包气带人工微生物反硝化除氮实验研究   总被引：5，自引：0，他引：5  

姜桂华  徐凌云 《长春地质学院学报》1997,27(4):435-439

利用土核模拟农田污灌下的包气带环境，对人工微生物在包气带中反硝化作用除氮进行了研究。并讨论了脱氮机理、脱氮效果及环境影响因素。  相似文献   

干湿交替条件下包气带土柱中氮素迁移转化规律实验   总被引：2，自引：0，他引：2       下载免费PDF全文

张沙莎  靳孟贵  孙强  董晓亮  汤庆佳 《地学前缘》2010,17(6):52-58

干湿交替的回灌方法常被用于解决地面回灌补给地下水的堵塞问题。研究干湿交替条件下地面回灌对地下水的影响对于指导再生水回灌地下水具有重要实际意义。通过室内土柱模拟实验,在入渗强度为10.5 mm/h的条件下,日均进水量3 888 mL;用干湿交替的地面回灌模式持续运行136 d,累计灌入氨氮含量为5 mg/L的模拟再生水23 894 L,研究包气带土柱对氨氮的去除效果及氮素在包气带中的迁移转化规律。研究表明,充分利用包气带的好氧、兼氧和厌氧环境,生物脱氮是地下水回灌过程中脱氮的主要途径。包气带对氨氮的去除机理主要为土壤对氨氮的吸附作用和微生物的降解作用。回灌过程中累积在土颗粒表面的氨氮在干期发生硝化作用,干湿交替会加强氮素在包气带的迁移转化,导致干期后的回灌初期大量硝态氮迁移到饱和带地下水中。  相似文献   

包气带土壤氮污染地下水研究     

《地下水》2021,(2)

地下水是维持人类正常生产生活不可或缺的资源,是生态系统中重要的一部分。近年来,我国地下水污染趋势由点源向面源发展,污染范围广且难治理,水质较差,其中"三氮"的污染也较为严重,由于来源的复杂性,地下水氮污染问题在世界范围内已呈普遍现象。在查阅相关文献的基础之上,文章主要从"三氮"的迁移转化、地下水氮污染来源进行评述。包气带是地下水的补给通道,阐述了包气带土壤氮污染地下水主要受包气带的岩性、厚度及包气带中"三氮"的相互转化,地下水位波动和化学肥料等因素影响。  相似文献   

土壤包气带强化反应层脱氮的控制因素与性能研究     

孙昭玥  郑西来  郑天元  栾永霞  辛佳 《地学前缘》2021,28(5):136-145

包气带作为防止地下水硝酸盐污染的天然屏障,其反硝化效果通常受到碳源的限制。针对地下水硝酸盐污染防治技术现状,本文采用Ca(OH)₂处理的玉米芯作为反硝化的碳源材料,构建包气带强化反应层,用响应曲面法研究硝酸盐浓度、含水量和温度的交互作用对脱氮性能影响,并用硝态氮去除率、亚硝态氮累积、pH值变化以及溶解性有机碳(dissolved organic carbon, DOC)淋失通量综合评价脱氮性能,最后采用高通量测序揭示脱氮层中微生物变化。研究结果表明:温度、含水量以及温度和含水量交互作用对硝态氮去除率影响显著,其中温度是反硝化过程中最关键的因素;系统运行74天后,硝态氮去除率达到50%,亚硝态氮累积量(以N计)大多低于3 mg/L,pH值维持在7.0左右,DOC淋失通量(以C计)介于0.10.2 mg/(cm²·d);高通量测序发现,脱氮层中微生物的丰富度降低,而与反硝化和碳分解有关的微生物相对丰度提高,在碳源的刺激下微生物向有利于脱氮的方向演变。  相似文献   

