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1.
李祎  杨彩云  李东  田蕴  郑天凌 《微生物学报》2012,52(10):1268-1281
【目的】研究2011年8月厦门海域爆发的由中肋骨条藻和血红哈卡藻共同引发的赤潮生消过程中细菌群落结构变化。【方法】应用变性梯度凝胶电泳技术(Denaturing gradient gel electrophoresis,DGGE)对两个赤潮站位和一个非赤潮站位的细菌群落结构进行研究。通过DGGE图谱分析确定赤潮生消过程中细菌群落中的关键菌群,借助Canoco软件分析细菌菌群与环境因子的相关性。【结果】在赤潮起始阶段细菌的群落结构与pH、N/P的相关性较大,在赤潮消亡阶段细菌的群落结构与盐度、温度呈明显的正相关。γ变形杆菌(Gammaproteobacteria)(47.7%)在赤潮期间处于主导位置,假交替单胞菌属(Pseudoalteromonas)、假单胞菌属(Pseudomonas)、交替单胞菌属(Alteromonas)、噬氢菌属(Hydrogenophaga)、Actibacter、Oleibacter等属均为优势菌群。香农-威列多样性指数表明,赤潮站位细菌多样性随着赤潮生消呈先升高后降低趋势,而非赤潮站位细菌多样性基本保持不变。通过Canoco对细菌菌群的主成分分析发现,在赤潮开始阶段Hydrogenophaga属为优势菌群,而在赤潮消退阶段则以Pseudomonas和Pseudoalteromonas属为主。赤潮站位藻际细菌和游离细菌群落多样性在藻密度较大时均达到最大值,然而两者与环境因子的相关性有较大差别。【结论】研究结果表明赤潮站位细菌群落多样性远高于非赤潮站位,细菌丰度随着赤潮藻密度的升高而增加,细菌与赤潮藻有着密切的关系。本文首次研究了多种优势藻引发的赤潮环境下细菌群落结构的变化,这对于多种藻引发的赤潮生消过程中细菌菌群结构有了深入的了解,为赤潮调控的研究提供了理论依据。  相似文献   

2.
目的:本实验以大亚湾原发性锥状斯氏藻为例,采集野外样品,分析藻华不同时期主要菌群的结构和环境样品的硫化物与赋存形态。方法:应用末端限制性片段长度多态性技术和主成分分析方法,分析藻华发生过程中浮游细菌群落相似程度的情况,得到差异显著的浮游细菌类群。选出代表类群的样品进行16S r DNA高变区测序,获取浮游细菌的分类结果及相对丰度。采用Pearson相关性分析浮游细菌、藻、硫化物两两间的相互关系。结果:早期藻华以Enterobacteriaceae为主导,各优势菌群(Enterobacteriaceae:Alteromonadaceae:Rhodobacteraceae)的比例约为8:1:21,硫元素主要以DMS形式存在;而后期Alteromonadaceae成为优势物种,各优势菌群的比例转变为3:5:25,硫的赋存形态由DMS转变为DMSO;Rhodobacteraceae在藻华的前期与后期均以优势种存在。本实验还发现藻华不同时期4种与藻呈正向相关的细菌,以及8种对藻起负向调节作用的细菌,它们在藻华生消的过程中扮演着不同的角色。结论:菌群的组成性改变与藻华生消具有一定的相关性,并对藻类的硫代谢产生影响。结果的获得有助于认识藻华微生物学过程中硫代谢的生态学功能,拓展锥状斯氏藻藻华的理论认识。  相似文献   

3.
为探究蓝藻水华生消过程对浮游细菌群落组成的影响, 对三峡库区小江支流进行了采样检测, 结果表明小江采样点的水华优势蓝藻主要为水华鱼腥藻和铜绿微囊藻, 水华中期藻细胞密度分别达6.22109和8.77108个/L, 占总生物量的67%和26%。水华中、末期, 浮游细菌群落变化显著。其中, 水华中期主要以玫瑰单胞菌(Roseomona)等属细菌为主, 水华末期则以芽孢杆菌(Bacillus)等属细菌为优势, 且变形菌门(Proteobacteria)及放线菌门(Actinobacteria)细菌相对丰度明显增加, 暗示了细菌群落组成与库区支流蓝藻水华生消变化可能具有相关性。  相似文献   

