Variation of cyanobacteria with different environmental conditions in Nansi Lake, China

Nansi Lake is located on the east line of the South-to-North Water Diversion Project in China. A comprehensive study was carried out to investigate the spatial and temporal distribution of cyanobacteria in the lake from June 2008 to May 2011 based on monthly sample monitoring from five stations. The effect of environmental factors on cyanobacterial abundance was also evaluated. The cyanobacterial community contained 15 genera and 23 species. The cyanobacterial abundance of each monitoring station ranged from 0 to 1.53× 10⁷ cells/L with an average of 1.45×10⁶ cells/L, which accounted for 11.66% of the total phytoplankton abundance. The dominant species of cyanobacteria were Pseudanabaena (32.94%) and Merismopedia (19.85%), not the bloom-forming algae such as Microcystis and Anabaena. In addition, the cyanobacterial community structure and water quality variables changed substantially over the survey period. Redundancy analysis (RDA) suggested that temperature and phosphorus were important environmental factors that affected cyanobacteria. Temperature was the most important factor affecting cyanobacterial abundance. The effect of phosphorus on cyanobacterial abundance was more notable in warm periods than in periods with low temperature.     

Spatial and temporal distribution of cyanobacteria in Batticaloa Lagoon

The necessity to understand the relationship between cyanobacterial species abundance and water quality variations in coastal lagoons is crucial to develop strategies to prevent further cyanobacterial proliferation. This paper evaluates the relationship between water quality variations on the distribution of cyanobacteria during a 12-month period in Batticaloa Lagoon (Sri Lanka) using Redundancy analysis and Pearson correlations. Drastic variations in pH, temperature, salinity, dissolved oxygen (DO) and total phosphorus (TP) levels were reported, but not turbidity and NO₃⁻. This brackish waterbody is hypereutrophic (TP levels > 0.1 mg/L). The cyanobacterial community contained 13 genera and 22 species. NO₃⁻, TP and turbidity levels positively influenced cyanobacterial abundance during all seasons indicating that nutrient (largely phosphorus) and sediment entry control is highly crucial along with periodic monitoring of cyanobacterial growth.     

风场对太湖梅梁湾水华及营养盐空间分布的影响

为了解风场对湖泊表层蓝藻水华及营养盐空间分布的影响,以太湖梅梁湾为例,在蓝藻水华期间开展表层粒子漂流实验,研究风场对水体表层物质的推移规律,并开展全水域水体表、中、底层密集布点采样,测定水体藻类叶绿素a、氮、磷、高锰酸盐指数、溶解性有机碳、溶解氧等水质指标,探讨风场驱动下大型浅水湖泊蓝藻水华及营养盐时空分布特征.结果表明,在平均风速1. 9 m·s~(-1)和2. 3 m·s~(-1)的情况下,表层粒子的平均漂移速度分别为3. 0 cm·s~(-1)和5. 0 cm·s~(-1);风场对表层水体蓝藻水华的空间分布具有决定性影响,能够引起蓝藻水华在空间上较高的异质性;蓝藻水华物质的空间变化对水体颗粒态氮、磷、有机质和溶解氧等水质指标产生较大影响,表、中、底层颗粒态氮和磷、高锰酸盐指数与叶绿素a浓度的空间分布一致,而溶解态氮、磷浓度及溶解性有机碳的分布与叶绿素a浓度分布不尽相同;蓝藻水华物质在风场作用下的再分配对水体溶解氧产生复杂的影响,底层溶解氧平均值低于表层与中层,可能对沉积物营养盐释放产生影响;依据高密度布点调查估算,仅表层20 cm,梅梁湾水域的蓝藻干物质赋存量约396 t,远大于蓝藻打捞工程的清除量.研究表明,鉴于水华期间风场作用下对蓝藻水华漂移的巨大影响,在湖泊水质调查采样方法及数据分析时应充分考虑蓝藻水华漂移的影响因素;防控湖泛灾害的蓝藻打捞作业对湖体蓝藻水华赋存量的清除能力有限,只能对岸边带湖泛的预防产生影响.     

