Contamination of some reservoirs and lakes in Republic of Bulgaria by microcystins     

Vera Pavlova  Pavel Babica  Detelina Todorova  Zlatka Bratanova  Blahoslav Mar&#x;lek 《洁净——土壤、空气、水》2006,34(5):437-441

This paper presents the results from analyses of water samples from 15 Bulgarian reservoirs and lakes for detection of microcystins presence by high‐performance liquid chromatography (HPLC) coupled to a ultraviolet (UV) and photo diode array (PDA) detector. In 3 of the studied drinking water reservoirs cyanobacterial blooms were not detected. Cyanobacterial blooms were observed in 6 of 12 investigated water bodies used for fishing and water sports. Microcystis was the dominant cyanobacterial genus. The concentration of total microcystins in the biomasses ranged from 8 to 1070 μg g^–1 (d.w.). Microcystin‐LR and microcystin‐RR were the predominant microcystins, followed by microcystin‐YR. Presence of dissolved microcystins was obtained in one water sample with concentration of total microcystins 1.64 μg L^–1. Presence of microcystin‐LF and ‐LW or unknown peaks possessing characteristic microcystin‐like UV‐spectra were not detected. Those first results for occurrence of microcystins in some Bulgarian reservoirs and lakes are a contribution to the knowledge on their distribution.  相似文献   

BASIC: Baltic Sea cyanobacteria. An investigation of the structure and dynamics of water blooms of cyanobacteria in the Baltic Sea—responses to a changing environment     

Lucas J. Stal  Patrizia Albertano  Birgitta Bergman  Klaus von Brckel  John R. Gallon  Paul K. Hayes  Kaarina Sivonen  Anthony E. Walsby 《Continental Shelf Research》2003,23(17-19):1695

The blooms of cyanobacteria that develop each summer in the Baltic Sea are composed of two functional groups, namely the small-sized picocyanobacteria (Synechococcus sp.) and the larger, colony-forming, filamentous N₂-fixing cyanobacteria. The former encompassed both red (phycoerythrin-rich) and blue-green (phycocyanin-rich) species. The majority of the picocyanobacteria measured less than 1 μm and this size fraction comprised as much as 80% of the total cyanobacterial biomass and contributed as much as 50% of the total primary production of a cyanobacterial bloom. The picocyanobacteria are incapable of fixing N₂, do not possess gas vesicles and are not toxic. However, a small filamentous Pseudanabaena sp. that could potentially fix N₂ was isolated from the picocyanobacteria fraction. The larger cyanobacteria may form surface scums because they possess gas vesicles that make them buoyant. Although their biomass was less than the picocyanobacteria, they therefore form the more conspicuous and nuisance-forming part of the bloom. The larger cyanobacteria were composed mainly of three different species: Nodularia spumigena, Aphanizomenon flos-aquae and Anabaena sp. These all belong to the heterocystous, N₂-fixing cyanobacteria. N. spumigena and A. flos-aquae were the dominant species; only N. spumigena was toxic. Although individual Nodularia filaments showed a range of different phenotypes, they all belong to one species as judged from 16S rDNA sequencing. Through determination of the genotypes of many individual Nodularia filaments, it was shown that this population was not clonal and that horizontal exchange of genetic information occurs. N. spumigena and A. flos-aquae were different with respect to their photosynthetic and N₂-fixing potentials. Depending on prevailing environmental conditions, these differences would promote the proliferation of one species over the other and hence would determine overall the toxicity of a bloom. Daily integrals of photon irradiance rather than temperature determined the onset of bloom formation. During a bloom, the diazotrophic cyanobacteria fixed N₂ at a rate that was 10–20% in excess of their own demand for N. Picocyanobacteria assimilated most of this excess N as shown by ¹⁵N incorporation. During bloom conditions, the diazotrophic cyanobacteria met about 50% of the N demand of the total cyanobacterial community. The picocyanobacteria were predominantly N-limited while the diazotrophic cyanobacteria were probably iron limited. These findings allow us to understand the formation of toxic cyanobacterial blooms and also to develop tools to predict bloom formation.  相似文献   

