中华哲水蚤(Calanus sinicus)个体核酸含量及其对生长状况的指示作用

采用荧光染色法对黄、东海春、秋季中华哲水蚤(Calanus sinicus)个体核酸含量进行了研究,初步探讨了RNA∶DNA比对中华哲水蚤生长状况的指示作用。结果表明,中华哲水蚤在饥饿培养24h后RNA∶DNA比值显著降低;雄性个体RNA含量和RNA∶DNA比值显著低于雌体和C5期幼体;春、秋季(2009年5月和2010年11月)个体RNA含量和RNA∶DNA比值存在显著的空间变化,两者最高值均出现在近岸;两个月份DNA含量相对稳定,在2.5—3.5μg/ind之间;个体RNA含量和RNA:DNA比值与叶绿素之间显著正相关,说明饵料是中华哲水蚤的生长过程中重要的影响因素。     

南海西北部陆架区沿岸流和上升流对中华哲水蚤分布的影响

中华哲水蚤(Calanus sinicus)是广泛分布于西北太平洋大陆架水域的浮游桡足类,在海洋生态系统的物质循环和能量流动中具有重要作用。根据2006年7月至2007年10月4个季节使用网目孔径为0.505mm的浮游生物网采集的样品,分析了南海西北部陆架区中华哲水蚤的水平、季节和昼夜垂直分布以及与季风、海流和温度的关系。中华哲水蚤丰度季节变化显著,整个调查海域春季的平均达(22.30±77.78)个/m3,夏季的降低,平均为(13.74±45.10)个/m3,秋季消失,冬季调查期间仍未出现。中华哲水蚤的区域分布差异十分显著,将调查海域划分为粤西近海、琼东近海、粤西-琼东外海三个亚区,在粤西近海亚区春、夏季中华哲水蚤的平均丰度分别为(115.63±145.93),(68.12±84.00)个/m3,远高于另外两个亚区。夏季琼东沿岸上升流区的中华哲水蚤没有昼夜垂直移动行为,呈底层分布,以躲避表层高温的伤害。南海西北部陆架区是中华哲水蚤的季节分布区,冬春季东北季风期间由广东沿岸流从东海沿岸携带而来,出现的时间从北往南逐渐推迟;夏季西南季风期间雷州半岛东部近海的冷涡和琼东沿岸上升流区成为中华哲水蚤度夏的避难所;秋季季风转换时期上升流减弱或消失,中华哲水蚤因耐受不了高温(>27℃)死亡而消失。因此,中华哲水蚤对东北季风时期的沿岸流和西南季风时期的上升流均具有良好的指示作用。     

东海原甲藻(Prorocentrum donghaiense)对中华哲水蚤(Calanus sinicus)摄食和消化酶活性的影响

采用单养和混养的方法,在实验条件下研究了东海原甲藻对中华哲水蚤摄食和消化酶活性的影响.结果表明:(1)中华哲水蚤对东海原甲藻存在一定摄食行为,藻类密度对摄食率有明显的影响.实验密度下,中华哲水蚤对东海原甲藻的最大摄食率为930cells/(ind·h).滤水率随着藻密度的增加而呈单一性的下降;(2)混养条件下,中华哲水蚤对金藻和东海原甲藻的摄食率均较单养时下降,滤水率的变化与摄食率相似;(3)不同藻密度下,昆布多糖酶活性都明显高于麦芽糖酶和纤维二糖酶的活性,而麦芽糖酶活性又稍高于纤维二糖酶的活性.与金藻相比,东海原甲藻实验组中华哲水蚤3种消化酶活性明显升高(P<0.05).     

低氧对中华哲水蚤存活和繁殖影响的实验研究

为研究低氧对海洋浮游生物关键种存活、繁殖等的影响,作者采用了实验室模拟低氧环境的方法,研究了低溶解氧(dissolved oxygen, DO)浓度对中华哲水蚤(Calanus sinicus)致死率、产卵和孵化的影响.研究发现,中华哲水蚤对低氧环境比较敏感,当DO质量浓度为2 mg/L左右时,中华哲水蚤会在1 h内全部死亡;当DO质量浓度为3 mg/L左右时,中华哲水蚤会在96 h内全部死亡;当DO质量浓度为4~6 mg/L 时,基本无死亡,但对中华哲水蚤的产卵有明显抑制作用,首次产卵时间推迟,产卵周期缩短.当DO质量浓度为4 mg/L时,基本不产卵,当DO质量浓度为6 mg/L时,产卵量也仅为常氧组的15%左右.当DO质量浓度为4~6 mg/L时,中华哲水蚤所产卵的孵化率为常氧组的60%左右,但差异不显著.可见,低氧对中华哲水蚤的存活和繁殖均有抑制作用,长时间低氧很可能会降低中华哲水蚤的种群数量,甚至改变海洋生态系统结构.     

