Reduction of the Trophic Status of a Water Body with the Use of Large-Size Zooplankton

It is shown that large-size zooplankton can be used as a natural filter in flow-through plants for reducing the trophic status of water bodies and improve water transparency. Experiments in Chistye Prudy pond in the period of blue-green algae blooming show large-size zooplankton to reduce phytoplankton biomass in the pond throughout the period of phytoplankton growth. Daphnia magna specimens (with a biomass of 92 to 3450 mg/l) in lothic ecosystems are found to reduce the biomass of dominating Anabaena spirodes blue-green algae when this biomass attains its maximum.     

The role of zooplankton in the regulation of phytoplankton biomass growth and water transparency in water bodies polluted by nutrients

Experimental studies were carried out in a water body near Moscow and in a flow-through system in the territory of fertilized agricultural fields. It is shown that under high biogenic load, at the concentrations P_tot = 0.14 mg P/l, P_min = 0.07 mg P/l, and the ratio N: P = 7.9: 1, in early summer, and in the absence of plankton-eating fish, zooplankton was regulating phytoplankton development and contributed to the preservation of high water transparency. At the biomass ratio of plant-eating zooplankton to eatable phytoplankton from 0.6 to 42.2, zooplankton can reduce the eatable part of phytoplankton within a day. The main consumers of the eatable fraction of phytoplankton biomass were large-size filterers Daphnia longispina.     

The role of zooplankton in phytoplankton biomass decline and water transparency regulation in a water body subject to high organic and mineral load

Under biogenic load and at high abundance of ichthyofauna (the concentration of total phosphorus P_tot = 0.20 mg P/l, mineral phosphorus P_min = 0.13 mg P/l, and at the ratio N: P = 4: 1 in early summer), zooplankton reduced phytoplankton biomass during summer and autumn and determined high water transparency, reaching >50% of the depth of the water body. It was found that, with a passage of ichthyofauna to artificial food, the trophic press of plankton-eating fish on zooplankton decreases. Under such conditions, with the biomass ratio of plant-eating zooplankton to edible phytoplankton between 0.4 and 7.9, zooplankton can reduce phytoplankton biomass within a day. The major portion (up to 100%) in phytoplankton biomass reduction was due to large-size filterers-phytophages Daphnia longispina and verticators Asplanchna priodonta helvetica.     

砷污染治理背景下阳宗海浮游植物生物量的时空分布模式及驱动因子

在社会经济发展和流域开发持续的背景下,砷污染已成为我国部分水体面临的重要环境问题,目前对砷污染防控的生态效应与修复效果评价仍缺乏系统识别。湖泊生态系统中浮游植物是重要的生产者,砷等重金属污染可以直接影响浮游植物生长、物种演替和初级生产力水平,浮游植物已成为指示砷污染水平及其生态效应的敏感指标。本研究以长期受到砷污染胁迫并经历污染治理的阳宗海为研究对象,设置南、中、北3个调查位点,于2015年4月-2019年12月对浮游植物和水质因子开展季节调查和空间分析,通过识别浮游植物生物量的时空分布模式与驱动因子,评价了砷污染与治理下浮游植物生物量的变化机制和生态修复效果。调查结果显示,采样期间阳宗海浮游植物以蓝藻门为主,浮游植物的生物量范围为0.7~30.4 mg/L,平均生物量在2016年最低((3.0±1.8) mg/L)、在2017年最高((10.5±8.9) mg/L)。ANOVA分析结果显示,浮游植物生物量存在显著的季节差异而空间差异不明显。相关分析结果显示,阳宗海浮游植物生物量与砷浓度和透明度呈显著负相关,而与水体温度和pH呈显著正相关。多元线性回归分析进一步显示,砷和水温是驱动阳宗海浮游植物生物量变化的显著环境因子。由此可见,在重金属污染湖泊经过修复后,水体砷遗留物的毒性效应仍然对浮游植物生长产生了明显的抑制作用,表明了水体重金属污染物可能具有长期的沉积物释放作用与持久的生态毒理效应。     

