基于化感物质释放特性的沉水植物抑藻作用模式研究进展

沉水植物对藻类的化感抑制作用,是沉水植物获取竞争优势和维持清水稳态的重要机制之一。化感物质是由植物产生并释放到水环境中的次生代谢产物,化感物质的有效释放和作用是实现沉水植物化感抑藻作用的关键环节。因此,在化感物质释放水平阐明沉水植物化感抑藻的作用模式、过程和机制具有重要意义。通过比较沉水植物化感物质释放到水环境中的种类、含量和常规急性毒性测试中化感物质的抑藻效果,发现沉水植物化感物质在释放水平上的作用模式不同于常规急性毒性试验中的单次作用。为了回答沉水植物化感物质在释放水平如何高效抑藻的问题,结合化感物质的释放特性,重点从化感物质的联合作用和持续作用等角度探讨沉水植物化感抑藻的作用模式,提出沉水植物可能通过多种化感物质低剂量持续释放的方式,实现对目标藻类的持续协同控制。今后有必要进一步结合沉水植物与目标藻类的共存系统与原位实验,借助分析化学、植物化学、细胞和分子生物学的技术手段,从生态学水平加强沉水植物化感抑藻作用机制研究。     

化感作用抑制有害藻类生长的研究进展

利用植物化感作用抑制有害藻类生长的方法具有生态安全性好、快速高效等优点, 为有效控制有害藻类的爆发提供了新思路。论文从化感作用的概念、化感抑藻机理、陆生植物对藻类的化感抑制作用、水生植物对藻类的化感抑制作用等方面进行了论述, 并对植物化感作用抑藻技术的研究方向进行了展望, 提出对化感物质在环境中的降解特性、化感物质选择性抑藻机理及具有活性的化感物质的人工合成等方面需要做更深入的研究。     

粉绿狐尾藻（Myriophyllum aquaticum）对铜绿微囊藻（Microcystis aeruginosa）的化感抑制效应及其生理机制

由于生物法,尤其是水生植物化感控藻方法在治理水体富营养化及水华现象中具有多方面的优势,近年来该领域的理论和技术研究备受世界各国关注.采用初始添加种植水和连续添加种植水的方法,研究挺水型粉绿狐尾藻对铜绿微囊藻的化感抑藻效应,并从光合作用的角度探讨其对铜绿微囊藻化感抑制的生理生态机制及作用靶点.研究结果表明:粉绿狐尾藻能够分泌某些化感物质有效抑制铜绿微囊藻的正常生长,其抑藻效应是通过连续释放某些化感物质作用于铜绿微囊藻而实现的,且具有累积性;粉绿狐尾藻分泌化感物质对铜绿微囊藻的Chl a、PC及APC的损伤程度存在差异(如处理5 d后,Chl a、PC、APC的相对含量分别降至52.7%、15.3%、7.6%),其中藻胆蛋白(尤其是APC)比Chl a 更为敏感,说明藻胆蛋白是粉绿狐尾藻化感物质抑制铜绿微囊藻的关键靶点.研究为水生植物化感控藻技术的发展提供了新的材料,并有助于深入了解水体生态系统的化学生态作用及其机制.     

淡水水生植物化感作用研究进展

水生植物的化感作用对淡水生态系统中水草的可持续管理和湖泊富营养化的生态控制具有非常重要的意义。本文综述了淡水水生植物化感作用的发展历史和研究现状,讨论了水生植物化感作用研究过程中所涉及的实验方法、生物测试方法、化感物质分离方法以及影响水生植物化感研究的环境因素。抑藻圈试验、藻类生长试验和浮萍生长试验是常用的生物测试方法;采用共生培养或单独培养的方法,从种植水中分离、鉴定化感物质,对证实复杂水环境中水生植物化感作用的存在,研究它们化感物质的释放途径和作用机理都具有十分重要的作用。     