风场对鄱阳湖丰水期表层蓝藻密度的影响     

杨平  刘聚涛  胡芳  温春云  文慧  吴桨  付莎莎  戴国飞 《湖泊科学》2024,36(2):377-388

目前,在风场对蓝藻的影响研究方面,国内针对太湖、滇池、巢湖等浅水湖泊的研究较多,针对鄱阳湖的研究则多集中于蓝藻群落特征及其与营养盐之间的关系。近年来,作为长江流域重要的通江湖泊,处于轻度富营养化状态的鄱阳湖水体蓝藻水华在局部库湾和部分水域出现,风场如何影响鄱阳湖表层蓝藻密度是一个值得探讨的问题。2019-2021年,在鄱阳湖布设13~49个采样点,于平水期、丰水期和枯水期现场采集各个点位表层水样、藻类、风场和流场数据,分析风场对鄱阳湖丰水期表层蓝藻密度的影响。结果表明,2019-2021年鄱阳湖丰水期风速与表层蓝藻密度呈显著正相关性,风场对水体的充分混合及驱动水体形成的风生流是促进蓝藻生长的原因之一。在流速较高(>0.05 m/s)的区域,无论风速高于还是低于临界风速(3~4 m/s),鄱阳湖表层蓝藻密度的空间分布受流场的影响更大;在流速较低(<0.05 m/s)的区域,风速在临界风速以下时,鄱阳湖表层蓝藻密度的空间分布受风场影响更大。2019-2021年鄱阳湖丰水期蓝藻密度超过水华暴发的阈值,但在高风速高流速的共同作用下未能发生大范围的蓝藻水华,仅能在风速适宜(<3~4 m/s)、流速较低(<0.05 m/s)的内湾、尾闾区等区域发生小面积的蓝藻水华。鄱阳湖丰水期水体处于长江顶托的低流速且微风条件下时,发生大面积蓝藻水华的概率可能会明显上升。  相似文献   

Speciation of organic carbon,Cu and Mn in the River Marne (France): the role of colloids     

A. Jaïry  B. Garban  M. Blanchard  A. Chesterikoff 《水文研究》1999,13(2):223-237

The distribution of organic carbon (OC) and of some metals (Cu, Mn) amongst the particulate (>0·2 μm), colloidal (10 kDa–0·2 μm) and the truly dissolved (<10 kDa) fractions of the River Marne was investigated during the phytoplankton spring bloom. A tangential ultrafiltration (UF) device was utilized to separate the colloidal fraction. On average, 22% of the OC, 31% of the Cu and 53% of the Mn, usually assigned to the so‐called dissolved fraction, were found in the colloidal fraction. The colloidal fraction exhibited a behaviour different from that of the particulate and truly dissolved fractions. Autochthonous production led to enrichment in the colloidal and particulate OC pools: up to 47% of the total dissolved OC was in the colloidal fraction. An increase in the colloidal metal fraction, concomitant with a fall in the truly dissolved fraction, coincided with peaks in phytoplankton during the bloom. These phenomena might be related either to an increase in pH associated with photosynthetic activity, resulting in the precipitation of truly dissolved forms into the colloidal fraction, or to scavenging of the truly dissolved metals by the algal species of colloidal size. The interaction between the colloidal and the truly dissolved phases was very important. The partition coefficients of the Cu and Mn between the colloidal and truly dissolved fractions were higher than between the particulate and the truly dissolved fractions. This pattern is consistent with a greater specific surface area of colloids than macroparticles. Consequently, the adsorption and complexation capacities are enhanced in the colloidal fraction of the particulate matter. The extraction of hydrophobic complexes with Cu using C₁₈ Sep‐Pak columns, showed that the Cu occurring in colloidal, total dissolved or truly dissolved forms was significantly complexed by the organic matter. The truly dissolved fraction might be complexed up to 100% during a phytoplankton bloom. Copyright © 1999 John Wiley & Sons, Ltd.  相似文献   

