人工湿地污水处理工艺及除污机理

对人工湿地污水处理工艺及其对水中污染物的去除机理进行了综述，并对人工湿地处理污水的技术进行了展望。     

气候变化对洪湖湿地的影响

气候变化影响着湿地生态系统。在全球气候变化的背景下，洪湖湿地区域气候也发生了明显变化。通过对洪湖周边4个站点1961~2004年的气象数据分析，从气象学和生态学的角度探讨了气候变化对洪湖湿地的影响。结果表明20世纪60年代以来，洪湖湿地区域气温有显著升高趋势，气温增加倾向率为0264℃/10 a；年降水量有微弱升高趋势，增加倾向率为49964 mm/10 a；降水量夏季和冬季有升高趋势，但是春季和秋季有减弱趋势。气候要素的综合变化使洪湖湿地区域湿润系数具有降低趋势。气候变化造成洪湖湿地面积萎缩、水位降低，同时造成了生物多样性降低和生物入侵，降水格局的变化改变了湿地水文状况，加剧了湿地的生态不稳定性。研究结果为湿地恢复重建和本区湿地生态安全提供了科学依据.     

生物法-人工湿地组合工艺处理小城镇混合污水研究

为适应小城镇污水处理高效、低耗、管理简单的要求,开展了生物法(水解酸化/生物接触氧化)-人工湿地组合工艺(A/BCO-CW)处理小城镇片区混合污水的研究。结果表明,A/BCO系统在停留时间为3～6 h条件下,对悬浮物和有机物有高的去除效率,COD、BOD5和TSS去除率分别达到63.1%、67.7%和66.2%,避免了人工湿地堵塞和提高处理效率,减少了所需湿地面积44%。全年运行结果表明,在0.30～0.59 m/d水力负荷率下,垂直流-表面流-水平潜流人工湿地组合系统对COD、BOD5和TSS平均去除负荷达9.4、5.1和7.2 g/(m2.d)(42%、71.2%和85.2%);COD、BOD5去除速率常数为74.6±12.1 m/y、166±30.5 m/y,这些数值均处于文献中k值范围的高量程内。A/BCO-人工湿地系统对COD、BOD5和TSS具有好的处理效果,出水水质能够稳定达到《地表水环境质量标准》(GB 3838-2002)的IV类水标准,2种处理方法有效组合起来,所开发的低成本、高效率、可持续运行的城镇废水处理组合系统,将会在实际应用尤其是高有机负荷污水处理中发挥良好效用。     

青海湖几种主要湿地植物的种群分布格局及动态

应用种群生态空间分布的分析方法，研究了青海湖四种主要湿地植物：杉叶藻（Hippuris vulgaris)、槽杆荸荠（Eleocharis valleculosa)、华扁穗莞（Blysmus sinocompresus)、碱蓬（Suaeda glauca)的空间分布格局及其动态，研究表明：杉叶藻、槽杆荸荠、华扁穗莞三种群由侵入期、定期初期到种群发育盛期的过程中，其集群程度先增大后减小，总体呈扩散的趋势；碱蓬种群，从幼苗到繁殖期，集群程度增大，呈聚集的趋势，说明前三种植物的克隆繁殖方式于滨湖湿地生境具有更好的生态适应性，图2表3参11     

Ecologically Functional Floodplains: Connectivity,Flow Regime,and Scale1

Opperman, Jeffrey J., Ryan Luster, Bruce A. McKenney, Michael Roberts, and Amanda Wrona Meadows, 2010. Ecologically Functional Floodplains: Connectivity, Flow Regime, and Scale. Journal of the American Water Resources Association (JAWRA) 46(2):211-226. DOI: 10.1111/j.1752-1688.2010.00426.x Abstract: This paper proposes a conceptual model that captures key attributes of ecologically functional floodplains, encompassing three basic elements: (1) hydrologic connectivity between the river and the floodplain, (2) a variable hydrograph that reflects seasonal precipitation patterns and retains a range of both high and low flow events, and (3) sufficient spatial scale to encompass dynamic processes and for floodplain benefits to accrue to a meaningful level. Although floodplains support high levels of biodiversity and some of the most productive ecosystems on Earth, they are also among the most converted and threatened ecosystems and therefore have recently become the focus of conservation and restoration programs across the United States and globally. These efforts seek to conserve or restore complex, highly variable ecosystems and often must simultaneously address both land and water management. Thus, such efforts must overcome considerable scientific, technical, and socioeconomic challenges. In addition to proposing a scientific conceptual model, this paper also includes three case studies that illustrate methods for addressing these technical and socioeconomic challenges within projects that seek to promote ecologically functional floodplains through river-floodplain reconnection and/or restoration of key components of hydrological variability.     

