温度和食用藻密度对发头裸腹潘种群动态和两性生殖的影响

研究了不同温度和食用藻密度对发头裸腹潘种群动态和两性生殖的影响.结果表明:温度、食用藻密度对发头裸腹溞的种群密度、雄体密度和卵鞍数均有显著影响.高食用藻密度组的发头裸腹潘种群密度明显高于中、低食用藻密度组,其最大种群密度出现在20℃下的高食用藻密度组.在相同的温度下,发头裸腹溞的首次产幼溞数随食用藻密度的降低而减少,平均每个母潘首次产出的最大幼潘数出现在25℃下的高食用藻密度组.高食用藻密度组发头裸腹潘产生的雄体密度明显高于中、低食用藻密度组.发头裸腹溞的雄体密度与其种群密度之间存在极显著的相关性.发头裸腹溞所产的卵鞍数随食用藻密度的下降而下降,且25℃下发头裸腹溞所产的卵鞍数明显高于其他温度组.与温度相比,食用藻密度对发头裸腹潘的种群动态和两性生殖的影响更大.     

稻鸭共育稻田水体藻类动态变化

稻鸭共育技术作为稻田复合种养模式,是有效控制常规稻作生态污染的重要技术途径.通过对不同时期稻田藻类群落种类、密度、生物量及环境因子进行测定,研究稻鸭共育稻田水体藻类动态变化规律.结果表明,稻田藻类群落包括蓝藻门、绿藻门、硅藻门、裸藻门,隐藻门及甲藻门共6门、38属、108种.随着水稻发育进程,藻类优势种单位生物量增加,前期皆以银灰平裂藻、栅藻等为优势种,后期对照以方鼓藻,灿烂颤藻,短小舟形藻等为优势种,而放鸭区优势种皆是裸藻门,包括绿色裸藻,尖尾裸藻,梭形裸藻等.稻鸭共育稻田水体藻类初期有个适应期,在放鸭后15d左右藻类密度及生物量显著下降,之后开始上升.与常规对照相比,稻鸭共育藻类密度及生物量较低,放鸭对稻田水体生态系统的影响主要体现在放鸭45d以后,表现为水体全P增加,全N减少,藻类多样性下降,优势种发生变化.环境因子与藻类相关分析表明,全磷与裸藻生物及藻类总生物量存在显著正相关,相关系数分别为0.697、0.625,而全N与藻类相关性不显著.     

浮游动物调控对浮游藻类的影响

浮游动物可以通过牧食作用来抑制浮游藻类的增长, 同时浮游动物排泄的营养盐又可以促进浮游藻类的增长,二者的强弱是浮游动物控制浮游藻类的关键。通过人为去除处理组水体中的浮游动物, 研究浮游动物生物量和群落结构的不同对富营养水体中浮游藻类的影响。研究结果显示处理组浮游动物总生物量低于空白组, 且缺乏大型枝角类溞属(Daphnia sp.); 去除浮游动物显著降低了水体中的总氮和总磷浓度以及浮游藻类生物量(叶绿素a), 同时增加了附着藻的生物量; 并且影响了浮游藻类群落结构: 对照组是空星藻(Coelastrum sp.)为优势种而处理组则为湖丝藻(Limnothrix sp.)和四集藻(Palmella sp.)。结果表明浮游动物排泄营养盐产生的上行效应大于牧食作用产生的下行效应。     

古尔班通古特沙漠生物结皮不同发育阶段中藻类的变化

通过在古尔班通古特沙漠南缘相同的地貌部位,选择裸沙、藻结皮、地衣结皮和苔藓结皮4种不同演替阶段中的生物结皮,研究了藻类的种类组成、优势种和生物量的变化.结果表明:(1)在结皮的不同演替阶段,藻类种类组成不同,其常见物种有一定的差异,如裸沙中藻类常见种是脆杆藻2(Fragilaria sp.2)、威利颤藻(Oscillatoria willei)和奥克席藻(Phormidium okenii),藻结皮的常见种是小聚球藻(Synechococcus parvus)、颗粒常丝藻 (Tychonema granulatum)、韧氏席藻(Phormidium retzli);同时在不同发育阶段亦存在一些特有种.(2)在裸沙发育到成熟生物结皮的过程中,藻类的优势物种也发生相应的变化.裸沙、藻结皮、地衣结皮和苔藓结皮的优势种分别是脆杆藻1(Fragilaria sp.1)、具鞘微鞘藻(Microcoleus vaginatus)、具鞘微鞘藻、眼点伪枝藻(Scytonema ocellatum)或集球藻(Palmellococcus miniatus).(3)藻类生物量在生物结皮不同演替阶段差异极显著(P<0.01),在裸沙中藻类生物量最低,随着生物结皮的逐渐发育,藻类生物量明显升高,地衣结皮最高,约是裸沙的8.3倍,当发育至苔藓结皮时,藻类生物量又有所下降.(4)在裸沙中基本为松散的沙粒,随着生物结皮的演替,丝状种类占明显的优势,尤其是具鞘微鞘藻,另外真菌菌丝和苔藓假根分别在地衣结皮和苔藓结皮中起着重要作用.     

