厚游仆虫(Euplotes crassus)对有毒赤潮藻的清除效应研究

原生动物是水生食物网中主要的植食性生物, 在自然水体中能够有效控制浮游植物的生物量, 具有预防及延缓赤潮发生的潜在应用价值。在福建沿岸分离筛选出一种常见的原生动物—厚游仆虫(Euplotes crassus), 通过研究其对三种常见有毒赤潮藻类的毒素耐受性、抑藻率及自身在赤潮压力下的生长速率, 评测厚游仆虫对常见有毒赤潮藻类的抑制作用, 挖掘其作为控藻生物的应用潜力。将厚游仆虫分别接种于不同浓度的剧毒卡尔藻(Karlodinium veneficum)、赤潮异弯藻(Heterosigma akashiwo)及米氏凯伦藻(Karenia mikimotoi)中, 在温度20 ℃、光照度100 μmol·M–2 ·s–1和光暗比12 h: 12 h 的条件下进行共培养。结果显示, 厚游仆虫对剧毒卡尔藻和赤潮异弯藻具有明显的抑制作用, 持续抑藻时间可达72 h以上, 且未见藻细胞数量的明显反弹, 而对于米氏凯伦藻则没有明显的抑制能力。说明厚游仆虫在一定条件下可作为一种有效可行的控藻生物, 但其对赤潮藻类的抑制作用具有一定的种类特异性。结果证明, 在赤潮形成初期厚游仆虫对赤潮藻类的摄食压力可能有助于抑制或延缓剧毒卡尔藻及赤潮异弯藻赤潮的发生与发展, 其在赤潮治理中的实际应用还需结合野外水体做进一步研究。     

溶藻类细菌的研究现状

随着全球水体富营养化的加剧,有害藻类水华和赤潮的爆发日趋频繁,所造成的环境和经济问题日益引起人们的重视.溶藻细菌作为水生生态系统生物种群结构和功能的重要组成部分,对维持藻的生物量平衡具有非常重要的作用.目前在物理、化学和其它生物方法治理水华和赤潮都不够理想的情况下,利用溶藻细菌治理水华,可保持水环境生态平衡,从而达到防止水华的目的.而且随着溶藻细菌的生物学活性不断被发现,以茵治藻将作为水华和赤潮生物防治的一个新对策,具有广泛的研究前景.本文通过查阅近年来国内外有关水生生态系统中溶藻细菌研究的最新研究成果并对溶藻细菌防治有害藻类的种类、分离方法、作用方式及可能的作用机理、作用效应、研究前景和存在问题做一阐述,以期对于细菌溶藻方面的研究及开发应用具有一定的参考价值.     

微藻对污水中重金属的生物吸附(英文)

在我国,水源污染问题异常突出,特别是水体重金属污染情况非常严重,因此,如何有效治理水体重金属污染成为了摆在科技工作者面前十分紧迫的任务。利用微藻生物吸附来治理水体重金属污染是一种经济、简便、有效可行的方法,具有极其广阔的应用前景。论文介绍了我国近年水体污染的状况及水体重金属污染特点;综述了水体重金属污染对水体植物、水体动物以及人类潜在的危害;比较了几种常见治理重金属污染的方法;分析了微藻吸附水体重金属的优点,并阐述了微藻对重金属生物吸附的机理及影响生物吸附过程的外在因素;最后提出了今后的研究发展方向。     

有机物及重金属植物修复研究进展

植物修复技术是近年来发展起来的一种非常有前途的生物治理技术 ,也是当前学术界研究的热点领域 .本文对植物修复的类型 ,植物修复土壤、水体有机污染物、重金属和某些放射性核素的过程、机理及可能影响因子作了概括和详尽讨论 ,并就国内外近年来植物修复技术在污染环境中的应用和研究成果进行了综述     

