160 resultados para nectarina cv. Sunred
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用循环伏安(CV)法和线性循环扫描电流计时电位(CLC)法首次研究发现带有高价电荷、体积大和高对称性的12-硅钨酸根离子(SiW_(12)O_(40)~(4-))可以在水/硝基苯界面进行电化学转移。SiW_(12)O_(40)~(4-)离子的CV线的特征
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选择适当的混合染料溶液作为染料激光器的工作物质,近年来,已有一些文献报导,但大都局限于二元混合染料体系。对于三元混合染料体系国外也曾有过少量报导,诸如C102/R110/RB,C102/RB/CV,C2/C6/R6G,R6G/CV/NB等。或多或少地得到了三个波长
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本文用循环线扫电流计时电位(CLC)法及循环伏安(CV)法研究了局部麻醉药普鲁卡因在水/硝基苯界面的转移行为,同时根据转移电位和电流表达式计算出质子化普鲁卡因的标准转移电位,⊿_O~Wφ·转移自由能⊿G_(tr)~(OiW·O)和两相的分配系数及扩散系数。
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An electrochemical DNA biosensor was fabricated by immobilizing DNA probe on aluminum ion films that were electrodeposited on the surface of the stearic acid-modified carbon paste electrode (CPE). DNA immobilization and hybridization were characterized with cyclic voltammetry (CV) by using methylene blue (MB) as indicator. MB has a couple of well-defined voltammetric redox peaks at the CPE. The currents of redox peaks of MB decreased after depositing aluminum ion films on the CPE (Al(III)/CPE) and increased dramatically after immobilizing DNA probe (ssDNA/Al(III)/CPE). Hybridization of DNA probe led to a marked decrease of the peak currents of MB, which can be used to detect the target single-stranded DNA. The conditions for the preparation of Al(III)/CPE, and DNA immobilization and hybridization were optimized. The specific sequences related to bar transgene in the transgenic corn and the PCR amplification of CP4 epsps gene from the sample of transgenic roundup ready soybean were detected by differential pulse voltammetry (DPV) with this new electrochemical DNA biosensor. The difference between the peak currents of MB at ssDNA/Al(III)/CPE and that at hybridization DNA modified electrode (dsDNA/Al(III)/CPE) was applied to determine the Specific sequence related to the target bar gene with the dynamic range comprised between 1.0 X 10(-7) mol/L to 1.0 x 10(-4) mol/L. A detection limit of 2.25 x.10(-8) mol/L. of oligonucleotides can be estimated.