发头裸腹溞的培养研究

枝角类是淡水水域中常见的甲壳动物,营养丰富,是淡水鱼类的优质饵料,也是禽畜的优良促长剂。研究枝角类的培养技术,对促进淡水养殖事业的发展具有重要意义。 枝角类中的发头裸腹溞(Moina irrasa),是淡水鱼苗转食后的适口饵料,也是某些成鱼的终生饵料。该溞最适的生长繁殖季节正是我国主要淡水养殖鱼类摄食和生长旺季。它具有生长快,性成熟期短,生殖量较大等优点,可作为优良的培养种类。对发头裸腹溞的培养研     

水分对具鞘微鞘藻构建人工藻结皮的作用

为探讨水分在利用室内培养具鞘微鞘藻构建人工藻结皮中的作用,本文研究了不同施水量和施水时间下人工藻结皮中的藻类生物量、结皮厚度、抗压强度和微结构变化.结果表明:利用具鞘微鞘藻在裸沙上接种,无水处理藻类生物量极低,无藻结皮形成.随着施水量的增加,藻结皮开始出现直至形成稳定的藻结皮,藻类生物量、结皮厚度和抗压强度显著增加,藻丝和胞外多糖逐渐增多,与沙粒缠绕成复杂的网状结构.施水15 d,形成稳定的藻结皮,藻类生物量、结皮厚度和抗压强度最高.具鞘微鞘藻形成藻结皮的最适施水量是3～4L·m-2·d-1,施水时间为15 d.土壤可利用水分可促进具鞘微鞘藻的代谢活动和胞外多糖合成,从而增加藻类生物量,提高其耐旱能力,早期的水分获得是其成功形成藻结皮的关键因素.研究结果将为利用荒漠藻类进行人工生物结皮恢复提供重要的理论依据.     

疏浚工程前后杭州西湖枝角类群落结构的变化

调查了疏浚工程前(1995年)与疏浚工程后(2003年)杭州西湖四个湖区枝角类的群落结构,包括密度、生物量、多样性指数以及优势种组成的变化,并对枝角类生物量与水质理化因子之间的相关关系进行了分析。结果表明：西湖枝角类平均密度由1995年的1．86ind／L上升到2003年的4．53ind/L,生物量由1995年的0．051mg／L上升到2003年的0．093mg/L,而多样性指数平均值则由1995年的10．39下降到2003年的4．33。疏浚后,西湖原第一优势种长肢秀体溞(Diaphanosoma leuchtenbergianum)的优势度明显下降,一些体型较小的优势种,如长额象鼻涵(Bosmina longirostris)、颈沟基合溞(Bosminopsis deitersi)和微型裸腹溞(Moina micrura)的优势度均有不同程度的增加：某些湖区长额象鼻溞和微型裸腹溞取代了长肢秀体溞第一优势种的地位。枝角类年平均生物量与水体年平均叶绿素a和总磷含量之间均有显著的负相关关系,并有随水体透明度提高而增加、随pH值增大而下降的趋势。长肢秀体溞、长额象鼻溞和颈沟基合溞在营养水平较低的湖区具有较大的密度和生物量,而微型裸腹溞则在营养水平较高的湖区具有较大的密度和生物量。水体富营养化程度不同被认为是枝角类在湖区间具有不同分布格局的重要原因。     