Phytoplankton and Its Pigment Characteristics as Production Indexes of the Upper Volga Reservoirs (Yaroslavl Province)

The materials presented in this paper were collected in the course of studies of phytoplankton and photosynthetic pigments in the Upper Volga reservoirs within the territory of Yaroslavl province. In 1995–2000, the phytoplankton in these water bodies was found to be represented mainly by diatom, blue-green, green, and in some cases, cryptophyte algae. It was found that in the channel parts of the reservoirs, the population of planktonic algae varied from 25 to 96180 thousand cell/l, their biomass, from 0.009 to 5.54 mg/l, and the chlorophyll content, from 0.4 to 22.4 g/l. The values of saprobity index in terms of phytoplankton were found to characterize waters of all the three reservoirs as -mesosaprobic, and the extent of blue-green algae development in the overwhelming majority of cases was classed as environmentally safe, although their abundance in the coastal zone sometimes is an indication of a substantial deterioration in water quality.     

Comparison of reservoirs in the Moskva-Vazuza water system in terms of phytoplankton abundance and eutrophication degree

Based on the analysis of long-term data, phytoplankton biomass is shown to grow in the Vazuza-Yauza-Ruza-Mozhaisk-Ozerna series of reservoirs. The first three reservoirs (their near-dam areas) can be referred to mesotrophic water bodies and the other reservoirs, to slightly eutrophic. It has been revealed that, with an increase in the water body productivity (from the Vazuza Reservoir to the Ozerna Reservoir), the share of blue-green algae increases, while the share of diatomic algae decreases. The concentration of phosphorus in water bodies is an important factor of phytoplankton abundance.     

Phytoplankton pigments as ecological state indices of the Cheboksary Reservoir

Data on the composition and content of plant pigments in water of the Cheboksary Reservoir collected in 1985–2005 are used to analyze the seasonal dynamics and spatial distribution of phytoplankton at different stages of reservoir life. A trophic burst could be distinctly seen in the reservoir in 1985, manifesting itself in exceedingly high (198 ± 41 μg/l) concentrations of photosynthetic pigment chlorophyll. In the process of ecosystem stabilization, chlorophyll concentration significantly dropped to vary from 8.2 ± 1.5 to 45.1 ± 21.0 μg/l in 1989–2005. The reservoir, located in a region subject to high anthropogenic load, has acquired the features of an eutrophic water body immediately after its creation and its trophic status remains unchanged all over its existence.     

北京城区河湖水质分析

调研结果显示,2003年北京城区河湖(11个监测水体)总磷、总氮含量分别为0．142mg/L、1．481mg/L,已达到比较 严重的富营养状态．北京城市河湖属于藻型水体,初级生产力主要决定于浮游藻类的群落结构与密度．河湖水体中浮游 藻类密度为37867．82×10~4cells/L,其群落由蓝藻(Cyanophyta)、绿藻(Chlorophyta)、硅藻(Bcillariophyta)、甲藻(Pyrrophy— ta)、隐藻(Cryptophyta)、黄藻(Xanthophyta)、金藻(Chrysophyta)和裸藻(Eugleniphyta)构成．群落中蓝藻占绝对优势 (89．54%)．在近几年的夏秋季连续发生程度不同的微囊藻(microcystis)水华,对水体功能和城市景观造成了不良影响． 主要原因是：(1)氮磷和有机物的污染,(2)给城市河湖补给的水量少,(3)河湖生态系统被损害,水体自净能力差．本文 对如何改善北京城市河湖水质提出了建议．     

Suppression of Alga Blooming by Zooplankton Filter Feeders in Small Water Bodies

The study is focused on the ability of filterers–phytophages Daphnia longispina O.F. Mueller to suppress blooming in shallow-water bodies in Moscow oblast. The effect of phytoplankton development on the composition of daphnia populations is studied. With the predominance of small-cell (<40 μm in length) green, yellow-green, and euglena algae in the phytoplankton and, accordingly, in the nutrient budget of daphnia, the biomass of D. longispina (12 mg/L) is 1.5–6.0 times greater than that in the water bodies where the phytoplankton shows the predominance of Aphanizomenon flexuosum Komárek et Ková?ik (filamentous cyanobacteria) and Volvox polychlamys Korshikov (cenobial green algae). The mean fertility of the reproducing organisms of D. longispina (the number of eggs per female reached 11) was also higher in the former case.     

