硝基苯、苯胺在湿地土壤不同有机组分中的吸附特征

应用平衡法研究了湿地土壤不同有机组分对硝基苯和苯胺的吸附行为.结果表明,吸附等温线经拟合后均符合Freundlich模型,可决系数分别为R2=0.983～0.997,R2=0.963～0.991(P<0.01,n=5),土壤不同有机组分对硝基苯和苯胺的吸附表现为非线性特征,其吸附过程与有机质含量和结构有关.硝基苯和苯胺在湿地土壤中的吸附主要受腐殖酸、易氧化有机质组分和脂类化合物的影响,其中腐殖酸对硝基苯和苯胺具有最大的吸附容量;脂类化合物表现为与硝基苯、苯胺竞争土壤有机质结构中的吸附位点,去除脂类化合物后残余物的吸附量增大;矿物组分对硝基苯和苯胺的吸附是次要的,吸附容量仅为2.31mg·kg-1和3.63mg·kg-1.硝基苯和苯胺的Koc值分别按如下顺序增加:碱提取残余物<原始土<过氧化氢氧化残余物<苯/甲醇提取残余物,原始土<苯/甲醇提取残余物<过氧化氢氧化残余物<碱提取残余物.     

湿地土壤对硝基苯的吸附-解吸作用

应用平衡法研究硝基苯在湿地土壤中的吸附-解吸特性.结果表明,湿地土壤对硝基苯具有较强的吸附能力,其吸附行为可以用Linear和Freundlich型吸附等温式描述,不同类型湿地土壤对硝基苯的吸附和解吸能力有所不同.将吸附常数Kf与湿地土壤的理化性质进行相关性分析表明,土壤有机质含量与硝基苯吸附系数显著相关(r=0.888,P<0.01,n=7),其中泥炭沼泽土表层有机质含量最高,其吸附系数也最大(86.44 mg·kg-1).硝基苯在湿地土壤中的吸附自由能变化量为10.68～13.45 kJ·mol-1,表明其吸附以物理吸附为主.不同类型湿地土壤对硝基苯的解吸能力也有一定的差别,其中草甸白浆土的解吸率最大(41.87%),泥炭沼泽土表层解吸率最小(11.79%).     

黄河口典型芦苇湿地土壤磷的吸附动力学特征

以黄河口不同淹水条件的芦苇湿地为研究对象（潮汐淹水湿地、淡水恢复湿地和季节性淹水湿地）,通过吸附模拟实验探讨了不同类型湿地表层土壤对磷的吸附动力学特征及其影响因素,评估了不同淹水条件下湿地土壤对磷的吸附能力。研究结果表明：具有不同水盐条件的芦苇湿地土壤对上覆水体中磷的吸附表现为淡水恢复湿地>潮汐淹水湿地>季节性淹水湿地,淡水恢复湿地土壤对磷的吸附量最大;三类湿地土壤对磷的吸附过程均表现为初期（0~3 h）最快、中期（3~24 h）逐渐减慢、后期（24 h以后）慢而平衡的状态,但淡水恢复湿地土壤对磷的吸附速率最快,季节性淹水湿地土壤对磷的吸附速率最慢且存在着时间上的延迟性;三类湿地土壤的水盐条件和理化性质差异（如pH、盐度、土壤质地、Al₀、Fe₀和Ca₀）是导致三类湿地土壤对磷的吸附量和吸附速率存在差异的主要因素;Simple Elovich模型和Power Function模型更适合模拟黄河口芦苇（Phragmites australis）湿地土壤对磷的吸附动力学特征。在黄河口退化芦苇湿地实施淡水恢复工程,能够在一定程度上促进湿地土壤对磷的吸附,进而降低湿地水体发生富营养化的风险。     

向海沼泽湿地土壤中硝态氮的水平运移规律

选择封闭性的付老文泡湿地和开放性的二百方子湿地作为两个典型区,以KNO₃为示踪剂,模拟研究了硝态氮在向海沼泽湿地中的水平运移过程.结果表明,沼泽湿地土壤中硝态氮的运移通量与运移距离显著负相关,并随运移距离的增加呈一阶衰减指数变化;而沼泽湿地土壤中硝态氮的运移通量与土壤水扩散率及土壤含水量都呈显著正相关关系,并随土壤水扩散率的增加呈指数增长.     