黄海中华哲水蚤C5发育期油脂积累初步研究

根据9个黄海调查航次的数据,研究了黄海中华哲水蚤C5发育期油脂积累的区域、季节变化,并探讨了中华哲水蚤油脂积累对其生理、生活史的可能作用。在黄海近岸海域,中华哲水蚤C5期油囊体积常年较小;而在陆架海域则表现出明显的季节差异。在陆架区,C5期的油囊体积与度夏过程联系密切：最大油囊体积（可占前体部体积的30%以上）出现于度...     

秋季黄海中华哲水蚤(Calanus sinicus)脂肪酸组成及其指示作用

采用气相色谱法对秋季黄海颗粒悬浮物和中华哲水蚤的脂肪酸组成及其指示作用进行了研究。结果表明,黄海表层海水中硅藻所占比例要大于甲藻。硅藻在黄海南部浮游植物中所占比重高于黄海北部,甲藻在黄海南北部的差别不大。从脂肪酸组成来看,中华哲水蚤雌体、雄体和桡足幼体都摄食硅藻和甲藻,雌体和雄体摄食的硅藻远多于甲藻,而桡足幼体摄食的甲藻则比雌体和雄体多。雄体和桡足幼体植食性的程度高于雌体,而雌体则可能由于繁殖活动的需要,还摄食了原生动物等其它一些营养丰富的食物。对冷水团内外中华哲水蚤脂肪酸组成研究发现,桡足幼体比雌体积累了更多的脂肪酸以满足度夏过程中的能量需求和后期繁殖的需要。     

春季中华哲水蚤在不同海湾或河口对环境的适应性

为探究南黄海和东海不同海域春季中华哲水蚤（Calanus sinicus）分布主要受何种环境因子影响及对各环境因子的响应差异,利用2020年春季南黄海海州湾至长江口以北海域和东海长江口海域、三门湾邻近海域、福建中部近岸海域调查数据,基于广义可加非线性模型（GAMs）分析了中华哲水蚤与环境因子的关系。结果表明：海州湾至长江口以北海域中华哲水蚤主要受温度、溶解氧、化学需氧量、Chl a、pH和氨氮的影响。其密度随着温度的增加呈一个波谷曲线变动,温度在14 ℃时密度最低;随着溶解氧的增加其密度呈一个波谷曲线变动,溶解氧含量在10 mg/L时中华哲水蚤密度最低;随化学需氧量增加其密度波动变化;随着Chl a浓度的增加其密度先下降再呈波动上升;随着pH的增加中华哲水蚤密度逐渐降低;随着氨氮浓度的增加中华哲水蚤密度逐渐增加。长江口海域中华哲水蚤主要受盐度、水深、化学需氧量和活性磷酸盐影响,随盐度和水深的增加其密度逐渐增加;随化学需氧量和活性磷酸盐浓度增加其密度逐渐降低。三门湾邻近海域中华哲水蚤主要受盐度、pH和透明度影响,随盐度的增加其密度逐渐增加;随pH的增加其密度逐渐降低;随透明度的增加其密度先降低后增加,透明度在1.2 m左右其密度最低。福建中部近岸海域中华哲水蚤主要受水深、透明度、温度和溶解氧影响,随水深的增加,其密度逐渐增加;随透明度的增加其密度波动增加;随温度和溶解氧的增加其密度逐渐降低。     

温度对中华哲水蚤代谢率的影响

海洋生态系统的能流和物流是海洋生态学研究的重要内容。中华哲水蚤 (Ｃａｌａｎｕｓｓｉｎｉｃｕｓ)是中国黄、渤海桡足类的优势种 ,本文研究了中华哲水蚤的代谢率 ,为研究海洋生态系统的能流和物流积累资料。１材料和方法１９９７年１２月２６日到１９９８年１月１７日在中科院海洋研究所研究了温度对中华哲水蚤耗氧率和排氨率的影响。１９９７年６月渤海调查时 ,在“科学１号”调查船上研究了温度对中华哲水蚤耗氧率的影响。中华哲水蚤１９９７年１２月２６日到１９９８年１月１７日实验用中华哲水蚤采自青岛汇泉湾 ,用浅水 Ｉ型网在中…     