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本文在实验室内研究了温度和饵料对中华哲水蚤的生殖和生长的影响,结果表明 1)中华哲水蚤雌体的产卵模式是间歇式的,但产卵和间歇的天数因个体而异。产卵时间为1~9天不等,最长为9天;间歇时间一般为1~2天,最长为5~6天。2)中华哲水蚤雌体的产卵量对食物变化的响应为3~5天,饥饿6天后不产卵,添加饵料3天后恢复产卵。饥饿降低了雌体的生殖力,饵料质量对产卵量有明显影响。3)孵化速度随着温度的降低而减慢,18.7 ℃时达到最大孵化率时间大约为25h;16.04 ℃时约为43.5h;7 ℃时约为93.4h;当卵在3.7 ℃时,孵化率仅达到13.9%。4)根据现有的结果,NI、NII的发育时间随着温度降低而延长,7.1 ℃、9.1 ℃、15.4 ℃下以卵到NIII的发育时间约为8-9、6-7、4.5天。5)以骨条藻为饵料的幼体发育时间明显比以三角褐指藻为饵料的发育时间短,尤其在NII、NIV其表现最为明显,其中以骨条藻为饵料的中华哲水蚤的世代时间为27天。中华哲水蚤整个幼体的生长时间是不“等时”的,其中NI和NII的发育时间较短,NIII和NIV的发育时间较长,NV-CII倾向于等时生长,CII-CV育时间又开始延长,骨条藻为饵料的世代组中,CIII的发育时间最长。6)对中华哲水蚤整个幼体的发育来说,平均生长率基本随着发育期的增长而增大。平均生长率随着饵料组分的不同而不同。2000年6月至2001年5月,在野外主要调查了南黄海(鳀鱼产卵场)中华哲水蚤的产卵率和孵化率,一年该种的总平均产卵率春季最高,夏季次之,再者冬季,秋季最长。孵化率大小范围为(75%-100%),推测中华哲水蚤的交配行为是较成功的,所调配海域为中华哲水蚤提供了较好的食物资源。
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小型桡足类在生态系统中的重要作用近年来得到了广泛的关注,在近岸生态系统中,小型桡足类起着相当重要的作用。但关于小型桡足类种群动力学的研究在国内还处于起步阶段,因此我们选取了国内沿岸海域常见优势种小拟哲水蚤、双刺纺锤水蚤、太平洋纺锤水蚤及强额拟哲水蚤等四种小型桡足类为研究对象,探讨其种群动力学相关方面的变动机制。本文在2005年10月-2006年9月选取胶州湾为主要的研究海域,进行了一周年的小型桡足类的采样和培养实验研究。在胶州湾,小拟哲水蚤(Paracalanus parvus)全年出现,其种群数量变动呈现双峰型,在夏季(6月和8月)达数量高值,在冬季(1月)有一个小的高峰。种群数量在4月达全年最低值,在7月份数量也有一个明显的数量降低。从空间分布上来讲,该水蚤在冬季主要以CV桡足幼体存在于湾南和湾外区域,湾北数量很少;从春末开始,各期幼体开始在各海区广泛分布。小拟哲水蚤在胶州湾几乎全年产卵(2月份除外),但较高的产卵率主要集中在春末到秋初,最大产卵率出现在5月,达27.9 eggs female-1d-1。总体来讲,在胶州湾小拟哲水蚤的产卵率与温度、叶绿素及体长均呈显著正相关,但与盐度呈负相关关系。从不同的区域来看,胶州湾湾北区域小拟哲水蚤产卵率较高,最高值出现在湾北6月份,产卵率达到了60.8 eggs female-1d-1。大于10 eggs female-1d-1的产卵率在湾北持续了6个月(4-9月),在湾口持续了5个月(4-8月),而在湾外只持续了3个月(5-7月)。小拟哲水蚤生物量在6月份达到最高值(6.15 mg C m-3),在4月达到全年最低值(0.028 mg C m-3)。次级生产的变动从4月到9月与生物量的变动趋势完全相似,但冬季生物量的高峰并没有伴随次级生产的高峰值,分析其原因是由于冬季低的生长率所致。小拟哲水蚤在整个胶州湾平均的年次级生产为158.41 mg C.m-3yr -1。强额拟哲水蚤(Paracalanus crassirostris)在胶州湾只在夏末到秋季出现,最大数量出现在8月份。从强额拟哲水蚤的分布区域来看,从湾内到湾外有递减趋势。在2006年9月份,只有湾北有部分种群,其他区域几乎没有该种出现。该种最大产卵率出现在8月,达11.2 eggs female-1d-1。强额拟哲水蚤生物量的变动与次级生产的变动趋势相似,最大值也都出现在8月份。该水蚤在胶州湾平均年次级生产仅为2.12 mg C m-3yr-1。双刺纺锤水蚤(Acartia bifilosa)在胶州湾是全年出现,其种群数量在5-6月份突发性增加达全年最高值(>8000 ind. m-3),之后又急剧下降。从该种的区域分布来看,5-6月份数量的高峰主要出现在湾北区域,7月份虽然各区域数量均下降,但大部分种群集中在湾外区域。双刺纺锤水蚤在胶州湾几乎全年产卵(1-2月除外),产卵率的最高值出现在4月,达16.5 eggs female-1d-1。4月份雌体高的产卵率为5月份种群数量的大量增加提供了补充。双刺纺锤水蚤生物量与次级生产的变动趋势一致,在5-6月份达到高值,在秋冬季次级生产较低。双刺纺锤水蚤在整个胶州湾平均的年次级生产为114.61 mg C m-3yr-1。太平洋纺锤水蚤(Acartia pacifica)在胶州湾季节性出现,在冬春季节消失,从夏季开始出现。该种在5月零星出现,种群数量在6月份开始增多,到7月份达到最高值2356 ind. m-3,之后在8月数量锐减至196 ind. m-3。从区域分布来看,该水蚤在胶州湾只出现在湾北和湾南区域,湾外区域几乎没有,而且呈现湾北到湾南递减的趋势。6月份数量大部分出现在湾北区域,到7月份才有一部份在湾南出现。太平洋纺锤水蚤在其出现季节均产卵,最大产卵率出现在6月份,达37.17 eggs female-1 d-1,部分补充了7月份太平洋纺锤水蚤种群数量的大量增加。太平洋纺锤水蚤生物量与次级生产的变动趋势相似,在7月份达到了最高值,在11月达到最低值。太平洋纺锤水蚤在胶州湾平均的年次级生产为45.63 mg C m-3yr-1。胶州湾四种小型桡足类总的年次级生产为~320 mg C m-3 yr-1。