包气带土体NO-3污染的微生态修复实验研究     

张胜　张云张凤娥  荆继红 《地质通报》2004,23(11):1109-1112

社会经济的发展和资源的利用产生了一系列环境问题，尤其是化肥的超量施用，已经危及包气带土体和地下水的质量安全。大量的氮素没有被农作物吸收，经微生物硝化作用后，以硝态氮的形式进入包气带土体，使包气带土体普遍受到氮素不同程度的污染。本文简述了包气带土体硝态氮污染的室内微生态修复、阻控技术和实验研究，探讨了今后应用的可行性。  相似文献   

包气带硝酸盐分布的差异性及其形成机理:以正定、栾城为例   总被引：2，自引：1，他引：1       下载免费PDF全文

袁利娟  庞忠和 《水文地质工程地质》2012,39(1):75-80

在地表等量氮输入条件下,包气带中硝酸盐含量分布是其抗污染能力的直接表征。阐明不同包气带中硝酸盐分布的差异并分析其成因对于评价下覆含水层的硝酸盐污染脆弱性、保护地下水资源免遭硝酸盐污染,具有重要意义。本文基于太行山山前冲洪积扇上栾城和正定两个16m深包气带硝酸盐含量数据,指出两个剖面上包气带中硝酸盐分布特征的差异性。分析研究区的施肥历史、大气降水的入渗补给强度及土壤有机质含量,认为包气带水分运移速度和反硝化能力是导致包气带硝酸盐分布差异的两个关键因素。在分析N同位素测试技术进步的基础上,指出利用同位素技术对包气带中的反硝化能力的定量化研究有望取得新进展。  相似文献   

垃圾渗滤液的特征污染组分在包气带中的迁移转化规律   总被引：1，自引：0，他引：1  

高秀花  朱锁  李海明 《地下水》2008,30(3):37-40

通过室内土柱实验,研究了垃圾渗滤液的特征污染组分氮、COD在包气带不同介质中的迁移转化特征。实验结果表明,岩性不同的包气带介质是影响氮素、COD迁移转化的重要因素之一,不同介质对氮、COD的净化能力不同;渗滤液对地下水不会造成氮素污染,但会造成有机污染。  相似文献   

再生水干湿交替入渗过程中添加碳源对包气带脱氮的影响     

张沙莎  靳孟贵  梁杏 《地质科技情报》2011,30(4):115-119

干湿交替的回灌方法常被用于解决再生水地表回灌的堵塞问题,但干湿交替回灌可能造成硝态氮被淋洗进入地下水.通过室内土柱模拟入渗实验,对比研究了以葡萄糖作为碳源的低碳氮比再生水干湿交替回灌、干期前蒸馏水淋洗、干期前添加甲醇溶液和干期后添加甲醇溶液4种条件下对包气带氮素迁移转化和脱氮效果的影响.实验表明,对于碳氮比为2.5∶1...  相似文献   

氨氮污染源区包气带剖面微生物生态分布特征的研究     

程雅楠  关翔宇  曲文龙  陈鸿汉  刘菲  谢宇轩  朱玲玲 《岩矿测试》2013,32(2):296-305

包气带土壤中氨氮污染迁移规律已成为近年来国内外学者研究的重点,目前在氨氮污染迁移规律研究中采用柱实验模拟以及软件模拟的方法较多,土壤生物技术则广泛应用于污染物降解领域,而在污染物迁移规律研究中应用较少。本文采用变性梯度凝胶电泳(DGGE)技术、16S rRNA序列分析技术以及典范对应分析相结合,对华北平原3个典型氨氮污染区土壤表层至包气带剖面微环境的细菌垂直分布特征及群落结构进行研究。结合污染区土壤理化性质分析,认为包气带土壤剖面的细菌群落中存在着与氮循环、硫酸盐代谢等过程偶联的优势细菌类群,说明土壤微环境中细菌群落分布明显受氨态氮、硝态氮、亚硝态氮和硫酸盐的分布影响,进一步表明污染土壤优势菌群的群落结构信息是描述包气带土壤环境氨氮污染物迁移规律的重要参数。  相似文献   

