台湾以北海域浮游桡足类生物海洋学特征的研究：I.数量分布

根据１９８７￣１９９０年间在台湾以北海域进行的６个航次的调查资料,对该海域浮游桡足类数量分布作了探讨,结果表明,本区浮游桡足类丰度在春季最高,冬季最低,夏、秋季介于中间;黑潮锋内侧的桡足类丰度一般高于黑潮锋外侧,较高丰度区的分布具夏季最向外海、冬季最靠近岸、其他两季居民的趋势,这与黑潮锋位的季节摆动趋势基本相一致;浮游桡足类丰度的较高值区一般出现在不同水系的交汇区,尤其是黑潮次表层水涌升域的近岸边     

青岛南部近海浮游桡足类群落特征与影响因子

根据2006年8月～2007年10月对青岛南部近岸海域进行的4个航次的调查,探讨了该海域浮游桡足类群落特征及其与环境因子的关系。结果表明:调查海域共出现浮游桡足类27种,占浮游动物总种类的27.85%。其中秋季种类最多,达24种;夏、春季分别为17种、10种;冬季最少,为8种。桡足类丰度年平均值为60.32ind/m3,其中秋季最高,达122.47ind/m3;春、冬季分别为68.48ind/m3、28.41ind/m3;夏季最低,为21.91ind/m3。从水平分布上看,春季桡足类丰度西部明显大于东部;夏季却呈现东部大于西部的趋势;秋季则是从近岸向远岸递减;冬季总体分布规律不明显,除站位ZD-QD255较高外,其它站位丰度相对较低。香农-威纳指数、均匀度指数、丰富度指数的平均最大值都出现在秋季。香农-威纳指数、均匀度指数平均最低值出现在冬季,而丰富度指数平均最低值出现在春季。     

渤海湾浮游桡足类群落特征与影响因素

采用浅水Ⅰ型浮游生物网,分别于2017年春、夏、秋和冬季在渤海湾海域采集浮游动物,基于网采样品数据分析了桡足类群落的组成种类、生物多样性和丰度分布特征及环境因子与桡足类群落特征之间的关系。结果如下：调查海域共出现桡足类20种,其中秋季种类最多达到13种,春季和冬季分别为12种和9种,夏季最少为8种。渤海湾海域桡足类丰度的平均值在春季最高,达到了882.5 ind/m3。夏季和秋季分别为84.0 ind/m3和48.4 ind/m3。冬季最低,为11.8 ind/m3。桡足类在秋季时,其香农-威纳指数和物种丰富度指数的平均值达到了最高,夏季时桡足类的香农-威纳指数平均值达到了最低,桡足类在春季时,其物种丰富度指数的平均值达到了最低。通过分析环境因子与桡足类丰度间的相关性,结果显示：温度、盐度、溶解氧、磷酸盐、硅酸盐、pH和浊度等环境因子会对渤海湾海域桡足类群落结构的季节变化产生显著影响。春季桡足类丰度的总体分布趋势与叶绿素水平分布的趋势相似;夏季和冬季桡足类丰度的总体分布趋势与温度水平分布的趋势相似;秋季桡足类丰度的总体分布趋势与温度水平分布的趋势相反。     

台湾以北海域浮游桡足类生物海洋学特征的研究Ⅲ.指示性种类

在对台湾以北海域浮游桡足类生物海洋学特征研究Ⅱ。群落特征研究的基础上,用不同生态类群的指示性种类分布来分析对应水系的变化过程。结果表明,普通波水蚤(Undinula vulgaris)和帽状真哲水蚤(Eucalanus pileatus)的数量分布可以指示台湾海峡水的季节变化和消长趋势;海洋真刺水蚤(Euchaetamarina)能反映黑潮表层水的影响程度;热带大洋高盐偏低温类群种类在陆架区的分布状况可反映黑潮次表层水的入侵涌升范围;中华哲水蚤(Chlanussinicus)的分布反映了沿岸水势力影响的季节差异,可能是受陆架区横向环流的影响,它能扩布到较远岸区域,此时该种类对偏低温的适宜性致使其在较低温水体中的丰度较高;对热带大洋低温高盐类群种类的研究发现,春季隆线似哲水蚤(Chlanoidescarinatus)在测区陆架区广泛分布是由冬季在台湾浅滩南部上升流区该种的大量涌现并随台湾海峡水北上携带而来的,然而,从隆线似哲水蚤和该类群另两种在陆坡下层的出现显示了中、深层水有可能在本区东南侧涌升。     