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浮游动物在海洋生态系统物质循环和能量流动中起着至关重要的作用。浮游动物物种组成、生物量和次级生产力的变化会改变生态系统的结构和功能。在黄海生态系统中如何描述这个过程,并使它易于模拟是本论文的研究目的。生物量和生产力是海洋生态系统食物网的基础。谁是浮游动物生物量和次级生产力的基础?哪些种类在生态系统中起关键作用?这些问题在黄海这样的温带陆架边缘海区很难回答,原因是物种组成、生物量和生产力的季节变化显著。因此,在对黄海食物产出的关键过程进行模拟时,需要应用既准确又简便的方法来对浮游动物群落的生态过程进行模拟。在对黄海浮游动物群落结构和物理海洋学特征进行充分的分析之后,浮游动物功能群的方法被确定用来进行黄海生态系统结构和功能的模拟。 根据浮游动物的粒径、摄食习性和营养功能,黄海浮游动物被分为6个功能群:大型浮游甲壳动物功能群(Giant crustacean,GC)、大型桡足类功能群(Large copepods, LC)、小型桡足类功能群(Small copepods,SC)、毛颚类功能群(Chaetognaths)、水母类功能群(Medusae)和海樽类功能群(Salps)。GC、LC和SC是按照粒径大小而划分的功能群,他们是高营养层次的主要食物资源。毛颚类和水母类是两类胶质性的肉食性浮游动物功能群,他们与高营养层次竞争摄食饵料浮游动物;海樽类与其他浮游动物种类竞争摄食浮游植物,而本身的物质和能量却不能有效的传递到高营养层次。本文研究报道了浮游动物各功能群的时空分布、基于浮游动物动能群的黄海生态区划分、饵料浮游动物功能群的生产力、毛颚类对浮游动物的摄食压力以及中华哲水蚤(Calanus sinicus)的摄食生态学。 春季,浮游动物生物量为2.1 g m–2,GC、LC和SC对生物量的贡献率分别为19, 44 和 26%。高生物量的LC和SC功能群主要分布于山东半岛南岸的近岸海域,而GC主要分布在远岸站位。夏季,浮游动物的生物量为3.1 g m–2,GC贡献了73%。GC、LC和SC主要分布在黄海的中部海域。秋季,浮游动物生物量为1.8 g m–2,GC、LC和SC的贡献率相似,分别为36, 33和23%,高生物量的GC和LC分布在黄海中部,而SC主要分布在远岸站位。GC和LC是冬季浮游动物生物量(2.9 g m–2)的优势功能群,分别贡献率了57%和27%,高生物量的GC、LC和SC都分布在黄海的中部海域。与GC、LC和SC相比,毛颚类生物量较低,主要分布于黄海的中北部海域。水母类(本文中指小型水母类)和海樽类斑块分布明显,主要分布于黄海沿岸和北部海域。属于不同功能群的约10个种类为浮游动物的优势种,控制着浮游动物群落的动态。 春季,黄海可以被分成4个浮游动物生态区,浮游动物生物量的分布中心位于山东半岛南岸近岸海域,与第一个生态区相对应,LC和SC在分布中心起主要的控制作用;夏、秋和冬季,黄海分别被分成3、4和3个生态区,浮游动物生物量的分布中心均位于黄海的中部海域,均与各季节的第一个生态区相对应,GC和LC是分布中心生态区的优势功能群,对分布中心起主要的控制作用。黄海冷水团(YSCBW)在GC、LC和SC的空间分布模式中起着重要的作用。黄海不同季节浮游动物生态区的空间分布模式及生态区中起控制作用的优势功能群类别有着重要的生态学意义。 我们将饵料浮游动物功能群细化为0.16–0.25 mm、0.25–0.5 mm、0.5–1 mm、1–2 mm和 >2 mm5个粒径组。应用生物能量学的方法研究了不同粒径浮游动物的生产力。结果表明:浮游动物次级生产力5月份最高,为91.9 mg C m–2 d–1,其次是6月和9月,分别为75.6 mg C m–2 d–1和65.5 mg C m–2 d–1,8月、3月和12月较低,仅为42.3 mg C m–2 d–1、35.9 mg C m–2 d–1和27.9 mg C m–2 d–1。根据这些结果,黄海浮游动物年次级生产力为18.9 g C m–2 year–1。0.16–0.25 mm和 0.25–0.5 mm 两个粒径组对浮游动物次级生产力的贡献率为58–79%,即相对应的SC功能群的周转率(P/B, 0.091–0.193 d–1)要高于GC和LC。 黄海毛颚类功能群的优势种类为强壮箭虫(Sagitta crassa)、纳嘎箭虫(S. nagae)、肥胖箭虫(S. enflata)和百陶箭虫(S. bedoti)。我们对这四种箭虫的生产力和对浮游动物生物量和生产力的摄食压力进行了研究。结果表明:黄海毛颚类总的生物量为98–217 mg m–2,总的生产力为1.22–2.36 mg C m–2 d–1。黄海毛颚类的生物量占浮游动物总生物量的6.35–14.47%,而生产力仅占浮游动物总生产力的2.54–6.04%。强壮箭虫和纳嘎箭虫是黄海毛颚类功能群的绝对优势种,控制着黄海毛颚类群落的动态。黄海毛颚类总的摄食率为4.24–8.18 mg C m–2d–1,对浮游动物现存量和生产力总的摄食压力分别为为0.94%和12.56%。黄海冬季,浮游动物的现存量和生产力为0.4 g C m–2和0.026 g C m–2d–1,而毛颚类的摄食压力却达到了全年的最大值,为1.4%和20.94%。因此,毛颚类的摄食可能对冬季浮游动物群落结构造成重要的影响。通过不同体长组箭虫的摄食率可以推断,黄海毛颚类全年主要摄食小型桡足类,对SC功能群的摄食压力最大。但是在夏季黄海冷水团形成的月份,毛颚类对前体长为2 mm的LC功能群中的种类摄食压力也较大,但此时,由于优势种中华哲水蚤进入滞育阶段,因此毛颚类的摄食会对其种群数量造成严重的影响。 中华哲水蚤在春、秋季的摄食率分别为2.08–11.46和0.26–3.70 µg C female–1 day–1,与微型浮游生物的现存量呈显著的正相关。春季,在黄海的北部,中华哲水蚤通过摄食微型浮游生物吸收的碳量能够满足其代谢和繁殖需求,而在黄海的南部和秋季黄海冷水团锋区附近,中华哲水蚤必须通过摄食其他类型的食物资源来维持其代谢和生殖需求。