浮游动物摄食在赤潮生消过程中的作用

浮游动物摄食在赤潮生消过程中起相当重要的作用。由于摄食过程的复杂性和生物物种与个体行为存在的多样性 ,使得赤潮过程中浮游动物的摄食研究具有相当难度。从浮游动物的摄食类型和习性、浮游动物摄食率测定、浮游动物选择性摄食对赤潮群落演替发展方向、浮游动物摄食在有毒微藻赤潮中的作用、浮游动物摄食在中国赤潮研究中的关键科学问题等几个方面探讨了浮游动物摄食对赤潮生物种群动力学的影响 ,为理解和治理赤潮提供科学依据     

湛江港湾潜在赤潮生物的时空分布及其影响因素

2009年2月(冬)、5月(春)、8月(夏)和11月(秋)分别对湛江港湾的浮游植物和环境因子进行了调查,并对该海域潜在赤潮生物的时空分布及其影响因素进行了分析。结果表明,湛江港湾海域潜在赤潮生物共有126种,其中硅藻门26属85种,占潜在赤潮生物种类数的67.5%,甲藻门14属36种,占潜在赤潮生物种类数的28.6%,蓝藻门1属2种,占潜在赤潮生物种类数的1.6%,金藻门2属2种,占潜在赤潮生物种类数的1.6%,针胞藻纲1属1种,占潜在赤潮生物种类数的0.8%。种类数以春季最多,达89种,秋季次之,为71种,夏季61种,冬季最少,仅有58种。细胞丰度在12.36×104～43.55×104cells·L-1,春季最高,夏季次之,冬季最低,从各主要优势种的细胞丰度和细胞大小判断,该海域潜在赤潮生物的丰度均未达到赤潮发生的阈值。4季均出现的种类共有31种,季节相似性指数在0.43～0.50。优势种共有19种,全为硅藻,没有观测到甲藻。优势度最大的种类主要有浮动弯角藻(Eucampia zoodiacus)、旋链角毛藻(Chaetoceros curvisetus)和中肋骨条藻(Skeletonema costatum),没有全年优势种。中肋骨条藻、旋链角毛藻和冰河拟星杆藻(Asteri-onellopsis glacialis)为3季优势种。分析表明,潜在赤潮生物细胞丰度与叶绿素a、水温、盐度和pH值存在着极显著的正相关,与DIN和SiO32-存在着极显著的负相关,与PO43-不存在显著相关关系。     

沉水植物茎叶微界面特性研究进展

沉水植物茎叶-水界面是浅水湖泊的重要界面之一,对湖泊生物地球化学循环和水环境质量具有重要影响。富营养化水体中,大量的附着物常富集在沉水植物茎叶表面,形成了特殊的生物-水微界面。对该微界面特性进行深入研究,有助于揭示沉水植物在微环境层面对富营养化水体中物质循环的调控过程和机制。沉水植物茎叶微界面具有促进水体养分转化、改变环境因子及可溶性物质的空间分布,增加物质运输的阻力和距离、降低植物光合作用、调控重金属等生态功能;微界面结构及环境因子受水体营养盐浓度、沉水植物种类及生长阶段等因素的影响。对微界面结构功能的主要研究方法进行了分析总结,并对沉水植物茎叶微界面的研究前沿进行了展望。     

短小芽孢杆菌溶藻效应研究

随着全球水体富营养化的加剧,有害藻类水华的暴发日趋频繁,其造成的环境和经济问题日益引起人们的重视,寻求有效的水华和赤潮防治途径势在必行。溶藻细菌作为水生生态系统中生物种群结构和功能的重要组成部分,对维持浮游植物生物量平衡具有非常重要的作用。不少研究认为水华和赤潮的突然消亡可能与溶藻细菌的感染有关。有些溶藻细菌能够分泌细胞外物质,对宿     

溶藻细菌

利用溶藻细菌防治水华和赤潮,作为富营养化水体藻类生物防治的方法已经受到广泛关注.多项研究表明,许多溶藻细菌能分泌胞外活性物质,对宿主藻类的生长起抑制作用.因此,分离筛选环保、高效、专一的溶藻活性代谢产物,最终开发安全、高效的生物杀藻剂已经日渐成为治理藻类水华和赤潮问题的方法之一.近年来,国内外相关人员和机构对溶藻细菌的溶藻机理以及溶藻活性物质的分离、提纯和鉴定进行了较为深入的基础性研究.     