4.
大连长山群岛海岸带沉积物微生物群落结构特征   总被引:2,自引:0,他引:2       下载免费PDF全文
【目的】为揭示海岸带微生物群落结构在人类活动影响下的分布差异及对环境因子变化的响应趋势,【方法】本实验采用t-RFLP和DGGE技术,对大连长山群岛不同功能类型海岸潮间带沉积物中的微生物群落结构特征进行比对和分析,并通过16S rRNA基因文库解析养殖污染站位的微生物群落结构特征。【结果】T-RFLP的t-RF分析显示,养殖污染严重站位的微生物丰度、香农指数和均匀度明显高于其它站位。通过对t-RFLP色谱峰和DGGE图谱聚类分析发现,处于旅游区的2个站位微生物群落结构相似度较高,养殖区随污染程度加重与旅游区的群落结构差异增大。对污染严重站位建立的克隆文库显示变形菌门(Proteobacteria)为优势菌群,其中γ-变形菌门是主要存在的亚门微生物。【结论】T-RFLP和DGGE技术从不同方面反映了环境中的微生物群落结构特征,研究结果表明养殖污染区的微生物群落结构发生明显变化,其影响大于地理隔离效应,污染严重区域的微生物群落中存在大量肠杆菌属,且多个物种与富营养化和赤潮相关联,如拟杆菌门和α-变形细菌红细菌目的细菌。  相似文献   

5.
方敏  徐小蓉  唐明  唐婧 《微生物学报》2019,59(8):1522-1534
【目的】为了解野生马缨杜鹃根系微生物的群落结构特征,比较百里杜鹃内马缨杜鹃根际土壤、根表及根内3个生态位微生物群落组成差异,探究杜鹃根系生态位之间、变化菌属间的相互关系,以期为今后杜鹃根系微生物研究提供具有参考价值的数据。【方法】对百里杜鹃内野生马缨杜鹃根系微生物16S rRNA V4区和ITS1区进行高通量测序,比较分析根际土壤、根表及根内微生物群落多样性及组成差异;并基于共变化网络分析进一步探究差异菌属间的相互关系。【结果】马缨杜鹃根系不同的生态位之间,微生物群落结构存在差异,其中以根际土壤与根表、根内差异更为显著,且细菌群落差异小于真菌群落。且从根际-根表-根内,马缨杜鹃根系细菌α-多样性显著下降。马缨杜鹃根系微生物分布于41细菌门和6个真菌门。优势细菌门为变形菌门(Proteobacteria,39.64%±0.08,69.47%±0.12,77.34%±0.07)、酸杆菌门(Acidobacteria,34.10%±0.11,11.03%±0.04,9.18%±0.04)以及放线菌门(Actinobacteria,10.19%±0.03,8.70%±0.02,7.08%±0.01),它们占整体细菌群落总丰度的80%以上。同时8个细菌菌门的相对丰度在根际土壤、根表和根内间显著变化,且它们的相对丰度占细菌群落总丰度的75%以上。真菌主要分布于接合菌门(Zygomycota)、担子菌门(Basidiomycota)和子囊菌门(Ascomycota),它们占整体菌群的99%以上。马缨杜鹃根系存在589个属的细菌,390个属的真菌,从根际-根表-根内,其中25个细菌属和10个真菌属的相对丰度发生显著变化。马缨杜鹃根系微生物群落共变化网络分析表明:在马缨杜鹃根系不同生态位间,除Waitea外,包括枝孢菌属(Cladosporium)、拟盘多毛孢属(Pestalotiopsis)等在内的8个差异真菌菌属均与细菌菌属显著相关,它们相互作用调控微生物群落结构的变化。Bryobacter、Nocardia、Rhizomicrobium和Telmatobacter等核心菌属对马缨杜鹃根系微生物群落共变化网络的变化具有十分重要的调控作用。【结论】百里杜鹃地区马缨杜鹃根际土壤、根表以及根内3个生态位间,微生物群落组成存在差异;而造成微生物组成存在差异这一结果,可能与马缨杜鹃根系密切相关。同时,共变化网络分析揭示出马缨杜鹃根系生态位之间,细菌和真菌彼此间互作。  相似文献   

