硫酸铜控藻对浮游植物群落的影响

硫酸铜广泛的用于水华藻类的去除和控制。本文测定了不同藻类对Cu2+的敏感性,几种常见水华藻类对Cu2+的敏感性顺序为：铜绿微囊藻>水华鱼腥藻>小环藻>莱哈衣藻>斜生栅藻。在某城市的富营养化湖泊中用CuSO4•5H2O（102µg/L Cu2+）作为杀藻剂控制蓝藻水华的试验结果表明：在用硫酸铜控制蓝藻水华的过程中,水体透明度有明显改善;总氮总磷无显著变化;浮游植物总数在试验初期下降,但在试验后期则有所回升,在试验初期蓝藻门数量有所下降,绿藻门和硅藻门数量增加,这与不同藻类对Cu2+ 敏感性差异相关;试验后期,蓝藻门种类快速生长,并成为优势种;水柱中微囊藻毒素的浓度随藻类数量的减少在4d内大幅降低。     

溶藻细菌DC-L5的分离、鉴定及其溶藻特性

从滇池蓝藻水华集聚区分离获得一株溶藻细菌DC-L5,通过形态及16S rDNA测序分析鉴定为短小芽孢杆菌.用小白鼠进行生物安全实验,小白鼠无中毒症状.研究表明当细菌处于对数生长期时溶藻效果最强,共培养5d使铜锈微囊藻的叶绿素α含量下降83.33%,使惠氏微囊藻、绿色微囊藻、水华束丝藻和水华鱼腥藻4种蓝藻叶绿素α下降率最高为67.6%,最低为58.5%,平均为62.25%.离心沉降后,发现沉淀菌体和无菌上清液对铜锈微囊藻都有溶藻效果,但溶藻效果不及原菌液,推测DC-L5可能是通过直接接触使藻细胞凝聚下沉及进一步的生物降解,同时存在抑制藻细胞生长的胞外分泌物.高温热处理后菌液溶藻作用不明显,推测高温可能使菌体或胞外分泌物质失活.     

巢湖铜绿微囊藻Chao 1910的基因组学和磷代谢通路分析

【背景】铜绿微囊藻(Microcystis aeruginosa)广泛分布于温带湖泊,因产生微囊藻毒素且易成为蓝藻水华优势藻株而备受关注。【目的】基于全基因组序列分析和基因转录水平验证,阐明从巢湖新分离的铜绿微囊藻Chao 1910的主要代谢通路和磷营养高效利用机制。【方法】通过第三代测序技术拼接获得Chao1910的全基因组序列,完成主要代谢通路的基因注释,并对与蓝藻水华优势藻株形成相关的磷代谢通路进行深入分析。【结果】比较基因组学表明,Chao1910藻株与日本铜绿微囊藻NIES-843的亲缘关系最近,其糖酵解、磷酸戊糖途径和核苷酸合成等代谢通路的基因组成非常保守,同时具有完整的磷转运、磷吸收、多聚磷酸盐合成/分解等磷营养高效利用的通路。不同于其他铜绿微囊藻,Chao 1910藻株不具有微囊藻毒素合成基因簇,推测其主要依靠对磷营养的高效利用获取生存竞争优势。【结论】Chao1910藻株是巢湖首株完成全基因组测序的铜绿微囊藻,这将有助于揭示其获得生存竞争优势的分子机制,为遏制巢湖蓝藻水华暴发提供依据。     

