从富营养化状态中复原：减少对瑞典四大湖磷输入的经验

自20世纪60年代以来,人们一直在研究随着输入的减少韦特恩湖、维纳恩湖、梅拉伦湖以及哈马伦湖中磷(P)和氮(N)的浓度变化.在前两个水更新速度较慢的深水、贫营养湖中,自70年代以来磷输入的急剧减少只是造成较长一段时间内磷浓度的少量减小.同时在水团中出现了非有机氮的积累现象,本文对这一现象的可能原因进行了探讨.在后两个中等营养到高营养的湖中,哈马伦湖中的两个浅盆地由于沉积物释放的氮而显示出恢复较慢.这两个盆地以及梅拉伦湖中的两个盆地有氮缺乏现象,特别是在磷输入减少之前的数年中、而且表明存在固氮现象.在梅拉伦湖的两个盆地中,湖内磷浓度的恢复与用于湖泊从营养物污染中恢复的IMSA模型相比较预期的要好.在其他的5个湖泊/盆地中,20年之后的叶绿素浓度与那些模拟的情况相比类似.     

淀山湖富营养化控制的模型研究

针对淀山湖富营养化严重的问题,应用USEPA的AQUATOX模型对淀山湖水体中营养盐时间变化规律和藻类生长演替进行了研究。在对模型率定、验证的基础上．对水力条件、污染源等富营养控制方案的效果进行模拟。模拟结果显示：该生态模型较好地模拟了常规水质和藻类的动态变化;改善淀山湖的水力条件,能有效控制蓝藻水华的暴发;淀山湖污染负荷主要来自于上游负荷;在控磷和控氮的对比上．蓝藻对于控制磷比较敏感。对于淀山湖富营养化的治理应采取控源与生态修复并举的方式,这样有利于有效稳定水质改善的效果。     

高原山地城市农田氮、磷表观平衡演变特征——以昆明市为例

氮、磷平衡是影响农田污染潜势和农业生产的主要因子.农田化肥过量施用导致的氮、磷大量流失已成为我国非点源污染的重要来源.本研究基于农田氮、磷表观平衡模型,以高原山地城市昆明市为例,评估了1980—2015年农田的氮、磷输入、输出与平衡演变特征.结果表明:①1980—2015年,昆明市农田氮平衡始终处于盈余的状态,盈余量以4070 t·a~(-1)的速度上升,而农田磷从1981年开始转变为盈余状态,盈余量以590 t·a~(-1)的速度上升,农田氮盈余量增长速度高于磷盈余量增长速度,未来农田氮污染潜势可能高于磷;②化肥和有机肥是昆明市农田氮、磷输入的主要来源,自1995年化肥取代有机肥成为氮输入的主要来源,自1983年起化肥成为农田磷的最大输入项;③氮、磷输出量均呈现逐年增长趋势,其中,氮输出量增长速度为3430 t·a~(-1),磷输出量增长速度为100 t·a~(-1),农田氮、磷输出量远低于输入量;④昆明市农田氮、磷平衡特征在不同海拔区域呈现显著异质性,1980—2015年海拔2400 m以下的农田氮、磷表观平衡情况变化最为明显,平均增长了12.48倍,2400 m农田变化次之,2400 m以下农田变化较小.     

外源氮输入对生长季黄河口碱蓬-土壤系统磷分布规律的影响

为研究氮负荷不断增强情况下黄河口湿地磷的生物循环状况,选择黄河入海口北部滨岸高潮滩的碱蓬湿地为研究对象,基于野外原位氮（N）输入模拟试验,研究不同氮输入梯度[N0（对照处理）,6.0 g/（m2·a）;N1（低氮处理）,9.0 g/（m2·a）;N2（中氮处理）,12.0 g/（m2·a）;N3（高氮处理）,18.0 g/（m2·a）]下生长季碱蓬湿地植物-土壤系统中w（TP）分布特征的差异.结果表明:外源氮输入对湿地表层（0~10 cm）土壤中w（TP）变化的影响较为明显,N2和N3处理下w（TP）整体高于N0和N1处理.不同氮处理下植物各器官的w（TP）生长初期表现为根>叶>茎,生长旺期和末期表现为叶>根>茎,说明叶是磷的主要累积器官.外源氮输入改变了碱蓬湿地的养分限制状况,随着氮输入量的增加,土壤和植物-土壤系统磷储量、氮供给的增幅远低于植物亚系统,说明氮、磷之间的养分供给存在不同步性.研究显示,在未来黄河口氮养分负荷不断增加的情况下,碱蓬湿地植物-土壤系统极有可能通过加速磷的生物循环来缓解日益加剧的磷养分限制状况,进而使得氮、磷养分之间可能形成正反馈机制,而这将有利于维持湿地系统的稳定与健康.      