福建某河流甲藻水华与污染指标的关系   总被引：8，自引：4，他引：4  

边归国  陈宁  胡征宇  刘国祥 《湖泊科学》2010,22(3):405-410

2009年1-2月份,在福建某河流发现大面积水华,河水呈深褐色经对气温、水温、pH、溶解氧、高锰酸盐指数、氨氮、总氮、总磷以及藻细胞密度、叶绿素a等因子的监测,发现水中有甲藻、隐藻、硅藻、绿藻、蓝藻、裸藻和其它常见种,其中优势种为佩氏拟多甲藻(Peridiniopsis penardii),细胞密度为0.1×10~5-333×10~5cells/L.水体营养盐丰富,总氮浓度为2.50-8.65mg/L、总磷浓度为0.09-1.15mg/L.另外,pH值、溶解氧异常升高,水华反反复复持续一个多月时间.经相关分析,拟多甲藻细胞密度与气温、pH值和总氮相关系数分别为-0.323(P=0.027)、0.327(P=0.025)和0.316(P=0.030),显著相关,偏相关分析表明,拟多甲藻细胞密度与水温相关系数为-0.4894(P=0.008),非常显著负相关.结果显示,pH值和溶解氧升高是甲藻水华产生的表征现象,总氮可能是本次甲藻水华生长的限制因子,而气温和水温的变化既是甲藻水华产生的重要原因,但超过甲藻适宜的生长温度对其也起到一定的抑制作用.由于调查区干旱、少雨、梯级电站过密等因素所导致的水流速过缓,加上足够的营养盐和合适的温度,促使本次拟多甲藻水华的发生.  相似文献   

三峡水库香溪河库湾蓝藻水华暴发特性及成因探析   总被引：5，自引：1，他引：4  

杨敏  张晟  胡征宇 《湖泊科学》2014,26(3):371-378

2008年夏季,香溪河库湾自三峡水库建库以来第1次暴发蓝藻水华,水华波及整个库湾,持续时间达1个月之余.为了解这次水华暴发特性及发生原因,本文对蓝藻水华的发生发展过程进行了跟踪调查,6-7月水华发生期间每周采样1次.调查表明本次蓝藻水华的优势种为鱼腥藻(Anabaena sp.)、铜绿微囊藻(Microcystis aeruginosa)、惠氏微囊藻(Microcystis wesenbergii)等,细胞密度高达3.82×10⁸ cells/L,蓝藻相对密度达到90%以上.本文将2008年5-7月与2007年同期理化指标比较发现,2007年5月的N:P为18.6,而2008年5月的N:P较低,为6.2,据文献报道N:P < 8有利于微囊藻的复苏,因此2008年水华前期的低N:P利于微囊藻的复苏,为微囊藻在适宜条件下的大量增殖提供了种源基础.方差分析表明,2008年5-7月各采样点真光层深度显著高于2007年同期,使得底泥中的微囊藻获得一定强度的光照而复苏,这可能是2008年蓝藻水华在香溪河库湾暴发的原因之一.综上所述,在具备充足的营养盐基础、较强的水体稳定性以及较高水温的前提下,香溪河库湾水华发生前期较低的N:P以及较高强度的光照可能是微囊藻复苏的诱导因子,为蓝藻水华暴发提供了种源基础.  相似文献   

浅水湖泊湖沼学与太湖富营养化控制研究   总被引：2，自引：1，他引：1  

秦伯强 《湖泊科学》2020,32(5):1229-1243

自2007年无锡暴发饮用水危机事件以来,太湖经历了前所未有的高强度、大规模治理,各种治理措施累计投资已经超过千亿元.监测显示,在治理初期太湖的氮、磷浓度下降明显,水质有所好转,但最近几年关键水质指标总磷与浮游植物叶绿素α浓度出现了波动,蓝藻水华有所反弹.研究表明,太湖的外源负荷并没有减少,这与城镇用水量增加、污水排放标准偏低、面源污染削减不足有很大的关系;同时,内源负荷也因为蓝藻水华的持续而加重,浅水湖泊水深浅、扰动强的特点强化了磷的循环利用效率,加剧了内源负荷对湖泊富营养化和蓝藻水华的影响.气候变暖叠加营养盐富集的复合效应、流域风速下降以及暴雨事件频次和强度增加等气象水文条件变化,都促进了太湖蓝藻水华的暴发;蓝藻水华的时空分布特征则受湖泊水动力的决定性影响.太湖治理的曲折过程,凸显了大型浅水湖泊湖沼学研究的不断深入与发展,未来需要继续加强多学科交叉研究,特别是基于湖泊-流域系统的气象水文、生物地球化学和生物生态学的学科交叉.对于太湖生态环境的综合治理和管理,既要注重湖泊与流域相结合,更需要重视自然科学和人文科学的有机融合,才能真正达到控制太湖富营养化、维护流域水环境安全与社会经济可持续发展的目标.  相似文献   