较低的摄食率、无产卵以及种群中CV桡足幼体占优势表明,秋季中华哲水蚤在黄海冷水团区域内处于滞育状态。中华哲水蚤优先摄食微型原生动物,并且春季中华哲水蚤总的生长效率(GGE, 3–39%)与食物中微型原生动物的比例呈显著的正相关,表明微型原生动物具有较高的营养价值。但是,因较低的产卵率(0.16–12.6 eggs female–1 day–1)而导致的中华哲水蚤较低的总生长效率(13.4%),可能就是由于其食物中的必需营养成分含量不足(或缺乏)造成的。 本文从生物量的角度,对黄海浮游动物各功能群的时空分布、生态区划分进行了研究报道,对GC、LC和SC功能群的生产力、毛颚类对浮游动物的摄食压力和中华哲水蚤的摄食生态学进行了较为深入的研究,这些结果为黄海食物产出的关键过程的模拟提供了基础资料。今后的研究重点应搞清楚黄海水母类对浮游动物次级生产力的摄食压力和海樽类在食物产出模型中产生的负效应的程度,浮游动物各功能群的组成、季节变化和空间分布模式的长期变化,尤其是在气候变化和人类活动的影响下,将是今后研究的重点。
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Shipboard incubations were conducted in spring (April) and autumn (October/November) 2006 to measure the feeding and egg production rates (EPR) of Calanus sinicus in the Yellow Sea, China. The ingestion rate (2.08-11.46 and 0.26-3.70 mu g C female(-1) day(-1) in spring and autumn, respectively) was positively correlated with microplankton carbon concentrations. In the northern part of the Yellow Sea, feeding on microplankton easily covers the respiratory and production requirements, whereas in the southern part in spring and in the frontal zone in autumn, C. sinicus must ingest alternative food sources. Low ingestion rates, no egg production and the dominance of the fifth copepodite (CV) stage indicated that C. sinicus was in quiescence inside the Yellow Sea Cold Bottom Water (YSCBW) area in autumn. Calanus sinicus ingested ciliates preferentially over other components of the microplankton. The EPR (0.16-12.6 eggs female(-1) day(-1) in spring and 11.4 eggs female(-1) day(-1) at only one station in autumn) increased with ciliate standing stock. Gross growth efficiency (GGE) was 13.4% (3-39%) in spring, which was correlated with the proportion of ciliates in the diet. These results indicate that ciliates have higher nutrient quality than other food items, but the low GGE indicates that the diet of C. sinicus is nutritionally incomplete.
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The effects of temperature and food availability on the life history strategy of the planktonic copepod Calanus sinicus in the southern Yellow Sea in summer were studied in this paper. The fifth copepodite stage (CV) dominates the population in the central part of the southern Yellow Sea, where the Yellow Sea Cold Water Mass (YSCWM) occurs below the thermocline. Incubation experiments were conducted on CV C. sinicus caught from the YSCWM to examine the effects of temperature and food