.
伊乐藻,轮叶黑藻净化养鱼污水效果试验 总被引:27,自引:0,他引:27
在实验室条件下.对伊乐藻及轮叶黑藻净化养鱼污水的能力进行了比较研究。结果表明:(1)伊乐藻和轮叶黑藻对养鱼污水中的N、P等物质有较好的净化效果。在96h内,它们对TN、TP、PO_4~(3-)-P、NH_4~+-N、NO_3~--N、COD_(Mn)的平均净化率分别为:60.7%,53.6%.74.4%.59.7%,75.1%,63.2%;61.8%,54.2%.85.3%,81.8%,31.4%,33.5%。(2)水生植物在净化过程中,其效率受温度、光照、及水体中营养盐浓度等外界条件的制约。(3)微生物在水生植物净化养鱼污水的过程中起着重要的作用。 相似文献
10.
不同水生植物对湿地无机氮素去除效果的模拟 总被引:7,自引:1,他引:6
分别以芦苇、花叶水葱和苦草构建成小规模人工湿地模拟系统,开展不同类型水生植物湿地中无机氮(硝态氮和铵态氮)去除效果的试验。试验结果表明:在分别以芦苇、花叶水葱和苦草构成的模拟湿地单元中,虽然氧化还原等环境条件呈现较大差异,但不同类型水生植物湿地单元的铵态氮和硝态氮的去除率并没有显著差别,这与以往关于不同类型水生植物对氮素去除贡献的认识有所不同;水生植物对模拟湿地体系中氮素的去除具有重要作用,在相对较低的氮负荷(NH4^+-N约为2.85mg/L,NO3^-N约为1.07mg/L,相当于一般城市污染河流)条件下,有水生植物湿地单元中铵态氮和硝态氮的10d去除率分别在39.32%和21.91%以上,而无水生植物的空白湿地单元对铵态氮和硝态氮的10d去除率分别只有34.68%和13.86%;在提高模拟湿地体系水体氮(NH4^+-N约为5.50mg/L,NO3^-N约为3.37mg/L,是一般城市污染程度的2倍)负荷条件下,有水生植物湿地单元中铵态氮和硝态氮的10d去除率分别大于或等于66.87%和78.92%以上,而无水生植物的空白湿地单元对铵态氮和硝态氮的10d去除率仅为40.62%和31.77%,为人工湿地对原污水或初沉池出水的处理提供了有力依据。试验结果还表明,水生植物能有效促进湿地的氮素转化过程,显著缩短无机氮素在湿地中的寄宿时间。 相似文献
11.
香蒲、灯心草人工湿地的研究─Ⅱ.净化污水的空间 总被引:26,自引:0,他引:26
应用测定流水中溶氧量的方法,测定了长薄鳅的耗氧率,耗氧量及窒息点.试验表明:长薄鳅的耗氧率(Y’)随鱼体重(W,g)的增加而增大,其关系式分别为:Y’=186.576W(-0.2043),Y=0.186W(0.7962).温度对长薄鳅的耗氧率有影响,在13-30C范围内,耗氧率随水温升高而逐渐增大.耗氧率的温度敏感区域是13-23C和28-30C,而在23-28C范围内变化幅度较小,标准代谢量变化 相似文献
12.
Performance Evaluation of Constructed Wetlands Treating Wastewater Treatment Plant Effluent in Taihu Lake,China 
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下载免费PDF全文 Constructed wetlands are often used for advanced treatment of the secondary effluent of municipal wastewater treatment plants (WWTPs). Through assessing wetlands based on economic, technical, environmental, and social impacts, an optimal process is selected. In this study, a set of assessment methods for wetland treatment technology is established: The analytic hierarchy process (AHP) is used to establish the evaluation index system; the entropy weight method is employed to calculate the index weights; and the preference ranking organization method for enrichment evaluation (PROMETHEE) is utilized for ranking of the selected treatment technologies. Then four processes applied in Taihu Lake basin, China are evaluated. The results show the following ranking: Vertical‐flow wetland–ecological pond–surface‐flow wetland–horizontal‐flow wetland, vertical‐flow wetland–horizontal‐flow wetland, ecological pond–horizontal‐flow wetland–surface‐flow wetland, and ecological ditch–ecological pond. The wetland exhibits certain universality and space portability with regard to treatment of municipal WWTP effluent. From the view of comprehensive benefits, the ranking of the treatment technology based on the vertical‐flow wetland is high (Φ values between 0.0224 and 0.0349), whereas that based on the ecological pond is low (Φ values between ?0.2086 and ?0.2652), owing to the mechanism of the process itself and the role of microorganisms in the system. Moreover, for organic matter removal, a vertical‐flow wetland process is recommended (48%), whereas for the removal of N contamination, an integrated‐flow wetland process is suggested (31.2% for NH3‐N, 32.4% for TN removals). 相似文献
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Soil moisture is a key process in the hydrological cycle. During ecological restoration of the Loess Plateau, soil moisture status has undergone important changes, and infiltration of soil moisture during precipitation events is a key link affecting water distribution. Our study aims to quantify the effects of vegetation cover, rainfall intensity and slope length on total infiltration and the spatial variation of water flow. Infiltration data from the upper, middle and lower slopes of a bare slope, a natural grassland and an artificial shrub grassland were obtained using a simulated rainfall experiment. The angle of the study slope was 15° and rainfall intensity was set at 60, 90, 120, 150, and 180 mm/hr. The effect these factors have on soil moisture infiltration was quantified using main effect analysis. Our results indicate that the average infiltration depth (ID) of a bare slope, a grassland slope and an artificial shrub grassland slope was 46.7–73.3, 60–80, and 60–93.3 cm, respectively, and average soil moisture storage increment was 3.5–5.7, 5.0–9.4, and 5.7–10.2 mm under different rainfall intensities, respectively. Heavy rainfall intensity and vegetation cover reduced the difference of soil infiltration in the 0–40 cm soil layer, and rainfall intensity