几种海洋浮游甲壳动物的生化组成

本文分析测定了中国毛虾、日本毛虾和中华假磷虾的蛋白质、脂类和糖类的组成,初步测定了这三种动物的核酸含量,并分析了上述三种动物和浮游囊糠虾和中华哲水蚤等7种桡足类雌雄个体的氨基酸组成。     

麻痹性贝毒毒素在中华哲水蚤体内的累积及排出

本文研究了中华哲水蚤对可产生麻痹性贝毒毒素的塔玛亚历山大藻的摄食情况,以及麻痹性贝毒毒素在中华哲水蚤体内的累积和排出过程。实验发现,中华哲水蚤可以摄食有毒塔玛亚历山大藻,并在体内累积麻痹性贝毒毒素;麻痹性贝毒毒素各成分在中华哲水蚤体内发生相互转化的现象,同时中华哲水蚤又可通过自身代谢作用降解掉大部分毒素;中华哲水蚤可通过其排泄物在空间上转移麻痹性贝毒毒素。     

Stage-V copepodites of Calanus sinicus and Calanus jashnovi (Copepoda: Calanoida) in mesopelagic zone of Sagami Bay as identified with genetic markers, with special reference to their vertical distribution

We applied genetic makers to identify Calanus species occurring in Sagami Bay, Japan, in order to investigate their vertical distribution in the upper 1000 m. First, interspecific genetic distances of three gene loci, mitochondrial small ribosomal RNA (srRNA), nuclear internal transcribed spacers 1 (ITS1) and 2 (ITS2), were estimated from morphologically distinguishable adult females of Calanus sinicus, Calanus jashnovi and Calanus pacificus that were collected from Sagami Bay, the Kuroshio Extension and the Oyashio region, respectively. The highest levels of interspecific genetic distance were observed in srRNA, followed by ITS1 and ITS2. The intraspecific genetic distances within C. sinicus were much lower than the interspecific genetic distances, indicating that DNA sequences in these loci are consistent with the morphological differences. This information was used as a criterion for species identification based on DNA sequence variation, and allowed us to identify the fifth copepodites (CVs) or younger stages of these species. Next, the vertical distribution of Calanus species was investigated in Sagami Bay in May 2006, on the basis of a stratified sampling in the upper 1000 m. By applying the genetic markers, 23 individuals comprising all copepodite stages were allocated into either C. sinicus or C. jashnovi, and the small- and large-sized CVs were identified as C. sinicus and C. jashnovi, respectively. The total abundance of C. sinicus was highest at 0-50 m and decreased with depth. On the contrary, CV individuals of C. sinicus were abundant not only in 0-50 m but also below 200 m with minimum occurrences in 150-200 m depth. C. jashnovi was much less abundant than C. sinicus and comprised of only CIV and CV which occurred in the upper 100 m and deeper than 50 m depths, respectively. The abundance of C. sinicus in the 1000-m water column of Sagami Bay was at a level comparable to that in shelf waters, suggesting the importance of off-shelf individuals in the biological production and organic transport in the respective areas.     

Changes in the population structure of Calanus sinicus during summer–autumn in the southern Yellow Sea

Calanus sinicus is a calanoid copepod widely distributed in coastal waters of China and Japan, and oversummering strategies may have major impacts on their population dynamics which in turn affect local marine food web structure. The abundance, stage composition, and sex composition of the planktonic copepod C. sinicus were studied from August to October 2002 in the southern Yellow Sea to understand how its population recovers from the over-summering state. Results showed that C. sinicus had low reproduction in August due to high temperature, except in waters near the Cheju Island with rich food and moderate bottom temperature, but the reproduction rates here decreased in September–October as food availability declined. When temperature dropped in September–October, C. sinicus actively propagated in coastal shallow waters. However, reproduction rates of C. sinicus individuals inhabiting the Yellow Sea Cold Water Mass(YSCWM) remained low during the three months of the study. The percentage of C. sinicus females was high during the reproductive period, which suggests that the sex composition of adult C. sinicus may reflect whether or not the population is in the reproductive mode.Numerous fifth copepodite stage(CV) C. sinicus aggregated in the YSCWM in a suspended developmental stage during the three months of this study, and they potentially served as the parental individuals for population development when conditions became optimal for reproduction later in the year.     