6.
海洋细菌生态学的若干前沿课题及其研究新进展   总被引:6,自引:0,他引:6       下载免费PDF全文
海洋细菌在海洋生态系统中的重要作用随着微食物环的提出被深入认识和充分肯定。本文概述了海洋细菌在微食物环中的重要生态作用及微食物环的研究进展,海洋细菌在碳的生物地球化学循环中的重要性,海洋细菌的活性及其群落结构与功能,分析了藻际环境特性和藻际微生物在赤潮多发海域的生态作用,提出了我国海洋细菌生态学研究的若干新思考与新任务,强调了基于"以菌治藻"的新理念,开展针对于赤潮灾害防除的"微食物环-赤潮-关键微生物菌群"耦合互作这一重要科学问题研究的必要性及紧迫性。  相似文献   

7.
水葫芦根际细菌群落结构多样性分析   总被引:1,自引:0,他引:1       下载免费PDF全文
郑李军  傅明辉 《微生物学通报》2015,42(11):2115-2125
【目的】了解水葫芦根际细菌群落结构。【方法】运用末端限制性片段长度多态性(Terminal restriction fragment length polymorphism,T-RFLP)技术分析富营养化水体中水葫芦根际和水葫芦近、远水样的细菌群落特征及多样性,结合克隆文库技术和培养法分析根际的细菌种群类型。【结果】同一时期水葫芦根际细菌多样性(Shannon-Weiner指数H′或Simpson指数D)更高,水葫芦近水样次之,远水样最小。10月份的细菌多样性高于5月份的。通过水葫芦根际细菌的克隆文库可知变形杆菌门(Proteobacteria)是水葫芦根际细菌的主要类群,占总群体的65.1%,包括噬菌弧菌(Bacteriovorax sp.)、Dechloromonas sp.、Leptothrix sp.、红螺菌科(Rhodospirillaceae)、Rhodoferax sp.和红环菌科(Rhodocyclaceae)等。T-RFLP图谱显示159 bp为最大优势菌,247 bp为第二大优势菌,对照克隆文库及培养结果分析247 bp属于γ-Proteobacteria,159 bp为不动杆菌(Acinetobacter sp.)。【结论】水葫芦根际细菌的群落结构丰富,不同时段水葫芦根际细菌的丰度略有变化,主要类群为变形杆菌门。  相似文献   

8.
张琼琼  黄兴如  郭逍宇 《生态学报》2016,36(14):4518-4530
为了解水位梯度控制下不同湿地植物根际细菌群落多样性,以北京市奥林匹克公园植物氧化塘人工湿地为例,采用末端限制性片段长度多态性(T-RFLP)技术结合ANOVA分析,比较了水位梯度控制下三棱草、芦苇、香蒲、睡莲4种植物根际细菌群落的多样性。研究结果显示:随着水位梯度加深,根际细菌群落多样性呈现减少趋势,HhaⅠ、MspⅠ、RsaⅠ3种不同酶切所得结果一致,且综合3种酶切的PAT比对中RFs组合数量随水位梯度加深也呈相应变化趋势。进一步分析发现,随水位梯度加深植物根际可培养细菌RFs数量变化较显著。不同水位梯度下各植物根际细菌群落中差异显著的菌群为Beta变形杆菌纲,水位梯度加深可能导致不同生态型植物根际泌氧能力降低,进而影响植物根际好氧细菌生存,从而出现三棱草根际属水平菌群丰富度最高,其次为芦苇、香蒲,最少为睡莲。各植物根际细菌群落的优势属多数为变形杆菌门,是脱氮除磷的功能性菌门,其中产碱杆菌属和黄杆菌属为四种植物根际细菌的共同优势属,在碳氮循环中起重要作用。  相似文献   