互花米草对苏北滨海湿地表土有机碳更新的影响

自互花米草引入苏北滨海湿地后,逐渐替代本土植物盐蒿并形成单一植被的互花米草湿地.选择苏北地区盐蒿湿地及不同生长年限的互花米草湿地,采集其表层土壤样品,分别测定全土和分离的土壤粒径组分中总有机碳及δ13C值,分析湿地土壤有机碳浓度及其同位素组成的变化.结果表明,互花米草引入盐蒿湿地后,表层土壤有机碳浓度显著增加(增量达70%),且随着互花米草生长时间延长而明显增加.与盐蒿湿地相比,互花米草湿地土壤中大团聚体(>250mm)和微团聚体组分(53~250mm)有机碳浓度均显著增加,而粉粒组分(2~53mm)则无明显变化.互花米草湿地土壤原状土及各粒径组分的δ13C值均明显高于盐蒿土壤,源于互花米草的新碳在各粒径组分中均有分布,但主要富集在大团聚体组分中,占该组分总碳的31%~43%,说明互花米草生长对土壤有机碳浓度增加主要反映在粗粒径组分中,而对粉、黏粒组分则影响较小.     

石油输入对河口芦苇湿地根际微生物的影响

以辽东湾双台子河河口芦苇湿地为对象,以石油污染物作为主要的外源性污染物,采用湿地模拟实验装置进行了为期6个月的室外模拟实验,研究了石油的重要组分正构烷烃和多环芳烃在芦苇根区土壤中的时空分布及对湿地植物根际土壤微生物种群数量和群落结构的影响. 结果表明,石油污染物的输入降低了土壤的含氧量,减少了根际细菌的数量,芦苇根际细菌的数量仅为对照的1/4,同时也改变了微生物群落的优势菌群.经过6个月的含油河水灌溉后,形成了以变形菌门(Proteobacterium spp.)和拟杆菌门(Bacteroidetes spp.)为主要优势菌群的群落结构,而厚壁菌门(Firmicutes spp.)、放线菌门(Actinobacteria spp.)和蓝藻门(Cyanobacteria spp.)则受到不同程度的抑制.     

几种人工湿地基质净化磷素的机理

研究了砂子、沸石、蛭石、黄褐土、下蜀黄土、粉煤灰和矿渣7种人工湿地基质材料净化污水磷素的机理,并初步评价了其作为人工湿地基质可能导致的磷素二次污染的风险.结果表明,矿渣、粉煤灰有很好的磷素去除效果,蛭石、黄褐土和下蜀黄土次之,沸石和砂子的去除效果较差.上述人工湿地基质净化磷素的机理主要为化学机理,表现为基质全钙、氧化钙、水溶性钙的含量越高,其固定形成的磷酸钙盐越多,在pH值较高的情况下,主要形成难溶性的磷酸八钙和磷酸十钙,有利于磷素的净化;基质中游离氧化铁、铝和胶体氧化铁、铝含量越高,其固定形成的磷酸铁盐和磷酸铝盐数量越多,基质净化磷素的能力越强.除砂子外,上述基质磷素饱和吸附后,磷素释放比例很低.加强人工湿地基质管理,其基质吸附的磷素一般不会对水体环境造成二次污染.     

