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1.
太湖人工生态系统中氮循环细菌分布 总被引:7,自引:1,他引:6
对太湖五里湖的以水生高等植物为主的湖泊人工生态系统,用最大可能数(MPN)法,测定了该系统内各种生态类型水生高等植物群落内的4类氮循环细菌的分布.结果表明,反硝化细菌的最大可能数(MPN),在水生高等植物群落内水体中较敞水区湖水高2-5个数量级,差异极显著(P<0.01),漂浮植物群落内水体的反硝化细菌MPN值较沉水和浮叶植物群落内水体高2-3个数量级,差异极显著(P<0.01);硝化细菌MPN值,敞水区湖水高于凤眼莲、水花生群落内水体,差异显著( P< 0. 05),菱群落与其他群落比较,亦有极显著性差异( P< 0. 01);亚硝化细菌MPN值,在水生高等植物群落内的水体中较敞水区高 3- 4个数量级,差异极显著( P< 0. 01) ;氨化细菌MPN值,在水生高等植物群落内的水体中高于敞水区水体.除硝化细菌外,反硝化、亚硝化及氨化细菌均在根际处最为密集,且由根际向外呈现递减趋势. 相似文献
2.
利用改性粘土治理蓝藻水华堆积的湖泊近岸区域以及发生水华的养殖水体成为应急治理蓝藻的重要措施,然而负载有毒藻体的改性粘土沉积水体可能引发的安全性风险尚缺乏研究.选取PAC改性粘土作为研究对象,通过模拟实验,研究改性粘土处理蓝藻水华后沉积水体对负载的藻细胞结构、水体营养盐与藻毒素的释放与削减以及对其他水体功能性细菌(硝化、反硝化细菌)的影响.结果表明,PAC改性粘土的施用对低水华水体蓝藻细胞的去除率为96.04%±0.99%,高水华水体与低水华水体施用的去除率之间差异不显著,PAC改性粘土的施用能够在较长的时间内有效地控制水体中的蓝藻浓度.透射电镜结果表明,PAC改性粘土沉降蓝藻第4 d后,蓝藻细胞膜出现了一定程度的不完整,细胞内规则的类囊体片层结构出现了实质性损伤.随着粘土负载蓝藻细胞的损伤,水体中的总可溶性氮浓度迅速上升,但总可溶性磷浓度仍可在较长一段时间内维持在较低水平.PAC改性粘土施用后,水体的总细菌数与空白对照组趋于一致,但硝化、反硝化细菌数却呈显著下降趋势.PAC改性粘土施用下的藻毒素释放风险主要集中在高水华水体.高水华水体中,PAC改性粘土施用导致藻毒素MC-LR和MC-RR加速释放,其最高峰值分别达到空白对照组的1.69±0.09和2.04±0.09倍,但水体MC-LR浓度达到安全限(1μg/L)的时间明显比空白对照组早8 d.此外,PAC改性粘土的施用并没有导致水体中Al~(3+)和Cl~-浓度超标. 相似文献
3.
采用最大可能数法对平原河网地区不同氮污染程度河道水体中浮游、颗粒附着及底泥中的氨化、亚硝化、硝化和反硝化菌进行测定,研究水体氮污染程度对氮循环菌不同种群的影响效应及其分布特征.结果表明,浮游、颗粒附着和底泥中亚硝化菌的丰度随着水体氮污染程度的增加而升高,但不同氮污染程度下氮循环菌种群结构组成之间差异不大,而浮游、颗粒附着及底泥生活类型之间的氮循环菌种群结构组成存在较大差异,其中浮游与底泥中氮循环菌种群组成结构之间差异最大.在氮污染水体中,浮游、颗粒附着和底泥氮循环菌中均以氨化菌为优势种群,显著高出其他氮循环菌种群多个数量级,而亚硝化菌和硝化菌丰度相对较低,反硝化菌在水体悬浮颗粒物上存在相对较高的丰度,不同氮循环菌种群组成比例存在失衡现象. 相似文献
4.
江苏省五大湖泊水体重金属的监测与比较分析 总被引:4,自引:2,他引:2
2001—2011年(不含2004年)10年间对江苏省五大湖泊(太湖、滆湖、洪泽湖、高宝邵伯湖和骆马湖)的水体重金属浓度进行长期定点监测,按系统分组资料进行方差分析,以比较各重金属浓度在湖泊间的差异显著性,并在此基础上应用多指标综合评价法(TOPSIS法)对5个湖泊水体重金属进行综合比较.结果表明:除铜浓度外,5个湖泊间铅、镉、汞和砷4个指标浓度均存在极显著差异;5种重金属浓度湖泊内站位间均差异不显著;铅、镉和汞浓度站位内年份间差异显著或极显著.TOPSIS分析结果表明,总体而言高宝邵伯湖水体重金属污染程度最小,骆马湖水体重金属污染程度最大,洪泽湖、太湖和滆湖水体重金属污染综合评价优劣相当. 相似文献
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6.