铜锈环棱螺对水华中常见藻类的抑制效应

藻类水华频发已成为全球性的水环境问题,近年来,生物控藻法因具有环境友好的特点而备受关注。本研究以我国富营养化湖泊中常见大型底栖动物铜锈环棱螺为操纵生物,通过室内培养试验,研究了其对水华水体中常见蓝藻铜绿微囊藻、绿藻普通小球藻和斜生栅藻生长及光合活性的影响,以期阐明螺-藻间相互作用关系,探究铜锈环棱螺作为生物操纵物种的可行性。结果表明: 铜锈环棱螺能在短时间内大量摄食藻细胞,其对铜绿微囊藻产毒株和不产毒株以及斜生栅藻的去除率均在12 h内达到最大值,分别为73.7%、73.2%和51.1%;其对普通小球藻的摄食强于其他藻类,至试验结束时去除率达到99.2%。产毒铜绿微囊藻产生的微囊藻毒素会在铜锈环棱螺体内累积并促发其肝脏病理学变化,进而阻碍铜锈环棱螺的摄食。试验后期各处理组藻细胞光合活性均显著低于对照组,表明铜锈环棱螺的摄食作用对藻细胞造成了损伤,抑制了其大量增殖。此外,当不产毒铜绿微囊藻与斜生栅藻混合时,铜锈环棱螺的选择摄食性导致微囊藻的优势地位被斜生栅藻所取代。因此,铜锈环棱螺可以通过摄食作用抑制藻类的光合活性并降低其生物量,从而在一定程度上抑制或减缓水华的形成。     

三峡库区支流蓝藻水华对浮游细菌群落组成的影响

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。     

藻类批量培养中的比增长率最大值

批量培养谷皮菱形藻、莱茵衣藻、粉核小球藻、斜生栅藻、羊角月牙藻和铜绿微囊藻等六种藻类,在对数生长期,逐日计数而确定比增长率最大值（μｍａｒ）,发现（μｍａｒ）值出现的时间在各种藻类中不同。同时讨论了每种藻类的（μｍａｒ）与营养物质、光强、温度和起始浓度之间的关系。铜绿微囊藻的（μｍａｒ）在一定的总磷（ＴＰ）浓度范围内随ＴＰ浓度呈上升趋势。根据获得增大率最大值的条件,对它们在浮游植物群落中的生态位作     

超声波对铜绿微囊藻与蛋白核小球藻生理特征及竞争生长的影响

铜绿微囊藻是常见的水华蓝藻,常常在湖泊中与蛋白核小球藻共存或竞争生长。超声波可用于藻华即时治理,能够降低藻类生理活性,影响藻类生长,还可能改变藻类种间竞争关系。为了探究超声胁迫(35 kHz,0.035 W·cm^-3)对铜绿微囊藻与蛋白核小球藻的生理特征及种间竞争的影响,本研究设置纯藻组和1:1混合组(细胞浓度比)进行试验。结果表明: 铜绿微囊藻对超声胁迫更加敏感。超声处理600 s后,铜绿微囊藻的光合活性(F_v/F_m)和酯酶活性存在显著变化,纯藻组和混合组的F_v/F_m分别降低了51.8%和64.7%。而各组中蛋白核小球藻的光合活性变化较小。同时,铜绿微囊藻释放的荧光溶解性有机物(类色氨酸、类酪氨酸、类富里酸物质)含量多于蛋白核小球藻。两种藻的细胞浓度对超声波的响应也不同,蛋白核小球藻变化较小,而铜绿微囊藻的细胞浓度出现不同程度的下降。尤其是600 s超声处理大幅降低了混合组中铜绿微囊藻的细胞浓度(-42.6%),在超声胁迫解除后的8 d内蛋白核小球藻占优势,种间关系由铜绿微囊藻单边抑制蛋白核小球藻转变为两者互相抑制。在超声处理后,铜绿微囊藻的活性能够逐渐恢复,为了提高控藻效果的持久性,建议在一周后再次进行超声处理。     

水华鱼腥藻生长与光合作用对大气CO2浓度升高的响应

 为了探讨大气CO2浓度升高对水华藻类的影响,利用水华鱼腥藻(Anabena flos_aquae)作为实验材料,研究了大气CO2浓度加倍对其生长和光合作用的影响,结果显示大气CO2浓度升高导致水华鱼腥藻的生物量、光饱和光合速率、光合效率和光系统II的光化学效率（Fv/Fm）明显提高,但对暗呼吸速率和光饱和点没有明显影响。CO2加倍条件下藻细胞光合作用对无机碳的亲和力降低,表明其利用HCO-3的能力受到抑制。     