Variations in oxygen and some related pollution parameters in some streams in ITU Area of Nigeria

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Organic carbon accumulation capability of two typical tidal wetland soils in Chongming Dongtan, China

We measured organic carbon input and content of soil in two wetland areas of Chongming Dongtan (Yangtze River Estuary) to evaluate variability in organic carbon accumulation capability in di erent wetland soils. Observed di erences were investigated based on the microbial activity and environmental factors of the soil at the two sites. Results showed that the organic carbon content of wetland soil vegetated with Phragmites australis (site A) was markedly lower than that with P. australis and Spartina alterniflora (site B). Sites di erences were due to higher microbial activity at site A, which led to higher soil respiration intensity and greater carbon outputs. This indicated that the capability of organic carbon accumulation of the site B soils was greater than at site A. In addition, petroleum pollution and soil salinity were di erent in the two wetland soils. After bio-remediation, the soil petroleum pollution at site B was reduced to a similar level of site A. However, the culturable microbial biomass and enzyme activity in the remediated soils were also lower than at site A. These results indicated that greater petroleum pollution at site B did not markedly inhibit soil microbial activity. Therefore, di erences in vegetation type and soil salinity were the primary factors responsible for the variation in microbial activity, organic carbon output and organic carbon accumulation capability between site A and site B.     

Adaptations to the dynamics of rural water supply from natural sources: A village example in semi-arid Nigeria

Domestic and agro-economic activities in the semi-arid region of Nigeria rely exclusively on rainfall, streamflow and groundwater in deep and alluvial (fadama) aquifers. Such water supply systems are subject to considerable seasonal and inter-annual variability. However, a combination of the various sources may mitigate the effects of water scarcity. This study describes the dynamics of the water sources for a village in northeastern Nigeria as an example that demonstrates the linkages between rainfall, streamflow and groundwater. Such linkages are important for developing strategies to mitigate the effects of climatic variation. Long-term records of rainfall were not available at the site so that the short-term data was interpreted in the context of the long-term climatic experience of the region. The stratigraphic profile of the aquifer was developed from resistivity methods, to supplement information obtained from well level hydrographs. Field observations and analysis of the data reveal that the beginning of the rainy season is a precarious period because none of the water sources are reliable. Rainfall infiltration recharges the shallow aquifers while lateral water flux from the floodwater-saturated fadama also contributes to water level rises in the deep wells. A study of the water level changes in response to deepening of the wells suggests that the wells are fed by an assortment of water-bearing lenses, separated by layers of low transmissivity. One major finding of this study is that there exists a close association between the wells in this riparian community and the recharge processes within the fadama. Upstream diversion, abstraction or impoundment could therefore undermine the viability of aquifer exploitation by the communities in the riparian zone. Analysis of the interactions among the various sources of water leads to the identification of several potential adaptation strategies for confronting the problem of water scarcity.     

Diversity of methanotrophs in Zoige wetland soils under both anaerobic and aerobic conditions

Zoige wetland is one of the most important methane emission centers in China. The oxidation of methane in the wetland a ects global warming, soil ecology and atmospheric chemistry. Despite their global significance, microorganisms that consume methane in Zoige wetland remain poorly characterized. In this study, we investigated methanotrophs diversity in soil samples from both anaerobic site and aerobic site in Zoige wetland using pmoA gene as a molecular marker. The cloning library was constructed according to the pmoA sequences detected. Four clusters of methanotrophs were detected. The phylogenetic tree showed that all four clusters detected were a liated to type I methanotrophs. Two novel clusters (cluster 1, cluster 2) were found to relate to none of the recognized genera of methanotrophs. These clusters have no cultured representatives and reveal an ecological adaptation of particular uncultured methanotrophs in Zoige wetland. Two clusters were belonging to Methylobacter and Methylococcus separately. Denaturing gradient gel electrophoresis gel bands pattern retrieved from these two samples revealed that the community compositions of anaerobic soil and aerobic soil were di erent from each other while anaerobic soil showed a higher metanotrophs diversity. Real-time PCR assays of the two samples demonstrated that aerobic soil sample in Zoige wetland was 1.5 times as much copy numbers as anaerobic soil. These data illustrated that methanotrophs are a group of microorganisms influence the methane consumption in Zoige wetland.     