固定化土著氮循环细菌在城市湖泊水体净化中的应用 总被引:2,自引:1,他引:1
从镇江金山湖天然水体中筛选分离出土著氨化、亚硝化、硝化和反硝化细菌,对氮循环细菌固定化后在镇江金山湖示范工程区进行水体净化应用.结果表明,运行一段时间后水质得到明显改善,氨氮、亚硝酸盐氮和硝酸盐氮以及总氮浓度处于动态变化中,有降低的趋势;氨氮含量已经达到Ⅱ类指标,总氮和COD分别达到Ⅴ类、Ⅲ类指标;分析结果还显示硝酸盐氮是金山湖水体中总氮的主要存在形式,与水体荒漠化状态有关;固定化氮循环细菌通过扩散,可以增加水体及植物根区的微生物数量,高出对比组1-3个数量级;固定化氮循环细菌技术对荒漠化水体氨氮、总氮和COD去除具有重要意义. 相似文献
7.
冬季富营养化湖泊中水生植物的恢复及净化作用 总被引:42,自引:2,他引:40
秋末冬初大多数水生植物处于衰亡期,在透明度较低的富营养化湖泊中引种和恢复水生植物往往十分困难,借助物理生态工程技术,秋末冬初在重富营养化湖泊中新建的1000m^2围隔内,引种漂移植物和沉水植物;利用群落间的相互作用及人工干预,若干种水生高等植物不仅能够引种存活,而且能够快速提高水体透明度、改善水质,引种水生高等植物3周后,有水生高等植物的围区内水体透明度提高一倍,并长期保持在较高水平,6周后,有植物围区内水体TN浓度比对照围区及开敞水域分别降低43.7%和59.4%,TP分别降低50.3%和57.0%;6个月后,TN分别降低61.6%和79.7%有植物围区较开敞水体降低72.9%。 相似文献
8.
实验设计中试水槽装置,模拟研究2种沉水植物轮叶黑藻(Hydrilla nerticillata)和苦草(Vallisneria natans)对农村水体的净化效果,并探讨沉水植物在水体氮、磷去除中的作用.结果显示,沉水植物系统均能显著降低水体中总氮、铵态氮、硝态氮和磷酸盐浓度,去除率分别达到50.5%、84.4%、41.9%和64.6%,且轮叶黑藻组选择20 g/m2,苦草组选择40 g/m2为适种密度.水体流经各串联单元时氮、磷去除负荷存在显著差异,其中总氮、硝态氮、磷酸盐浓度在有植物单元高于无植物单元,铵态氮浓度相反,结合单元内溶解氧浓度、硝化与反硝化细菌总数表明,有植物单元可显著发生反硝化作用,无植物单元可显著发生硝化作用,有无植物串联单元更有利于氮的去除. 相似文献
9.
湖北长湖水生植物多样性及群落演替 总被引:4,自引:0,他引:4
在2011年的调查基础上,结合已有资料,研究长湖水生植物多样性、群落特征、水生植被分布现状及水生植物多样性的动态变化和群落演替规律,探讨驱动水生植物群落演替的主导因素.结果显示长湖现有水生植物95种,水生植物优势群落12个.与1985年相比,长湖水生植物无论是在优势种还是优势群落上均发生了巨大变化,从原来以沉水植物为主的优势群落逐步演替为以挺水植物+漂浮浮叶植物为优势的水生植物群落.同时水生植被分布面积急剧缩小,生物量显著下降,2011年全湖水生植被覆盖率仅为4.2%,单位面积平均生物量只有2001年的10%,全湖生物总量相比于2006年下降了88.5%.分析表明,大规模围网养殖等人为干扰活动及水体富营养化是致使长湖水生植物多样性显著下降和群落发生逆向演替的主要原因. 相似文献
10.
淀山湖水生维管束植物群落研究 总被引:16,自引:1,他引:15
论述了淀山湖水生维管束植物的种类组成、分布、群落类型、群落的数量特征及演替。结果是:(1)湖中分布有26种水生维管束植物,隶属16科,21属;其优势种为苦草、菹草、马来眼子菜、芦苇等。(2)湖中水生植被呈不规则环带状分布,并可划分为挺水、浮叶、沉水三个植物带,12个主要水生维管束植物群落。(3)水生维管束植物的重要值以苦草最大,茨藻属植物最小。(4)淀山湖水生维管束植物群落有由沉水型向浮叶型、挺水型或漂浮型过渡的趋势。 相似文献
11.
