若尔盖高原湿地藻类多样性研究

分别于夏、冬两季采集若尔盖高原湿地水样,利用传统培养及显微镜检的方法和现代分子生物学方法对其藻类多样性进行了研究.结果表明,夏季水样至少培养出4种绿藻,分别为普通小球藻(Chlorella vulgaris Beij.)、浮球藻(Planktosphaeriagelatinosa G.M.Smith)、繁茂栅列藻(Scenedesmus abundans Kirchner)和柱状栅列藻(Scenedesmus bijuga Turp.),均属于绿球藻(Chlorococcales),其中普通小球藻为优势藻种,并被分离纯化.显微镜检结果表明冬季水样中主要的藻类种群为硅藻,此结果符合在低温季节天然水体中常以硅藻为主的常理.蓝藻16S rRNA基因克隆文库中的主要类群为硅藻(Bacillaripiophyta,35.3%),其次为蓝藻,包括色球藻(Chroococcales,5.9%)、念珠藻(Nostocales,11.8%)、颤藻(Oscillatoriales,11.8%)和一些未知种属的蓝藻类群(Unclassified Cyanobacteria,35.3%),还发现一些与低温环境微生物相关的类群,如颤藻目细纤菌属(Leptolyngbya).     

藻类水体Cd2+毒性快速监测新方法研究

采用藻类生长抑制试验和光合活性抑制试验两种方法对蛋白核小球藻受不同浓度Cd2+胁迫作用下叶绿素浓度及藻活性荧光参数进行测量,依据Sigmoidal曲线拟合及单因素方差分析(one-way ANOVA)的方法对Cd2+不同胁迫时间下藻活性抑制率和96 h比生长率抑制率的相关性进行研究.结果表明,48、53、72、77和96 h的藻活性抑制率和96 h比生长率抑制率间具有较好的S函数关系(R2>0.95),因此可采用藻活性抑制率48 h-EC10和53 h-EC10来代替96 h的藻类半数比生长率抑制率EC50进行Cd2+藻类毒性实验评价.进一步分析了蛋白核小球藻受Cd2+胁迫48 h和53 h藻活性抑制率和Cd2+毒性当量的剂量-效应关系.该方法为实验室内单一Cd2+毒性的监测提供了一种快速有效的新方法,为水环境综合毒性预警提供了一种切实可行的方法依据.     

颗粒直链藻水华生消对婆罗异剑水蚤（桡足类）种群动态的影响

近年来,国内外学者对湖库型水华的发生机理和生态效应都做了大量研究,但有关水华生消对浮游动物群落结构影响的研究还很少.因此,本研究利用两个室外水泥池在中等尺度上考察了颗粒直链藻水华生消过程对婆罗异剑水蚤(桡足类)种群动态的影响,以及后者摄食对水华生消的下行调控作用.结果发现,颗粒直链藻水华发展迅速,仅5 d时间叶绿素浓度就从(21.24±0.75)μg·L-1上升到(240.34±11.00)μg·L-1;随后水华进入快速消退期,3 d后叶绿素a浓度下降到(53.63±0.47)μg·L-1.婆罗异剑水蚤的摄食压力对颗粒直链藻水华具有明显的抑制作用,水华生消期间含有婆罗异剑水蚤的藻液叶绿素a浓度比对照组低20μg·L-1左右,最大差异为26.08μg·L-1.期间婆罗异剑水蚤的丰度也由接入时的(56.50±4.32)ind·L-1增加到(142.11±6.35)ind·L-1,增加了1.5倍.该研究结果表明,在无鱼类摄食压力情况下,颗粒直链水华的爆发和消亡对婆罗异剑水蚤的生长和繁殖没有负面影响,反而促进了其种群数量的增加,这可能是由于水华期间为其提供了充足的饵料供应.     

明矾石在水体微藻去除中的应用研究

以温州市某大学校区内富营养化水体为研究对象,采用本地明矾石对含藻水体进行混凝除藻、除浊实验研究,分别进行投加量、搅拌强度、搅拌时间、静置时间及pH值对微藻去除效率的影响研究,以获得处理工艺的最佳条件,为恢复河流水体生态自净功能提供理论基础.试验中对投加明矾石前后,水体中浊度、总磷、氨氮和总氮进行了测定,结果表明：明矾石最佳投加量为0.35 g/L,最佳搅拌方式为200 rpm搅拌4 min;最佳静置时间为25 min;在碱性或中性水体的处理效果尤佳.     

二龙山水库水体变色原因初探

在对2005年7月至2006年5月二龙山水库相关水质指标进行监测分析的基础上,评价了水库的总体水质,鉴定和检测了水库的藻类和藻毒素,探讨了水库水体变色的原因。研究结果表明,二龙山水库总体水质为V类和劣V类,为中度污染和重度污染,主要污染物为总氮和总磷,已呈现富营养化状态,可能诱发水库水华的发生。水体的富营养化和铜绿微囊藻等藻类的大量繁殖是水库水体变色的主要原因。     