鄱阳湖典型河湖交汇区浮游植物现状分析

鄱阳湖典型河湖交汇区（尾闾区）易受人类频繁活动的影响,属于敏感区且是蓝藻水华易暴发区域.为探究鄱阳湖典型河湖交汇区浮游植物群落结构的差异性及相关驱动机制,于2019年至2020年1月（枯水期）、4月（涨水期）、7月（丰水期）和10月（退水期）对鄱阳湖典型河湖交汇区7个采样点位和鄱阳湖河流中段6个采样点位以及主湖区1个采样点位水质状况和浮游植物进行野外调查.结果表明,鄱阳湖典型河湖交汇区浮游植物共有7门64属,浮游植物生物量和相对丰度以硅藻和蓝藻为主.鄱阳湖典型河湖交汇区生物量和丰度东部总体上高于西部,河湖交汇区生物量和丰度高于河流中段.湖区和河湖交汇区蓝藻门优势度较大,河流中段硅藻门优势度较大.蒙特卡罗检验结果显示：总氮（TN）、总磷（TP）、正磷酸盐（PO₄^3--P）、水深（WD）、水温（WT）和透明度（SD）是影响浮游植物群落分布的显著相关环境因子.冗余分析（RDA）结果显示,鄱阳湖西部典型河湖交汇区受水化因子（TN、TP和PO₄^3--P）作用更明显,东部典型河湖交汇区水文因子（WT、WD和SD）影响更为显著.鄱阳湖典型河湖交汇区浮游植物影响因子具有季节性,冬季受水化因子影响较大,夏季受水文因子影响较大.     

Temporal and spatial changes in nutrients and chlorophyll-a in a shallow lake, Lake Chaohu, China: An 11-year investigation

Temporal and spatial changes of total nitrogen (TN), total phosphorus (TP) and chlorophyll-a (Chl-a) in a shallow lake, Lake Chaohu, China, were investigated using monthly monitoring data from 2001 through 2011. The results showed that the annual mean concentration ranges of TN, TP, and Chl-a were 0.08-14.60 mg/L, 0.02-1.08 mg/L, and 0.10-465.90 μg/L, respectively. Our data showed that Lake Chaohu was highly eutrophic and that water quality showed no substantial improvement during 2001 through 2011. The mean concentrations of TP, TN and Chl-a in the western lake were significantly higher than in the eastern lake, which indicates a spatial distribution of the three water parameters. The annual mean ratio of TN:TP by weight ranged from 10 to 20, indicating that phosphorus was the limiting nutrient in this lake. A similar seasonality variation for TP and Chl-a was observed. Riverine TP and NH₄⁺ loading from eight major tributaries were in the range of 1.56×10⁴-5.47×10⁴ and 0.19×10⁴-0.51×10⁴ tons/yr over 2002-2011, respectively, and exceeded the water environmental capability of the two nutrients in the lake by a factor of 3-6. Thus reduction of nutrient loading in the sub-watershed and tributaries would be essential for the restoration of Lake Chaohu.     

Off-flavor compounds from decaying cyanobacterial blooms of Lake Taihu

The effect of cyanobacterial bloom decay on water quality and the complete degradation of cyanobacterial blooms in a short period were examined by an enclosure experiment in Gonghu Bay of Lake Taihu,China.Water quality parameters as well as taste and odor compounds during the breakdown of cyanobacterial blooms were measured.Results showed that the decay of cyanobacterial blooms caused anoxic water conditions,decreased pH,and increased nutrient loading to the lake water.The highest concentrations of dimethyl sulfide (DMS),dimethyl trisulfide (DMTS),and β-cyclocitral were observed in the anoxic water,at 62331.8,12413.3,and 1374.9 ng/L,respectively.2-Methylisoborneol was dominant during the live growth phase of cyanobacterial blooms,whereas DMS and DMTS were dominant during the decomposition phase.Dissolved oxygen,pH,and chlorophyll a were negatively correlated with DMS,DMTS,and β-cyclocitral,whereas total phosphorus,total nitrogen,and ammonium (NH4+-N) were positively correlated with DMS,DMTS,β-cyclocitral,and β-ionone.The experimental results suggested that preventing the anaerobic decomposition of cyanobacterial blooms is an important strategy against the recurrence of a malodor crisis in Lake Taihu.     