9.
目的探究生防细菌DS R5施入丹参植株后根际和根表土壤细菌群落组成及多样性变化。方法向丹参植株根部施入生防细菌DS R5,以未施用细菌为对照组,分别采集根际和根表土壤样品提取总DNA,扩增样品总DNA的V3-V4区,采用Illumina MiSeq 测序平台对PCR扩增产物进行双端测序分析,利用生物信息学分析解析丹参植株根际土壤和根表土壤细菌群落结构组成及多样性。结果菌株DS R5处理后增加了根际土壤细菌群落的多样性和丰度,降低了根表土壤细菌群落的多样性和丰度;高通量测序得到的根际和根表土壤的有效序列数量和OTU数量相比对照组均有所下降,根际土壤处理样品中微生物种类最丰富,根表土壤处理样品中微生物种类最少,根际土壤处理样品与根际土壤对照物种种类更接近;在门水平上,根际土壤处理样品相比对照变形菌门丰度下降,酸杆菌门丰度升高,根表土壤处理样品相比对照变形菌门和酸杆菌门丰度均升高,放线菌门丰度降低;在属水平上,根际土壤处理样品中鞘氨醇单胞菌属、芽胞杆菌属、慢生根瘤菌属相比根际土壤对照占比均有升高,根表土壤处理样品相比对照黄杆菌属和伯克菌属丰度下降,而土壤中的优势菌属根瘤菌属和芽胞杆菌属丰度升高。结论丹参植株施用生防细菌DS R5后,改变了根际土壤和根表土壤中微生物群落结构和多样性。  相似文献   

10.
群体感应信号(quorum sensing,QS)是细菌的一种特殊交流方式,它具有调节种群密度、生物膜形成、毒素产生以及色素的形成等多种功能。藻菌关系是藻华过程中重要的一环,为了探求藻华过程中信号微生物的动态变化,我们以深圳大鹏湾的锥状斯氏藻(Scrippsiella trochoidea)藻华中的QS菌株为研究对象,应用报告菌株和环境微生物宏基因组方法,监测了藻华爆发期间信号微生物的动态变化过程,并构建了藻类、QS微生物与其它微生物的相关性关系。结果表明:在筛选的QS菌株中经去冗余和重复后成功鉴定了7种不同的细菌,分别是冷杆菌Psychrobacter cryohalolentis、普罗维登斯菌Providencia sneebia、假单胞菌Pseudomonas stutzeri、微小杆菌Exiguobacterium sp.AT1b、产酸克雷伯菌Klebsiella oxytoca、球形赖氨酸芽孢杆菌Lysinibacillus sphaericus和鲍氏不动杆菌Acinetobacter baumannii。相关性分析发现P.sneebia的丰度与藻类数量变化呈正相关,而L.sphaericus和P.stutzeri的丰度与藻类数量变化呈负相关,其它QS微生物中未见显著相关性。综合实验的结果来看,QS微生物在藻际微生物的群体结构中扮演着一定的生态作用,它帮助我们从一个新的视角了解藻华过程中QS微生物的丰度变化和网络关系,为认识藻菌关系提供了新的思路。  相似文献   

11.
With the global expansion of harmful algal blooms (HABs), several measures, including molecular approaches, have been undertaken to monitor its occurrence. Many reports have indicated the significant roles of bacteria in controlling algal bloom dynamics. Attempts have been made to utilize the bacteria/harmful algae relationship in HAB monitoring. In this study, bacterial assemblages monitored during coastal HABs and bacterial communities in induced microcosm blooms were investigated. Samples were analysed using denaturing gradient gel electrophoresis (DGGE) of the 16S rRNA gene. DGGE bands with peculiar patterns before, during, and after algal blooms were isolated and identified. Probes for six ribotypes representing organisms associated with Chatonella spp., Heterocapsa circularisquama, or Heterosigma akashiwo were used for analysis on NanoChip electronic microarray. In addition, a new approach using cultured bacteria species was developed to detect longer (533 bp) polymerase chain reaction-amplified products on the electronic microarray. The use of fluorescently labelled primers allowed the detection of individual species in single or mixed DNA conditions. The developed approach enabled the detection of the presence or absence and relative abundance of the HAB-related ribotypes in coastal and microcosm blooms. This study indicates the ability of electronic microarray platform to detect or monitor bacteria in natural and induced environments.  相似文献   