沉水植物浸提液组分对三种常见附植藻类生长的影响

采用长江中下游湖泊典型沉水植物乡土种轮叶黑藻(Hydrilla verticillata)、穗状狐尾藻(Myriophyllum spicatum)和外来种伊乐藻(Elodea nuttallii)、水盾草(Cabomba caroliniana)叶片浸提液的组分:N-苯基-2-萘胺(4种沉水植物均有)、苯丙酮(伊乐藻特有)和苯并呋喃(水盾草特有),研究不同物质种类及浓度对3种附植藻类:普通小球藻(Chlorella vulgaris)、斜生栅藻(Scenedesmus obliqnus)和四尾栅藻(S.quadricanda)的相对生长率、藻细胞浓度、叶绿素含量等生长指标的影响。结果表明:3种物质均显著降低斜生栅藻和普通小球藻的细胞浓度以及叶绿素含量,对四尾栅藻生长的抑制较弱。3种附植藻类生长指标对不同物质浓度及处理时间的响应存在显著差异,呈现低浓度促进、高浓度抑制现象,随时间推移藻类显示出明显的生长趋势。物质作用效果:苯丙酮苯并呋喃N-苯基-2-萘胺,表明外来种沉水植物叶片浸提液中特有物质具有较强的抑藻效应。     

菖蒲干体提取液对两种水华藻类生长的影响

通过不同浓度的提取液添加试验,研究了水生植物菖蒲的干体提取液对铜绿微囊藻和蛋白核小球藻生长的影响.结果表明:菖蒲干体提取液中含有抑藻活性的化感物质.高浓度的提取液（>40 ml·L^-1）对两种低接种密度藻的生长有显著的抑制作用（P＜0.01）,最高抑制率分别为9866%和9238%;而低浓度的提取液（<30 ml·L^-1）能促进蛋白核小球藻的生长,第7天最低抑制率为-4952%.但两种浓度的提取液对高密度藻的生长并无显著影响（P＞0.05）.对比提取液的半连续添加和一次性添加试验发现,提取液中的抑藻组分较易分解,表明自然水体中化感物质的持续分泌可能是菖蒲对浮游藻类产生抑制作用的重要因素.     

植物化感抑藻的作用机理

对植物化感物质抑藻机理,即化感物质影响藻细胞的光合作用、破坏细胞膜、改变细胞酶活性、影响细胞超微结构及基因表达等几个方面进行了综合评述。研究表明,化感物质主要通过降低叶绿素a含量,破坏光合系统Ⅱ,使细胞膜结构裂解,酶活性改变,抗氧化系统破坏,细胞膜内超微结构受损,基因表达异常等几个方面来抑制藻细胞的分裂或直接杀死藻细胞,从而减少藻细胞数量,抑制藻类的生长。未来应该从更微观角度,即基因表达、分子和遗传机制等方面对化感抑藻机理进行深入研究,以期为开发安全、高效的抑藻化感物质提供理论基础。     

陆生植物化感抑制铜绿微囊藻作用效应及机制研究进展

抑制藻类繁殖,控制水华爆发,是对富营养化水体完成生态修复过程中面临的首要挑战,如何高效安全的抑藻是亟待解决的问题.利用植物化感作用控制富营养化水体中有害藻类大量繁殖是有效的手段之一,但是利用陆生植物化感物质进行抑藻的研究较少.本文从草本植物(菊科/罂粟科、百合科、禾本科)、木本植物以及中草药类植物三大类详细介绍了陆生植物对水华爆发中的主要藻类铜绿微囊藻的抑制效应,并且针对化感物质的分离鉴定和物质基础、作用机制等进行阐述,最后对利用陆生植物化感物质开发抑藻剂的研究思路和注意问题提出了建议.     