基于HYDRUS-1D模型模拟关中盆地氮在包气带中的迁移转化规律     

《华北地质》2015,(4)

以陕西关中盆地为研究区,利用HYDRUS-1D软件构建土壤水分运移模型、作物根系吸水模型和溶质运移模型,模拟了"三氮"在包气带中的迁移转化过程。结果表明:1)作物根系吸水吸氮规律一致,且主要吸收氨氮形式的氮素,吸收率为35%;2)亚硝态氮和硝态氮更容易被淋失到地下水中,且主要以硝态氮为主;3)不同包气带岩性对"三氮"向下迁移的速率和迁移量影响很大。  相似文献   

Advance in Studies on Intracellular Nitrate Storage and Denitrification of Benthic Foraminifera     

Xu Zhaomeng  Liu Sumei 《地球科学进展》2017,32(9):949-958

Benthic foraminifera is the first kind of eukaryotes reported to carry on denitrification, which breaks the understanding of the eukaryotic metabolic way. Numerous studies have demonstrated that the contribution of benthic foraminifera to sedimentary denitrification exceeds the prokaryotes. Furthermore, benthic foraminifera stores large amount of nitrate intracellularly, which far exceeds the amount of nitrate in pore water. These findings challenge our understanding of the nitrogen cycle in sediments. The study of foraminiferal intracellular nitrate storage and denitrification is significant to figure out the metabolic way of eukaryote in anoxic environment and to quantify the balance of nitrogen in marine environment. The history of foraminiferal intracellular nitrate storage and denitrification study was discussed. In addition, the distribution of foraminiferal intracellular nitrate and denitrification rates in marine environment was also discussed. The latest research progresses about the related mechanism were also summarized. Finally, the problems and challenges in present and future studies were discussed.  相似文献   

Groundwater nitrate pollution in the recharge zone of a regional Quaternary flow system (Wielkopolska region, Poland)   总被引：2，自引：0，他引：2  

Krzysztof Dragon 《Environmental Earth Sciences》2013,68(7):2099-2109

The present study examines the behaviour of nitrate in the recharge zone of a regional Quaternary flow system. The presence of contaminated groundwater with high nitrate content in the shallow part of the flow system was documented. Tritium analyses confirmed that these contaminants can migrate downward. A high downward gradient exists in the study area, extending into the regions of groundwater extraction. In the unconfined part of the flow system, which is the most vulnerable to pollution, a high concentration of nitrate was found to occur at great depth. However, denitrification processes limit nitrate migration. As a result, in the deeper parts of the flow system in regions under confined conditions, an absence of nitrate was observed, and a higher sulphate concentration and total hardness were evident. The denitrification was also confirmed by the existence of a high gaseous N₂ concentration. It was documented that denitrification occurs in both the confined and unconfined parts of the flow system, but the potential for denitrification is higher in the confined parts (leading to the disappearance of nitrate in deep aquifers). Autotrophic denitrification supported by sulphide compounds was indicated as the dominant denitrification process.  相似文献   

The role of sediment denitrification in reducing groundwater-derived nitrate inputs to Nauset Marsh estuary, Cape Cod, Massachusetts     

Barbara L. Nowicki  Edwin Requintina  Donna Van Keuren  John Portnoy 《Estuaries and Coasts》1999,22(2):245-259