12.
《Harmful algae》2009,8(1):167-174
Every year harmful algal blooms (HABs) cause serious impacts to local economies, coastal ecosystems, and human health on a global scale. It is well known that nutrient availability can influence important aspects of harmful algae biology and ecology, such as growth, toxin production, and life cycle stage, as well as bloom initiation, persistence and decline. Increases in the rate of supply of organic matter to ecosystems (eutrophication) carries many possible ramifications to coastal systems, including the potential for nutrient enrichment and the potential for stimulation of harmful algal blooms. Traditional studies on algal nutrition typically use either cultured isolates or community level assays, to examine nutrient uptake, nutrient preference, elemental composition, and other metrics of a species’ response to nutrients. In the last decade, technological advances have led to a great increase in the number of sequences available for critical harmful species. This, in turn, has led to new insights with regards to algal nutrition, and these advances highlight the promise of molecular technologies, and genomic approaches, to improving our understanding of algal nutrient acquisition and nutritional physiological ecology, in both cultures and field populations. With these developments increased monitoring of nutritional physiology in field populations of harmful algae will allow us to better discriminate how eutrophication impacts these groups.  相似文献   

13.
[背景] 近岸海域赤潮的发生能显著改变包括真菌在内的微生物群落组成,进而影响海洋中碳氮元素循环。真菌是海洋中重要的分解者,但赤潮过程对真菌群落的影响少有报道。[目的] 探明赤潮过程对真菌群落的影响,对进一步阐释赤潮对生态系统中物质循环的影响具有重要意义。[方法] 针对2017年春季象山港硅藻赤潮,对真菌内源转录间隔区1(Internally Transcribed Spacer 1,ITS1)序列进行高通量测序,研究赤潮过程中真菌群落响应及共现性特征。[结果] 真菌群落的α多样性指数在赤潮暴发的各阶段差异显著,而且均与磷酸盐、硝酸盐和亚硝酸盐有显著相关性(P<0.05)。子囊菌门(Ascomycota,90.2%)和担子菌门(Basidiomycota,8.27%)是本次硅藻赤潮的优势菌门,其中子囊菌门遍布赤潮暴发的4个阶段;锤舌菌纲(Leotiomycetes,16.1%)和散囊菌纲(Eurotiomycetes,9.3%)是纲水平上的主要优势类群。赤潮暴发过程中硝酸盐、亚硝酸盐、磷酸盐和温度等环境因素的改变,驱动真菌群落组成及结构发生显著变化。Helotiales、Eurotiales、Xylariales、Sacc haromycetalesAgaricostilbales构成了真菌群落共现网络的主体。[结论] 真菌群落在赤潮的各阶段具有显著的演替特征,赤潮藻生消是引起真菌群落演替的主要因素,但是环境因子也扮演着重要角色。赤潮过程中,真菌群落同类群内的互作要强于不同类群间的互作,这对维持群落的稳定性具有重要意义。  相似文献   

14.
湖泊富营养化导致的水华藻类频繁暴发已成为当今世界性的环境问题,溶藻微生物作为生物法防治有害藻类水华具有广泛的研究前景,通过查阅文献对微生物控制有害藻类水华进行概述,并探讨进一步的研究趋势和应用前景,以期对微生物溶藻方面的研究及开发应用有一定的参考价值。  相似文献   

