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1.
为评估商品规格杂交黄颡鱼的食用营养价值,对杂交黄颡鱼[Pelteobagrus fuividraco(♀)×P.vachelli(♂)]、雄性瓦氏黄颡鱼和黄颡鱼商品鱼的形体指数、出肉率和肌肉的营养组成、氨基酸含量及脂肪酸组成进行了比较分析。结果表明,杂交黄颡鱼的肥满度与雄性黄颡鱼无显著差异;杂交黄颡鱼的胴体率、含肉率和脏体比均与雄性瓦氏黄颡鱼及雄性黄颡鱼无显著差异(P0.05)。杂交黄颡鱼肌肉水分含量最高,脂肪含量最低,而蛋白质和灰分含量与雌、雄黄颡鱼均无显著差异;雄性瓦氏黄颡鱼肌肉中水分、蛋白质和灰分的含量较低,脂肪含量最高;杂交黄颡鱼肌肉的氨基酸总量和7种人体必需氨基酸与黄颡鱼无显著差异(P0.05),但均显著高于雄性瓦氏黄颡鱼(P0.05);杂交黄颡鱼肌肉脂肪中C22:6n3的比例和n3系列不饱和脂肪酸总量的比例与雌性黄颡鱼无显著差异(P0.05),但均高于雄性瓦氏黄颡鱼,均低于雄性黄颡鱼。试验表明,杂交黄颡鱼的体形和出肉率与雄性黄颡鱼一致,其肌肉为低脂蛋白食品,营养价值与黄颡鱼接近。 相似文献
2.
为考察饥饿及恢复摄食对胭脂鱼仔鱼氨基酸和脂肪酸的影响.在水温(19±0.5)℃下,对胭脂鱼仔鱼实施延迟首次投喂0、1、3、5、7、9和11d共7个处理,随后进行饱食投喂,分别在延迟处理结束时以及摄食后(19日龄和29日龄)取材对鱼体的含脂量、脂肪酸和氨基酸含量进行检测.结果如下:(1)随延迟首次投喂时间的增加,胭脂鱼仔鱼鱼体的脂肪含量呈显著下降趋势.在实验结束时(29日龄),各处理组仔鱼的脂肪含量均与对照组无显著性差异,表现出完全补偿效应.(2)胭脂鱼仔鱼在饥饿期间,主要以单不饱和脂肪酸作为能量代谢基质,按n-6>n-9>n-3顺序被先后利用,且C22∶6n-3 (DHA)优先于C20∶5n-3(EPA)被保存下来.同时,鱼体中DHA和ARA的百分含量与仔鱼体质量和含水率存在极显著相关关系.(3)随延迟首次投喂时间的增加,胭脂鱼仔鱼的丙氨酸、异亮氨酸、亮氨酸和组氨酸显著下降;天冬氨酸和谷氨酸显著上升;而甘氨酸、赖氨酸和精氨酸则呈先上升后下降的趋势.结果表明:胭脂鱼仔鱼对饥饿有较强的适应性,在饥饿初期以消耗脂类物质为主,当脂类物质趋于阈值,氨基酸开始被大量消耗;胭脂鱼仔鱼在饥饿后恢复摄食时,鱼体氨基酸的恢复比脂肪酸更慢. 相似文献
3.
延迟投饵对瓦氏黄颡鱼仔鱼存活、摄食和生长的影响 总被引:20,自引:4,他引:20
以瓦氏黄颡鱼仔鱼为研究对象,将其分为15个处理组,每组200尾(各设3个平行组),分别在孵化后3、4、5、6、7.8、9、10、11、12、13、14、15和16d开始投喂大型涵,第15组为饥饿组,从不投饵。水温24.5~25.5℃,实验周期为30d。结果表明:(1)孵化后3d的瓦氏黄颡鱼仔鱼初次摄食,15日龄不能建立外源性营养的仔鱼进入PNR期,卵黄囊已耗尽。混合营养期持续4.12h。(2)瓦氏黄颡鱼仔鱼在不同饥饿阶段初次摄食率的变化为:开始较低,此后迅速上升,在4~10日龄达到高峰,最高初次摄食率为100%,此后逐步下降。(3)延迟5天投饵对瓦氏黄颡鱼仔鱼的存活率影响不显著,延迟6d投饵瓦氏黄颡鱼仔鱼的存活率随延迟投饵天数的增加而降低。延迟6d投饵,瓦氏黄颡鱼仔鱼的体长增长率随延迟投饵天数的增加而降低。 相似文献
4.