日本九州西南部东海黑潮区浮游桡足类的分布

材料取于中、日黑潮合作调查期间,日本国水产厅西海区水产研究所“阳光丸”调查船于1986年6月15-28日在日本九州西南部东海黑潮区(29°30'-32°00'N,128°00'-130°30'E)的调查.浮游动物样品使用装有TSK型流量计的北太平洋浮游生物网在50-0m垂直拖取;温、盐度等项目采用CTD测定.调查区初步鉴定浮游桡足类134种(含4spp.),其中多数为热带、亚热带种,少数为暖温带种和世界广布种;群落组成以高温高盐种占主体.主要的优势种有:Oncaea venus-ta、Oithona plumifera、Clausocalanus furcatus、Clausocalanus arcuicornis、Paracalanus aculeatus、Oithona similis、Temora turbinata、Oncaea media、Undinula darwinii、Acartia negligens、Corycaeus speciosus、Scolecithrixdanae等.浮游桡足类总个体数平均367.6个/m3,其平面分布以黑潮流轴区数量较低,而种数则较多.黑潮暖流及中国大陆沿岸流的消长变化影响着浮游桡足类的群聚结构和分布;而水温是浮游桡足类种类组成和数量分布的主要制约因素之一.     

渤海浮游病毒的时空分布

利用流式细胞仪对渤海浮游病毒的丰度分布进行了研究。结果表明, 浮游病毒丰度在6.40 ×105—3.59 × 107个/mL之间。辽东湾断面, 浮游病毒丰度春季在西部海域较高, 夏季在中部海域较高, 秋、冬季在东、西部海域均较高; 渤海湾断面, 4 季丰度均在中部海域出现高值区; 莱州湾断面, 夏、秋、冬季均在东部海域出现丰度高值区; 渤海海峡断面, 春、秋、冬季于海峡中部海域丰度较高。垂直分布上, 表层和底层水体浮游病毒丰度在夏季差异性显著, 在其它季节无显著差异。夏季浮游病 毒丰度显著高于其它季节。夏季, 连续站浮游病毒丰度昼夜波动幅度较大, 冬季较平缓。相关性分析表明, 浮游病毒丰度在春、夏、秋季均与温度显著正相关; 夏季与异养细菌丰度、微微型真核浮游植物丰度显著正相关; 秋季与微微型浮游植物丰度显著正相关; 冬季仅与异养细菌丰度显著正相关。     

冬季东海黑潮上层水变化特征的分析

东海黑潮水团是东海海域的主要水团。夏季,东海黑潮水团一般划分为四层结构:黑潮表层水、黑潮次表层水、黑潮中层水和黑潮深层水。在冬季,由于大陆沿岸水系势力减弱,以及强烈的表层冷却产生的垂直对流作用,使黑潮表层水变性而和次表层水融为一体,从而使海面至400米层左右的黑潮水体呈现高盐特征。因此,冬季的东海黑潮水团变为三层结构,即黑潮上层水、黑潮中层水和黑潮     

东海北部黑潮区的浮游桡足类

根据1987年夏季、冬季和1989年春季、秋季采自东海北部黑潮区的浮游生物样品,鉴定出浮游桡足类227种,其中1种为我国海区新记录,21种为东海区新记录.文中还描述了浮游桡足类的总个体密度和主要优势种的分布,并对其与海洋环境的关系进行了讨论.     