水位变化对湖泊沉积物营养释放的影响

水位波动可有效调节湖泊生态系统的结构与功能,干湿交替过程引起的沉积物生物地球化学循环途径的改变是其重要机制之一。大量研究结果表明,干湿交替将加速沉积物有机碳的分解,强化沉积物硝化与硝化作用的偶联,促进沉积物磷的酶促水解和厌氧解离,从而增加再度淹没之后水中溶解有机碳和生物可利用性磷的浓度,并减少溶解无机态氮的浓度。有机质的分解是上述过程的关键步骤。因此,必须系统描述湖泊水陆界面土壤和沉积物基本理化性状与水生生物特征,分析干旱过程中沉积物生物地球化学循环途径的变化,了解淹没过程中水柱营养状态与浮游生物群落对沉积物营养释放的响应,从而揭示水位波动调控富营养化过程的机制,即诱发营养脉冲或维系其持续补给,改变营养阈值,进而导致稳态转换。     

SBR-SBHBR工艺结合活性污泥外循环技术优化城市污水除磷脱氮

分析常规生物除磷脱氮工艺缺欠的基础上,提出了SBR-SBHBR工艺结合活性污泥外循环技术的生物除磷脱氮运行模式,旨在将除磷脱氮这两个相互矛盾的生物处理过程分别控制在两级反应器中高效完成.叙述了该工艺系统的操作过程、高效除磷脱氮的可行性和工艺的特点.采用该工艺可望解决常规生物除磷脱氮工艺中的泥龄问题、生物释磷与反硝化之间的碳源竞争问题和厌氧区的硝酸盐问题等,使功能不同的微生物在各自有利的条件下生长,从而提高系统除磷脱氮的效果和稳定性;该工艺也可望解决常规生物除磷系统处理大量富磷污泥的难题.     

气相臭氧深度氧化协同湿法吸收脱硝工艺的氮平衡研究:以某钢铁公司300 m2烧结烟气脱硫脱硝系统为例

目前,气相臭氧深度氧化协同湿法吸收脱硝技术已成功应用于多套大型烧结烟气超低排放治理工程。然而,有关氧化产物通过吸收系统时能否从气相高效传递至液相,能否实现氮平衡等问题尚未形成共识。为此,针对某钢铁公司300 m2烧结烟气气相臭氧深度氧化协同湿法吸收脱硫脱硝系统,建立了具有清晰的氮平衡边界和明确的氮输入、输出和累积项,并且尽可能减少动态变化参数的氮平衡研究方法。在此基础上开展了氮平衡研究,结果表明:脱硫脱硝系统的氮转化率为96.4%,表明烟气中的NO_x经臭氧深度氧化后可高效吸收。随着烟气进入和排出脱硫脱硝系统的气态NO_x,随着冲洗水进入和随着石膏排出脱硫脱硝系统的NO₃-,以及吸收塔、缓冲池中累积的NO₃-是最主要的氮输入、输出和累积项,也是针对实际工程开展氮平衡研究应重点考虑的氮组分项。     

滇池北岸居民-农田混合区土壤磷输入输出特征及表观平衡

以滇池北岸大清河下游典型农区韭菜田与花卉地为对象,通过野外采样观测与室内化学分析,研究了居民农田混合区土壤磷输入输出特征及表观平衡。结果表明:调查区总面积46.7hm~2,磷主要输入途径为化肥施用、附近居民生活污水排放、养殖废水排放、乡镇企业污水排放、韭菜原位腐解。磷输入以化肥施用为主,每年输入436.83kg/hm~2,占磷输入总量的89.51%。韭黄收获每年输出25.69kg/hm~2。调查区磷输入总量22.79t,输出总量1.21t,磷的表观平衡21.58t。在滇池流域化肥施用是混合区农田磷的主要来源,磷的表观平衡为462.1kg/hm~2。土壤磷易发生淋失,对附近水体构成威胁。     

某城市湖泊中磷的循环特征及富营养化发生潜势

通过对浙江省临海市东湖水体磷元素的输入与输出途径与通量、磷元素在湖泊环境中的循环特征以及磷循环对水温上升的响应分析,并基于对该水体从2000年开始隔年进行各参数的观测,表明2000年以来磷输入年平均增量为0.007～0.009mg/L,水中叶绿素a平均年增0.14～0.56μg/L,透明度年平均下降0.38～0.49m,溶解氧年平均下降0.21～0.71mg/L.并依此建立了反映湖泊富营养化发生潜势的这些主要代表性参数与湖水中总磷含量之间的相关关系,揭示了可以通过从磷物质单因子的变化预测所引起的其它因子变化之间的关系来综合判断湖泊的营养状态,从而为减少湖泊富营养化的发生、提高湖泊水质提供科学依据.     