Enrica Pierobon Giuseppe Castaldelli Sara Mantovani Fabio Vincenzi Elisa Anna Fano 《洁净——土壤、空气、水》2013,41(1):24-31
Secondary drainage canals have the potential to effectively mitigate excess nitrogen loads from diffuse and point sources. In vegetated (Phragmites australis and Typha latifolia) and in unvegetated canals subjected to diffuse and point pollution, nitrogen removal was evaluated by means of simple in–out mass balance and potential uptake by macrophytes was estimated from biomass data. Results suggest an elevated control of nitrogen in vegetated ditches receiving point source of pollution (average abatement of 50% of the total N load per linear km), whereas removal processes are much less effective in unvegetated ditches. The comparison between net abatement and plant uptake, highlights the presence of other unaccounted for processes responsible for a relevant percentage of total N removal. Overall, results from this study suggest the importance of actions aiming at the appropriate management of emergent vegetation, in order to improve its direct and indirect metabolic functions and maximize nitrogen removal in impacted watersheds. 相似文献
12.
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
13.
《水文科学杂志》2013,58(2):316-326
Abstract Nitrate contamination in groundwater originates mainly from excessive use of fertilizers and uncontrolled discharge to land of incompletely-treated wastewater associated with agricultural activities. A systematic field investigation was carried out in a sub-catchment of Dianchi Lake, Kunming, Yunnan, China, into the hydrological, biological and geological processes of nitrogen transport and transformation in the aeration zone and aquifer system. In situ experiments showed that the quantity of NO3-N recharged into groundwater was related to fertilization. Nitrification and denitrification behaved quite differently but were affected by moisture content and Eh value. The vertical infiltration rate was controlled by the groundwater table and hydraulic conductivity of the soil. The existence of a zero-flux plane reflected the dynamics of water fluxes in the soil profile and Eh was measured in the aeration zone. In response to these factors, the nitrification rate was greatest in the top soil and reduced with the depth of soil; it was 6.53 mg/(kg·h) in the vegetated plot and 0.2–0.3 mg/(kg·h) in the unvegetated one. The denitrification rate in the unvegetated plot was 6.36 mg/(kg·h), and it was 2.79 mg/(kg·h) in the vegetated one. 相似文献
14.
Cleary DF Oliveira V Gomes NC Pereira A Henriques I Marques B Almeida A Cunha A Correia A Lillebø AI 《Marine pollution bulletin》2012,64(2):263-271
We compare the environmental characteristics and bacterial communities associated with two rushes, Juncus maritimus and Bolboschoenus maritimus, and adjacent unvegetated habitat in a salt marsh subjected to historical mercury pollution. Mercury content was higher in vegetated than unvegetated habitat and increased with sampling depth. There was also a significant relationship between mercury concentration and bacterial composition. Habitat (Juncus, Bolboschoenus or unvegetated), sample depth, and the interaction between both, however, explained most of the variation in composition (~70%). Variation in composition with depth was most prominent for the unvegetated habitat, followed by Juncus, but more constrained for Bolboschoenus habitat. This constraint may be indicative of a strong plant-microbe ecophysiological adaptation. Vegetated habitat contained distinct bacterial communities associated with higher potential activity of aminopeptidase, β-glucosidase and arylsulphatase and incorporation rates of (14)C-glucose and (14)C-acetate. Communities in unvegetated habitat were, in contrast, associated with both higher pH and proportion of sulphate reducing bacteria. 相似文献
15.
Reef islands on the Great Barrier Reef are influenced by a range of environmental factors. A meta‐analysis of 103 islands is presented to express variation in island size (area and volume) as a function of latitudinal and cross shelf gradients in regional oceanographic factors (exposure to incident waves, tidal range and tropical cyclone frequency) and local physical factors (position on the shelf, area, length and depth of supporting reef platform, vegetative cover). Models performed well for unvegetated sandcays (R2 = 0.89), vegetated sandcays (R2 = 0·72) and low wooded islands (R2 = 0.78), with a moderate level of variation explained when all islands were simultaneously regressed (R2 = 0.58). Future island dynamics were simulated for anticipated changes in cyclone regime, wave activity and sea level. For 38 islands mapped on the 1973 Royal Society and Universities of Queensland Expedition to the Northern Great Barrier Reef, change over the same 22 year period (1973–1995) was determined and the relative magnitude of observed and modelled changes was compared and found to be consistent through rank correlation analysis (Γ = 0.84 for unvegetated sandcays, Γ = 0.81 for vegetated sandcays). Simulations of island area or volume change from 2000 to 2100 indicated that under a 30% decrease in tropical cyclone activity, unvegetated sandcays continue to accrete at a lower rate, whereas all island types erode under a 38% increase in tropical cyclone activity. Vegetated sandcays initially accrete at higher levels of cyclone activity, entering an erosive state with a 60% increase in activity. Low wooded islands are unresponsive to environmental changes modelled. A sensitivity analysis of vegetated and unvegetated sandcays indicated that the presence of vegetation increases the tropical cyclone activity threshold at which islands begin to erode. Greatest sedimentary losses occur within the central band of high cyclone activity between Cooktown and Mackay. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
16.