东海北部黑潮区的浮游桡足类

根据１９８７年夏季、冬季和１９８９年春季、秋季采自东海北部黑潮区的浮游生物样品,鉴定出浮游桡足类２２７种,其中１种为我国海区新记录,２１种为东海区新记录。文中还描述了浮游桡足类的总个体密度和主要优势种的分布,并对其与海洋环境的关系进行了讨论。     

台湾以北海域浮游桡足类生物海洋学特征的研究Ⅱ.群落特征

在对台湾以北海域浮游桡足类生物海洋学特征进行数量分布方面的研究后的续篇,重点对本海区浮游挠足类的群落结构和群落性质以及与栖区环境条件间的关系作了分析探讨．结果表明,本区桡足类群落结构种类组成复杂,出现种类共２３７种,但周年共有种比例仅占３２％．桡足类群落的多样度和均匀度年均值各为３．７１４和０．６９０,在平面分布上呈外部海区高于近岸海区的大体趋势．本区群落可划分为５个生态类群,其中暖水性外海高温偏低盐类群和热带大洋高温高盐类群可分别指示台湾海峡水和黑潮表层水的季节消长过程．从不同侧面的计算分析均表明,冬季在环境条件上均有异于其他３季．在春、夏、秋季,以普通波水蚤最具优势,盐度是影响群落特征值的主导因子,群落的性质是以暖水性外海种类为主、热带大洋种也占相当比例的亚热带－热带群落结构的特点;在冬季,主要优势种是海洋真刺水蚤,温度是群落特征值的主要制约因子,群落呈现以热带大洋种占支配地位的热带大洋群落结构属性．     

Study on biological oceanography characteristics of planktonic copepods in waters north of Taiwan Ⅰ.Abundance distribution

I~IOXWith regard tO the 5,tudy on the planktonic copeal distributions in the Kuroshio waters ofthe East China Sea and its adjacent areas, a great ~nt of reSearch work has been made by somescholars at home (He and Yang, 1990; Meng et al., 1990; He, 1990; Liu et al., 1991; He etal., 1992; He et al., 1994). HOwever, the most of them were made in a single season, and it isabet about in the research of the various aspects of species comPOSition, abundance distributionand ecological characte…     

Study on biological oceanography charateristics of planktonic copepods in waters north of Taiwan Ⅱ. Community characteristics

I~IOWThe area north of Taiwan is a mixing waters with complicate hydrographic features because itis influenced by the pushing and mixing of different water masses such as the Zhejiang -- Fujiancoastal water, the Taiwan Strait water, the Kuroshio surface water, the KurOShio sub-surfacewater and so on. The planktonic copepods in the area are also very complex and various. From research on species compoSition and ~nal variation, diversity and characteristics of copeal community in the area, …     

Interannual variations of the planktonic ecosystem in the slope water and Kuroshio south of Japan in February in the years 1990–2002

To determine recent interannual variations in the planktonic ecosystem of the slope water south of Japan, an area between 1000 m isobath on the continental slope and assumable Kuroshio front, in reference to preceding reports on the Kuroshio, we examined interannual variations of physical factors, sea surface chlorophyll concentration (SSChl), size-fractioned copepod biomass and the abundance of Calanus sinicus, one of the dominant copepods in the region, in February from 1990 to 2002. In the slope water, SSChl concentration had generally shown a higher value than in the Kuroshio and increase of the SSChl in both areas started in February but lasted longer in the slope water. The regional distribution of copepod biomass and C. sinicus abundance was similar to that of phytoplankton in that they were distributed more densely in the slope water than in the Kuroshio, reflecting assumed higher nutrient supply. The interannual variation in sea surface temperature in the slope water was explained by the rise of air temperature in 1998, a strong El Niño year, and subsequent change in the Kuroshio path (1999–2001). The interannual variation of the planktonic community, i.e. sea surface chlorophyll concentration and copepod biomass, was attributed to the effects of those physical events through the direct effect of local temperature and/or variation in surface irradiance, except for a prominent increase of copepods in the slope water in 2000. The effect of interannual change in the vertical mixing, suggested in previous studies, was not apparent in February, when the primary production is not limited by nutrient concentration which would be more important in regulating biological production in later months.     