轮叶黑藻浸提液对蓝藻水华的抑制作用

探讨了大型沉水植物轮叶黑藻[Hydrilla verticillata（Linn．f）]浸提液对铜绿微囊藻（Microcystis aeruginosa）以及池塘混合藻类的抑制作用。结果表明：轮叶黑藻浸提液不仅对铜绿微囊藻有明显的抑制作用,而且对池塘复合藻类也有不同程度的抑制作用。该项研究不仅培养了学生的科研创新能力,系统地掌握了藻细胞的培养、显微镜的使用、藻细胞的计数、叶绿素a含量的测定等方法．而且对于蓝藻水华的预防控制还具有较重要的理论与应用意义。     

三种淡水藻类对萼花臂尾轮虫培养效果的比较

在28℃下,采用群体累积培养法,探讨了不同浓度的蛋白核小球藻（Chlorella pyrenodeosa）、水华鱼腥藻（Anabaena flas-aquae）和沙角衣藻（Chlamyclomoras sajao）,以及在等生物量条件下,以上3种藻类两两配比饵料（3：1、1：1和1：3）对萼花臂尾轮虫（Brachionus calyciflorus）的培养效果。结果表明,不同浓度的蛋白核小球藻、水华鱼腥藻和沙角衣藻对萼花臂尾轮虫增殖效果的影响分别表现为差异极显著（P〈0．01）、显著（P〈0．05）和不显著（P〉0．05）;蛋白核小球藻与水华鱼腥藻组成的混合饵料对萼花臂尾轮虫的增殖效果均优于其中的单一种类（P〈0．05）;沙角衣藻无论是单独投喂,还是与其它藻类混合投喂,轮虫的培养效果均不理想。因此,该种类不宜用作轮虫饵料开发。该研究还表明,蛋白核小球藻是培养萼花臂尾轮虫的最适单一种类,它与水华鱼腥藻组成的混合饵料培养萼花臂尾轮虫效果更好。     

Phosphorus strategy in bloom-forming cyanobacteria (Dolichospermum and Microcystis) and its role in their succession

Dolichospermum (formerly Anabaena) and Microcystis cause harmful cyanobacterial blooms in freshwater ecosystems worldwide. Input reduction of both nitrogen (N) and phosphorus (P) are commonly recognized as basic ways of controlling blooms, but little is known about the roles of nutrients and their using strategy among cyanobacteria in triggering the succession of diazotrophic to non-diazotrophic cyanobacteria. In this study, we investigated in situ responses of cyanobactria to ambient P status during the transition from Dolichospermum flos-aquae to Microcystis spp. in Lake Taihu and Lake Chaohu. While dominant in phytoplankton community, D. flos-aquae experienced P deficiency as evidenced by qualitative detection of extracellular phosphatase via enzyme labeled fluorescence (ELF). The percentage of ELF-labelled D. flos-aquae cells was 33% when it dominated the phytoplankton community, and was 78% when it co-dominated with Microcystis spp., indicating an increase in P deficiency. Meanwhile, no ELF-labelled Microcystis cells were observed while polyphosphate body (PPB) were present, suggesting that Microcystis spp. were not P deficient. Additionally, the percentages of Microcystis cells containing PPB showed an inverted “U-shaped” relationship with concentrations on soluble reactive phosphorus (SRP). To validate the field observation, a laboratory study of the monocultures of the dominant cyanobacteria was conducted. Extracellular alkaline phosphatase activity (APA) and PPB accumulation were regulated by P availability in monocultures of D. flos-aquae. Interestingly, no cell bound extracellular phosphatase was found on Microcystis aeruginasa even in the culture without P supply. Consistently, the expressions of phosphatase encoding gene phoX showed no differences among the treatments. The way in which PPB accumulation occurred in Microcystis spp. in response to P availability in the cultures was similar to that observed in the field, demonstrating a strategy of energy conservation over P accumulation. The competitive advantage of Microcystis spp. was displayed at low P concentrations: where it could rapidly uptake and store inorganic P, which also increased the P deficiency of the coexisting phytoplankton species. Responses of P-transport gene pstS confirmed this hypothesis. The physiological and molecular mechanisms mentioned above enable Microcystis to survive and proliferate in environment with low available P supply more efficiently. In conclusion, different cyanobacterial species have distinct ways of responding to P availability, suggesting that the control of cyanobacterial blooms by targeted nutrient reduction is largely dependent upon the dominant species. P reduction is more effective in controlling diazotrophic cyanobacteria than non-diazotrophic cyanobacteria.     