安徽菜子湖浮游植物群落结构的周年变化(2010年)

2010年对菜子湖浮游植物群落结构进行了调查和分析,结果显示:(1)共鉴定浮游植物8门110属285种,不同月份浮游植物的种类组成存在极显著差异,3月份种类数最多,173种,1月份最少,105种.优势度分析显示:蓝藻存在全年高峰;硅藻存在1、5、9、11月的高峰;黄藻存在1、3、5月的高峰;绿藻存在11月的高峰,隐藻存在5月份的高峰;金藻存在1月份的高峰.不同月份浮游植物的细胞密度亦存在极显著差异,7月份最高,为(66.13±8.58)×105cells/L,1月份最低,为(12.78±0.61)×105cells/L,夏、秋季较高,冬、春季较低;不同月份浮游植物的生物量差异极显著,9月份最高,为2.80±0.17 mg/L,5月份最低,为0.72±0.03 mg/L.(2)Margalef丰度指数为1.51～3、Shannon-Weaver多样性指数为1.41～3.01、Pielou均匀度指数为0.39～0.66,各指数表现为冬、春季节大于夏、秋季节,3月份最高,7月份最低.(3)聚类分析的结果显示,月份不同影响因素不同,菜子湖水域浮游植物按群落结构特征的分组不同.(4)2007年相比,2010年浮游植物物种数有明显下降,由340种下降到285种,细胞密度明显上升,由(5.91±0.90)×105cells/L上升到(33.81±10.10)×105cells/L,群落结构变化较大,贫营养型和固着型藻类都有所减少,富营养型藻类、丝状藻类和浮游性藻类增多.     

鄱阳湖不同湖区营养盐状态及藻类种群对比

在平水期、丰水期和枯水期对鄱阳湖典型天然碟形湖、人控湖汊和主湖区进行了水质、藻类和蓝藻毒素等对比调查,结果表明鄱阳湖各个湖区的水质与藻类种群等差异较大,蓝藻毒素浓度和底泥中铁含量的分布具有一定关联性.在各水文季节蓝藻均为人控湖汊藻类的主要优势种之一.平水期鄱阳湖藻类生物量(叶绿素a浓度)与水体的pH呈正相关关系,与采样点的水深呈负相关关系,碟形湖区水体营养盐浓度和藻类细胞密度均较其他湖区水体低.丰水期各湖区的水质差异相对较小,碟形湖藻类细胞密度仍低于其他湖区,但蓝藻已成为各湖区的优势种,该时期藻类生物量与水体总磷浓度及浊度呈正相关关系.枯水季鄱阳湖各水体藻类生物量与水体总氮浓度、铵态氮浓度及电导率呈正相关关系,碟形湖与主湖区发生了完全分离,水体流动性差,暴发蓝藻水华的风险较高.高温丰枯季节鄱阳湖水体蓝藻毒素浓度与底泥铁含量呈现一定的相关分布关系,底泥铁含量高的地方,其水体蓝藻毒素浓度通常比较高,应警惕鄱阳湖流域富铁红壤流失带来的湖区蓝藻水华风险加剧后果.上述研究结果将为鄱阳湖水环境的预警和污染控制提供科学指导.     