鳀鱼仔鱼饥饿试验及不可逆点的确定 总被引:24,自引:0,他引:24
2000年6月26日8-10时在35°00′N、121°00′E周围海域利用大型浮游生物网采集了大量鳀鱼的天然受精卵,11时受精卵开始孵化,12时收集初孵仔鱼进行饥饿试验。试验结果表明:在培养水温为23.0~24.8℃条件下,鳀鱼仔鱼的混合营养期仅1d多时间;仔鱼的不可逆点发生在孵化后第6天。鳀鱼后期仔鱼发育阶段都具有胸角这一形态特征,其胸角不能作为鉴别健康仔鱼和饥饿仔鱼的依据。这一发现补充和完善了鱼类学上关于仔鱼胸角的理论。 相似文献
5.
《水产科学》2015,(8)
本研究旨在探讨饲料磷脂水平对巴丁鱼体脂肪酸组成的影响。用5组饲料(磷脂添加水平分别为0%、1%、2%、3%、4%)对巴丁鱼进行56d的饲养试验。试验结果显示,各组肝脏、肌肉、腹脂的C18:3n3含量随饲料磷脂水平的升高而升高,C18:1n9含量随饲料磷脂水平升高而降低;4%磷脂组肌肉、肝脏组织的高不饱和脂肪酸的含量最高,而对照组的最低。各组肝脏、肌肉、腹脂的脂肪酸大类含量排序均为:饱和脂肪酸总量单不饱和脂肪酸总量多不饱和脂肪酸总量高不饱和脂肪酸总量,且都以C16:0、C18:1n9、C18:2n6为主要的饱和脂肪酸、单不饱和脂肪酸和多不饱和脂肪酸。研究表明,巴丁鱼肝脏、肌肉、腹脂的脂肪酸组成在一定程度上受到饲料脂肪酸组成的影响;饲料磷脂水平为4%时,肌肉、肝脏组织转化合成高不饱和脂肪酸的能力最强。 相似文献
6.
在粗蛋白42%和粗脂肪8%的半精制饵料中,添加不同剂量的鱼油、玉米油、花生油和芝麻油,使20C:5n-3(EPA)+22C:6n-3(DHA)的含量(占总脂肪的%)和n-3/n-6比例分别为14.942,0.728;15.551,0.851;19.365,1.238;19.976,1.345和20.457,1.406。饲喂黄颡鱼(Pelteobagrus fulvidraco,Richardson)幼鱼50 d,研究了不同脂肪酸含量及比例对黄颡鱼幼鱼体组成的影响。结果表明,随着饵料中EPA+DHA的含量和n-3/n-6比例的逐渐增加,鱼体肌肉中水分含量逐渐增加,粗蛋白含量逐渐降低,肌肉中的n-3脂肪酸含量和n-3/n-6比例逐渐增加,肌肉的n-6和n-9脂肪酸含量逐渐降低。 相似文献
7.