increased surface infiltration differences on the bare slope, the grassland slope and the artificial shrub grassland slope. Infiltration was dominated by rainfall intensity, accounting for 63.03–88.92%. As rainfall continued, the contribution of rainfall intensity to infiltration gradually decreased, and the contribution of vegetation cover and slope length to infiltration increased. The interactive contribution was: rainfall intensity * vegetation cover > vegetation cover * slope length > rainfall * slope length. In the grass and shrub grass slopes, lateral flow was found at a depth of 23–37 cm when the slope length was 5–10 m, this being related to the difference in soil infiltration capacity between different soil layers formed by the spatial cross-connection of roots. 相似文献
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Saturated wetland soils are typically depleted in oxygen due to rapid consumption by biological processes. Fine-grained sediments limit the vertical flux of oxygenated surface water. In forested wetlands potential exists for advective transport along preferential flow pathways created by decomposing roots or tree remains, resulting in isolated zones of oxygenated pore water. This potential is enhanced in wetlands that are perched above the regional water table, where increases in surface-water depth create significant downward hydraulic gradients. Along the Mississippi River floodplain, many wetlands are now perched as a result of groundwater mining. This study was conducted at Sky Lake, MS, through a growing season, with high temporal-resolution monitoring of redox potential as a proxy for the delivery of oxygenated surface water at 30 and 60 cm depths at six locations. Results showed reducing conditions at all locations under moderate inundation, but redox potential rose significantly at a subset of locations when surface-water exceeded one meter in depth. Rising redox potential is argued to represent localised advective transport of oxygen in excess of the rate of biological consumption. Wetland plants growing in perennially saturated soils may benefit from periodic increases in water depth and subsequent increase in the flux of oxygen along preferential flow paths. 相似文献
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Permeability reduction of infiltration media due to suspended solid (SS) clogging is the bane of groundwater artificial recharge. To overcome the clogging problem and advance the understanding of the process‐based spatial‐temporal evolution of SS clogging, a 1D laboratory column simulation was carried out, followed by numerical modelling of the experimental data in this study. It was found that clogging caused a reduction in the hydraulic conductivity (K) in the upper layer at the beginning and extended deeper to approximately 50 cm, and no reduction in K was detected below 52 cm throughout the experimental period of 129 hr. The most clogged layer spanned from the surface to a depth of 11 cm, and the middle 11–52 cm was characterized by a slight decrease in K. The clogging rates of the different layers decreased with the depth, which was based on data analysis, with the largest value of 0.038 hr?1 in the upper 1 cm. The overall K began to decrease from the surface layer and was increasingly affected by clogging with time. A mathematical model was established to simulate the SS clogging process evolution based on considerations of the attachments and detachments of particles. Then the model was applied to perform several scenario analyses after calibration and validation using the data obtained in the experiment. The simulation results indicated that the SS concentration was much more sensitive than the groundwater depth below the land surface, and 10 days of constant recharge is recommended as the disposal cycle of the clogged layer under the given conditions. 相似文献
16.
新疆艾比湖湿地土壤水盐空间变异性分析 总被引:2,自引:0,他引:2
为揭示艾比湖湿地土壤退化程度空间分布特征,在离艾比湖湖滨5~15 km,绕湖一周160 km范围内,以湖心质点为中心,将艾比湖划分为东北、东南、西南、西北4个区域,采用传统统计学和地统计学相结合的方法对表层(0~20 cm)土壤盐分、含水量与p H的空间分异特征进行研究.结果表明:绕湖一周不同区域的土壤盐分均属中等变异强度;土壤含水量在西北部属强变异性,而东北、东南和西南部均属中等变异强度;土壤p H在不同区域内均属弱变异强度.绕湖一周除西北部土壤盐分的半方差理论模型较符合球状模型外,其它区域土壤盐分、含水量和p H均符合高斯模型;受结构性因素影响,不同区域土壤盐分、含水量和p H均具有较强的空间相关性;西南部土壤盐分、含水量和p H的Moran's I系数比其它区域的波动大,表明空间相关性较强.艾比湖湿地常年大风、干旱、缺水及沙化盐化的自然因素与引水围堰、种植耐盐碱植物的人为活动造成了采样区表层土壤盐分、含水量和p H的空间分布多呈现不规则条带状格局.艾比湖湿地土壤以盐土为主,重度盐化土次之,土壤盐渍化日益严重. 相似文献