云贵高原湖泊夏季浮游植物组成及多样性

浮游植物是水生生态系统中重要的初级生产者,对维持水生态系统的平衡起着十分重要的作用.根据2008年云贵高原湖泊丰水期浮游植物调查数据,系统地分析了云贵高原13个湖泊中浮游植物的种群密度、生物量、组成及其多样性.云贵高原13个湖泊中共鉴定出浮游植物7门109种(绿藻52种、蓝藻23种、硅藻20种、其他14种).13个湖泊浮游植物Shannon-Wiener指数在0.5-2.2之间,其值大小与单个环境因子无显著相关.相关分析发现浮游植物总量与总氮、总磷、CODMn、硝态氮含量显著正相关,物种丰富度与总氮、总磷(0.1mg/L范围内)、CODMn含量亦显著正相关.另外,研究也发现各湖泊间浮游植物组成的相似性与各湖泊间营养状态差异显著负相关.由此可见,湖泊的营养状态不仅影响浮游植物的总量、组成以及物种丰富度,而且也影响各湖泊物种组成的相似性.     

Variability of phytoplankton biomass in a lowland river: Response to climate conditions

The results are presented of an intensive study of phytoplankton assemblage carried out in the Berounka River above its confluence with the Vltava River (Czech Republic) in the period 2002–2007. The annual and interannual changes of phytoplankton development (based on high frequency of sampling) and their relation to hydrological conditions and concentrations of main nutrients are analysed. A marked decline of nutrient concentrations was observed during the period 1996–2007. The annual mean values of total P decreased from 0.43 mg L⁻¹ to 0.16 mg L⁻¹, those of N-NO₃ from 4.6 mg L⁻¹ to 1.5 mg L⁻¹ and N-NH₄ from 1.9 mg L⁻¹ to 0.04 mg L⁻¹. Despite this, the phytoplankton biomass remained at a high level. The seasonal mean values of chlorophyll-a ranged from 51.0 μg L⁻¹ to 116.8 μg L⁻¹ in the same time period. An obviously stronger relationship was found of the phytoplankton biomass and pattern of its development to the variation of flow rates than to the existing level of nutrient concentrations. A significantly decreasing relationship (R² = 0.384, P < 0.001) of chlorophyll-a to flow rates and a significantly increasing relationship (R² = 0.359, P < 0.001) of chlorophyll-a to water temperatures were found, based on monthly mean values for the seasonal period 2002–2007. The results obtained indicate a remarkable increase of phytoplankton biomass and its prolongated occurrence in watercourses, which can be expected due to the consequences of the predicted climate change (i.e. higher occurrence of summer droughts and low precipitation amounts accompanied by a substantial drop of flow rates, increase of air and water temperatures), as described in the respective scenarios for the territory of the Czech Republic. Simulations by the regional climate models HIRHAM and RCAO and emission scenario SRES indicated the increase of air temperature by 2.5–5 °C, decrease of precipitation amount by 6–25% and decline of flows by 14–43% in the Berounka River for the scenario period 2071–2100.     

Vertical dynamics of summer phytoplankton in a stratified estuary (Gulf of Finland,Baltic Sea)

We present the results of multiparametric observations designed to follow the phytoplankton dynamics and interrelated physical, chemical and biological processes in the Gulf of Finland (Baltic Sea). Data were acquired by an autonomous moored water column profiler, an acoustic Doppler current profiler, a flow-through system installed aboard a ferry and by profiling and discrete water sampling aboard research vessels in July and August 2009. The main aim of the study was to investigate the processes responsible for the formation and maintenance of sub-surface maxima of phytoplankton biomass. We suggest that the environmental conditions caused by the prevailing atmospheric and oceanographic forcing (wind; vertical stratification; basin-wide, mesoscale and sub-mesoscale processes) are preferred by certain species/taxonomic groups and explain the migration patterns of phytoplankton. Nocturnal downward migration of phytoplankton with a swimming speed up to 1.6 m h⁻¹ occurred when the community was dominated by the dinoflagellate Heterocapsa triquetra. The observed splitting of the population into two vertically separated biomass maxima suggests that the H. triquetra cells, which reached the sub-surface layers with high nutrient concentrations, experienced bi-diurnal or asynchronous (when swimming upwards) vertical migration. The most intense sub-surface biomass maxima, on some occasions with the biomass much higher than that in the surface layer, were detected in connection to the sub-mesoscale intrusions below the depth of the strongest vertical density gradient.     