基于物质流分析的密云水库上游流域磷循环特征

运用物质流分析方法,对北京市地表饮用水源地--密云水库流域进行了磷循环特征的研究;分析了研究区域内种植业、畜牧业、人口和简单子系统内部及子系统间的磷输入输出状况,以及系统整体的代谢效率特征,讨论了流域水体磷污染负荷的影响因素.研究结果表明:①化肥、饲料添加剂和农药是流域磷输入的主要来源,占直接物质磷输入总量的52.9%;整个系统向环境输入磷2868.44t,其中的26.5%直接进入水体.②在水体磷负荷中,畜牧业系统的贡献最大,为1800.26 t,达到输出总量的82%,其次为种植业系统,占9.4%.③系统整体结构不协调.呈现单向和开放状态.研究区种植业系统运行出现磷亏缺,并具有区域性和不均衡性的特点;而畜牧业系统则出现磷盈余,整体结构不协调;畜禽的排泄物未能得到有效处置和循环再生,其中进入水体的量占畜禽粪尿磷总量的40.9%,从而造成严重的资源浪费和广泛的生态环境影响.④水体污染负荷与城市化率密切相关.     

Effects of two sludge application on fractionation and phytotoxicity of zinc and copper in the soil

The potential harm of heavy metals is a primary concern in application of sludge to the agricultural land. A pot experiment was conducted to evaluate the effect of two sludges on fractionation of Zn and Cu in soil and their phytotoxicity to pakchoi. The loamy soil was mixed with 0%, 20%, 40%, 60% and 80% (by weight) of digested sewage sludge (SS) and composted sludge (SC). The additions of both sludges caused a significant raise in all fractions, resulting in that exchangeable (EXCH) and organic bound (OM) became predominance of Zn and organic bound Cu occupied the largest portion. There was more available amount of Zn and Cu in SS treatments than SC treatments. During the pot experiment, the concentration of Zn in EXCH, carbonate (CAR) and OM and Cu in EXCH and OM fractions decreased in all treatments, so their bioavailability reduced. Germination rate and plant biomass decreased when the addition rate was high and the best yield appeared in 20% mixtures at the harvest of pakchoi. The two sludges increased tissue contents of Zn and Cu especially in the SS treatments. Zn in pakchoi was not only in relationship to ΔEXCH and ΔCAR forms but also in ΔOM forms in the sludge-soil mixtures. Tissue content of Cu in pakchoi grown on SC-soils could not be predicted by ΔEXCH. These correlation rates between Zn and Cu accumulation in pakchoi and variation of different fractions increased with time, which might indicate that sludges represented stronger impacts on the plant in long-term land application.     

Intraspecific differences in effects of co-contamination of cadmium and

A hydroponic experiment was carried out to study intraspecific differences in the effects of different concentrations of cadmium (Cd)(0-10 mg/L) and arsenate (As(V)) (0-8 mg/L) on the growth parameters and accumulation of Cd and As in six wheat varieties Jing-9428, Duokang-1, Jingdong-11, Jing-411, Jingdong-8 and Zhongmai-8. The endpoints of wheat seedlings, including seed germination,biomass, root length and shoot height, decreased with increasing the Cd and As concentrations. Significant differences in seed germination, biomass, root length, shoot height and the accumulation of Cd and As were observed between the treatments and among the varieties (p ＜ 0.05). The lethal dosage 50% were about 20, 80, 60, 60, 80 and 20 mg As/L for Jing-9428, Duokang-1, Jingdong-11,Jing-411, Jingdong-8 and Zhongmai-8, respectively, and the corresponding values for Cd were about 30, 80, 20, 40, 60 and 10 mg Cd/L, respectively. Among the six varieties, Duokang-1 was found to be the most resistant to Cd and As toxicity, and Zhongmai-8 was the most sensitive to Cd and As co-contamination. The resistance of the six varieties was found dependant on the seedling uptake of Cd and As. Duokang-1 was the most suitable for cultivation in Cd and As co-contaminated soils.     