魁蚶幼贝对筒柱藻滤食效应的初步研究

采用实验生态学方法和"捕食者-猎物"的捕食模型,研究了黑暗条件下魁蚶(Anadara broughtonii)幼贝对筒柱藻(Cylindrotheca fusiformis)的滤食效应,测定了5种藻液浓度(30×107~150×107cells/L)及4个温度梯度(10℃、15℃、20℃和25℃)下魁蚶对饵料生物的滤食能力、功能反应类型和滤藻效应特征,并分别建立Holling圆盘方程。同时研究了水温20℃时魁蚶个体间的滤食干扰反应,建立了藻液浓度和魁蚶自身密度的联合反应方程。实验发现,水温20℃条件下,魁蚶幼贝对筒柱藻的平均滤食速率随着藻液浓度的增加而显著增大(P0.05),且0~4 h时段内的滤食速率显著高于其他时段。魁蚶滤食筒柱藻的功能反应属Holling-Ⅱ型,拟合圆盘方程为Na=1.0195N_0/1+0.002039N_0滤食功能系数为1.019 5,极限法推出壳长30~35 mm的魁蚶对筒柱藻的日均最大滤食量约为500×107 cells/L;10~25℃条件下,魁蚶的平均滤食速率和滤食功能反应系数随温度升高呈现先升高后下降的变化趋势,并于20℃时达到最大值,推测20℃是其最佳摄食温度。魁蚶的滤食效应存在较强的个体间干扰反应,平均滤食量和滤食作用率均随幼贝密度的增加而下降,且魁蚶滤食筒柱藻的功能反应与幼贝密度的关系可用幂函数方程E=0.730 8P﹣1.068表示,由此建立了魁蚶幼贝密度与筒柱藻藻液浓度之间的联合反应方程N_a=0.7451P~(-0.0684)N_0/1+0.0020N0。结果表明,水温20℃时,魁蚶幼贝具有较强的潜在滤食能力,其平均滤食量和滤食作用率与幼贝密度间存在明显的"负密度效应"特征。     

铜和镉对多刺裸腹溞的联合毒性效应

采用48 h急性毒性试验研究了Cu2+、Cd2+和Cu2+ +Cd2+对多刺裸腹潘的48 h LC50值,采用生命表试验方法研究了不同浓度的Cu2+、Cd2+和Cu2++ Cd2+对多刺裸腹潘生命表统计学参数的影响.结果表明:Cu2+、Cd2+和Cu2+ +Cd2+对多刺裸腹溞的48 h LC5o值分别为0.106、0.117和0.212 mg·L-1,Cu2+ +Cd2+的联合急性毒性表现为拮抗作用.Cu2+对多刺裸腹潘的生命期望、总生殖率、净生殖率、世代时间和种群内禀增长率均没有显著影响.Cd2+和Cu2+ +Cd2+对多刺裸腹潘的生命期望、总生殖率、净生殖率和世代时间均有显著影响,但对种群内禀增长率无显著影响.与对照相比,浓度为0.004和0.005 mg·L-1的Cd2+以及浓度为0.006 ～0.010mg·L-1(Cu2+∶Cd2+=1∶1,下同)的Cu2++Cd2+均显著缩短了多刺裸腹溞的生命期望,降低了其总生殖率;浓度为0.004和0.005 mg·L-1的Cd2+以及浓度为0.008～0.010 mg·L-1的Cu2+Cd2+均显著降低了多刺裸腹溞的净生殖率,缩短了其世代时间.Cu2+和Cd2+对多刺裸腹溞的慢性联合毒性表现为协同作用.Cd2+和Cu2++ Cd2+浓度与多刺裸腹潘出生时的生命期望、总生殖率、净生殖率和世代时间之间具有显著的剂量-效应关系.     

温度和食用藻密度对发头裸腹溞种群动态和两性生殖的影响

研究了不同温度和食用藻密度对发头裸腹溞种群动态和两性生殖的影响.结果表明： 温度、食用藻密度对发头裸腹溞的种群密度、雄体密度和卵鞍数均有显著影响.高食用藻密度组的发头裸腹溞种群密度明显高于中、低食用藻密度组,其最大种群密度出现在20 ℃下的高食用藻密度组.在相同的温度下,发头裸腹溞的首次产幼溞数随食用藻密度的降低而减少,平均每个母溞首次产出的最大幼溞数出现在25 ℃下的高食用藻密度组.高食用藻密度组发头裸腹溞产生的雄体密度明显高于中、低食用藻密度组.发头裸腹溞的雄体密度与其种群密度之间存在极显著的相关性.发头裸腹溞所产的卵鞍数随食用藻密度的下降而下降,且25 ℃下发头裸腹溞所产的卵鞍数明显高于其他温度组.与温度相比,食用藻密度对发头裸腹溞的种群动态和两性生殖的影响更大.     