红树植物干粉和新鲜组织水提物对两种赤潮藻的化感抑制效应

通过测定藻细胞密度,研究了5种红树植物木榄、秋茄、海漆、海芒果、小花老鼠簕水提物对赤潮藻球形棕囊藻和赤潮异弯藻的化感抑制效应,探讨了高温处理对化感抑藻效应的影响.研究结果表明,红树植物干粉水提物和新鲜组织水提物对两种赤潮藻均显示出显著的化感抑制作用.第5 d,红树植物干粉水提物对2种赤潮藻的抑制效果依次为:海漆>秋茄>小花老鼠簕>木榄>海芒果.新鲜组织水提物抑藻效果最强的红树植物是木榄和秋茄.秋茄和海漆水提物中的抑藻化感物质对高温相对不稳定,木榄和小花老鼠簕水提物中的抑藻化感物质对高温相对比较稳定.     

岩兰草油对淡水藻类的抑制作用

利用植物分泌的化感物质进行藻类控制已成为国内外生态环境领域研究的热点之一。首次探讨了岩兰草油的抑藻效应,建立了岩兰草油对铜绿微囊藻和斜生栅藻两种藻共培养时抑制作用的数学模型,采用GC-MS分析方法对岩兰草油中主要成分进行了鉴定。结果表明:岩兰草油对铜绿微囊藻和斜生栅藻在单独和共培养状态下均有良好的抑制作用,对单独培养的铜绿微囊藻和斜生栅藻抑制作用的EC50分别为0.20和0.30 m L/L,说明岩兰草油对蓝藻(铜绿微囊藻)的抑制效果明显好于对绿藻(斜生栅藻)。岩兰草油的主要成分为具有良好抑藻作用的倍半萜类物质,而所建立的岩兰草油对两藻共培养状态下抑制作用的数学模型可以求出在任何时间节点上铜绿微囊藻和斜生栅藻的种群密度以及要达到抑藻最佳状态的岩兰草油浓度。该研究对水华藻类的控制有较重要的理论与应用价值。     

Can allelopathically active submerged macrophytes stabilise clear-water states in shallow lakes?

Inhibition of phytoplankton by allelochemicals released by submerged macrophytes is supposed to be one of the mechanisms that contribute to the stabilisation of clear-water states in shallow lakes. The relevance of this process at ecosystem level, however, is debated because in situ evidence is difficult to achieve. Our literature review indicates that allelopathically active species such as Myriophyllum, Ceratophyllum, Elodea and Najas or certain charophytes are among the most frequent submerged macrophytes in temperate shallow lakes. The most common experimental approach for allelopathic interference between macrophytes and phytoplankton has been the use of plant extracts or purified plant compounds. Final evidence, however, requires combination with more realistic in situ experiments. Such investigations have successfully been performed with selected species. In situ allelopathic activity is also influenced by the fact that phytoplankton species exhibit differential sensitivity against allelochemicals both between and within major taxonomic groups such as diatoms, cyanobacteria and chlorophytes. In general, epiphytic species apparently are less sensitive towards allelochemicals than phytoplankton despite living closely attached to the plants and being of key importance for macrophyte growth due to their shading. Light and nutrient availability potentially influence the sensitivity of target algae and cyanobacteria. Whether or not additional stressors such as nutrient limitation enhance or dampen allelopathic interactions still has to be clarified. We strongly propose allelopathy as an important mechanism in the interaction between submerged macrophytes and phytoplankton in shallow lakes based on the frequent occurrence of active species and the knowledge of potential target species. The role of allelopathy interfering with epiphyton development is less well understood. Including further levels of complexity, such as nutrient interference, grazing and climate, will extend this ecosystem-based view of in situ allelopathy.     