一种有效去除赤潮生物的粘土复合体系

以粘土为主要成分,通过添加A、B两组分制备出能有效去除赤潮生物的粘土复合体系．设计了三因子三水平正交实验,考察了该体系对锥状斯克里普藻(Scrippsiella trochoidea)、强壮前沟藻(Amphi-dinium carterae)和赤潮异弯藻(Heterosigma akashiuo)的去除率,探讨了具有较高去除赤潮生物效果的复合体系对日本对虾(Penaeus japonicus)仔虾(体长1～1．5cm)的影响．结果表明,该体系对3种赤潮生物的去除能力为：锥状斯克里普藻>强壮前沟藻>赤潮异弯藻,各因子中粘土对赤潮生物去除效果的影响最大．日本对虾仔虾急性毒性实验结果表明,96h时对照组日本对虾仔虾死亡率高达80％,加入粘土和组分A、B的Ⅰ、Ⅱ及Ⅲ组死亡率均低于40％,适当浓度的组分A、B可以提高赤潮生物的去除率而对养殖生物无害,表明该复合体系具有较好的推广和应用前景．     

Biological control of phytoplankton by the subtropical submerged macrophytes Egeria densa and Potamogeton illinoensis: a mesocosm study

1. In temperate regions, submerged macrophytes can hamper phytoplankton blooms. Such an effect could arise directly, for instance via allelopathy, or indirectly, via competition for nutrients or the positive interaction between submerged macrophytes and zooplankton grazing. However, there is some evidence that the positive interaction between submerged macrophytes and zooplankton grazing is less marked in warmer regions, where the interaction is less well studied, and that negative effects of higher water plants on phytoplankton biomass are weaker. 2. We carried out two consecutive mesocosm experiments in Uruguay (subtropical South America) to study the effects of two common submerged macrophytes from this region (Egeria densa and Potamogeton illinoensis) on phytoplankton biomass, in the absence of zooplankton grazing. We compared phytoplankton development between different macrophyte treatments (no macrophytes, artificial macrophytes, real Egeria and real Potamogeton). We used artificial macrophytes to differentiate between physical effects (i.e. shading, sedimentation and competition with periphyton) and biological effects (i.e. nutrient competition and allelopathy). 3. In Experiment 1, we found no evidence for physical effects of macrophytes on phytoplankton biomass, but both macrophyte species seemed to exert strong biological effects on phytoplankton biomass. Only Egeria affected phytoplankton community structure, particularly tempering the dominance of Scenedesmus. Nutrient addition assays revealed that only Egeria suppressed phytoplankton through nutrient competition. 4. We performed a second mesocosm experiment with the same design, but applying saturating nutrient conditions as a way of excluding the effects of competition for nutrients. This experiment showed that both macrophytes were still able to suppress phytoplankton through biological mechanisms, providing evidence for allelopathic effects. Our results indicate that both common macrophytes are able to keep phytoplankton biomass low, even in the absence of zooplankton grazing.     