Long-Term Relationship between Phosphorus Inputs and Wetland Phosphorus Concentrations in a Northern Everglades Marsh

Assessments of long-term relationships between changes innutrient inputs and wetland nutrient concentrations can becomplicated by fluctuations in other environmental factors aswell as by problems typical of long-term monitoring data.Consequently, statistical analysisof these types of data sets requirescareful consideration of environmental covariates, potentialbiases in the monitoring design, and irregularities caused bychanges in field sampling protocols. We evaluated therelationship between anthropogenic phosphorus (P) inputs andwater-column total P (TP) concentrations in a northernEverglades marsh by statistically analyzing available datacollected from several sampling programs over the past 20 years(1978–1997). Canal inputs of agricultural runoff contributemost of the P to the marsh and have produced a zone ofenrichment within the marsh during the past few decades.Regression analyses showed that both canal and marsh TPconcentrations increased during the 1980s and then decreased inthe 1990s. However, the statistical relationship between canal Pinputs and marsh TP, while significant, generally was weakexcept for marsh locations adjacent to the canal. Strongerrelationships existed between marsh TP and hydrologic parameterssuch as marsh water depth, which is controlled by changes inweather patterns and marsh management. In particular, dryconditions during the 1980s may have contributed to observedincreases in marsh P concentrations and the movement of a P`front' further into the marsh. Higher rainfall and water depthsand agricultural best management programs initiated during the1990s have been associated with reduced P concentrations incanal waters entering the marsh. While it is anticipated thatthis reduction eventually will result in lower marsh TPconcentrations, this effect is not yet evident, possibly due tointernal loading of P from enriched marsh soils. Our findingsillustrate some of the environmental factors that can complicateattempts to develop empirical relationships between P inputs andwetland P concentrations and to use such relationships to forecast changesin marsh concentrations based on past monitoring data alone.     

潮汐-复合流人工湿地系统优化及对抗生素抗性基因的去除效果

抗生素抗性基因随废水排放传播扩散,对环境生物和民众健康构成严重威胁.针对废水中抗性基因的深度去除值得重点关注.在前期研究中发现潮汐流人工湿地能有效去除废水中多种氮素.本研究通过增加隔板和种植植物等方式进一步优化潮汐流人工湿地系统,并考察了工艺优化对抗性基因去除和脱氮功能微生物的影响机制.结果表明,同时增加隔板和种植植物后的潮汐-复合流人工湿地系统能有效提高抗性基因的去除效率,在增加隔板和种植植物组对7类21种抗性基因去除率最高达到83.82%~100.0%,显著高于单一增加隔板或种植植物组.从湿地基质和植物中的抗性基因绝对丰度对比可以看出,增加隔板能促进湿地基质中抗性基因量积累,而植物对抗性基因吸附也是其去除途径之一.同时,结合氮循环功能基因测序结果显示,湿地系统优化能提高基质中硝化和反硝化功能微生物物种多样性和丰富度,这与优化系统对废水中硝化量、反硝化量和总氮的去除率相对更高结果一致.     

铁碳微电解及沸石组合人工湿地的废水处理效果

铁碳微电解填料和沸石由于对废水中污染物具有良好的处理效果,因而被作为基质逐渐运用于人工湿地中.本研究构建了铁碳微电解填料+砾石（湿地A）、铁碳微电解填料+沸石（湿地B）、沸石（湿地C）以及砾石（湿地D）为基质的4组人工湿地,并利用间歇曝气对湿地系统进行增氧,探究不同填料对人工湿地废水处理效果的影响.结果表明,与湿地D相比,铁碳微电解填料显著提高了湿地出水的溶解氧含量（DO）（P<0.05）和pH（P<0.05）;4组人工湿地对有机物的去除率均达到95%以上,且各组间不存在显著性差异（P>0.05）;对TN而言,湿地A、B和C的平均去除率分别比湿地D提高了7.94%（P<0.05）、9.29%（P<0.05）和3.63%（P<0.05）,铁碳微电解填料和沸石对提升人工湿地TN去除效果的贡献率分别为73.55%和26.45%;各组湿地对NH₄⁺的平均去除率为67.93%~76.90%,与湿地D相比,其它3组湿地均明显改善了NH₄⁺的去除效果（P<0.05）;铁碳微电解填料对湿地NO₃^-的去除效果极佳,去除率高达99%以上,显著高于不添加铁碳微电解的人工湿地系统（P<0.05）.综合对碳氮污染物的处理效果来看,湿地B在间歇曝气的条件下对人工湿地中污染物去除效率最高.     

围垦养殖对中国典型滨海湿地土壤真菌多样性及群落结构影响

本研究以我国黄河口碱蓬湿地、九龙江口桐花树湿地、东寨港木榄湿地为研究样地,借助高通量测序技术探究这3个典型滨海湿地围垦养殖前、后土壤真菌多样性及群落结构的变化.结果表明：①不同地域湿地围垦养殖对土壤真菌群落多样性及丰富度影响表现不一致.九龙江口桐花树湿地围垦后,土壤真菌多样性及丰富度有所下降;黄河口碱蓬湿地和东寨港木榄湿地围垦后土壤真菌多样性及丰富度显著增加;②子囊菌门（Ascomycota）在湿地围垦养殖前、后土壤中均为优势真菌门,但其相对丰度在围垦后显著下降;③湿地围垦养殖改变了土壤真菌属水平群落组成,黄河口湿地围垦后,未出现翅孢壳属（Emericellopsis）、毛霉属（Mucor）、枝顶孢属（Acremonium）;九龙江口和东寨港湿地围垦后,青霉属（Penicillium）相对丰度显著下降,并新增了镰刀菌属（Fusarium）,九龙江口湿地围垦后还新增了链格孢属（Alternaria）;④环境因子与湿地土壤真菌相对丰度存在一定程度的相关性,青霉属（Penicillium）与容重呈显著负相关（p<0.05）,与pH呈显著负相关（p<0.01）,与有机碳呈显著正相关（p<0.01）;翅孢壳属（Emericellopsis）与容重和pH呈显著正相关（p<0.05）,与有机碳呈显著负相关（p<0.01）.