鄱阳湖阻隔湖泊浮游植物群落结构演化特征：以军山湖为例

人类改造自然的行为——建闸筑堤对湖泊生态系统有着重要影响,由于缺乏生态监测对比数据,对阻隔湖泊的浮游植物群落结构变化及其响应特征缺乏足够认识.为探明阻隔湖泊浮游植物群落结构演变趋势,选取了鄱阳湖典型阻隔湖泊——军山湖,于2007~2008年和2012~2013年对其浮游植物进行丰枯水期调查,重点分析群落结构特征.结果表明,2012~2013年共检出浮游植物6门53属,主要由绿藻(种属数占47.2%)、硅藻(22.2%)、蓝藻(14.8%)、裸藻(9.3%)等组成.丰水期优势种属为飞燕角甲藻(Ceratium hirundinella)(生物量百分比20.5%)、鱼腥藻(Anabeana spp.)(18.5%)和微囊藻(Microcystis spp.)(12.9%);枯水期优势种属为卵形隐藻(Cryptomonas ovata)(生物量百分比38.4%)、颗粒直链硅藻(Aulacoseira granulata)(15.2%)和微囊藻(10.5%).浮游植物细胞数量主要由蓝藻(85.4%~87.0%)构成;丰水期生物量主要由蓝藻(45.0%)、甲藻(21.1%)、硅藻(15.6%)和绿藻(11.5%)组成;枯水期生物量则由隐藻(38.2%)、硅藻(31.3%)和蓝藻(21.1%)组成.与2007~2008年军山湖浮游植物群落结构相比,主要变化趋势有:①丰水期,浮游植物优势种从2007~2008年的甲藻-硅藻,甲藻绝对优势型转变为2012~2013年的蓝藻-甲藻,蓝藻绝对优势型;枯水期,从2007~2008年的甲藻-硅藻,甲藻绝对优势型转变为2012~2013年的隐藻-硅藻-蓝藻,隐藻绝对优势型.②浮游植物细胞数量由2007~2008年的2.66×106cell·L-1上升至2012~2013年的6.77×107cell·L-1,生物量由2007~2008年的0.72 mg·L-1增加至2012~2013年的12.30 mg·L-1.总之,军山湖浮游植物群落结构中贫营养型的甲藻比例减少,金藻消失,富营养型的蓝藻和隐藻增加.因此,通过建闸筑堤对湖泊进行人为阻隔后,湖区水体交换时间的延长,水流流速的变缓等水文条件的改变均促进了浮游植物富营养指示种在军山湖湖区内的生长聚集.     

Isolation, identification and characterization of an algicidal bacterium from Lake Taihu and preliminary studies on its algicidal compounds

In an effort to identify a bio-agent capable of controlling cyanobacterial blooms, we isolated a bacterial strain, A27, which exhibited strong algicidal activity against the dominant bloom-forming species of Microcystis aeruginosa in Lake Taihu. Based on 16S rRNA gene sequence analysis, this strain belongs to the genus Exiguobacterium. This is the first report of an algicidal bacterial strain belonging to the genus Exiguobacterium. Strain A27 exhibited algicidal activity against a broad range of cyanobacteria, but elicited little or no algicidal activity against the two green algal strains tested. The algicidal activity of strain A27 was shown to be dependent on the density of the bacteria and to have a threshold density of 1.5× 10⁶ CFU/mL. Our data also showed that the algicidal activity of strain A27 depended on different growth stages of Microcystis aeruginosa (exponential ≈ lag phase > early stationary) rather than that of the bacterium itself. Our results also suggested the algicidal activity of strain A27 occurred via the production of extracellular algicidal compounds. Investigation of the algicidal compounds revealed that there were at least two different algicidal compounds produced by strain A27. These results indicated that strain A27 has great potential for use in the control of outbreaks of cyanobacterial blooms in Lake Taihu.     

淀山湖水华高发期浮游植物群落变化特征研究

根据2009年5～10月淀山湖浮游植物数量和种类的观测结果,对水华高发季节浮游植物群落组成特点及优势种交替过程进行分析,初步探讨这一时期浮游植物群落特征与环境因子的关系.结果表明,这一时期浮游植物主要由蓝藻和绿藻组成,蓝藻在密度上、绿藻在种类上占优势.水平分布上,西部和西南部的蓝藻密度值和种类数较高.总密度最高峰出现在9月,其值为23.40×107cells.L-1,其中蓝藻数量占90.3%,各样点间总密度差异显著(ANOVA,P<0.05).优势种在调查期间存在明显的交替现象,蓝藻门微囊藻属(Microcystis)藻类逐步成为优势种并形成水华.水温与pH是影响水华发生的重要环境因子,微囊藻受风向影响容易向下风向水域聚集形成水华.淀山湖中部和西部的浮游植物多样性较差,水华暴发时,全湖多样性指数降低,群落结构趋于简单.     