The Nauset Marsh estuary is the most extensive (9.45 km²) and least disturbed salt marsh/estuarine system within the Cape Cod National Seashore, even though much of the 19 km² watershed area of the estuary is developed for residential or commercial purposes. Because all of the Nauset watershed is serviced by on-site individual sewage disposal systems, there is concern over the potential impact of groundwater-derived nutrients passing from these systems to the shallow receiving waters of the estuary. The purpose of this study was to determine whether denitrification (the bacterial conversion of nitrate to gaseous nitrogen) in estuarine sediments could effectively remove the nitrate from contaminated groundwater before it passed from the watershed to the estuary. Rates of denitrification were measured both in situ and in sediment cores, in areas of active groundwater discharge, in relatively pristine locations, and in areas situated down-gradient of moderate to heavily developed regions of the watershed. Denitrification rates for 47 sediment cores taken over an annual cycle at 5 stations ranged from non-detectable to 47 μmol N₂ m⁻² h⁻. Mean denitrification rates were positively correlated with sediment organic content, and varied seasonally due to changes in sediment organic content and to the effect of water temperatures on sediment oxygen penetration depths. There was no correlation between observed denitrification rates and corresponding nitrate concentrations in groundwater. A comparison of in situ denitrification rates (supported by groundwater nitrate) with denitrification rates observed in sediment cores (supported by remineralized nitrate) showed that groundwater-driven denitrification rates were small, and not in excess of denitrification rates supported by remineralized nitrate. Most of the denitrification in Nauset sediments was apparently fueled by remineralized nitrate through coupled nitrification/denitrification. Denitrification did not contribute significantly to the direct loss of nitrate from incoming groundwater at Nauset Marsh estuary. Groundwater flow was rapid, and much of it occurred in freshwater springs and seeps through very coarse, sandy, well-oxygenated sediments of limited organic content. There was little opportunity for denitrification to occur during groundwater passage through these sediments. These results have important management implications because they suggest that the majority of nitrogen from contaminated groundwater crosses the sediment/water interface and arrives at Nauset Estuary, where it is available to primary producers. Preliminary budget calculations suggest that while denitrification was not an effective mechanism for the direct removal of nitrate in contaminated groundwater flowing to Nauset Marsh estuary, it may contribute to significant nitrogen losses from the estuary itself.  相似文献   

细菌反硝化法同时分析天然水中硝酸盐氮、氧同位素组成研究   总被引：6，自引：0，他引：6  

毛绪美  罗泽娇  刘存富  刘江霞  李永勇 《地质科技情报》2006,25(5):97-100

细菌反硝化法是目前同时分析天然水中硝酸盐氮、氧同位素组成的最新方法。该方法包括反硝化菌的选取与培养,利用反硝化菌将硝酸根完全转化成N2O气体以及N2O气体的提取、纯化和同位素测定。该方法采用硝酸盐标准,对测试结果需进行试剂本底、同位素分馏、同位素交换校正。与传统方法相比,细菌反硝化法可同时分析低浓度微量水中硝酸盐的氮、氧同位素组成,且速度更快捷,结果更可靠。  相似文献   

地下水硝酸盐氮同位素分析最新方法——细菌反硝化法   总被引：6，自引：2，他引：6  

毛绪美  罗泽娇  李永勇  刘存富 《地球学报》2005,26(Z1):44-47

细菌反硝化法是目前地下水中硝酸盐氮同位素分析的最新方法，包括反硝化菌的选取与培养、反硝化菌将硝酸盐完全转化成N2O气体、N2O气体的提取与纯化、N2O气体氮同位素测定。与传统方法相比，细菌反硝化法可分析低浓度微量水中硝酸盐氮同位素，且更为快捷可靠。  相似文献   

纳米铁还原脱氮动力学及其影响因素   总被引：3，自引：1，他引：2  

黄园英  秦臻  刘丹丹  王晓春 《岩矿测试》2011,30(1):53-58

饮用水中硝酸盐(NO3-)对人体健康有危害。为了去除水溶液中NO3-,在实验室制得纳米铁颗粒。它的粒径为20～40 nm,比表面积(BET)为49.16 m2/g。本研究通过批实验考察了纳米铁对NO3-还原脱氮动力学性质和影响NO3-脱氮快慢的主要因素,如反应pH、纳米铁投加量和NO3-起始浓度。实验结果表明,pH越低越有利于NO 3-还原。在一定范围内,NO 3-还原速率随纳米铁投加量增加而增大,而随NO 3-起始浓度升高而降低,反应遵循准一级反应动力学方程,表面吸附和氧化还原反应是纳米铁对NO3-脱氮的主要去除机理。纳米铁对NO3-还原过程中可能反应的途径进行了讨论,NO3-还原产物取决于反应条件。在本研究条件下,纳米铁对NO3-脱氮的最终产物主要为NH4+-N而不是N2,必须进行更多的研究来解决这一问题。  相似文献   

