海河干流浮游植物调查及环境影响因子研究

为研究海河干流汛期富营养化状况,于2013年8月对海河干流进行了浮游植物调查和水质监测,并采用冗余分析(RDA),研究了浮游植物群落与环境因子的关系.结果表明,浮游植物共计5门37种(属),优势种为水华微囊藻(Microcystis flos-aquae)、微小色球藻(Chroococcus minutus)、颤藻属(Oscillatoria sp.)、钝顶螺旋藻(Spirulina platensis)和梅尼小环藻(Cyclotella meneghiniana).浮游植物丰度范围为583.00～12 021.00×104 cells·L-1,生物量范围为4.01 ～45.70 mg·L-1,以蓝藻为主,海河干流处于重富营养状态.RDA分析结果表明,硝酸盐氮是显著影响海河干流浮游植物丰度变化的主要环境因子.控制营养盐的输入是防治海河干流蓝藻水华的主要措施.     

南水北调东线水源核心区浮游植物多样性状况与评价研究

分别于2013年4月、8月、10月和2014年1月对南水北调东线水源核心区河流浮游植物群落结构、浮游植物密度进行调查,并利用多样性指数进行水质评价.区域共检出浮游植物5门34科67属118种,春秋两季物种数较多,夏冬两季物种数较少.优势种为蓝藻门小席藻( Phormidium.tenue)、绿藻门小球藻( Chlorella.pyrenoidosa)、硅藻门变异直链藻( Melosira.varians).区域浮游植物密度为3.5 ×105 cells/L,Shannon-wiener指数为2.32,Margalef指数为1.06,Pielou均匀度指数为0.54,水质为寡污-中污水平.     

湖泊草、藻来源溶解性有机质及其微生物降解的差异

太湖生态类型多样,存在着水环境差异比较显著的草、藻型湖区,其水体中溶解性有机质(DOM)的来源及组分特征也存在较大差异.为了检验草、藻来源的DOM组分特征及其微生物降解机制的差异性,分别选取太湖藻型湖区的蓝藻水华及草型湖区的优势水生植物马来眼子菜进行室内细菌降解实验.结果表明,浮游植物及沉水植物的细菌降解都能快速释放营养盐和有机质,而且释放的DOM均以极具活性的类蛋白荧光组分为主.草源和藻源DOM在组分构成上存在显著差异,藻源DOM以类色氨酸组分为主,而草源DOM荧光物质则基本上以类酪氨酸组分C3为主,草、藻来源DOM的荧光组分差异与野外调查结果相似.经过细菌的降解利用,草、藻来源的DOM类蛋白荧光强度都迅速减弱,藻源性溶解物质相对容易被细菌降解利用,在2 d之内就能降解约70%,而草源性DOM的降解速率则较低,通常降解转化周期则为更长时间.     

城市湖泊富营养化的影响探讨——以金山湖为实例

以金山湖为研究对象,建立了金山湖二维水流水质耦合模型,利用有限差分法离解方程,模拟了金山湖在东风作用下的流场,在此基础上模拟了水温、营养盐（总磷、总氮）、流速与浮游藻类生长的关系以及湖水水质变化趋势。     

2004年河北沿岸春、夏季浮游植物调查研究

2004年对河北沿岸海域浮游植物群落结构进行了春、夏2个航次调查研究,描述了浮游植物的种类组成、细胞数量、生物多样性指数、均匀度指数等群落特征,分析了浮游植物群落的季节变化、历史变化及平面分布趋势。结果显示:2个航次共检测出浮游植物76种,以硅藻为主。不同季节优势种有演替现象,浮游植物细胞数量季节变化显著,浮游植物平面分布特征呈明显的斑块状分布,优势种明显。生物多样性指数(H′)及均匀度指数(J)偏低。两航次浮游植物细胞数量明显高于1984年同期同水域调查结果。     

舟山渔场及其邻近海域浮游植物生态调查与研究

在2006年对舟山渔场及其邻近海域进行三期调查,共采集到浮游植物334种,分属7门85属,硅藻是构成调查区域浮游植物群落的主要类群。中肋骨条藻的优势地位明显。舟山渔场及其邻近海域浮游植物物种组成存在一定的时空差异,但不是很显著。表层浮游植物丰度全年平均为1.66×105/L。三季相比较,春季浮游植物的群落多样性相对偏高一些。通过对群落Margalef丰富度指数、Shannon-Weaver多样性指数以及Pielou均匀度指数的分析,总体上,可以认为舟山渔场及其近岸海域的生物多样性和丰富度尚好,群落结构尚稳定。但仍有部分区域环境污染严重,生物多样性较差。     