Feeding dynamics of the copepod Diacyclops thomasi before, during and following filamentous cyanobacteria blooms in a large, shallow temperate lake

Cyanobacteria blooms are an increasing problem in temperate freshwater lakes, leading to reduced water quality and in some cases harmful effects from toxic cyanobacteria species. To better understand the role of zooplankton in modulating cyanobacteria blooms, from 2008 to 2010 we measured water quality and plankton abundance, and measured feeding rates and prey selectivity of the copepod Diacyclops thomasi before, during and following summertime cyanobacteria blooms in a shallow, eutrophic lake (Vancouver Lake, Washington, USA). We used a combined field and experimental approach to specifically test the hypothesis that copepod grazing was a significant factor in establishing the timing of cyanobacteria bloom initiation and eventual decline in Vancouver Lake. There was a consistent annual succession of zooplankton taxa, with cyclopoid copepods (D. thomasi) dominant in spring, followed by small cladocerans (Eubosmina sp.). Before each cyanobacteria bloom, large cladocerans (Daphnia retrocurva, Daphnia laevis) peaked in abundance but quickly disappeared, followed by brief increases in rotifers. During the cyanobacteria blooms, D. thomasi was again dominant, with small cladocerans abundant in autumn. Before the cyanobacteria blooms, D. thomasi substantially consumed ciliates and dinoflagellates (up to 100% of prey biomass per day), which likely allowed diatoms to flourish. A shift in copepod grazing toward diatoms before the blooms may have then helped to facilitate the rapid increase in cyanobacteria. Copepod grazing impact was the highest during the cyanobacteria blooms both years, but focused on non-cyanobacteria prey; copepod grazing was minimal as the cyanobacteria blooms waned. We conclude that cyclopoid copepods may have an indirect role (via trophic cascades) in modulating cyanobacteria bloom initiation, but do not directly contribute to cyanobacteria bloom decline.     

Spatial and temporal variations reveal the response of zooplankton to cyanobacteria

The effects of cyanobacteria on zooplankton abundance, structure and diversity were investigated, based on a systematic study on spatial and temporal variations of cyanobacteria and zooplankton in Lake Taihu from 1998 to 2007. It was found that similar increasing trends of cyanobacteria/phytoplankton ratios were accompanied by different trends in biomass, composition and biodiversity of zooplankton in different regions of the lake; the cladocerans benefitted from the increase in cyanobacteria; however, rotifers and protozoans were negatively affected by cyanobacteria. The biomass-based biodiversity of phytoplankton and zooplankton was negatively affected by cyanobacteria as well, and the adverse effects were in proportion to the cyanobacteria/phytoplankton ratio. These results indicated interestingly that higher amounts of cyanobacteria do not necessarily reduce zooplankton biomass, as the biomass of larger zooplankton such as cladocerans was positively related to cyanobacteria. The findings are essential to understand the complex ecological effects of cyanobacteria blooms in lakes.     

Understanding cyanobacteria‐zooplankton interactions in a more eutrophic world

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Effects of experimentally induced cyanobacterial blooms on crustacean zooplankton communities

SUMMARY 1. Large in situ enclosures were used to study the effects of experimentally induced cyanobacterial blooms on zooplankton communities. A combination of N and P was added to shallow (2 m) and deep enclosures (5 m) with the goal of reducing the TN : TP ratio to a low level (∼5 : 1) to promote cyanobacterial growth. After nutrient additions, high biomass of cyanobacteria developed rapidly in shallow enclosures reaching levels only observed during bloom events in eutrophic lakes.
2. In the shallow enclosures, particulate phosphorus (PP) was on average 35% higher in comparison with deep enclosures, suggesting that depth plays a key role in P uptake by algae. Phytoplankton communities in both deep and shallow enclosures were dominated by three cyanobacteria species – Aphanizomenon flos-aquae , Anabaena flos-aquae and Microcystis aeruginosa – which accounted for up to 70% of total phytoplankton biomass. However, the absolute biomass of the three species was much higher in shallow enclosures, especially Aphanizomenon flos-aquae . The three cyanobacteria species responded in contrasting ways to nutrient manipulation because of their different physiology.
3. Standardised concentrations of the hepatotoxic microcystin-LR increased as a result of nutrient manipulations by a factor of four in the treated enclosures. Increased biomass of inedible and toxin producing cyanobacteria was associated with a decline in Daphnia pulicaria biomass caused by a reduction in the number of individuals with a body length of >1 mm. Zooplankton biomass did not decline at moderate cyanobacteria biomass, but when cyanobacteria reached high biomass large cladocerans were reduced.
4. Our results demonstrate that zooplankton communities can be negatively affected by cyanobacterial blooms and therefore the potential to use herbivory to reduce algal blooms in such eutrophic lakes appears limited.     