15.
Harmful algal blooms: causes,impacts and detection   总被引:9,自引:0,他引:9  
Blooms of autotrophic algae and some heterotrophic protists are increasingly frequent in coastal waters around the world and are collectively grouped as harmful algal blooms (HABs). Blooms of these organisms are attributed to two primary factors: natural processes such as circulation, upwelling relaxation, and river flow; and, anthropogenic loadings leading to eutrophication. Unfortunately, the latter is commonly assumed to be the primary cause of all blooms, which is not the case in many instances. Moreover, although it is generally acknowledged that occurrences of these phenomena are increasing throughout the world's oceans, the reasons for this apparent increase remain debated and include not only eutrophication but increased observation efforts in coastal zones of the world. There is a rapidly advancing monitoring effort resulting from the perception of increased impacts from these HABs, manifested as expanding routine coastal monitoring programs, rapid development and deployment of new detection methods for individual species, toxins, and toxicities, and expansion of coastal modeling activities towards observational forecasts of bloom landfall and eventually bloom prediction. Together, these many efforts will provide resource managers with the tools needed to develop effective strategies for the management and mitigation of HABs and their frequently devastating impacts on the coastal environment.  相似文献   

16.
Algicidal bacteria in the sea and their impact on algal blooms   总被引:23,自引:0,他引:23  
Over the past two decades, many reports have revealed the existence of bacteria capable of killing phytoplankton. These algicidal bacteria sometimes increase in abundance concurrently with the decline of algal blooms, suggesting that they may affect algal bloom dynamics. Here, we synthesize the existing knowledge on algicidal bacteria interactions with marine eukaryotic microalgae. We discuss the effectiveness of the current methods to characterize the algicidal phenotype in an ecosystem context. We briefly consider the literature on the phylogenetic identification of algicidal bacteria, their interaction with their algal prey, the characterization of algicidal molecules, and the enumeration of algicidal bacteria during algal blooms. We conclude that, due to limitations of current methods, the evidence for algicidal bacteria causing algal bloom decline is circumstantial. New methods and an ecosystem approach are needed to test hypotheses on the impact of algicidal bacteria in algal bloom dynamics. This will require enlarging the scope of inquiry from its current focus on the potential utility of algicidal bacteria in the control of harmful algal blooms. We suggest conceptualizing bacterial algicidy within the general problem of bacterial regulation of algal community structure in the ocean.  相似文献   

17.
Biotic interactions dominate plankton communities, yet the microbial consortia associated with harmful algal blooms (HABs) have not been well-described. Here, high-throughput amplicon sequencing of ribosomal genes was used to quantify the dynamics of bacterial (16S) and phytoplankton assemblages (18S) associated with blooms and cultures of two harmful algae, Alexandrium fundyense and Dinophysis acuminata. Experiments were performed to assess changes in natural bacterial and phytoplankton communities in response to the filtrate from cultures of these two harmful algae. Analysis of prokaryotic sequences from ecosystems, experiments, and cultures revealed statistically unique bacterial associations with each HAB. The dinoflagellate, Alexandrium, was strongly associated with multiple genera of Flavobacteria including Owenweeksia spp., Maribacter spp., and individuals within the NS5 marine group. While Flavobacteria also dominated Dinophysis-associated communities, the relative abundance of Alteromonadales bacteria strongly co-varied with Dinophysis abundances during blooms and Ulvibacter spp. (Flavobacteriales) and Arenicella spp. (Gammaproteobacteria) were associated with cells in culture. Eukaryotic sequencing facilitated the discovery of the endosymbiotic, parasitic dinoflagellate, Amoebophrya spp., that had not been regionally described but represented up to 17% of sequences during Alexandrium blooms. The presence of Alexandrium in field samples and in experiments significantly altered the relative abundances of bacterial and phytoplankton by both suppressing and promoting different taxa, while this effect was weaker in Dinophysis. Experiments specifically revealed a negative feedback loop during blooms whereby Alexandrium filtrate promoted the abundance of the parasite, Amoebophrya spp. Collectively, this study demonstrates that HABs formed by Alexandrium and Dinophysis harbor unique prokaryotic and eukaryotic microbiomes that are likely to, in turn, influence the dynamics of these HABs.  相似文献   