大型海藻与赤潮微藻以及赤潮微藻之间的相互作用研究

研究了2种大型海藻石莼(Ulva pertusa)和江蓠(Gracilaria lemaneiformis)对2种赤潮微藻:东海原甲藻(Prorocentrumdonghaiense)和塔玛亚历山大藻(Alexandum tamarense)生长的影响以及2种微藻之间的相互作用,结果发现:①在大藻(石莼或江蓠)-微藻(东海原甲藻或塔玛亚历山大藻)的共培养体系中,石莼和江蓠均能明显影响与其共培养的微藻的生长,石莼对微藻生长的影响强于江蓠的作用.②在东海原甲藻-塔玛亚历山大藻的双藻培养体系中,东海原甲藻的生长受到明显的抑制作用,最终被完全灭杀;体系中塔玛亚历山大藻的生长未受到明显的影响.另外,塔玛亚历山大藻的培养液滤液能明显抑制东海原甲藻的生长,但东海原甲藻滤液对塔玛亚历山大藻的生长几乎没有影响.实验室条件下模拟二者相互作用的结果显示,塔玛亚历山大藻对东海原甲藻的抑制作用是其被后者抑制作用的17倍左右.③在大藻(石莼或江蓠)-东海原甲藻-塔玛亚历山大藻的多藻培养体系中,东海原甲藻和塔玛亚历山大藻的生长变化与它们在共培养体系中的变化非常类似.半数致死时间(LT50)法的检测结果显示:多藻培养体系对东海原甲藻的联合作用是协同作用,而对塔玛亚历山大藻的作用是相加作用.     

Factors Influencing Prymnesium parvum Population Dynamics During Bloom Initiation: Results from In-lake Mesocosm Experiments1

Roelke, Daniel L., Leslie Schwierzke, Bryan W. Brooks, James P. Grover, Reagan M. Errera, Theodore W. Valenti, Jr., and James L. Pinckney, 2010. Factors Influencing Prymnesium parvum Population Dynamics During Bloom Initiation: Results from In-Lake Mesocosm Experiments. Journal of the American Water Resources Association (JAWRA) 46(1):76-91. DOI: 10.1111/j.1752-1688.2009.00392.x Abstract: The alga Prymnesium parvum forms large fish-killing blooms in many Texas lakes. In some of these lakes, however, P. parvum occurs but does not develop blooms. In this study, we investigated factors that may influence bloom initiation by conducting a series of in-lake experiments involving mixing of waters from Lake Whitney, which has a history of P. parvum blooms, with waters from Lake Waco where no blooms have occurred. In all experiments, the addition of Lake Waco waters resulted in a poorer performance of P. parvum. Various experimental treatments and field data show that differences in grazing, pathogens, nutrients, and salts between the two lakes were not likely factors that contributed to this observation. Industrial and agricultural contaminants, allelochemicals and algicidal chemicals were not measured as a part of this research. However, anthropogenic contaminants other than nutrients were not observed at levels exceeding water quality standards in Lake Waco in recent years. On the other hand, nuisance cyanobacteria are common in Lake Waco, where Microcystis sp. and Anabaena sp. were abundant during the initiation of our experiments, both taxa are known to produce chemicals with allelopathic properties. In addition, the emergent field of algal-heterotrophic bacteria interactions suggests that chemicals produced by heterotrophic bacteria should not be overlooked. Further research focusing on the chemical interactions between cyanobacteria and P. parvum, as well as the potential role of algicidal bacteria, in the initiation of P. parvum blooms is necessary, as it may be important to the management of these blooms.     

高效菌藻塘系统对农村污水中磷的强化去除效果研究

研究了高效菌藻塘系统处理太湖地区农村生活污水除磷效果及其强化措施。高效菌藻塘和水生生物塘HRT分别为8 d和4 d,进水总磷浓度为1.7～17.1 mg/L,出水总磷浓度全年平均值为3.33 mg/L,高效菌藻塘系统的除磷能力欠佳。通过降低水生生物塘内水深、采用废弃石膏作为填料构建了新型复合水生生物塘,HRT=1.6 d条件下,复合水生生物塘出水总磷可保持在1 mg/L以下,可达到GB18918-2002一级B排放标准。     

Seaweed sex pheromones and their degradation products frequently suppress amphipod feeding but rarely suppress sea urchin feeding

Summary. A diverse group of brown seaweeds produce bouquets of C₁₁ metabolites, some of which act as pheromones that cue gamete release or attract sperm to eggs following release. We demonstrate that these C₁₁ metabolites and their degradation products also frequently and strongly deter feeding by the herbivorous amphipod Ampithoe longimana, but rarely by the herbivorous sea urchin Arbacia punctulata. Across the range of concentrations tested, seven of twelve C₁₁ metabolites or mixtures that we tested deterred feeding by the amphipod, but only two of eleven deterred the sea urchin. For those compounds where we could rigorously contrast the magnitude of deterrence against the amphipod with the magnitude of deterrence against the urchin, the amphipod was deterred significantly more than the urchin by five of six metabolites. Thus, C₁₁ compounds were more frequently and more strongly deterrent to the amphipod than to the sea urchin. These findings for C₁₁ metabolites conflict with previous investigations, where other classes of seaweed chemical defenses have been shown to deter feeding by large mobile herbivores like urchins and fishes but to be relatively ineffective against mesograzers, especially the species of amphipod that we used here. Our results suggest that C₁₁ metabolites are unusual among the known seaweed chemical defenses in that they are especially effective against mesograzers, which often consume seaweed spores, zygotes, and juveniles. The high concentrations of C₁₁ metabolites in brown algal eggs could allow these defenses to be especially important in defending gametes, zygotes, or young sporelings from herbivorous mesograzers. Received 26 February 1998; accepted 9 April 1998.     

“加压上浮法”应急除藻技术在水源地的应用示范

近年来,太湖蓝藻水华问题日趋严峻,除藻技术是解决该问题最直接而有效的手段,对现有各类除藻技术进行了比较,并以"加压上浮法"应急除藻技术在苏州阳澄湖局部地区的示范工程为例,介绍了该方法的技术原理、技术实现以及在工程应用中的实际意义,为同行在水源地或特殊功能区除藻技术的应用提供参考。