Assessing in situ dominance pattern of phytoplankton classes by dominance analysis as a proxy for realized niches

This study looks at two facets of dominant phytoplankton classes during phytoplankton succession. A detailed assessment of this issue is of special interest with regard to realized niches from a theoretical point of view but also for lake management as practical application.A realized niche mirrors the functional adaptability of an organism in a lake-specific constellation of environmental parameters. Therefore, the characterization of realized niches could be a key factor for management of problematic waters. Different strategies exist to control eutrophication and the risk of blooms by harmful algae. During the last decades, many restoration measures were initiated to manage eutrophicated inland lakes. In the past, it has become evident several times that restoration strategies do not necessarily lead to a reduction of biomass of undesirable cyanobacteria but can even promote their development.Due to this uncertainty of success and the high costs for remediation strategies, new prediction tools are required – ideally, based on routine monitoring data. Therefore, we developed a new method to extract potential optimal growth conditions (POGC) as indicators of realized niches for different phytoplankton taxa from existing data to improve existing strategies used in lake remediation and restoration.The analysis presented in this work is based on dominance pattern of different phytoplankton groups relative to environmental variables. Interpretation of these dominance patterns as indicators of POGC showed distinct pattern for several phytoplankton classes for all investigated objects. We identified low nitrogen and phosphate concentrations as favorable condition for cyanobacteria in Lake Auensee and Lake Feldberger Haussee. The reservoir Bleilochtalsperre showed a high N/P-concentration and cyanobacteria dominance was generally very low.     

Controlling factors of phytoplankton assemblages in wetlands: an experimental approach

The aim of this work is to answer some questions like: what factors control the phytoplankton assemblage? What factor or factors are perturbing the assemblage? What factors are driving or maintaining the stability? Are the different responses to the control factors dependent on the hierarchy level? For that, we tested experimentally the influence of herbivory, planktivory, nutrients and sediment on phytoplankton assemblages and its stability from a hypertrophic wetland (Las Tablas de Daimiel National Park, Spain) in three microcosm experiments. The study of the steady state phytoplankton assemblages in this perturbed system could point out some underlying processes instead of competition. The presence of planktivorous fish and the different composition of zooplankton have minor importance in phytoplankton composition. Conversely, sediment is of paramount importance, promoting a more diverse phytoplankton assemblage. When sediment or nutrient pulses are absent, phytoplankton become dominated by slow-growing algae, present but not dominant in the studied wetland community. We suggest that alternate states of phytoplankton assemblages in a eutrophic wetland occur as a sequence of substitutions persistently altered by perturbations, thanks to the close coupling with sediment, and that possibly trophic relationships are irrelevant.     

Novel interactions between phytoplankton and microzooplankton: their influence on the coupling between growth and grazing rates in the sea

Understanding the processes that regulate phytoplankton biomass and growth rate remains one of the central issues for biological oceanography. While the role of resources in phytoplankton regulation (`bottom up' control) has been explored extensively, the role of grazing (`top down' control) is less well understood. This paper seeks to apply the approach pioneered by Frost and others, i.e. exploring consequences of individual grazer behavior for whole ecosystems, to questions about microzooplankton–phytoplankton interactions. Given the diversity and paucity of phytoplankton prey in much of the sea, there should be strong pressure for microzooplankton, the primary grazers of most phytoplankton, to evolve strategies that maximize prey encounter and utilization while allowing for survival in times of scarcity. These strategies include higher grazing rates on faster-growing phytoplankton cells, the direct use of light for enhancement of protist digestion rates, nutritional plasticity, rapid population growth combined with formation of resting stages, and defenses against predatory zooplankton. Most of these phenomena should increase community-level coupling (i.e. the degree of instantaneous and time-dependent similarity) between rates of phytoplankton growth and microzooplankton grazing, tending to stabilize planktonic ecosystems. Conversely, phytoplankton, whose mortality in the sea is overwhelmingly due to microzooplankton grazing, should experience strong pressure to evolve grazing resistence. Strategies may include chemical, morphological, and `nutrient deficit' defenses. Successful deployment of these defenses should lead to uncoupling between rates of phytoplankton growth and microzooplankton grazing, promoting instability in ecosystem structure. Understanding the comparative ecosystem dynamics of various ocean regions will require an appreciation of how protist grazer behavior and physiology influence the coupling between rates of phytoplankton growth and microzooplankton grazing.     