Toxic effects of acetochlor, methamidophos and their combination on nifH gene in soil

Toxic effects of two agrochemicals on nifH gene in agricultural black soil were investigated using denaturing gradient gel electrophoresis （DGGE） and sequencing approaches in a microcosm experiment. Changes of soil nifH gene diversity and composition were examined following the application of acetochlor, methamidophos and their combination. Acetochlor reduced the nifH gene diversity （both in gene richness and diversity index values） and caused changes in the nifH gene composition. The effects of acetochlor on nifH gene were strengthened as the concentration of acetochlor increased. Cluster analysis of DGGE banding patterns showed that nifH gene composition which had been affected by low concentration of acetochlor （50 mg/kg） recovered firstly. Methamidophos reduced nifH gene richness that except at 4 weeks. The medium concentration of methamidophos （150 mg/kg） caused the most apparent changes in nifH gene diversity at the first week while the high concentration of methamidophos （250 mg/kg） produced prominent effects on nifH gene diversity in the following weeks. Cluster analysis showed that minimal changes of nifH gene composition were found at 1 week and maximal changes at 4 weeks. Toxic effects of acetochlor and methamidophos combination on nifH gene were also apparent. Different nifH genes （bands） responded differently to the impact of agrochemicals： four individual bands were eliminated by the application of the agrochemicals, five bands became predominant by the stimulation of the agrochemicals, and four bands showed strong resistance to the influence of the agrochemicals. Fifteen prominent bands were partially sequenced, yielding 15 different nifH sequences, which were used for phylogenetic reconstructions. All sequences were affiliated with the alpha- and beta-proteobacteria, showing higher similarity to eight different diazotrophic genera.     

EDTA-enhanced phytoremediation of lead contaminated soil by Bidens maximowicziana

Phytoremediation is a potential cleanup technology for the removal of heavy metals from contaminated soils.Bidens maximowicziana is a new Pb hyperaccumulator,which not only has remarkable tolerance to Pb but also extraordinary accumulation capacity for Pb.The maximum Pb concentration was 1509.3 mg/kg in roots and 2164.7 mg/kg in overground tissues.The Pb distribution order in the B. maximowicziana was:leaf>stem>root.The effect of amendments on phytoremediation was also studied.The mobility of soil Pb and the Pb concentrations in plants were both increased by EDTA application.Compared with CK(control check),EDTA application promoted translocation of Pb to overground parts of the plant.The Pb concentrations in overground parts of plants was increased from 24.23-680.56 mg/kg to 29.07-1905.57 mg/kg.This research demonstrated that B.maximowicziana appeared to be suitable for phytoremediation of Pb contaminated soil,especially,combination with EDTA.     

Distribution and ecological effect of mercury in Laogang landfill, Shanghai, China

Laogang landfill near Shanghai is the largest landfill in China, and receives about 10000 t of daily garbage per day, Samples of topsoil and plants were analyzed to evaluate mercury pollution from the landfill. For topsoil samples, there were significant correlations among total mercury （HgT）, combinative mercury （Hgc） and gaseous mercury （HgG）, and content of total organic carbon （TOC）, but, no significantly relationship was found between Hg content and filling time. Hg content changes in vertical profiles with time showed that the average Hgv of profiles 1992, 1996, and 2000 was similar, but their average HgG was quite different. HgT was significantly correlated with Hgc in profile 1992 and 2000, and Hgv was significantly correlated with Hg6 in profile 1996. HgG/Hgv ratio in profile samples decreased in the order of （HgG,/HgT）1992〉（HgG/HgT）1996〉〉（HgG/HgT）2000. A simple outline of Hg release in landfill could be drawn： with increasing of filling time, degradation undergoes different biodegradation, accordingly, gaseous mercury goes through small, more, and small proportion to total mercury. Distribution of Hg in plants was inhomogeneous, following the order of leaf〉root〉stem. The highest value of leaf may be associated with higher atmospheric Hg from landfill. Ligneous plants （e.g. Phyllostachys glanca, Prunus salicina and Ligustrum lucidum） are capable of enriching more Hg than herbaceous plants.     