菊黄东方鲀发育早期的脂肪酸组成变化 总被引:1,自引:1,他引:0
采用生化分析手段对菊黄东方鲀的未受精卵、胚胎(出膜前,受精后80~85 h)、初孵仔鱼(0日龄)、开口前仔鱼(3日龄)的脂肪酸组成和含量进行了检测和分析。结果显示,菊黄东方鲀卵和鱼苗的水分含量随着个体发育出现升高趋势,而鱼苗总脂含量随着个体发育显著下降。各发育阶段的干样中检出8种饱和脂肪酸(SFA)、7种单不饱和脂肪酸(MUFA)和12种多不饱和脂肪酸(PUFA)。菊黄东方鲀未受精卵脂肪酸组成与其亲本卵巢非常相似;胚胎期的脂肪酸利用率高低顺序为SFA(15.08%)、MUFA(14.46%)、n6PUFA(10.20%)和n3PUFA(0.19%),以C16:0、C16:1、C18:1n9c和C18:2n6c为主要能量来源,n3PUFA被优先保存,特别是DHA得到完全保留;孵化后,在内源性营养阶段,仔鱼对n3PUFA利用迅速上升,仔鱼开口前的脂肪酸利用率高低顺序与胚胎期正好相反:n3PUFA(19.60%)、n6PUFA(16.98%)、SFA(13.50%)和MUFA(13.01%),以C18:2n6c、C22:5n3(DPA)、C20:5n3(EPA)、C22:6n3(DHA)、C18:1n9c和C16:0为主要能量来源,其中仔鱼对DHA实际利用量为最高(14.44 mg/g),仔鱼在开口前期n3PUFA(特别是DHA)被大量利用消耗。研究表明,菊黄东方鲀仔鱼发育需要消耗大量的n3PUFA(特别是DHA和EPA),并建议在菊黄东方鲀苗种培育开口阶段及时增加富含EPA和DHA饵料的投喂量,如海水的轮虫、藻类强化过的卤虫幼体,缓解苗种开口阶段成活率低下的问题。 相似文献
8.
日本鬼鲉胚胎及卵黄囊仔鱼发育过程中脂肪及脂肪酸特性变化 总被引:2,自引:4,他引:2
以野生日本鬼鲉人工催产获得的受精卵为实验材料,定量检测了日本鬼鲉胚胎及卵黄囊仔鱼发育过程中脂肪组成及脂肪酸含量.结果表明:日本鬼鲉胚胎及卵黄囊仔鱼的总脂肪含量为13.85%~ 11.66%,极性脂肪占总脂肪含量为75.39%~ 72.20%.总脂肪及极性脂肪含量在胚胎发育阶段无显著变化,在卵黄囊仔鱼阶段随发育而显著下降.中性脂肪含量在胚胎发育阶段有显著变化,在卵黄囊仔鱼阶段其含量相对稳定.野生日本鬼鲉胚胎及卵黄囊仔鱼总脂肪的主要脂肪酸为DHA(22∶6n-3),16∶0,ARA(20∶4n-6),EPA(20∶5n-3),18∶0和18∶1n-9.总脂肪及极性脂肪的DHA,ARA,EPA含量(mg/gDW)均随胚胎和卵黄囊仔鱼的发育而显著下降,且DHA和ARA含量均在胚胎囊胚期至尾芽期大幅降低.中性脂EPA和DHA含量随发育呈先升后降,其峰值分别出现在初孵仔鱼和2日龄(2DPH)卵黄囊仔鱼.中性脂ARA含量随发育逐步升高,峰值出现在3日龄(3DPH)卵黄囊仔鱼.在胚胎发育前期,总脂肪DHA和ARA相对EPA被选择性消耗,饱和脂肪酸(SFAs)和多不饱和脂肪酸(PUFAs)相对单不饱和脂肪酸(MUFAs)被机体选择性消耗,N-6PUFA相对N-3 PUFA被选择性消耗;在胚胎发育后期及卵黄囊仔鱼阶段,总脂肪EPA相对DHA和ARA被选择性消耗.在胚胎和卵黄囊仔鱼发育过程中,SFAs中16∶0相对18∶0被选择性消耗.胚胎发育后期阶段和卵黄囊仔鱼阶段,总脂肪MUFAs中16∶1相对18∶1被选择性消耗.实验表明日本鬼鲉胚胎及卵黄囊仔鱼发育阶段极性脂肪中DHA、ARA和EPA可以向中性脂肪中转移,胚胎和卵黄囊仔鱼对不同类别脂肪中的重要脂肪酸的消耗具有选择性,且其选择性与发育阶段相关. 相似文献
9.
