The influence of hydrography on the distribution of phytoplankton in the southern Taiwan Strait     

R. Huang 《Estuarine, Coastal and Shelf Science》1988,26(6)

During the period August 1985 to May 1986, phytoplankton in the southern Taiwan Strait was collected and studied for distributional variability in relation to hydrography. The results indicated that maximum standing crops of phytoplankton occurred in October and May due to the outgrowth of certain species of diatoms and blue-green algae. The majority of phytoplankton appeared in the water in the top 25 m and occurred in distinct clusters under the influence of water movement. Multivariate analysis indicated that hydrographic parameters, which accounted for the variability of phytoplankton distribution, varied seasonally. Vertical, spatial and temporal variabilities were also apparent. The close relationship between hydrography and algal distribution justifies the use of variations in the phytoplankton population as a useful tracer of water movement.  相似文献   

大型海藻孔石莼抑制浮游微藻生长的原因初探--种群密度及磷浓度的作用   总被引：8，自引：0，他引：8  

南春容  董双林 《中国海洋大学学报(自然科学版)》2004,34(1):48-54

本文以磷浓度和种群密度为变量 ,以亚心形扁藻为浮游微藻代表 ,采用实验生态学手段研究了大型海藻孔石莼与浮游微藻 (亚心形扁藻 )间的竞争。结果显示 ,不论营养盐浓度如何 ,高密度的孔石莼皆能显著抑制浮游微藻的生长。分析显示 ,高密度的孔石莼压制浮游微藻生长的原因 ,不是由于对氮、磷等营养盐的竞争所致 ,而可能是其他原因所致。  相似文献   

Is there a connection between high transport of water through the Rockall Trough and ecological changes in the North Sea?   总被引：1，自引：1，他引：1  

Holliday  N. Penny; Reid  Philip C. 《ICES Journal of Marine Science》2001,58(1):270-274

  相似文献   

厦门西港海域硅酸盐浓度的变化特征   总被引：1，自引：0，他引：1  

许昆灿 《台湾海峡》1994,13(1):1-7

对１９８７年厦门西港赤潮调查表层海水硅酸盐等资料的研究表明，该海区表层海水中硅酸盐浓度的分布一般呈由湾口朝湾内降低的趋势，这在浮游植物繁盛的春季更为明显，硅酸盐浓度的日较差值春季明显高于冬季的。受浮游植物活动和咸淡水消长的综合影响，硅酸盐浓度呈明显的季节变化，介于１３．９－７２．４μｍｏｌ／ｄｍ＾３之间，春季为低值期，冬季为高值期，春夏季大，小潮时硅酸盐浓度呈显著变化，一般为小潮时的高于大潮时，文  相似文献   

大鹏澳水域秋季浮游植物优势种的演替及其与春季的比较     

韦桂峰  王肇鼎  练健生 《热带海洋学报》2004,23(5):10-16

根据2002年11月在亚大湾大鹏澳进行的连续30d(每日采样一次)观测资料，运用主成分分析和多元回归分析相结合方法，分析大鹏澳非养殖区中各浮游植物优势种之间的关系及影响其生长与演替的主要理化因子．建立秋季浮游植物优势种演替模型，并与春季的大鹏澳现场调查建立的浮游植物优势种演替模型进行比较，分析生境变化(降雨)对浮游植物优势种演替过程的影响。结果表明，春，秋季浮游植物优势种发生不同的演替过程。春季浮游植物对资源的竞争较为激烈，大量降雨引起海水中营养盐浓度升高，促进并维持中肋骨条藻(Skeletonema costatum)高密度生长，待营养盐被大量消耗后，中肋骨条藻数量下降，减轻了对柔弱菱形藻(Nitzschia delicatissima)的生长压力而使其成为优势种；而秋季水温较低，浮游植物细胞数量较春季大为减少，中肋骨条藻和柔弱菱形藻对资源的竞争较为缓和，使外界环境变化成为影响优势种变化的主要原因；降雨期间虽然营养盐增加，但环境变化使浮游植物的生长受到限制，雨后柔弱菱形藻数量不能恢复，水体中高营养盐浓度促使中肋骨条藻出现生长峰值。  相似文献   

两种荧光分析法在海洋浮游植物叶绿素测定中的应用   总被引：3，自引：0，他引：3  

朱明远  邢军  吴宝铃 《中国海洋大学学报(自然科学版)》1994,(4)

以湛江叉鞭金藻为材料．用普通荧光分析法测定了ｃｈｌａ、ｃｈｉｃ的荧光发射光谱，以四乳突扁藻为材料，用普通荧光分析法和同步荧光分析法测定了ｃｈｌａ、ｃｈｌｂ的荧光发射光谱，结果表明：ｃｈｌａ、ｃｈｌｂ、ｃｈｉｃ的荧光发射峰分别为６７０ｎｍ、６５５ｎｍ、６４０ｎｍ，普通荧光分析法适于进行浮游植物所含的ｃｈｌａ、ｃｈｌｃ的定性、定量测定，而不适于进行ｃｈｌａ、ｃｈｌｂ的同时测定；同步荧光法则适于进行浮游植物中ｃｈｌａ、ｃｈｌｂ的定性、定量的同时测定。  相似文献   