Can tropical freshwater zooplankton graze efficiently on cyanobacteria?

Zooplankton may at times graze cyanobacteria. However, their top-down effects are considered to be low, particularly in tropical regions dominated by small-size grazers that may be unable to consume efficiently filamentous or colonial species. Recently, cyanobacteria blooms were reported in the Senegal River hydrosystem. We conducted feeding experiments to assess the ability of copepods (Pseudodiaptomus hessei and Mesocyclops ogunnus), cladocerans (Moina micrura and Ceriodaphnia cornuta), and rotifers (Brachionus angularis, B. falcatus, and Keratella sp.) to control different cyanobacteria (Cylindrospermopsis raciborskii, Anabaena solitaria, A. flos-aquae, and Microcystis aeruginosa). None of the zooplankton species ingested M. aeruginosa. Mesocyclops ogunnus did not consume any of the cyanobacteria. Both cladocerans consumed the smallest filaments of cyanobacteria, whereas all the rotifers and P. hessei consumed a broader food-size spectrum. The functional feeding responses suggest that the concentration and size of the filaments are not the sole criteria for food consumption. The high zooplankton community grazing rates, estimated by applying the clearance rates measured in the laboratory to the in situ zooplankton abundance, indicate that grazing by zooplankton potentially constitutes an important controlling factor for the filamentous cyanobacteria in the tropics.     

The nutritional status of zooplankton in a tropical reservoir: effects of food quality and community structure.

The temporal variability of energetic reserves of zooplankton in the eutrophic Pampulha reservoir was investigated during two successive annual cycles. The effects of dominance of large filter-feeding cladocerans (Daphnia) and the occurrence of massive blooms of the cyanobacteria Microcystis on the energetic reserves of zooplankton were tested. This study showed that phytoplankton composition has a greater effect on energetic reserves of zooplankton. Some associations between lipid levels and the specific composition of zooplankton were also found. This study also demonstrated that the elementary composition of phosphorus in zooplankton can be used as an estimator of the nutritional status of zooplankton.     

Algal Diet of Small-Bodied Crustacean Zooplankton in a Cyanobacteria-Dominated Eutrophic Lake

Small-bodied cladocerans and cyclopoid copepods are becoming increasingly dominant over large crustacean zooplankton in eutrophic waters where they often coexist with cyanobacterial blooms. However, relatively little is known about their algal diet preferences. We studied grazing selectivity of small crustaceans (the cyclopoid copepods Mesocyclops leuckarti, Thermocyclops oithonoides, Cyclops kolensis, and the cladocerans Daphnia cucullata, Chydorus sphaericus, Bosmina spp.) by liquid chromatographic analyses of phytoplankton marker pigments in the shallow, highly eutrophic Lake Võrtsjärv (Estonia) during a seasonal cycle. Copepods (mainly C. kolensis) preferably consumed cryptophytes (identified by the marker pigment alloxanthin in gut contents) during colder periods, while they preferred small non-filamentous diatoms and green algae (identified mainly by diatoxanthin and lutein, respectively) from May to September. All studied cladoceran species showed highest selectivity towards colonial cyanobacteria (identified by canthaxanthin). For small C. sphaericus, commonly occuring in the pelagic zone of eutrophic lakes, colonial cyanobacteria can be their major food source, supporting their coexistence with cyanobacterial blooms. Pigments characteristic of filamentous cyanobacteria and diatoms (zeaxanthin and fucoxanthin, respectively), algae dominating in Võrtsjärv, were also found in the grazers’ diet but were generally avoided by the crustaceans commonly dominating the zooplankton assemblage. Together these results suggest that the co-occurring small-bodied cyclopoid and cladoceran species have markedly different algal diets and that the cladocera represent the main trophic link transferring cyanobacterial carbon to the food web in a highly eutrophic lake.     