Diel vertical migration of the copepod Calanus sinicus before and during formation of the Yellow Sea Cold Bottom Water in the Yellow Sea

To understand the effects of the Yellow Sea Cold Bottom Water(YSCBW)on the diel vertical migration(DVM)of the copepod Calanus sinicus,we surveyed vertical distribution of C.sinicus at a fixed station in the Yellow Sea before(spring)and during(summer)formation of the YSCBW.Cold water(<10 C)was observed in the bottom layer when the water column was thermally stratified in summer,but the water column was thermally well-mixed in spring 2010.Samples were collected from five different layers at 3-h intervals using an opening-closing net.Adult females(1–155 ind./m3)showed a clear normal DVM pattern throughout the entire water column in spring,whereas adult males did not migrate.DVM of copepodite V(CV)individuals was not clear,but the maximum abundance of CI–CIV occurred consistently in the upper 10–20 m layer,where there was a high concentration of chlorophyll-a(Chl-a)(0.49–1.19μg/L).In summer,weak DVM was limited to cold waters beneath the thermocline for adult females(<30 ind./m3),but not for adult males.The maximum abundance of CI–CIV also occurred consistently in the subsurface layer(20–40 m)together with high concentrations of Chl-a(0.81–2.36μg/L).CV individuals(1–272 ind./m3)moved slightly upward nocturnally to the near-surface layer(10–20 m),where the average temperature was 25.74 C,but they were not found in the surface layer(0–10 m;28.31 C).These results indicate that the existence of the YSBCW affected food availability at depth and the vertical temperature distribution,leading to variation in the amplitude and shape of stage-specific vertical distributions(CI to adults)in C.sinicus before and during the formation of cold waters in the Yellow Sea during the study period.     

Metabolic changes in Phaeocystis poucheti (Hariot) Lagerheim during the spring bloom in Belgian coastal waters

Incorporation of ¹⁴C-bicarbonate into the major intracellular end-products of photosynthesis (protein, polysaccharide, lipid) and two classes of exoproducts (oligomers and polymers) was measured in Belgian coastal waters at different stages of the spring phytoplankton bloom, entirely dominated by the alga Phaeocystis poucheti. It was shown that intracellular protein synthesis contributed 20–42% of the total intracellular ¹⁴C fixed and was positively correlated with the inorganic nitrogen content of the surrounding medium. The decrease of protein synthesis following nitrogen depletion is balanced by an increase of intracellular polysaccharide synthesis, which varies from 22 to 42% of the intracellular ¹⁴C fixed, and by an increase in extracellular release of high molecular weight material (18–60% of total ¹⁴C fixed) which forms a mucous envelope where cells are embedded. Lipid synthesis is not correlated with the ambient inorganic nitrogen content and represents a rather constant proportion (about 20%) of the intracellular ¹⁴C fixed.     

Grazing Impact of the Copepod <Emphasis Type="Italic">Calanus sinicus</Emphasis> on Phytoplankton in the Northern East China Sea in Late Spring

We investigated the feeding habits of Calanus sinicus during its four developmental stages as copepodite 4 (CIV), copepodite 5 (CV), adult males and females in early June 2015 at 12 sampling stations along the southern coast of Korea to the northern East China Sea, to better understand the role of C. sinicus in controlling phytoplankton stocks. Ingestion rate, daily ration as body carbon, population ingestion rate, and grazing impact were estimated using the gut pigment method. The mean biomass of CVs was the greatest (13.5 mg C m^–3) and that of adult males was the lowest (0.7 mg C m^–3). The ingestion rate per C. sinicus individual tended to increase with developmental stage, with the highest rate in adult females (519 ng chl ind^–1 d^–1) and the lowest rate in CIVs (305 ng chl ind^–1 d^–1). A significant correlation was found between ingestion rate and temperature, but not salinity or chlorophyll-a concentration. The daily ration of C. sinicus as body carbon significantly decreased with increased body weight, with the highest value found in CIVs (66.4%) and the lowest value in adult males (30%). Despite the high ingestion rate of the adults, the mean grazing impact of C. sinicus on phytoplankton biomass, in terms of chlorophyll-a concentration, was the highest in CVs (2.6%), followed by CIVs and adult females, and was the lowest in adult males (0.1%). The higher grazing impact of copepodites than adults underscores the importance of evaluating copepodite stages in the feeding studies of marine food webs.     