Arsenic uptake by arbuscular mycorrhizal maize （Zea mays L.） grown in an arsenic-contaminated soil with added phosphorus

The effects of arbuscular mycorrhizal (AM) fungus (Glomus mosseae) and phosphorus (P) addition (100 mg/kg soil) on arsenic (As) uptake by maize plants (Zea mays L.) from an As-contaminated soil were examined in a glasshouse experiment.Non-mycorrhizal and zero-P addition controls were included.Plant biomass and concentrations and uptake of As,P,and other nutrients,AM colonization,root lengths,and hyphal length densities were determined.The results indicated that addition of P significantly inhibited root colonization and development of extraradical mycelium.Root length and dry weight both increased markedly with mycorrhizal colonization under the zero-P treatments,but shoot and root biomass of AM plants was depressed by P application.AM fungal inoculation decreased shoot As concentrations when no P was added,and shoot and root As concentrations of AM plants increased 2.6 and 1.4 times with P addition,respectively.Shoot and root uptake of P,Mn,Cu,and Zn increased,but shoot Fe uptake decreased by 44.6%,with inoculation, when P was added.P addition reduced shoot P,Fe,Mn,Cu,and Zn uptake of AM plants,but increased root Fe and Mn uptake of the nonmycorrhizal ones.AM colonization therefore appeared to enhance plant tolerance to As in low P soil,and have some potential for the phytostabilization of As-contaminated soil,however,P application may introduce additional environmental risk by increasing soil As mobility.     

Enzymatic oxidation of aqueous pentachlorophenol

The influence of the nonionic surfactant Tween 80 on pentachlorophenol （PCP） oxidation catalyzed by horseradish peroxidase was studied. The surfactant was tested at concentrations below and above its critical micelle concentration （CMC）. Enhancement of PCP removal was observed at sub-CMCs. The presence of Tween 80 in the reaction mixture reduced enzyme inactivation which occurred through a combination of free radical attack and sorption by precipitated products. A simple first-order model was able to simulate time profiles for enzyme inactivation in the presence or absence of Tween 80. At supra-CMCs, the surfactant caused noticeable reductions in PCP removal, presumably through micelle partitioning of PCP which precluded the hydrophobic PCP molecule from interacting with the enzyme.     

Decomposition of alachlor by ozonation and its mechanism

Decomposition and corresponding mechanism of alachlor, an endocrine disruptor in water by ozonation were investigated. Results showed that alachlor could not be completely mineralized by ozone alone. Many intermediates and final products were formed during the process, including aromatic compounds, aliphatic carboxylic acids, and inorganic ions. In evoluting these products, some of them with weak polarity were qualitatively identified by GC-MS. The information of inorganic ions suggested that the dechlorination was the first and the fastest step in the ozonation of alachlor.     

基于综合水质标识指数和对应分析法的校园河道水质评价

以三峡大学的校园河道求索溪为研究对象,利用综合水质标识指数法确定求索溪水质类别,分析其水质时空变化规律,并利用对应分析法得出求索溪中不同监测点的主要污染因子.研究结果表明:求索溪整体的综合水质标识指数为7.423,整体水质为劣V类(地表水环境质量标准GB 3838-2002)且黑臭.从时间变化来看,求索溪4月份的水质最差,5月份次之,4、5月份所有监测点的水质都劣于V类且黑臭;8月份水质最好,水质为Ⅳ类;从空间分布来看,8个监测点综合水质标识指数均超过6.0,水质为劣V类,其中6号监测点的水质相对最好,监测点3号的水质相对最差;对应分析法得出求索溪的整体水体污染程度受总氮因子的影响最大,其次为总磷.该研究拟为求索溪及类似校园河道的水环境治理研究提供基础依据和参考.     

Potential of plant polyphenol oxidases in the decolorization and removal of textile and non-textile dyes

In this study an effort has been made to use plant polyphenol oxidases; potato （Solanum tuberosum） and brinjal （Solanum melongena）, for the treatment of various important dyes used in textile and other industries. The ammonium sulphate fractionated enzyme preparations were used to treat a number of dyes under various experimental conditions. Majority of the treated dyes were maximally decolorized at pH 3.0. Some of the dyes were quickly decolorized whereas others were marginally decolorized. The initial first hour was sufficient for the maximum decolorization of dyes. The rate of decolorization was quite slow on long treatment of dyes. Enhancement in the dye decolorization was noticed on increasing the concentration of enzymes. The complex mixtures of dyes were treated with both preparations of polyphenol oxidases in the buffers of varying pH values. Potato polyphenol oxidase was significantly more effective in decolorizing the dyes to higher extent as compared to the enzyme obtained from brinjal polyphenol oxidase. Decolorization of dyes and their mixtures, followed by the formation of an insoluble precipitate, which could be easily removed simply by centrifugation.