PHOTOSYNTHESIS OF ALGAL CULTURES AND PHYTOPLANKTON FOLLOWING AN ACID pH SHOCK1

In acidifying lakes, pH decreases abruptly in response to acid precipitation events. We tested the hypothesis that, in comparison to a circumneutral lake, phytoplankton photosynthesis in an acidifying lake is less sensitive to a rapid decrease in pH (acid pH shock). Phytoplankton in Plastic Lake, which is undergoing acidification, was characterized by a predominance of Pyrrophyta, and phytoplankton photosynthesis decreased to a lesser extent in response to an acid pH shock than the photosynthesis of populations from St. Nora Lake, a circumneutral lake located nearby, in which Pyrrophyta were not abundant. Rates of phytoplankton photosynthesis in acid pH shock experiments were significantly correlated with hydrogen ion but not with dissolved inorganic carbon (DIC) concentrations. Depression of photosynthesis following an acid pH shock occurred in axenic cultures of Chlorella pyrenoidosa Chick but was not observed in axenic cultures of the acidophilic alga Chlorella saccharophila (Krug.) Nadson or in three species isolated from Plastic Lake. However, the three isolates were not acidophilic during growth. We conclude that phytoplankton in acidifying lakes consists predominantly of species which are tolerant to acid pH for short periods (hours) but cannot grow at these pHs.     

ALLELOPATHIC GROWTH INHIBITION OF SELECTED PHYTOPLANKTON SPECIES BY SUBMERGED MACROPHYTES1

Allelopathic effects of submerged macrophytes on the growth and photosynthesis of different unialgal cultures of planktonic cyanobacteria, a diatom, and a green alga were tested in coexistence experiments using dialysis cultures. The method applied allowed measurements under conditions similar to that in lakes but without nutrient and light limitation. Growth and photosynthesis were measured with a pulse amplitude modulated fluorometer as an increase of chl a fluorescence and activity of PSII, respectively. Eurasian water milfoil Myriophyllum spicatum L. and rigid hornwort Ceratophyllum demersum L. proved to inhibit the PSII activity and then growth of the investigated phytoplankton species, whereas sago pondweed Potamogeton pectinatus L. showed no effect. Growth inhibition was dependent on biomass of M. spicatum. Considerable differences between phytoplankton groups and among species of cyanobacteria were found regarding their response to M. spicatum. Members of the Oscillatoriales and Microcystis aeruginosa Kütz. emend. Elenkin were more sensitive than the cyanobacterium Aphanizomenon flos‐aquae Ralfs ex Born. et Flah., the diatom Stephanodiscus minutulus (Kütz) Cleve et Möller, and the green alga Scenedesmus armatus Chodat. A possible contribution of this result to changes in the phytoplankton succession of lakes after loss of macrophytes is discussed.     