刺激浮游植物生长的Fe对大气C沉降的影响

探讨了Fe对海洋浮游植物生长的影响过程和Fe在大气C沉降中的作用,作者认为:Fe不是浮游植物生长限制因子,而是浮游植物生长刺激因子;用Fe作为肥料,不仅不会降低大气中的CO2,还会相对增加大气中的CO2。Fe对浮游植物生长影响的研究过程给我们揭示了人类只能认识自然规律和变化过程以及运行的机制,而不能随意去改变它们。     

Phytoplankton community structure and environmental parameters in aquaculture areas of Daya Bay, South China Sea

Environmental characteristics and phytoplankton community structure were investigated in two aquaculture areas in Dapeng Cove of Daya Bay, South China Sea, between April 2005 and June 2006. Phytoplankton abundance ranged between 5.0 and 8877.5 cells/mL, with an average of 751.8 cells/mL. The seasonal cycle of phytoplankton were demonstrated by frequent oscillations, with recurrent high abundances from late spring to autumn and a peak stage in late winter. Diatoms were the predominant phytoplankton group, accounting for 93.21% of the total abundance. The next most abundant group was the dinoflagellates, which made up only 1.24% of total abundance. High concentrations of Alexandrium tamarense (Lebour) Balech with a maximum of 603.0 cells/mL were firstly recorded in this area known for high rates of paralytic shellfish poisoning (PSP) contamination. Temperatures and salinities were within the suitable values for the growth of phytoplankton, and were important in phytoplankton seasonal fluctuations. The operation of the Daya Bay Nuclear Power Station (DNPS) exerts influences on the phytoplankton community and resulted in the high abundances of toxic dinoflagellate species during the winter months. Dissolved inorganic nitrogen (DIN) and dissolved silicate (DSi) were su cient, and rarely limited for the growth of phytoplankton. Dissolved inorganic phosphorus (DIP) was the most necessary element for phytoplankton growth. The enriched environments accelerated the growth of small diatoms, and made for the shift in predominant species from large diatom Rhizosolenia spp. to chain-forming diatoms such as Skeletonema costatum, Pseudo-nitzschia spp. and Thalassiosira subtilis.     

海洋环境中的Fe及其对浮游植物的限制

在海洋环境中,痕量元素Fe成为了继N、P、Si三大生源要素后又一限制浮游植物初级生产力的重要元素.本文介绍了海洋中Fe的各种存在形态、生物可利用性,以及Fe的多种途径的输入来源、沉降过程.着重探讨了Fe对浮游植物初级生产力的限制作用以及对生物量、生长率、生化组成等的影响.了解海洋中Fe的生物地球化学特征对阐明海洋生态系统的循环机制有着深远的意义,并可为赤潮治理提供有益的帮助.     

Effect of nutrient level on phytoplankton community structure in different water bodies

Increasing levels of pollution within water bodies can cause eutrophication and an associated rapid growth in and reproduction of phytoplankton. Although most frequently occurring in bodies of water such as lakes and dams, in recent years an increasing number of river systems in China have suffered serious algal blooms. The community structure of phytoplankton may differ, however, dependent on the hydrodynamic conditions and nutrient levels within the water body. The field investigation results obtained from a stagnant river in Suzhou City and Taihu Lake, China, showed that in water with higher concentrations of nitrogen and phosphorus, Chlorophyta became the predominant species and in water with lower concentrations of nitrogen and phosphorus, Cyanobacteria became the predominant species. Growth experiments with competitive species, Microcystis aeruginosa Kütz and Scenedesmus quadricauda (Turp.), were conducted at three different nutrient levels. The biomass of algae in pure and mixed cultures was measured under conditions of different N/P ratios at oligotrophic, eutrophic and hypertrophic nutrient levels. The results indicated that the most suitable state for the growth and reproduction of M. aeruginosa and S. quadricauda were eutrophic conditions in both pure and mixed cultures. Under competition, however, the lower medium nutrient levels favoured M. aeruginosa, while the higher medium nutrient levels better suited S. quadricauda. Under similar hydrodynamic conditions, the community structure of phytoplankton in the water body was determined by the dominant species in competition for nutrients.