Influences of the unsaturated,saturated, and riparian zones on the transport of nitrate near the Merced River,California, USA   总被引：1，自引：0，他引：1  

Joseph L. Domagalski  Steven P. Phillips  E. Randall Bayless  Celia Zamora  Carol Kendall  Richard A. WildmanJr  Janet G. Hering 《Hydrogeology Journal》2008,16(4):675-690

Transport and transformation of nitrate was evaluated along a 1-km groundwater transect from an almond orchard to the Merced River, California, USA, within an irrigated agricultural setting. As indicated by measurements of pore-water nitrate and modeling using the root zone water quality model, about 63% of the applied nitrogen was transported through a 6.5-m unsaturated zone. Transport times from recharge locations to the edge of a riparian zone ranged from approximately 6 months to greater than 100 years. This allowed for partial denitrification in horizons having mildly reducing conditions, and essentially no denitrification in horizons with oxidizing conditions. Transport times across a 50–100-m-wide riparian zone of less than a year to over 6 years and more strongly reducing conditions resulted in greater rates of denitrification. Isotopic measurements and concentrations of excess N₂ in water were indicative of denitrification with the highest rates below the Merced River. Discharge of water and nitrate into the river was dependent on gradients driven by irrigation or river stage. The results suggest that the assimilative capacity for nitrate of the groundwater system, and particularly the riverbed, is limiting the nitrate load to the Merced River in the study area.  相似文献   

Nitrate source and fate at the catchment scale of the Vibrata River and aquifer (central Italy): an analysis by integrating component approaches and nitrogen isotopes   总被引：1，自引：0，他引：1  

Tiziana Di Lorenzo  Mauro Brilli  Dina Del Tosto  Diana M. P. Galassi  Marco Petitta 《Environmental Earth Sciences》2012,67(8):2383-2398

The aim of this study is to apply an integrated approach to determine nitrate sources and fate in the alluvial aquifer of the River Vibrata (Abruzzi, central Italy) by coupling the Isotope and the Component approaches. Collected data include concentration and nitrogen isotope composition of groundwater samples from the alluvial aquifer and nitrogen loads arising from agricultural and non-agricultural sources. The adopted methodology identified synthetic fertilizers as main sources of nitrate in the Vibrata alluvial aquifer. At the catchment scale, two different zones have been identified: the Upper Valley, where infiltration to groundwater is dominant and nitrogen easily migrates into the aquifer; in this area, nitrate content in groundwater is stable and normally higher than EU requirements. Moreover, streamwaters are fed by groundwater with a nitrate content likely lowered by denitrification processes occurring in the hyporheic zone. In the Lower Valley, runoff processes dominate and the nitrate content in surface waters is higher. Nevertheless, groundwater is locally affected by denitrification that breaks down the nitrate content, which often reaches values consistent with law limits.  相似文献   

Acceleration of Selenate Reduction by Alternative Drying and Wetting of Soils   总被引：1，自引：0，他引：1  

朴河春  刘广深等 《中国地球化学学报》1996,15(3):278-284

In nature selenate reduction and nitrate denitrification both follow a similar biogeo-chemical mechanism.It has been proved that abiotic stresses such as alternative drying and wetting can exert an important influence on nitrate denitrification as well as on selenate reduction.Our experimental results lend great support to the above conclusion.  相似文献