availability. Temperature at the surface (27degreesC) is lethal to CVs regardless of food availability. At the temperature in the middle of the thermocline (18degreesC), survival time of the specimens depends on food availability, being similar to20 days in treatments without extra food supply. At the temperature in the YSCWM (9degreesC), most animals survive at the end of 27 day incubation even in treatments without food supply. Developmental rate of CVs at 9degreesC without extra food supply is extremely low. The increase of either temperature or food supply promotes the developmental rate of CVs. According to these results, the surface layers with high temperature and low food abundance are detrimental for the survival and reproduction of C. sinicus. Low temperature and low food availability in the YSCWM help CV to maintain a much lower developmental rate and higher survival rate. The ecological trait of C. sinicus in the southern Yellow Sea in summer cannot be sufficiently explained solely by the effects of temperature.
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Ecological and physiological features of the planktonic copepod Calanus sinicus in the southern Yellow Sea in summer were studied to reveal its life history strategy. From the coastal shallow waters to the central part of the southern Yellow Sea, a shift of the stage composition occurs from being dominated by the egg-nauplius stage to being dominated by the fifth copepodite (CV) stage. Most CVs reside in the Yellow Sea Cold Water Mass (YSCWM), where both temperature and food abundance are low. CVs in the YSCWM have longer body lengths, heavier body weights and higher carbon contents than those outside the YSCWM. Onboard incubations show that the development of CVs in the YSCWM is suspended. Energy conservation, development suspension and lack of diel vertical migration (DVM) behavior suggest a diapause status for the CVs in the YSCWM, although vertical distribution patterns indicate the CV individuals are not fully synchronous in physiology and development. This adaptive oversummering strategy would help C. sinicus to live through the warm and food-limited summer in the central part of the southern Yellow Sea; both low temperature and low food supply are necessary for CV to maintain the resting state in the YSCWM. Calanus sinicus exhibits different life history strategies in different regions of the southern Yellow Sea in summer.