秦山核电站邻近水域浮游植物的生态研究     

陆斗定  朱根海 《海洋学研究》1991,9(2):66-80

本文分析了秦山核电站邻近水域生态零点调查四个航次的浮游植物样品,结果表明:调查区浮游植物的种数和细胞密度在时间尺度上均存在明显的季节变化趋势:夏大于秋大于春大于冬,并且与环境因子的变化密切相关,其中最主要的影响因子是温度、盐度和径流,而影响日变化的环境因子主要是潮汐。  相似文献   

福建漳江口红树林保护区浮游植物群落的季节变化研究   总被引：3，自引：1，他引：3       下载免费PDF全文

陈长平  高亚辉  林鹏 《海洋科学》2007,31(7):25-31

于2001年1月～2003年1月对福建省漳江口红树林区水体浮游植物群落的季节变化进行了研究。结果表明,漳江口红树林区浮游植物以硅藻门种类为主,优势种为长菱形藻(Nitzschia longissima)和菱形藻(Nitzschia sp.1)等,同时出现多种裸藻、绿藻和甲藻。本次调查共鉴定到浮游植物31属87种(包括变种),其中硅藻门23属75种(包括变种),蓝藻门3属3种,绿藻门1属4种,金藻门1属1种,甲藻门2属2种,裸藻门1属2种。浮游植物密度变化范围为2.78×104～1.14×106个/L,平均为3.51×105个/L,季节变化为双峰型。出现大量的底栖硅藻和淡水性藻类是该水域浮游植物的一个特点。浮游植物的组成和结构表明该水域水质较好。  相似文献   

Diurnal changes in the bio-optical properties of the phytoplankton in the Alborán Sea (Mediterranean Sea)     

Jesús M. Mercado  Teodoro Ramírez  Dolores Corts  Marta Sebastin  Andreas Reul  Begoa Bautista 《Estuarine, Coastal and Shelf Science》2006,69(3-4):459

The changes in the phytoplankton absorption properties during a diurnal cycle were investigated at one station located in the north-western area of the Alborán Sea. The experiment was performed in spring when the water column was strongly stratified. This hydrological situation permitted the establishment of a deep chlorophyll a (chl a) fluorescence maximum (DFM) which was located on average close to the lower limit of the mixed layer and the nutricline. The relative abundance of pico-phytoplankton (estimated as its contribution to the total chl a) was higher in the surface, however, micro-phytoplankton dominated the community at the DFM level. Chl a specific absorption coefficient (a*(λ)) also varied with optical depth, with a* (the spectrally average specific absorption coefficient) decreasing by 30% at the DFM depth with respect to the surface. A significant negative correlation between the contribution of the micro-phytoplankton to the total chl a and a* was obtained indicating that a* reduction was due to changes in the packaging effect. Below the euphotic layer, a* increased three-fold with respect to the DFM, which agrees with the expected accumulation of accessory pigments relative to chl a as an acclimation response to the low available irradiance. The most conspicuous change during the diurnal cycle was produced in the euphotic layer where the chl a concentration decreased significantly in the afternoon (from a mean concentration of 1.1 μg L⁻¹ to 0.7 μg L⁻¹) and increased at dusk when it averaged 1.4 μg L⁻¹. In addition, a* and the blue-to-red absorption band ratio increased in the afternoon. These results suggest that a*(λ) diurnal variability was due to increase in photo-protective and accessory pigments relative to chl a. The variation ranges of a*(λ) at 675 and 440 nm (the absorption peaks in the red and blue spectral bands, respectively) in the euphotic layer were 0.01–0.04 and 0.02–0.10 m² mg⁻¹ chl a, respectively. Approximately 30% out of this variability can be attributed to the diurnal cycle. This factor should therefore be taken into account in refining primary production models based on phytoplankton light absorption.  相似文献   

Effects of chemical ecological adjustment and control experiment on phytoplankton community in the Aoshan Bay     

Chen Bijuan  Zhao Jun  Xin Fuyan  Cui Yi  Guo Feng 《海洋学报(英文版)》2002,21(1):115-123

There is a low nutrient level in the Aoshan Bay. In June 1999, the chemical adjustmentand control experiment was made in the Aoshan Bay. Following tracts investigation was carried out before the experiment and on the 1st, 2nd, 4th, 5th, 6th and 45th day/after the experiment. While the variance of amount of phytoplankton, the replacement of superior species and the species composition of phytoplankton were researched. The results show that the amount of phytoplankton in the Aoshan Bay rises gradually after the experiment. Ceratium macroceros Cleve of pyrophyta was the dominant species before the experiment, its dominant index was 37.7％. Six days after the experiment, its dominant index dropped to 17.6％ . Meanwhile the dominant index of Asterionella japanics Cleve rose from 7.1％ to 39.2％ , it became the first dominant species. Forty-five days after the experiment, the amount of phytoplankton in the Aoshan Bay was 5.15 to 137.32 times more than that in 1997.  相似文献