Peaked abundance of Calanus sinicus earlier shifted in the Changjiang River (Yangtze River) Estuary: a comparable study between 1959, 2002 and 2005

The sea surface temperature (SST) of the East China Sea (ECS) increased in the past decades,which may have a great impact on the ecosystem of the ECS,including the changes in plankton-population structure.In this paper,the changes in peaked abundance of Calanus sinicus in the Changjiang River (Yangtze River) Estuary were compared between 1959 and 2002,based on the data collected from the seasonally oceanographic cruises and those performed in spring of 2005.It was much higher in spring compared with that in other seasons both in 1959 and 2002.Furthermore,in spring 2005,the time for occurrence and decrease of the peaked C.sinicus abundance advanced about one month, accompanying the increase in the sea surface water temperature (SST).It peaked in June and decreased in July in 1959,however,in 2005,it peaked in May and attenuated sharply in early June.The earlier decrease of peaked C.sinicus abundance may further deteriorate the ecosystem in the Changjiang River Estuary and north nearshore of the ECS.     

海水酸化对中华哲水蚤全蛋白表达的影响

运用蛋白质组学相关技术对暴露于酸化海水中的中华哲水蚤全蛋白进行分析,结果表明,对照组、CCO20.08%和CCO20.20%处理组中华哲水蚤的双向电泳图谱上可以分别分辨出1 191、1 117和946个蛋白点,选取其中43个差异蛋白进行MALDI-TOF/TOF质谱鉴定,成功鉴定出23个差异蛋白,这些蛋白主要与蛋白合成和分解、能量代谢、DNA分子修复以及解毒过程有关。     

Life strategies,energetics and growth characteristics of Calanoides carinatus (Copepoda) in the Angola-Benguela frontal region

Rates of daily egg production, moulting and egg hatching success, as well as total lipid content and composition of Calanoides carinatus, were measured in the region of the southern Angola Curre nt SAC), the Angola-Benguela Front (ABF) and the coastal upwelling area of the northern Benguela Current (NBC) system during February–March 2002. There were distinct differences in the vertical distribution, growth characteristics, lipid content and composition of populations in the SAC/ABF and NBC regions, indicative of different physiological states. Whereas in the NBC, C. carinatus was actively growing in response to elevated chlorophyll a levels associated with coastal upwelling, it comprised deep-living C5 copepodids with very large wax ester reseves (c. 40–50% dry mass) and extremely low metabolism in the SAC/ABF, suggesting diapause. This study provides the first data on lipid composition (lipid classes, fatty acids and alcohols) of this copepod in the region; in particular, the diapausing C5 contained high-levels of long-chain, mono-unsaturated fatty acids (23% of all fatty acids) and alcohols (69% of all fatty alcohols) in addition to trophic markers of diatoms, viz. 16:1(n-7) and 20:5(n-3). Based on total lipidcontent, the maximum survival time of the diapausal component of C. carinatus was estimated to be 149–192 days, whereas active surface-dwelling C5s and females could not survive for more than 10 days without feeding.     

2018?2019年舟山近海浮游动物群落结构春季年际变化及其与水团的关系

根据2018?2019年春季两个航次在舟山近海进行的浮游生物调查结果，对舟山近海的浮游动物群落结构(类群组成、优势种数量)年际变化进行了研究，利用典范对应分析(Canonical Correspondence Analysis, CCA)研究了两年春季浮游动物类群组成差异、优势种变化的原因，初步探讨了春季浮游动物群落结构动态变化的机制。结果表明:根据表层温度(Sea Surface Temperature，SST)、表层盐度(Sea Surface Salinity，SSS)的聚类分析，将该区域分为3个水团:杭州湾内水团(I区)、舟山本岛上升流水团II区)、舟山近海水团(III区)。不同水团对浮游动物类群组成影响显著，引起2018年和2019年春季3个水团区差异的主要贡献种(贡献率>10%)均为中华哲水蚤，同一水团两年间年际差异的贡献种如下:I区为捷氏歪水蚤(56.91%)和真刺唇角水蚤(12.34%)；II区为中华哲水蚤(72.64%)、五角水母(13.35%)；III区为中华哲水蚤(41.93%)、夜光虫(22.94%)。CCA分析表明，第1 CCA轴(CCA1)和第2 CCA轴(CCA2)共解释了两年春季浮游动物优势种累计方差的46.14%和物种?环境累计方差的97.82%。CCA1主要反映了空间(近海水团和湾内水团)的差异。CCA2主要反映了2018年和2019年站位的年际差异。盐度是影响春季浮游动物群落结构空间差异的主要因素，而温度、叶绿素a浓度是春季浮游动物群落结构年际差异的主要因素。