Comparing biological classifications of freshwater phytoplankton: a case study from South China

The use of ecological classification systems is becoming more and more widely used when studying phytoplankton. Grouping phytoplankton species into ecologically coherent groups allow to reduce redundancy and in this way, to handle a minor number of biological variables when investigating the ecological status of aquatic ecosystems. Three ecological classifications are mostly used when freshwater phytoplankton is studied: functional groups or coda, morpho-functional groups (MFGs) and morphology-based functional groups (MBFGs). In this study, these three ecological classifications were comparatively used along with two taxonomic classifications based on species and genera to analyse phytoplankton response to environmental variability in three sub-tropical Chinese reservoirs. Canonical correspondence analysis was performed to compare the five mentioned biological classifications. When ecological classifications were used, the percentage of variance explained in the biological groups?Cenvironmental variables was higher than that explained by the taxonomic classifications. Coda and MFGs showed a very high degree of overlapping, but since coda are associated to very detailed environmental templates, this method was more helpful in explaining phytoplankton variability in relation to environmental factors.     

着生藻类和浮游藻类在三峡库区河流健康评价中的适宜性比较研究

藻类对水体环境变化敏感,其种类和数量与环境因素有密切联系并因环境的变化而发生变化,因此藻类常作为河流健康评价的指示生物。水体中的藻类根据生活习性不同分为着生藻类和浮游藻类,在河流健康评价中,以往的工作中有的采用浮游藻类用于河流健康评价,有的采用着生藻类用于评价,但浮游藻类和着生藻类究竟何者用于河流健康评价更适宜,抑或是二者在用于评价的适宜性上没有明显差别,迄今为止未开展过深入研究。选择三峡库区内的两条河流嘉陵江和乌江作为研究对象,于2015年9月,在两条河流上共布设11个研究断面,对嘉陵江、乌江的水环境理化因子、着生藻类和浮游藻类群落进行调查研究,应用着生藻类生物完整性指数(Periphytic algal index of biological integrity,Pe-IBI)和浮游藻类生物完整性指数(Phytoplankton index of biological integrity,Ph-IBI),并结合水体综合污染指数(Comprehensive pollution index,CPI),对嘉陵江、乌江的健康状况进行评价。研究结果表明,采用着生藻类生物完整性评价(Pe-IBI)能筛选出7个核心生物参数(藻类总分类单元数、蓝藻总分类单元数、绿藻总分类单元数、菱形藻比例、优势分类单元比例、香农多样性指数、均匀度)用于河流健康评价,着生藻类生物完整性指数(Pe-IBI)与水体综合污染指数(CPI)具有极显著的负相关关系,并且与水体中总氮、铅含量也有极显著的负相关关系,表明水环境质量越低则着生藻类的生物完整性越差;当采用浮游藻类生物完整性(Ph-IBI)用于河流健康评价时却只能筛选出1个核心生物参数(藻类密度),而且浮游藻类生物完整性指数(Ph-IBI)与水体综合污染指数(CPI)及12个水体环境指标并无明显的相关性。本研究表明,在河流水体中,与浮游藻类相比,着生藻类更能反映水体环境的状况,对河流水体环境的反映更为准确。因此,在以流动水体为特征的河流的健康评价中,采用着生藻类比采用浮游藻类更为适宜。     

Harmonising the bioassessment of large rivers in the absence of near‐natural reference conditions – a case study of the Danube River