程海湖夏冬季浮游植物群落结构与富营养化状况研究

为了解程海湖浮游植物群落特征及其富营养化现状,对程海湖的水体理化指标和浮游植物群落结构进行了系统调查,分析了夏、冬季节程海湖水质状况、浮游植物群落结构特征及其与环境因子之间的关系,并运用综合营养状态指数法和藻类生物学法评价了程海湖的营养状态.结果表明,调研期间程海湖氮、磷浓度较高,水体中总磷(TP)浓度为0.03～0.19 mg·L~(-1),总氮(TN)为0.38～3.08 mg·L~(-1),综合营养状态指数(TLI)在49.3～54.4之间波动,已经达到轻度富营养水平;藻密度变化范围为1.54×10~6～1.65×10~7个·L~(-1),已超过常规湖泊的水华暴发阈值范围;浮游植物以蓝藻、绿藻为主,Shannon-Wiener多样性指数大多数为1～3,Pielou均匀度指数为0.18～0.72,部分时间段藻类多样性偏低,呈现出典型的蓝藻门为优势的富营养化状态,亟需对其进行生态保护与管理.     

Decrease of NH4+-N by bacterioplankton accelerated the removal of cyanobacterial blooms in aerated aquatic ecosystem

We used aerated systems to assess the influence of the bacterioplankton community on cyanobacterial blooms in algae/post-bloom of Lake Taihu, China. Bacterioplankton community diversity was evaluated by polymerase chain reaction-denaturing gradient gel electrophoresis(PCR-DGGE) fingerprinting. Chemical analysis and nitrogen dynamic changes illustrated that NH4+-N was nitrified to NO2-N and NO3-N by bacterioplankton. Finally, NH4+-N was exhausted and NO3-N was denitrified to NO2-N, while the accumulation of NO2-N indicated that bacterioplankton with completely aerobic denitrification ability were lacking in the water samples collected from Lake Taihu. We suggested that adding completely aerobic denitrification bacteria(to denitrify NO2-N to N2)would improve the water quality. PCR-DGGE and sequencing results showed that more than 1/3 of the bacterial species were associated with the removal of nitrogen, and Acidovorax temperans was the dominant one. PCR-DGGE, variation of nitrogen, removal efciencies of chlorophyll-a and canonical correspondence analysis indicated that the bacterioplankton significantly influenced the physiological and biochemical changes of cyanobacteria. Additionally, the unweighted pair-group method with arithmetic means revealed there was no obvious harm to the microecosystem from aeration. The present study demonstrated that bacterioplankton can play crucial roles in aerated ecosystems, which could control the impact of cyanobacterial blooms in eutrophicated fresh water systems.     

太湖不同湖区蓝藻细胞裂解速率的空间差异

2009年在太湖蓝藻水华形成初期(五月)、盛发期(九月)和衰亡期(十月和十一月),运用基于颗粒态酯酶,溶解性酯酶以及酯酶衰变常数测定的酯酶活性方法对不同湖区(藻型和草型湖区)蓝藻的细胞裂解速率进行了计算,在测定颗粒态酯酶、溶解性酯酶活性时,同步分析了太湖优势种群中蓝藻叶绿素a的含量.统计分析结果表明,叶绿素a的浓度与颗粒态酯酶、溶解性酯酶活性有很好的相关性,说明以酯酶活性为指标来计算太湖蓝藻细胞裂解速率是可行的.对不同湖区的细胞裂解速率进行比较,可见湖心和西太湖在蓝藻水华形成初期细胞裂解速率分别为0.072,0.048d-1.水华盛发期以及水华衰亡期,湖心和西太湖的细胞裂解速率分别为0.074～0.770d-1,0.014～0.110d-1.太湖湖心磷酸盐浓度比西太湖低,所以蓝藻生长速率慢,导致细胞裂解速率比西太湖高.但是,在梅梁湾和贡湖,衰亡末期磷酸盐浓度比其它月份高,细胞裂解速率也高.4个采样点在衰亡末期的细胞裂解速率比水华形成初期,暴发期和衰亡初期要高,可能的原因是气温和水体温度下降导致蓝藻生长速度减慢.本研究结果表明,太湖蓝藻细胞裂解速率有明显的空间差异,其具体的影响因素很多,营养盐只是其中一个.     