河蟹生态养殖池浮游植物功能类群的结构特征

为探究河蟹生态养殖池浮游植物群落的结构及动态,2013年4-10月对上海松江泖港地区河蟹养殖池的浮游植物进行了调查,分析其种类构成、密度、生物量和生物多样性.共检测到浮游植物105种,其中河蟹生态养殖池优势种11种,分别属于B、D、J、LO、X1、WO、X2、S1和MP功能群.河蟹养殖池浮游植物平均密度为282.58×10~4cells/L,平均生物量为1.59 mg/L,Shannon-Wiener多样性指数变化范围为2.11~3.09.水源浮游植物平均密度为175.13×104cells/L,平均生物量为0.99 mg/L,Shannon-Wiener多样性指数变化范围为1.70~2.79.河蟹养殖池浮游植物平均密度分别于5月14日-6月14日和7月29日-8月29日与水源差异显著;河蟹养殖池浮游植物平均生物量分别于5月30日、6月14日和7月29日-8月29日与水源差异显著;河蟹养殖池浮游植物Shannon-Wiener生物多样性指数分别于5月14日-6月14日和8月14日-9月15日与水源差异显著.河蟹养殖池浮游植物的平均密度、平均生物量和生物多样性指数与水源水体变化趋势基本一致,均高于水源,群落稳定.     

水温、光能对春季太湖藻类生长的耦合影响

环境因素对藻类生长的影响机制是探讨蓝藻水华暴发的基础,其中水温和光能均是影响藻类生长的关键物理因子.基于2015年春季于太湖观测的11次藻类总初级生产力、水温廓线和营养盐浓度等,探讨水温、光能及营养盐对藻类生长过程的影响.结果表明:春季,水温、光能是影响藻类生长的关键因素,而营养盐的影响贡献相对较弱.深层水体中光能是藻类生长的关键性限制因子,浅层表现为水温、光能的共同影响,而表层主要表现为光能的抑制.水温的升高促进藻类对光能的获取和利用,提高光抑制的光能阈值,造成深层水体中光能限制程度的加强,藻类生长呈现光限制的深度变浅.本研究有利于确定气候变化下水生生态系统演变的方向,为水生生态系统的恢复提供理论依据.     

Phytoplankton structure and microcystine concentration in the highly eutrophic Nero Lake

The results of observations of some abiotic (water transparency, light intensity, depth, biogenic element concentrations) and algological (chlorophyll concentration, phytoplankton abundance and biomass, the concentration of microcystines—toxins of blue-green algae) characteristics of Lake Nero are given for study periods of 1999–2004 and 2005–2007. Variations of these characteristics in the latter period are shown to be significant. The lake phytoplankton is found to pass in a «catastrophic” manner to monodomination of planktotrichaetic complex of blue-green algae. High-performance liquid chromatography was used for the first time to determine the concentration of microcystines MC-LR and MC-RR in Lake Nero seston. The presence of these types of microcystines in samples was confirmed by mass-spectrometry. A statistically significant correlation was found to exist between the total concentrations of microcystines and the biomass of species of Microcystis genus, suggesting the possible toxicity of representatives of this type of algae in Lake Nero.     