Distribution of zooplankton biomass in the southeastern East China Sea

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Study on abundance variation of pteropods in the East China Sea

1 Introduction Pteropoda, an order of marine pelagic mollusks, belongstoClassGastropoda,SubclassOpisthobranchia. The speciesofthisorder can be found all over the world buttheyareusuallyabundantinthecontinentalshelfand continental slope area. As fish diets…     

Seasonal variation of the neustonic zooplankton community in southern waters of Korea

We investigated the seasonal variation of the neustonic zooplankton community in the surface layer (above 30 cm in depth) of 16 stations in southern waters of Korea from April 2002 to April 2003. In the neustonic community, copepods accounted for 59% of total organisms, as the most predominant group, while other dominant groups were invertebrate larvae, cladocerans, tunicates and fish eggs. Pontellid copepods, a major group of neustonic zooplankton, showed a marked seasonal variation and displayed a significant positive correlation with temperature (P < 0.05). Fish eggs appeared from spring to early summer in the inshore waters while tunicates and oceanic copepods (Eucalanus spp. and Euchaeta spp.) were dominant in the offshore waters during high temperature periods. This suggests that the distribution pattern of the neustonic zooplankton is seasonally affected by the hydrological conditions of in- and offshore waters. The abundance of zooplankton was higher in the surface layer (< 15 cm) than in the subsurface layer (15–30 cm), and was also higher at night than during the daytime. Of the dominant copepod families, the density of acartiid and pontellid copepods was higher in the surface layer than the subsurface layer. The density of acartiid and corycaeid copepods was significantly higher during daytime than nighttime. This indicates that the surface layer in temperate regions may provide a favorable habitat for neustonic copepods despite the dynamic environmental fluctuations.     

An analysis on the formation mechanism of the distribution of high content of chlorophyll-a in the continental shelf edge waters of East China Sea

On the basis of the data obtained from the comprehensive Kuroshio surveys in 1987-1988,this paper analyses the oceanographic characteristics in the area (125°-130° E,27°-31° N) of the continental shelf edge of the East China Sea (E. C. S. ) and its adjacent waters and discusses the effects of the Kuroshio front,thermocline and upwelling of the Kuroshio subsurface water on the distribution of standing stock of phytoplankton (chlorophyll-a). The distribution of high content of chlorophylly-a has been detected at 20-50 in depth in the water body on the left side of the Kuroshio front in the continental shelf edge waters of the E. C. S. The high content of chlorophyll-a spreads from the shelf area to the Kuroshio area in the form of a tongue and connects with the maximum layer of subsurface chlorophyll-a of the Kuroshio and pelagic sea. The author considers that the formation of the distribution of high content chlorophyll-a in this area results from the bottom topography and oceanic environment and the     

Mesozooplankton community characteristics in the NE subarctic Pacific

Mesozooplankton biomass, species composition, abundance, and vertical distribution were determined along a transect from the continental slope off the west coast of Canada to Ocean Station Papa (OSP) in the open-ocean waters of the NE subarctic Pacific as part of the Canadian Joint Global Ocean Flux Study of this area. All of these measurements had distinct seasonal patterns. At OSP biomass peaked in spring, coincident with the annual biomass maximum of large copepods of the genus Neocalanus. Early copepodites of these copepods were present in surface waters at all stations along the transect in winter, but N. plumchrus and N. flemingeri copepodites were only at the offshore stations in spring. This indicated that these large copepods had completed the growth phase of their life cycle slower in the open ocean than closer to shore where they had already descended to deep water by May or June. Summer biomass was low compared to the spring peak. The summer mesozooplankton abundance was similar to the springtime abundance, but the composition had changed from large-bodied copepods in the spring to small copepods and fewer non-copepod taxa in the summer, which accounts for the reduction in total biomass. Winter biomass was the lowest of the year. Winter species composition was similar to summer except for the appearance of juvenile stages of the genera Neocalanus and Calanus. Diel changes in biomass in the upper 150 m were found in summer but not in winter or spring. Vertical distributions of copepods were often distinct, with closely related species occupying different depth strata. Measurements of wet weight at OSP were higher than the long-term mean wet weight during winter and spring, and lower during summer.