Seasonal dynamics of water bloom-forming Microcystis morphospecies and the associated extracellular microcystin concentrations in large, shallow, eutrophic Dianchi Lake

The increasing occurrence of Microcystis blooms is of great concern to public health and ecosystem due to the potential hepatotoxic microcystins （MCs） produced by these colonial cyanobacteria. In order to interpret the relationships between variations of Microcyst/s morphospedes and extracellular MC concentrations, the seasonal dynamics of phytoplankton community composition, MC concentrations, and environmental parameters were monitored monthly from August, 2009 to July, 2010. The results indicated that Microcystis dominated total phytoplankton abundance from May to December （96%--99% of total biovolume）, with toxic Microcystis viridis and non-toxic Microcystis wesenbergii dominating after July （constituting 65%- 95% of the Microcystis population）, followed by M. viridis as the sole dominant species from November to January （49%--93%）. Correlation analysis revealed that water temperature and nutrient were the most important variables accounting for the occurrence ofM. wesenbergii, while the dominance ofM. viridis was related with nitrite and nitrate. The relatively low content of MCs was explained by the association with a large proportion of M. viriclis and M. wesenbergii, small colony size of Microcystis populations, and low water temperature, pH and dissolved oxygen. The extracellular MC （mean of 0.5 ± 0.2 μg/L） of water samples analyzed by enzyme-linked immunosorbent assay （ELISA） demonstrated the low concentrations of MC in Dianchi Lake which implied the low potential risk for human health in the basin. The survey provides the first whole lake study of the occurrence and seasonal variability of Microcyst/s population and     

太湖不同湖区轮虫群落结构季节变化的比较研究

2006年7月～2007年6月对太湖不同湖区(河口区、梅梁湾、太湖湖心区和贡湖湾)轮虫的季节变化进行了比较研究.整个研究期间,河口区、梅梁湾、太湖湖心区和贡湖湾轮虫种类数分别为23、15、14和21;河口区轮虫的年平均密度最高,为475个·L-1,梅梁湾最低,为164个·L-1,太湖湖心区为189个·L1-,贡湖湾为338个·L-1.4个湖区优势种不同,河口区轮虫优势种为萼花臂尾轮虫(B.cdyciflorus),梅梁湾为角突臂尾轮虫(B.angularis),太湖湖心区和贡湖湾优势种都是针簇多肢轮虫(P.trigla).食物的不同以及大型浮游甲壳动物的抑制作用,可能是太湖4个湖区轮虫群落结构不同的重要原因.相关分析表明,轮虫数量与枝角类数量、枝角类生物量和桡足类生物量极显著负相关;轮虫数量与透明度显著正相关.结果表明,太湖4个不同湖区轮虫群落结构不同.     

Mixing regime shapes the community assembly process, microbial interaction and proliferation of cyanobacterial species Planktothrix in a stratified lake

Lake mixing influences aquatic chemical properties and microbial community composition,and thus, we hypothesized that it would alter microbial community assembly and interaction. To clarify this issue, we explored the community assembly processes and cooccurrence networks in four seasons at two depths(epilimnion and hypolimnion) in a mesotrophic and stratified lake(Chenghai Lake), which formed stratification in the summer and turnover in the winter. During the stratification period, the epilimni...     

南水北调东线湖泊针杆藻属分布特征及其与环境因子的关系

针杆藻属(Synedra)是常见的淡水藻类,饮用水源中针杆藻属的暴发式增长会严重影响水厂正常运行.为明确南水北调东线调蓄湖泊针杆藻属的时空分布特征及其与环境因子的相关性,于2011年3月—2013年5月在东线四湖(即洪泽湖、骆马湖、南四湖和东平湖)逐月采样进行调查研究.结果表明,监测期内洪泽湖、骆马湖、南四湖和东平湖针杆藻属密度最大值分别为442.0×104、549.3×104、301.6×104和795.4×104 L-1,尖针杆藻(Synedra acus)是东线四湖针杆藻属的优势种.非度量多维尺度(non-metric multi-dimensional scaling,NMDS)分析表明,东线四湖针杆藻属的分布特征存在一定差异,东平湖和骆马湖针杆藻属分布特征更加相似.Pearson相关性分析(Pearson correlation analysis)表明,影响东线四湖针杆藻属生长的环境因子主要是表层水温、透明度、ρ(DO)和ρ(TN),其中表层水温是最主要的影响因素.      