丹江口水库浮游植物时空变化特征

为研究丹江口浮游植物的群落特征,探讨影响浮游植物时空分布的环境因子,于2014年5月2015年4月对丹江口水库进行了为期1年的调查.此次调查共采集到浮游植物66种,隶属于7门21科38属.浮游植物全年平均生物量为0.35 mg/L,平均密度为9.08×10~5cells/L.优势种为脆杆藻、小环藻、直链藻和栅藻,其中脆杆藻所占比例最大,平均生物量为0.089 mg/L,占总生物量的25.43%.近些年丹江口水库营养水平的提高可能是脆杆藻生物量升高的主要原因.绿藻和蓝藻在夏季大量繁殖,硅藻为春、秋和冬季优势门类.汉江库区浮游植物生物量大于丹江库区,两个库区的浮游植物种类组成存在明显的差异,丹江库区优势门类为硅藻门,而汉江库区为绿藻门.浮游植物生物量与环境因子的相关分析表明,浮游植物生物量的主要影响因子是总磷浓度、pH值和溶解氧浓度.RDA分析表明,影响浮游植物组成的主要环境因子是溶解氧浓度、pH值、总磷浓度和水温.为控制浮游植物的生物量,防止其异常增殖造成水华,应严格控制外源营养盐特别是磷元素的输入.本研究可为丹江口水库的水质改善及富营养化防治提供一定的科学依据.     

Seasonal variations in phytoplankton biomass and primary production in the Ethiopian Rift Valley lakes Ziway, Awassa and Chamo – The basis for fish production

Seasonal variations in the biomass (Chl a) and primary production (¹⁴C-method) of phytoplankton were studied during 12 months of 2005 in the three Ethiopian Rift Valley Lakes (ERVL) Ziway, Awassa and Chamo. Chl a showed an average value of 40, 20, and 30 mg m⁻³ for the three lakes, respectively. Integrated areal primary production for the total phytoplankton (g C m⁻² d⁻¹) varied 2-fold in the three lakes but on different levels, from 0.67–1.8 in L. Ziway, 1.8–4.6 in L. Awassa, and 1.0–2.6 in L. Chamo. The overall photosynthetic efficiency of utilizing photosynthetically active radiation by the phytoplankton on molar basis (mmol C mol of photons⁻¹) resulted in an average value of 1.4 for L. Ziway, 3.5 for L. Awassa and 1.6 for L. Chamo. Among the different factors regulating phytoplankton primary productivity, light penetration and nutrients were the most important in the three lakes. The seasonal variations of incident radiation (most values between 5 and 7 E m⁻² h⁻¹) and water temperature (most values between 22 and 24 °C) were small and unlikely to result in the marked differences in phytoplankton primary production. Although relative increase in nutrient concentrations occurred following the rainy periods, the major algal nutrients were either consistently low (nitrate and/or silicate) or high (phosphate and/or ammonium) and remained within a narrow range for most of the study period in all the three lakes. Consequently, phytoplankton biomass and primary production seem to be maintained more by nutrient regeneration or turnover (facilitated by high temperature) than by allochthonous nutrient input. This would be coupled with wind-induced mixing that would play an important role in determining hydrographic characteristics (water column structure) and the associated redistribution of nutrients and phytoplankton, the availability of light and subsequently the spatial (vertical) and temporal patterns of phytoplankton production in these three ERVL. Phytoplankton production (PP) is regarded as a good predictor of fish yield in lakes and seasonal measurements of PP is a prerequisite for good such estimates.     

Zur Wirkung eingetragener Phytoplanktonbiomasse auf die Wasserbeschaffenheit eines schnell fließenden Tieflandgewässers

The effects of imported phytoplankton on a quick running lowland river in the district of the river Havel were investigated. The biomass of the phytoplankton (at the begin in the middle 25,6 mg/l, 184 μg/l chlorophyll) will become inactivated after a short time, a smaller part of about 15 % will be eliminated. On the balance of oxygen we could'nt find out effects because the rates of respiration and production are decreased. The oxygen content will be determined above all by the oxygen production in the upper region of the river with a high density of makrophytes and in the hypertrophic shallow lakes there are. Also the microbiological situation will not be determined by phytoplankton but the wastewater-pollution on the other hand brings for an increase of numbers of Coliformes and Enterococces.