内蒙古高原干涸湖泊反硝化及甲烷氧化细菌的群落分析

以内蒙古高原半干旱草原区干涸湖泊为研究对象,应用末端限制性片段长度多态性(T-RFLP)技术对湿地土壤中的反硝化和甲烷氧化关联菌群的关键功能基因nosZ和pmoA进行了研究,根据末端限制性片段(T-RFs)分析了两种菌群的群落结构及多样性变化,以及环境因素所产生的影响,并探讨了土壤微生物群落对湖泊干涸的响应机制.结果表明:干涸湖泊的湖心、湖底土壤反硝化和甲烷氧化细菌多样性指数较高,群落结构较复杂;而较早干涸的湖坡以及相邻草原对照区,两个菌群多样性指数较低,群落结构相对单一.从湖心到相邻草原,反硝化和甲烷氧化细菌的群落相似度逐渐降低,显示两个菌群处于动态演替中.湖泊干涸过程中,水分含量和有机质含量对反硝化和甲烷氧化细菌的群落结构影响显著;高pH值和高铵态氮分别对反硝化和甲烷氧化细菌有抑制作用.随着湖泊干涸,土壤微生物群落因环境扰动而受到胁迫,这一过程会加剧CO2等温室气体的排放.     

人工污水释放对白骨壤模拟湿地系统土壤理化性质的影响

在温室中建立红树林植物白骨壤模拟湿地系统，分别用正常(NW)、5倍(FW)和10倍(TW)浓度的人工配置的污水每周定时定量对模拟系统污灌2次，用海水作对照(CL)，持续1a。研究污灌对模拟湿地系统土壤理化性质的影响。结果表明：经过1a的污水处理，白骨壤模拟湿地系统的土壤理化性质未发生显著改变，种植其上的白骨壤植物能维持正常生长。     

崇明东滩湿地土壤硝酸盐异化还原成铵过程及其影响因素

以崇明东滩湿地为研究对象,采用同位素示踪结合泥浆实验,研究了从低潮滩向高潮滩变化的土壤硝酸盐异化还原成铵过程(DNRA)及其影响因素.结果表明,土壤硝酸盐异化还原成铵的潜在速率为0.17～0.71 nmol·g~(-1)·h~(-1),表现为低潮滩位较高、高潮滩位较低的空间变化特征.相关性分析表明,酸盐异化还原成铵潜在速率与氧化还原电位、可溶性有机碳、硝酸盐和硫化物呈显著相关性.此外,nrfA基因丰度与硝酸盐异化还原成铵潜在速率呈显著相关性.逐步回归分析发现,可溶有机碳和总有机碳是影响硝酸盐异化还原成铵潜在速率和nrfA基因丰度的关键性环境因子,分别贡献了总变异的78.8%和50.3%.通过估算得出,东滩湿地硝酸盐异化还原成铵过程将硝酸盐转化成铵盐的潜力为2.5～10.4 t·km~(-2)·a~(-1),贡献了长江口每年无机氮输入量的0.68%～2.85%,因此,硝酸盐异化还原成铵过程在控制河口湿地氮赋存方面具有着重要的作用.河口潮汐作用导致的湿地环境特征与有机质和硝酸盐含量的变化影响着硝酸盐异化还原成铵过程,进而对河口湿地生态系统中氮动态产生较大的影响.     

Restoration of stream ecosystem integrity in Akwa Ibom State, Nigeria

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江苏九龙口湿地生态旅游的开发

九龙口是江苏里下河地区的一处湿地自然保护区，也是江苏省风景名胜区。这里生态环境独特，自然风光优美，具有发展生态旅游的良好前景。本文分析了九龙口湿地生态特点、开发优势，提出了生态旅游的发展设想。     

轮休措施对堵塞型垂直潜流人工湿地的影响

采用不可滤物质的定量化分析方法研究了采取轮休措施对人工湿地堵塞程度的改善效果,同时分析了轮休措施对垂直潜流人工湿地污染物去除效果的改变和植物生长的影响.结果表明,轮休措施对解决人工湿地的堵塞有明显地改善,采取轮休措施后单位基质中的不可滤物质含量较轮休前有所降低,其中不可滤有机物减少量十分明显,不可滤无机物量在短期和长时间轮休前后分别表现出基本稳定和较大幅度降低的特性;短期轮休后COD、TP和TN的去除率都较轮休前有所降低,氨氮的去除率在人工湿地轮休后较轮休前高;应结合人工湿地的基质、植物种类调整运行工况,进行不同时间长度和方式的轮休,以确保植物生长不受该措施的影响.     