调水对巢湖浮游植物群落演替模式的影响

建立了巢湖生态动力学模型CAEDYM,并利用2010年的实测出入湖流量、水质、水文、气象等数据对模型进行了参数验证,确定了适用于巢湖水环境特征的生态动力学模型参数.利用模型中的磷循环原理模拟了巢湖水体中磷的生态动力学循环过程和浮游植物群落的季节性演替模式,并模拟了调水对浮游植物群落演替模式的影响.模拟结果表明,巢湖浮游植物优势种的演替模式为:春季绿藻占优势,夏季和秋季蓝藻占优势,冬季硅藻占优势.通过夏季的短期调水可使巢湖各点最终的TN、TP分别平均下降了约18.9%,25.2%.从Chl a的计算结果可知,调水的实施对巢湖西半湖和中部湖区Chl a的改善效果比较明显,可使Chl a的峰值从69μg/L下降到57μg/L,对巢湖的蓝藻有较好的改善效果,且对浮游植物群落的季节性演替影响不大.     

青藏高原克鲁克-托素湖湿地系统微生物多样性

克鲁克湖(Keluke Lake)和托素湖(Tuosu Lake)是青藏高原重要的湿地和水禽自然保护区,其水体微生物的多样性有待研究。利用Illumina测序平台进行16S rRNA基因(V3-V4区)高通量测序,并分析两湖水体微生物的群落结构和多样性。结果表明淡水克鲁克湖和咸水托素湖的物种注释OTU数目分别为331和148,获得克鲁克湖的已知细菌种类为16门34纲66属;托素湖为9门19纲54属。克鲁克湖的微生物优势类群以变形菌门(Proteobacteria)为主,次为蓝菌门(Cyanobacteria)和拟杆菌门(Bacteroidetes),其优势种群是未确定种属的蓝细菌、弓形杆菌属(Arcobacter)和盐单胞菌属(Halomonas)。托素湖的优势类群以变形菌门为主,次为厚壁菌门(Firmicutes),优势种群是盐单胞菌属。克鲁克湖的微生物物种丰富度、多样性和分布均匀度均显著高于咸水托素湖,但托素湖的物种优势度明显高于克鲁克湖。两湖优势微生物的属群分布与环境因子存在明显的正相关,此为高原湿地生态系统的环境监测与保护提供参考依据。     

鄱阳湖大型底栖动物时空演变特征及驱动因素

于2019年7月对鄱阳湖133个样点大型底栖动物进行调查,分析其群落结构与环境因子之间的关系.结果表明,共记录底栖动物48种,隶属7纲16目22科38属,全湖底栖动物的平均密度和生物量分别为158.38ind/m²和173.76g/m²,现阶段优势种主要为河蚬、铜锈环棱螺和大沼螺.将全湖分为5个湖区：北部湖区、西北部湖区、中部湖区、东部湖区和南部湖区,单因素方差分析表明不同湖区水体理化指标差异显著（ANOVA,p<0.05）,沉积物环境指标差异不显著.相似性分析结果表明不同湖区底栖动物群落结构差异性显著,北部湖区生物多样性显著高于其它湖区.典范对应分析表明水深、溶解氧、浊度、总磷、叶绿素a、烧失量和底质类型与底栖动物群落结构显著相关.与历史研究相比,鄱阳湖底栖动物多样性下降明显,优势种由大型软体动物逐渐演变成小型软体动物和昆虫类.鄱阳湖采砂、水文情势变化和水生植被衰退是影响鄱阳湖大型底栖动物群落结构演替的主要环境因素.     

鄱阳湖浮游植物时空变化特征及影响因素分析

在5月、9月、11月对鄱阳湖浮游植物开展野外调查,分析鄱阳湖浮游植物的时空分布特征及原因.结果表明:在群落结构上,鄱阳湖浮游植物样品中共发现8门107属,其中绿藻门54属,占浮游植物总数的50%.3次调查平均生物量最高的为硅藻门(蓝藻门藻细胞密度最高),生物量为0.29 mg·L-1,占浮游植物总生物量的28%,是鄱阳湖的优势藻门;其次分别为隐藻门、甲藻门和绿藻门,分别占26%、21%和17%.空间分布上,南部湖区浮游植物生物量最高,中部区次之,北部湖口水道区最低;时间分布上,5月份浮游植物生物量最高,11月份最低.温度、悬浮物和透明度是影响藻类时空分布的主要影响因素.鄱阳湖总体水动力较好,水华暴发总体风险小,但中部和南部水动力弱的湖区,藻量高,仍有水华风险.