18.
Mechanisms influencing initiation of harmful algal blooms (HABs) are diverse, and are not likely to be mutually exclusive. Rather, initiation of HABs is a result of interactions between processes, which result in biological, physical, and chemical conditions optimal for a bloom. Due to the complexity of some bloom initiation processes, bloom-preventative management may be possible. Results from a modeling exercise and a laboratory experiment indicated that a phytoplankton bloom could be circumvented through manipulation of the nutrient-loading mode, i.e., pulsed vs. continuous loading. These findings, should they prove consistent in more robust field experiments, may provide insights for the development of new management approaches for some HABs. Optimal bloom conditions, however, vary between HAB species. Consequently, it is unlikely that a single management solution will exist. Preventative management efforts will require early warning of HAB initiation, perhaps even before the appearance of an HAB species. An indicator based on the dynamic nature of phytoplankton succession events and phytoplankton species diversity may prove useful for this purpose. Applying this index to an existing plankton data set showed that Microcystis blooms might have been predicted months before the start of the bloom.  相似文献   

19.
Hans Güde 《Hydrobiologia》1988,159(1):63-73
Herbivorous crustacean zooplankton may influence bacterial populations of lakes directly by grazing on them or indirectly by grazing on algae. In Lake Constance a regularly observed decrease of bacterial density during periods of high abundance of cladocerans (clearwater phase) indicated bacterial grazing losses. However, cladoceran grazing on bacteria appeared to be less efficient than on algae. Moreover, cladocera reduced grazing pressure on bacteria by grazing on bacterivorous flagellates. Additionally, a shift of bacterial composition from an originally higher percentage of filamentous and aggregate growth forms towards a population of homogenously distributed small single celled bacteria was observed regularly at the beginning of the clearwater phase. Transient increases of bacterial abundance and productivity coinciding with the increase of cladocera at the end of the algal spring bloom were interpreted as field indications of indirect bacteria-zooplankton interactions due to crustacean grazing on phytoplankton. The release of organic carbon during grazing of crustacea on algae was considered as explanation for the observed stimulation of bacterial populations. Thereby, additional, otherwise inaccessible algal carbon would be made available to bacteria by zooplankton. Experimental support for this hypothesis was given by showing that bacteria were able to respond to crustacean grazing on algae by enhanced growth and activities. The possible impact of these direct and indirect crustacea-bacteria interactions on the abundance, activity and composition of bacterioplankton as well as on the structure and function of the total planktonic community is discussed.  相似文献   

20.
Dinoflagellate blooms in coastal upwelling systems are restricted to times and places with reduced exchange and mixing. The Rías Baixas of Galicia are four bays in the NW Iberian upwelling with these characteristics where harmful algal blooms (HABs) of dinoflagellates are common. These blooms are especially recurrent at the end of the upwelling season, when autumn downwelling amplifies accumulation and retention through the development of a convergence front in the interior of Rías. Because oceanic water enters the Rías during downwelling, it has been hypothesised that dinoflagellate blooms originate by the advection and subsequent accumulation of allochthonous populations. To examine this possibility, we studied the microplankton succession in relation to hydrographic variability in the Ría de Vigo (one of these four bays) along an annual cycle making use of a high sampling frequency. The results indicated that upwelling lasted from May to August, with downwelling prevailing in winter. Microplankton during upwelling, although dominated by diatoms, evidenced a progressive increase in the importance of dinoflagellates, which achieved maximum abundance at the end of the upwelling season. Thus, diatoms characterised the spring bloom, while diatoms and autochthonous dinoflagellates composed the autumn bloom. Diatoms dominated during the first moments of the autumn downwelling and dinoflagellates were more abundant later, after stronger downwelling removed diatoms from the water column. Since the dinoflagellates selected by downwelling belonged to the local community, it is concluded that advection of alien populations is not required to explain these autumn blooms.  相似文献   

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