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The distribution, feeding and oxygen consumption of Calanus sinicus were studied in August 2001 on a transect across Yellow Sea Cold Bottom Waters (YSCBW) and two additional transects nearby. The distribution of C. sinicus adults and copepodites stage CV appeared to be well correlated with water temperature. They tended to concentrate in the YSCBW (>10,000 ind. m(-2)) to avoid high surface temperature. Gut pigment contents varied from 0.44 to 2.53 ng chlorophyll a equivalents (chl a equiv.) ind.(-1) for adults, and from 0.24 to 2.24 ng chl a equiv. ind.(-1) for CV copepodites. We found no relationship between gut pigment contents and the ambient chl a concentrations. Although the gut evacuation rate constants are consistent with those measured for other copepods, their low gut pigment contents meant an estimated daily herbivorous ingestion of <3% of body carbon in the YSCBW and <10% outside the YSCBW. However, based on estimates of clearance rates, C. sinicus feeds actively whether in the YSCBW or not, so the low ingestion rates probably reflect shortage of food. Oxygen consumption rates of C. sinicus ranged from 0.21 to 0.84 mul O-2 ind.(-1) h(-1), with high rates often associated with high temperature. From the oxygen consumption rates, daily loss of body carbon was estimated to be 4.0-13.7%, which exceeds our estimates of their carbon ingestion rates. C. sinicus was probably not in diapause, either within or outside the YSCBW, but this cold-water layer provides C. sinicus with a refuge to live through the hot, low-food summer.
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A series of experiments were conducted to identify the factors that affected the growth and survival of the settling flounder larvae Paralichthys olivaceus. Settling larvae 24 days after hatching (DAH) were reared in 10-l experimental tanks up to 40 DAH, and two of the following factors were changed as controlled factors in each experiment: light regime (24L:0D or 12L:12D), prey density (1500, 3000, or 5000 Artemia l(-1)), shelter (sand or no sand) and stocking density (5, 10, or 15 fish l(-1)). Early settling larvae (24-35 DAH) experienced little mortality (less than 10% of the overall mortality) that was not significantly affected by above factors. In contrast, late settling larvae (36-40 DAH) suffered high cannibalistic mortality which was significantly influenced by each of the above factors. Larvae experienced significantly lower mortality at 10 fish l(-1) level than at other densities. Larvae at 15 fish l(-1) level had higher mortality than at 5 fish l(-1) when all other factors were identical. Larvae at 3000 and 5000 Artemia l(-1) treatments survived significantly better than at 1500 Artemia l(-1), but no significant differences in larval mortality were found between the two higher densities. Larvae suffered higher mortality at low prey density or at the absence of sand when they were exposed to longer photoperiod. Low stocking density significantly improved the growth of the settling larvae. The average daily instantaneous growth rate (G) at 5 and 15 fish l(-1) treatments were 0.050 and 0.034, with the coefficient of variation (CV) in final length at 16.4 and 23.5, respectively. Daily instantaneous growth rate increased significantly from 0.033 in the 1500 Artemia l(-1) to 0.041 and 0.045 in the 3000 and 5000 Artennia l(-1), respectively, but no significant difference in larval growth existed between the two higher prey densities. These findings suggested that the optimal prey density for growth and survival of the settling flounder larvae at a stocking density of 5 - 15 fish l(-1) was around 3000 Artemia l(-1) . Larvae that were exposed to 24L showed 20% increase in growth ( G = 0.046, CV = 18.7) than those exposed to 12L ( G = 0.037, CV = 20.5). Longer exposure to light significantly improved larval growth, provided sufficient food was available. Sand substrate did not show significant effects on larval growth, possibly because the larvae spent most of the time swimming or feeding in the water column during this stage. (C) 2003 Elsevier Science B.V. All rights reserved.