1. International river catchments pose challenges for effective water resource management. Catchment‐wide strategies are often complicated by differences in national bioassessment and quality classification. Intercalibration efforts aim to harmonise these differences, but rely on the consistent delineation of near‐natural reference sites that are almost unavailable in today’s landscape, especially for large rivers. 2. We introduce the concept of alternative benchmarking that is based on the notion of aquatic communities at similar (low) levels of impairment associated with least‐disturbed conditions (LDC) as defined by abiotic criteria. Using data acquired during the second Joint Danube Survey, we defined LDC sites based on a multivariate gradient of anthropogenic pressures, mostly related to morphological deterioration, that spans the entire navigable Danube. 3. The river was subdivided into four stretches, each featuring homogeneous biological assemblages. Indirect gradient analysis revealed relationships between the pressure gradient and selected features of the macroinvertebrate and macrophyte community but not for diatoms or phytoplankton. 4. We identified biological metrics suitable for the quality classification of individual stretches or the entire river. Impoundment is the major hydromorphological alteration on the Danube but various metrics still responded significantly to differences in the morphological condition of sites not affected by impoundment. 5. A comparison of macroinvertebrate sampling techniques (airlift versus kick‐and‐sweep) revealed differences in how the acquired data reflect the effects of anthropogenic pressure. Biological metrics based only on kick‐and‐sweep sample data were insensitive to habitat deterioration in the heavily modified Upper Danube. 6. This study exemplifies the empirical approach of alternative benchmarking in intercalibration and offers practical solutions to some of the challenges of large river bioassessment.     

The Manna Effect: A Model of Phytoplankton Patchiness in a Regenerative System

A Monte Carlo model for the growth of phytoplankton in a regenerative system has been constructed. This model assumes that nutrients are regenerated randomly in time and space at the scale which is important to the individual organisms. Under such a regime, organisms originally arrayed in a random fashion assume a patchy distribution within fifteen or twenty divisions, with some species becoming nonrandom in their distribution within five divisions. Other factors, physical or biological, may also induce or enhance patchiness, but normal regenerative processes in a nutrient-limited system are sufficient in themselves to explain the phenomenon. Patchiness should be considered as the normal state for nonmotile organisms.     

Biological control through provision of additional food to predators: a theoretical study

In this paper we analyze a variation of a standard predator-prey model with type II functional response which represents predator-prey dynamics in the presence of some additional food to the predator. The aim is to study the consequences of providing additional food on the system dynamics. We conclude that handling times for the available foods play a key role in determining the eventual state of the ecosystem. It is interesting to observe that by varying the quality and quantity of additional food we can not only control and limit the prey, but also limit and eradicate the predators. In the context of biological pest control, the results caution the manager on the choice of quality and quantity of the additional food used for this purpose. An arbitrary choice may have opposite effects leading to increase in pest concentration and eradication of the predator. This study offers insight into the possible management strategies that involve manipulation of quality and supply level of additional food to predators, for the benefit of biological control. The theoretical conclusions agree with results of some practical biological control experiments.     

Ecological Values of Shallow-Water Habitats: Implications for the Restoration of Disturbed Ecosystems

A presumed value of shallow-habitat enhanced pelagic productivity derives from the principle that in nutrient-rich aquatic systems phytoplankton growth rate is controlled by light availability, which varies inversely with habitat depth. We measured a set of biological indicators across the gradient of habitat depth within the Sacramento–San Joaquin River Delta (California) to test the hypothesis that plankton biomass, production, and pelagic energy flow also vary systematically with habitat depth. Results showed that phytoplankton biomass and production were only weakly related to phytoplankton growth rates whereas other processes (transport, consumption) were important controls. Distribution of the invasive clam Corbicula fluminea was patchy, and heavily colonized habitats all supported low phytoplankton biomass and production and functioned as food sinks. Surplus primary production in shallow, uncolonized habitats provided potential subsidies to neighboring recipient habitats. Zooplankton in deeper habitats, where grazing exceeded phytoplankton production, were likely supported by significant fluxes of phytoplankton biomass from connected donor habitats. Our results provide three important lessons for ecosystem science: (a) in the absence of process measurements, derived indices provide valuable information to improve our mechanistic understanding of ecosystem function and to benefit adaptive management strategies; (b) the benefits of some ecosystem functions are displaced by water movements, so the value of individual habitat types can only be revealed through a regional perspective that includes connectedness among habitats; and (c) invasive species can act as overriding controls of habitat function, adding to the uncertainty of management outcomes.