中国淡水水华甲藻一新记录种及其生态风险     

谭好臣  王瑗媛  李书印  张琪  刘国祥  刘本文 《湖泊科学》2020,32(3):784-792

2019年6月,在山东省峡山水库多个位点采集到角藻属(Ceratium)样品,并发现其在局部位点形成明显的浅褐色水华.系统发育分析结果显示该种与角藻属常见种飞燕角藻(C. hirundinella)亲缘关系最近,但形态学上有明显区别,前者具有1块间插板和3个顶板,而飞燕角藻具有4块顶板.通过对比,发现该种为我国淡水甲藻门未经描述的新记录物种——拟二叉角藻(C. furcoides).峡山水库中,水华发生位点的水体叶绿素a浓度高达125.77μg/L,拟二叉角藻的密度达1.23×106cells/L,占总藻细胞密度的1.21%.细胞数量上,占优势的主要是尖头藻(Merismopedia spp.)和浮丝藻(Planktothrix spp.)等一些丝状蓝藻;但因个体细胞体积非常大,鲜重高达86.31 mg/L,占总藻鲜重的49.34%,因此在生物量上拟二叉角藻是绝对优势种.此外,通过核查采自我国东北、华中、西南地区不同时期、温度较高季节的多个标本,基于其自身特性和分布特点,本研究认为拟二叉角藻偏好高温和富营养水体,有在我国不同地区水体扩张并形成水华的潜在能力.  相似文献   

太湖蓝藻碎屑对水质及附着藻和水丝蚓生物量的影响     

夏曼莉  于谨磊  何虎  关保华  陈非洲  刘正文 《湖泊科学》2020,32(4):1050-1059

富营养化是现今各国面临的主要水环境问题,其中蓝藻水华暴发是全球富营养化水体最常见的现象之一.蓝藻水华将产生大量的蓝藻碎屑,其对水质及生物的影响还尚不清楚.本研究通过向中宇宙系统添加微囊藻碎屑,分析其对水体不同形态营养盐及水生生物生物量的影响.结果表明:微囊藻碎屑加入后,水体不同形态的营养盐浓度均在短期内迅速增加,其中水体总氮和总磷平均浓度最高分别达到3.86和0.36 mg/L;浮游植物生物量(用叶绿素a表示)在前9天随营养盐浓度的升高而增加,随后逐渐下降至实验初始水平.此外,附着藻类生物量在微囊藻碎屑加入后呈逐渐下降趋势,这可能与浮游植物快速增殖引起的水体透明度下降有关.微囊藻碎屑加入后,水丝蚓生物量随微囊藻碎屑的分解持续增长,在第20天达到生物量最大值.本研究通过模拟太湖梅梁湾生态系统,探讨微囊藻碎屑对水质及水生生物生物量的影响,结果有助于进一步了解蓝藻水华对水生态系统影响的途径及机理,为富营养化湖泊管理提供理论依据.  相似文献   

Association between trophic state,watershed use,and blooms of cyanobacteria in south-central Chile     

《Limnologica》2019

An increase in the distribution and frequency of cyanobacterial blooms has been reported for many regions worldwide. Due to this fact, we studied the variables that influence the abundance of natural populations of planktonic cyanobacteria in temperate lakes of central and southern Chile. These lakes differed in trophic state and watershed use. Cyanobacteria dominated in meso- and eutrophic systems and their occurrence correlated to watershed use (tree plantations and urban). Ochrophyta and Bacillariophyta were dominant in oligotrophic lakes, where native forest dominated land usage. In these lakes, the maximum depth of the euphotic zone influenced the community structure and the genera of cyanobacteria. Dolichospermum was the most abundant, frequent, and widely distributed genus, found in oligotrophic and eutrophic lakes, forming blooms in eutrophic systems.The concentration of total phosphorus and total nitrogen positively influenced cyanobacterial abundance and bloom formation, mainly by Aphanizomenon, Aphanocapsa, Aphanothece, and Dolichospermum, and Microcystis.In contrast to many reports on their occurrence in the northern hemisphere, these genera occurred widely at less than 20 °C, forming dispersive blooms, at low temperatures in autumn and winter (10.8–15.6 °C). This shows that eutrophication is the main factor for bloom formation and these genera can form blooms independent of temperature. However, some genera, such as Microcystis, increased their abundance and presented more intense blooms (scums) at high temperatures. Our study provides baseline data to document long-term changes in lentic systems of the western south-central area of South America, including genera that could respond by increasing their abundance with eutrophication and projected climatic changes.  相似文献