洞庭湖区湿地资源可持续利用途径研究

湿地具有特殊的生态功能和社会经济价值。洞庭湖区湿地垦殖强度大,造成了生态环境严重退化的恶果。研究表明:控制人口总量,退田还湖,建立湿地自然保护区,大力发展避洪耐涝型湿地特色产业是保护和合理利用湿地资源的有效途径,且已取得了良好的社会、经济、生态效益。由此认为,如何协调好人口、资源与环境的关系是实现湿地资源可持续利用的战略目标。     

Heavy metal （Pb,Zn） uptake and chemical changes in rhizosphere soils of four wetland plants with different radial oxygen loss

Lead and Zn uptake and chemical changes in rhizosphere soils of four emergent-rooted wetland plants; Aneilema bracteatum, Cyperus alternifolius, Ludwigia hyssopifolia and Veronica serpyllifolia were investigated by two experiments: (1) rhizobag filled with “clean” or metal-contaminated soil for analysis of Pb and Zn in plants and rhizosphere soils; and (2) applied deoxygenated solution for analyzing their rates of radial oxygen loss (ROL). The results showed that the wetland plants with di erent ROL rates had significant e ects on the mobility and chemical forms of Pb and Zn in rhizosphere under flooded conditions. These e ects were varied with di erent metal elements and metal concentrations in the soils. Lead mobility in rhizosphere of the four plants both in the “clean” and contaminated soils was decreased, while Zn mobility was increased in the rhizosphere of the “clean” soil, but decreased in the contaminated soil. Among the four plants, V. serpyllifolia, with the highest ROL, formed the highest degree of Fe plaque on the root surface, immobilized more Zn in Fe plaque, and has the highest e ects on the changes of Zn form (EXC-Zn) in rhizosphere under both “clean” and contaminated soil conditions. These results suggested that ROL of wetland plants could play an important role in Fe plaque formation and mobility and chemical changes of metals in rhizosphere soil under flood conditions.     

Profitability of intensification technologies among smallholder maize farmers in the forest-savanna transition zone of Nigeria

Sustaining the productive capacity of the land resource under the existing land-use system and increasing population pressure requires the use of appropriate technologies that will enhance farm productivity and income levels.This paper examines the effect on farm profitability of smallholder maize farmers’ use of intensification technologies in tropical agriculture. The survey was conducted in southwest Nigeria. A multi-stage sampling technique was used to select 300 respondents from two major agroclimatic zones in Osun State. Primary data were collected using a structured questionnaire and complemented with focus group discussions (FGDs), while the State’s Ministry of Agriculture provided secondary data.Pressure on land was found high because farmland was continuously cropped for an average of 10 years with a mean fallow period of 2 years only. Technologies used to intensify agriculture included inorganic fertilizer, organic manure, alley cropping, and tree planting.Results from costs and returns analysis showed that average net returns to inorganic fertilizer use ranked highest in the two zones, while tree planting ranked lowest. There was a significant ecoregional difference on the average net returns/year earned by users of mineral fertilizer. While organic manure use earned higher net returns than alley cropping practice in the rain forest, the reverse was the case for the derived savanna. FGDs revealed that respondents’ preferred to use inorganic fertilizer despite its inadequate supply because, apart from enhancing higher returns and net gains, it also improved output level and provided an opportunity for the continuous use of the scarce land.These results imply that economic returns play a critical role in farmers’ use of intensification technologies and consequently affect their resource management decisions. Policy measures aimed at promoting research on appropriate technologies that are profitable on farmers’ fields will be more effective in enhancing farmers’ use of intensification technologies.