Different competitive outcomes among four species of cladocerans under different alga combinations of colonial <Emphasis Type="Italic">Microcystis</Emphasis> spp. and green alga <Emphasis Type="Italic">Scenedesmus obliquus</Emphasis>

Cyanobacteria blooms (especially Microcystis spp.) are thought to alter dominance of large-sized daphnids into small-sized metazoan zooplankton. However, several field investigations show different phenomena. Laboratory experiments were conducted based on the hypothesis that different Microcystis spp. concentrations would influence competitive outcomes using two algal combinations of different concentrations and four species of cladocerans. In the algal combination of 50 mg l⁻¹ colonial Microcystis spp. + 1 mg l⁻¹ Scenedesmus obliquus (fresh weight), Daphnia carinata was absent during the experiment in competition with other cladocerans. Decreasing colonial Microcystis spp. concentration (10 mg l⁻¹) resulted in a shift from dominance by small-sized cladocerans to dominance by D. carinata. No significant effects of different concentrations of colonial Microcystis spp. on competitive outcomes were shown among three small-sized cladocerans. These results support the idea that cyanobacteria concentration affects the dominance status of large-bodied daphnid.     

Effects of the blue-green alga Microcystis aeruginosa on zooplankton competitive relations

Summary Field distribution patterns and laboratory feeding experiments have suggested that blooms of colonial blue-green algae strongly inhibit relatively large-bodied daphnid cladocerans. We conducted laboratory experiments to test the hypothesis that blooms of the colonial blue-green alga Microcystis aeruginosa would shift competitive dominance away from large-bodied daphnid cladocerans toward smaller-bodied cladocerans, copepods, and rotifers. In laboratory competition experiments, increasing the proportion of M. aeruginosa in the algal food supply resulted in a shift from dominance by the relatively largebodied cladoceran Daphnia ambigua to dominace by the copepod Diaptomus reighardi. The small-bodied cladoceran Bosmina longirostris was always numerically heavily dominant over D. ambigua, but its estimated population biomasses were only slightly higher than those of D. ambigua. Daphnia ambigua consistently outcompeted the rotifer Brachionus calyciflorus. Our results demonstrate that blooms of M. aeruginosa can alter zooplankton competitive relations in laboratory experiments, favoring small-bodied cladocerans and copepods at the expense of large-bodied cladocerans. However, contrary to predictions, blooms of M. aeruginosa did not improve the competitive ability of rotifers.     

Detection and identification of potentially toxic cyanobacteria in Polish water bodies

The main goal of this study was to determine the distribution of potentially toxic cyanobacteria in 39 selected Polish water bodies. From the water bodies with blooms and also from those in which blooms were not visible 87 samples were investigated. For the first time samples from ponds localized in villages with high agricultural activities were included. Lakes for which microcystin concentrations had been determined before were included as a reference for the research. The detection of cyanobacteria was conducted by microscopic observation as well as by PCR amplification of the rpoC1 gene fragment. Cyanobacteria were present in 75 out of 87 samples. The presence of potentially toxic cyanobacteria was detected by amplification of the mcyB and mcyE genes, which are involved in the biosynthesis of microcystins. Both genes were detected in 7 out of 9 blooms investigated. In the case of samples collected from water bodies in which blooms were not observed, the mcyB and mcyE genes were detected in 20 out of 36. In order to identify the cyanobacteria occurring in selected reservoirs, 16S plus ITS clone libraries were constructed. The method allowed distinguishing 18 different genotypes. After sequence analysis, cyanobacteria belonging to genera Microcystis, Planktothrix, Anabaena, Pseudanabaena, Synechocystis, Synechococcus and Woronichinia were identified. Results confirmed the usefulness of the rpoC1 and mcy genes for monitoring water bodies and detection of potentially toxic cyanobacteria. Application of molecular markers allowed detecting potentially toxic cyanobacteria before the bloom was visible. This is the first comprehensive study concerning cyanobacteria present in different types of Polish water bodies performed using molecular markers.