Allelopathy of Aquatic Autotrophs

Allelopathy in aquatic environments may provide a competitive advantage to angiosperms, algae, or cyanobacteria in their interaction with other primary producers. Allelopathy can influence the competition between different photoautotrophs for resources and change the succession of species, for example, in phytoplankton communities. Field evidence and laboratory studies indicate that allelopathy occurs in all aquatic habitats (marine and freshwater), and that all primary producing organisms (cyanobacteria, micro- and macroalgae as well as angiosperms) are capable of producing and releasing allelopathically active compounds. Although allelopathy also includes positive (stimulating) interactions, the majority of studies describe the inhibitory activity of allelopathically active compounds. Different mechanisms operate depending on whether allelopathy takes place in the open water (pelagic zone) or is substrate associated (benthic habitats). Allelopathical interactions are especially common in fully aquatic species, such as submersed macrophytes or benthic algae and cyanobacteria. The prevention of shading by epiphytic and planktonic primary producers and the competition for space may be the ultimate cause for allelopathical interactions. Aquatic allelochemicals often target multiple physiological processes. The inhibition of photosynthesis of competing primary producers seems to be a frequent mode of action. Multiple biotic and abiotic factors determine the strength of allelopathic interactions. Bacteria associated with the donor or target organism can metabolize excreted allelochemicals. Frequently, the impact of surplus or limiting nutrients has been shown to affect the overall production of allelochemicals and their effect on target species. Similarities and differences of allelopathic interactions in marine and freshwater habitats as well as between the different types of producing organisms are discussed. Referee: Dr. Friedrich Jüttner, Universität Zürich-Limnologische Station, Institut für Pflanzen biologie, Universität Zürich, Seestrasse 187, Ch-8802 Klichberg ZH, Switzerland     

Allelopathic inhibition of epiphytes by submerged macrophytes

The hypothesis that epiphytes are more vulnerable to allelochemicals released by submerged macrophytes than phytoplankton was tested by measuring growth and photosystem (PS) II activity of three common epiphytic algae and cyanobacteria in coexistence with Myriophyllum spicatum using dialysis tubes. Results were compared with earlier experiments on planktonic species. Contrary to the planktonic species, the tested epiphytes, the green algae Stigeoclonium tenue, the diatom Gomphonema parvulum and the cyanobacterium Oscillatoria limosa, were not significantly inhibited by M. spicatum. Growth and PS II activity of O. limosa were even significantly enhanced by M. spicatum, but this effect disappeared under phosphorus-deficiency due to the allelopathically induced inhibition of the alkaline phosphatase activity or phosphorus leakage by the macrophytes. My findings of a lower vulnerability of epiphytes against allelopathic substances of submerged macrophytes are supported by results of a literature survey.     

Long‐term allelopathic control of phytoplankton by the submerged macrophyte Elodea nuttallii

相似文献   

南方红豆杉内生真菌的多样性与群落结构

从南方红豆杉480个针叶与枝条组织块中分离到628株内生真菌,根据形态特征和ITS序列鉴定为28属43个分类单元.其中,包括10种丝孢菌、20种腔孢菌、12种子囊菌和1种未知真菌,茎生拟茎点霉为优势种;根据相对频率,链格孢、出芽短梗霉、博宁刺盘孢、盘长孢状刺盘孢、黑附球菌、Fungal sp.、砖红镰孢、围小丛壳、Magnaporthales sp.、稻黑孢、斑点拟盘多毛孢、小孢拟盘多毛孢、Peyronellaea glomerata和Xylaria sp.1等在南方红豆杉中比较常见.南方红豆杉受到内生真菌侵染的程度较高,81%的组织有内生真菌存在,其资源丰富并具有较高的物种多样性;内生真菌分布受组织性质影响,南方红豆杉针叶中内生真菌的定植率、丰富度、多样性明显低于枝条,枝条间内生真菌组成比针叶与枝条间更加相似,表现出组织偏好性或专一性;组织年龄影响内生真菌的群落结构,随着南方红豆杉枝条组织年龄的增长,内生真菌的定植率、丰富度、多样性均表现出逐渐增加的趋势.系统研究南方红豆杉内生真菌的多样性与群落结构,阐明内生真菌在植物组织中的分布规律,可以为南方红豆杉内生真菌的开发利用提供基础资料和科学依据;探讨病原真菌在健康植物组织中的存在情况,对于南方红豆杉的植物资源保护具有积极意义.     