Variation in species light acquisition traits under fluctuating light regimes: implications for non‐equilibrium coexistence

Resource distribution heterogeneity offers niche opportunities for species with different functional traits to develop and potentially coexist. Available light (photosynthetically active radiation or PAR) for suspended algae (phytoplankton) may fluctuate greatly over time and space. Species‐specific light acquisition traits capture important aspects of the ecophysiology of phytoplankton and characterize species growth at either limiting or saturating daily PAR supply. Efforts have been made to explain phytoplankton coexistence using species‐specific light acquisition traits under constant light conditions, but not under fluctuating light regimes that should facilitate non‐equilibrium coexistence. In the well‐mixed, hypertrophic Lake TaiHu (China), we incubated the phytoplankton community in bottles placed either at fixed depths or moved vertically through the water column to mimic vertical mixing. Incubations at constant depths received only the diurnal changes in light, while the moving bottles received rapidly fluctuating light. Species‐specific light acquisition traits of dominant cyanobacteria (Anabaena flos‐aquae, Microcystis spp.) and diatom (Aulacoseira granulata, Cyclotella pseudostelligera) species were characterized from their growth–light relationships that could explain relative biomasses along the daily PAR gradient under both constant and fluctuating light. Our study demonstrates the importance of interspecific differences in affinities to limiting and saturating light for the coexistence of phytoplankton species in spatially heterogeneous light conditions. Furthermore, we observed strong intraspecific differences in light acquisition traits between incubation under constant and fluctuating light – leading to the reversal of light utilization strategies of species. This increased the niche space for acclimated species, precluding competitive exclusion. These observations could enhance our understanding of the mechanisms behind the Paradox of the Plankton.     

巢湖春夏季节浮游植物的动态变化

2009年3月至8月,利用原位围隔实验和野外调查,研究了巢湖春夏季节浮游植物的动态变化.结果显示:围隔中浮游植物密度和生物量的变动范围分别是(2.95～102.43)×10⁵ cells·L^-1和0.0-7.39 mg·L^-1,优势种类为鱼腥藻属(Anabaena)、梅尼小环藻(Cyclotella meneghiniana)和圆筒锥囊藻(Dinobryon cylindricum),其最大生物量分别为0.82 mg·L^-1、0.66mg·L^-1和2.98 mg·L^-1,均出现在3月或4月.在巢湖湖水中,春季(3～5月)浮游植物平均生物量为5.43mg·L^-1,其中绿藻占47.59%、硅藻占40.81%、蓝藻占10.18%,优势种类为盘星藻属(Pediastrum)和梅尼小环藻;而夏季(6～7月)浮游植物平均生物量为7.89mg·L^-1,其中蓝藻占58.7%、绿藻占2.77%、硅藻占11.4%,优势种类为微囊藻属(Microcystis).磷和枝角类滤食对巢湖春夏季节浮游植物的生物量和群落结构有重要影响.     

The rise of potentially toxin producing cyanobacteria in Lake Naivasha,Great African Rift Valley,Kenya

Lake Naivasha, an important inland water ecosystem and a crucial freshwater resource in the Great African Rift Valley, has displayed clear signals of degradation in recent decades. We studied the phytoplankton composition and biomass levels in the period 2001–2013 and noted a progressive increase in the occurrence of potentially toxic cyanobacteria. Analyses for the presence of cyanotoxins such as microcystins (MC), cylindrospermopsin (CYN) and anatoxin-a (ATX-a) were carried out on samples collected in 2008–2013. Among the cyanotoxins tested, low concentrations of MC were detected in the lake. This is the first record of the occurrence of MC in Lake Naivasha. For the first time, molecular phylogenetic investigations of field clones of cyanobacteria from Lake Naivasha were carried out to establish the taxa of the dominant species. Amplification of the aminotrasferase (AMT) domain responsible for cyanotoxin production confirmed the presence of the mcyE gene belonging to the microcystin synthesis gene cluster in field samples containing Microcystis and Planktothrix species. These findings suggest that toxin producing cyanobacteria could become a threat to users of this over-exploited tropical lake in the near future.     