氨氮是地表水常见污染物,尤其在农业区域,氮类化肥的不合理施用会导致周边水体氮浓度迅速升高并保持较高水平.然而,当前对高氮水平下沉水植物腐败和附着氮循环微生物的影响尚不清楚.以轮叶黑藻(Hydrilla verticillata)为研究用沉水植物,在实验室内模拟水体内8和16 mg/L氮浓度下轮叶黑藻腐解过程中营养盐释放及残体表面微生物氮循环功能基因丰度的变化.研究发现水体两种氮浓度下轮叶黑藻腐解过程中残体腐解及营养盐释放速率无显著差异;与对照相比,植物腐败初期水体内碳、磷浓度迅速增加,而溶解氧浓度及氧化还原电位迅速降低,随着时间的推移上述水质指标逐步恢复至初期状态(第146天);水体荧光溶解性有机质主要包括紫外类富里酸、可见类富里酸、色氨酸类蛋白质和酪氨酸类蛋白质等类型.在5个氮循环相关基因中,氮负荷增加对轮叶黑藻残体生物膜内amo A、napA和narG的丰度有显著影响.冗余分析表明氮循环基因丰度受水体总氮浓度的影响较小,与植物总有机碳含量和水体化学需氧量及溶解氧浓度存在相关性.研究结果表明虽然当前氮水平对植物腐败过程影响不大、对氮循环基因丰度有一定影响,但是对该水生植被(尤其是植物腐败初期)和农业退水排放的管理仍需加强,以降低其对水体的影响. 相似文献
17.
铁作为地壳中丰度最高的氧化还原敏感元素,对湖泊沉积物的氧化还原作用具有重要的指示意义.水生植物根系泌氧在根际形成微域的氧化圈,根际是氧化、还原同时发生的生物活跃区.以轮叶黑藻(Hydrilla verticillata)为研究对象,利用微电极和荧光定量PCR探讨根系泌氧作用对沉积物中典型铁氧化菌(嘉利翁氏菌)和典型铁还原菌(地杆菌)的影响.结果表明,轮叶黑藻生长迅速,通过根系泌氧作用影响沉积物中铁的价态和形态,是根际铁循环的重要参数,并对根际微区微生物有一定的影响.根系泌氧使根际嘉利翁氏菌和地杆菌数量增加,进一步影响根际微生物铁循环.实验结果可为微生物对根际铁循环的研究提供一定的理论基础. 相似文献
18.
This study combined bacterial incubation and hydrogeochemical methods to investigate denitrification in the surface water, top soil (0–20 cm), and shallow groundwater of the Ochi wetland in Japan. Surface water was rich in nitrate (40 mg/l) and denitrifying bacteria (700 per ml). Three functional zones in the wetland were identified in the top soil and shallow groundwater. In the upstream portion of the wetland (Zone I), the counts of denitrifying bacteria in top soil increased from 5200 to 14 970 per ml and nitrate decreased from 25·4 to 1·8 mg/l. Organic carbon concentrations decreased as sulfate increased from 4·0 to 9·6 mg/l in this zone. In the middle‐stream of the wetland (Zone II), all concentrations of major anions, iron, organic carbon, and total nitrogen content in top soil were relatively constant, but the counts of denitrifying bacteria increased up to 70 200 per ml. In the downstream portion of the wetland (Zone III), complete removal of nitrate resulted in sharp reduction of counts of denitrifying bacteria. Correspondingly, dissolved oxygen (DO), organic carbon, and total nitrogen increased in this zone. Counts of denitrifying bacteria were lower in shallow groundwater than in top soil; nitrate concentrations in shallow groundwater were also very low in this zone. DO and the oxidation/reduction potential data suggest that groundwater flows to the surface along an extended flow path, thus providing nitrate for the denitrifying community. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献