Searching for allelopathic effects of submerged macrophytes on phytoplankton—state of the art and open questions

Allelopathy, here defined as biochemical interactions between aquatic primary producers, has always been intriguing as a process explaining the dominance of certain plant or algal species over others. Negative chemical interference has been invoked as one of the steering mechanisms behind mutual dominance of either submerged macrophytes or phytoplankton in shallow eutrophic lakes. Yet, despite much effort, convincing evidence for allelopathic interactions in situ is still missing. Also, laboratory approaches often lack reality. Inspired by a series of talks at the Shallow Lakes 2005 meeting in Dalfsen, the Netherlands, we argue that there is circumstantial but strong evidence that allelopathic interference between submerged macrophytes and phytoplankton may indeed exist in aquatic ecosystems despite the problems associated with research in this field. We first discuss experimental approaches combining laboratory and field studies, based on examples presented at this meeting. We then discuss the impact of nutrient status of both producing and target organism and biotic factors such as herbivory or pathogens that might affect allelopathy. Further topics are the potential seasonality of effects and the species-specificity of certain allelochemicals. We conclude with some thoughts why a final proof for allelopathy in situ might remain difficult or even inaccessible in some cases, and why we nevertheless should not abandon this idea.     

Phytoplankton and submerged macrophytes in the aquatic ecosystems of the Danube Delta during the last decade

The dynamics are presented of the main primary producers in seven representative Danube Delta lakes. Generally, the primary productivity developed from the macrophyte-epiphyte complex towards the phytoplankton. Species changes occurred in the two main compartments with increasing relative abundance of colonial blue-green algae in the phytoplankton and in submerged macrophytes of species with a vertical growth strategy. These changes are linked to accelerated eutrophication of the lakes, with increased phosphorus loading and a reduction in N:P ratio.     

Allelopathic activity of Stratiotes aloides on phytoplankton—towards identification of allelopathic substances

The allelopathic activity of the aquatic macrophyte, Stratiotes aloides, was determined with laboratory experiments. Active compounds exuded in the medium or present in plant tissue were extracted using standard procedures and solid phase extraction (SPE). The activity towards various cyanobacteria and chlorophytes was tested in two different bioassay systems using agar plates and liquid cultures of phytoplankton. Extracts and exudates of S. aloides affected phytoplankton growth. SPE-enriched exudates and enriched water from a natural Stratiotes stand caused inhibition of target species, however, also some controls were active. Phytoplankton species exhibited differential sensitivity to extracts of S. aloides. We observed inhibitory and stimulatory effects on phytoplankton. In general, more cyanobacteria than other phytoplankton species were inhibited, and the inhibition of cyanobacteria was stronger. In most cases, nutrient (P or K) limitation of Synechococcus elongatus and Scenedesmus obliquus decreased the sensitivity of these species towards allelochemicals from Stratiotes aloides, except for P-limited cultures of Scenedesmus. The allelopathically active compound(s) from Stratiotes are moderately lipophilic and most likely no phenolic compounds. Our results indicate that allelopathy (besides nutrient interference and shading) might also account for the low phytoplankton and filamentous algae densities in the vicinity of Stratiotes plants, at least during certain phases of the life-cycle of Stratiotes.     

不同生活型大型植物对浮游植物群落的影响

湖泊加速富营养化是世界范围内的普遍现象,由此造成水质恶化,藻类大量增生,水生植被特别是沉水植物衰退乃至消失,生物多样性降低,严重影响湖泊主要功能的发挥。大型植物与浮游植物都是浅水湖泊的初级生产者,其间存在复杂的相互关系,如除竞争作用外,还可能存在相生...