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The effects of the timing of first feeding (0, 1 and 2 days after yolk exhaustion) and starvation on the point-of-no-return (PNR), survival and growth of laboratory-reared rock bream larvae were studied under controlled conditions. Larvae began to feed exogenously at 3 days after hatching (dah) and reached PNR on 54 h after yolk exhaustion at 22 +/- 1.5 degrees C. Larvae growth was significantly affected by the time of first exogenous feeding. The growth of 0 day delayed first feeding larvae was obviously faster than those of the other delayed first feeding larvae (P<0.05) whether at 7 dab (SL=3.40 mm, SGR=5.7, CV=4.0) or at 15 dah (SL=4.85 mm, SGR=6.1, CV=8.2) with a more uniform size distribution. Survival of 0 day delayed first feeding larvae and I day delayed first feeding larvae was 13% and 8% at the end of experiment, respectively, while no larvae survived up to 7 dah for 2 days delayed first feeding larvae and unfed larvae. Food resulted in a progressive deterioration of the larval digestive system and atrophy of skeletal muscle fibre. The ratios of head length to SL (standard length), body height to SL and eye diameter to SL were the most sensitive morphometric indices to detect the effects of fasting on larval condition. Present results showed that the combination of morphological and morphometric variables could be used to evaluate the nutritional condition of rock bream larvae. In order to avoid the potential mortality and gain better development, survival and growth in industrial production, the rock bream larvae must establish successful first feeding within 2 days after yolk exhaustion. (C) 2008 Elsevier B.V. All rights reserved.
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The spatial distribution of stage-specific abundance and reproduction of the copepod Paracalanus parvus were studied from October 2005 to September 2006 in the Jiaozhou Bay. This copepod occurred continuously in this bay throughout the year. The species reached the lowest abundance in April and peaked in June. From October to December, distribution center mainly occurred in offshore water and at the mouth of the bay. In winter, early copepodites and adults gradually decreased and till February, most of the population was only comprised of CIV-CV stages. Overwintering copepodites matured in March and males tended to mature before female. From May to September, each stage occurred in the population and gradually reached high abundance. Temperature and chlorophyll a (Chl-a) concentration in the three stations can't clearly explain the seasonal variation in stage-specific abundance, so we surmised the important effect of the Yellow Sea. Egg production rate (EPR) reached its lowest in winter and peaked in June at 60.8 eggs female(-1) day(-1) in nearshore water. In the warming period, EPR in nearshore water was statistically higher and EPR > 10 eggs female(-1) day(-1) lasted longer than that in offshore water, showing the importance of nearshore water for recruitment of R parvus. Our study showed that EPR was positively related to temperature and total chlorophyll a in offshore water and mouth of the bay. In nearshore water, the relationships between EPR and temperature and Chl-a in three size fractions were not the same as those in offshore water, suggesting complicated ecosystem in such a eutrophic area in warming period. (C) 2008 Elsevier Ltd. All rights reserved.
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青藏高原生态系统对全球气候变化较为敏感,系统的行为能更早地预兆全球变化,进而影响到邻近地区乃至全球气候.因此,青藏高原生态系统的行为研究具有特殊重要性.利用中国科学院海北高寒草甸生态系统定位站多年来积累观测的长时间序列数据,运用生态系统稳定性直接分析方法,定量分析高寒草甸生态系统的稳定性及其对环境变化的灵敏度.结果表明,高寒草甸生态系统的主要气候因子如年降水、年均气温都比较稳定(CV分别为16.55%和28.82%),而年度地上净初级生产量较降水和气温更为稳定(CV为13.18%).净初级生产量关于降水和气温的灵敏度或弹性分别为E=0.0782和0.1113,即净初级生产量对降水和气温的波动均不敏感,也说明高寒草甸生态系统具有较高的稳定性.通过高寒草甸生态系统与世界其他地区5个草地生态系统的稳定性度量值横向比较,也显示出该系统的稳定性程度较高.结构相对比较简单的高寒草甸生态系统有较高的稳定性,说明群落稳定性虽然与物种多样性和群落复杂性有关,但未必成正比关系.还有其他一些因素与生态系统稳定性密切相关,如生物群落的外部环境稳定程度等.高寒草甸生态系统的主要气候因子(年降水和年均气温)以34年的主周期随机低频振荡,在其作用下生态系统的行为呈现同主周期、振幅比较稳定的随机波动.高寒草甸生态系统的较高稳定性,是较稳定的环境和系统适应环境的进化演替结果.