千岛湖次生林优势种植物光合生理生态特性

对千岛湖次生林优势种马尾松(Pinus massoniana)、苦槠(Castanopsis sclerophylla)、石栎(Lithocarpus glaber)、青冈(Cyclobalanopsis glauca)在不同季节的光合作用日变化、光响应、CO2响应以及相对叶绿素含量进行了分析,以期了解群落演替的内在机制。结果表明:(1)马尾松的净光合速率(Pn)日变化在4个季节均呈"单峰"曲线;苦槠在8月呈"双峰"曲线,其他3个月份均呈"单峰"曲线;石栎和青冈在5月、8月和11月的Pn日变化均为"双峰"曲线,有明显的光合"午休"现象,2月为"单峰"曲线。(2)马尾松和苦槠的Pn日积累值为8月最高,石栎和青冈为11月最高,且均与其他3个月均差异显著。4种优势种在4个季节的Pn日积累值的平均值大小为马尾松苦槠青冈石栎,差异显著。(3)4个季节中,光饱和点(LSP)、光补偿点(LCP)、最大净光合速率(Amax)、暗呼吸速率(Rd)、最大羧化速率(Vcmax)、最大电子传递速率(Jmax)均以马尾松最高,表观量子效率(AQY)为马尾松最低。青冈在4个季节中具有最低的LSP、Rd和最高的AQY。苦槠和石栎的光合特性介于马尾松和青冈之间。(4)相对叶绿素含量以青冈最高,马尾松最低。总之,马尾松属强阳性树种,苦槠为阳性树种,石栎具有一定的耐荫性,青冈的耐荫性较强。     

Studies on Temporal and Spatial Variations of Phytoplankton in Lake Chaohu

Temporal and spatial variations of the phytoplankton assemblage in Lake Chaohu, a large shallow eutrophic lake in China, were studied from September 2002 to August 2003. A total of 191 phytoplankton species was identified, among which Chlorophytes （101） ranked the first, followed by Cyanophytes （46） and Bacillariophytes （28）. On aver- age over the entire lake, the maximum total algal biomass appeared in June （19.70 mg/L） with a minimum （5.05 mg/ L） in November. In terms of annual mean biomass, cyanobacteria contributed 45.43% to total algal biomass, followed by Chlorophytes （27.14%）, and Bacillariophytes （20.6%）. When nitrate （NOs-N） and ammonium （NH4-N） concentrations dropped in spring, fixing-nitrogen cyanobacterium （Anabaena） developed quickly and ranked the first in terms of biomass in summer. It is likely that dominance of zooplanktivorous fish and small crustacean zooplankton favored the development of the inedible filamentous or colony forming cyanobacteria. The persistent dominance of cyanobacteria throughout all seasons may indicate a new tendency of the response of phytoplankton to eutrophication in Lake Chaohu.     

雅鲁藏布江中游浮游植物群落优势种时空生态位

为探究雅鲁藏布江中游浮游植物群落分布格局及其优势种时空生态位特征,于2021年7月、10月对该水域进行浮游植物样品的采集和水体理化因子的测定,鉴定浮游植物物种,计算浮游植物优势种生态位宽度、生态位重叠值、生态响应速率及相对资源占有率,运用共现网络模型分析群落的种间关联性,并对浮游植物优势种与环境因子进行Pearson相关性分析。结果表明：该水域共鉴定到浮游植物644种,隶属于8门12纲25目49科152属,其中,优势种22种,优势种中硅藻占90.9%,在群落中占绝对优势;丰水期的肘状针杆藻丰度最大(74.193×10⁴细胞/L)且出现频率最高(0.867),是丰水期绝对优势种;整体上优势种生态位宽度时间(0.833)>空间(0.254),优势种时空生态位宽度主要受空间生态位宽度的影响,空间异质性是影响该水域浮游植物优势种分布的主要因素;优势种时空二维生态位无意义重叠的种对占40.69%,优势种时空二维的生态位重叠以中、低等级为主,优势种间对时空资源需求异质性高,种间潜在竞争关系较弱;该水域枯水期浮游植物群落的网络结构紧密,群落连通性、群落复杂度和物种间生态位...     

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.