10.
以贵州省铜仁锦江河漾头河段野生黄颡鱼鱼卵和同一区域内养殖黄颡鱼鱼卵为研究对象,采用常规生化方法测定了野生与养殖黄颡鱼鱼卵氨基酸组成和含量,采用气相色谱技术检测了野生与养殖黄颡鱼鱼卵脂肪酸组成和含量。氨基酸测定结果表明,野生黄颡鱼鱼卵的氨基酸总量、必需氨基酸总量、鲜味氨基酸总量显著低于养殖黄颡鱼鱼卵(P0.05),第一限制性氨基酸均为甲硫氨酸+半胱氨酸,必需氨基酸指数分别为55.60和59.12。脂肪酸测定结果表明,野生黄颡鱼鱼卵的饱和脂肪酸总量极显著高于养殖黄颡鱼鱼卵(P0.01),单不饱和脂肪酸总量二者差异不显著(P0.05),多不饱和脂肪酸总量极显著低于养殖黄颡鱼鱼卵(P0.01),但野生黄颡鱼鱼卵的二十碳五烯酸和二十二碳六烯酸的总量极显著高于养殖黄颡鱼鱼卵(P0.01),野生黄颡鱼鱼卵的n-3系列的多不饱和脂肪酸总量与n-6系列不饱和脂肪酸总量的比值(1.57)低于养殖黄颡鱼鱼卵(1.80)。 相似文献
11.
Dynamics of total lipids and fatty acids during embryogenesis and larval development of Eurasian perch (Perca fluviatilis) 总被引:1,自引:0,他引:1
Total lipid and fatty acid compositions were determined during embryogenesis and larval development in Eurasian perch (Perca fluviatilis). During embryonic development, perch did not catabolize lipids and fatty acids as an energy source. However, during larval development, there was an exponential relationship between the decrease in total lipids and the duration of starving (r
2=0.9957) and feeding (r
2=1). The duration of the starving period (10 days post hatching) was shorter than the feeding period (35 days post hatching). In both starved and fed larvae, there is an apparent preference in utilization of polyunsaturated fatty acids followed by monounsaturated fatty acids. Saturated fatty acids were utilized by neither fed perch larvae nor by starved perch larvae. In starved larvae, palmitoleic 16:1(n-7) and oleic 18:1(n-9) acids were the preferentially monounsaturated fatty acids catabolized and their contribution as energy source from total fatty acids catabolized over the first week was 37.6%. In fed larvae, these 2 nutrients were also the most monounsaturated fatty acids utilized as energy source and possibly also as precursors for others monounsaturated fatty acids biosynthesis. During the same period and among (n-6) polyunsaturated fatty acids, starved perch utilized less linoleic 18:2(n-6) and arachidonic 20:4(n-6) acids than fed larvae despite the fact that the starved perch were in more unfavorable nutritional conditions. In the case of (n-3) fatty acids, starved larvae utilized more linolenic acid 18:3(n-3) and less eicosapentaenoic 20:5(n-3) acid and docosahexaenoic 22:6(n-3) acid than fed perch. Starved larvae probably spared 20:5(n-3) and 22:6(n-3) for physiological functions. 相似文献
12.
黄颡鱼胚胎发育早期脂肪酸变化的研究 总被引:1,自引:0,他引:1
采用生物化学方法测定了黄颡鱼成熟卵及早期胚胎的脂肪酸组成.试验结果表明,在成熟卵和早期胚胎中占主要比例的脂肪酸为:软脂酸(C_(16∶0))、硬脂酸(C_(18∶0))、棕榈油酸(C_(16∶1n-7))、油酸(C_(18∶1n-9))、亚油酸(C_(18∶2n-6)),此外,成熟卵中还含有较高比例的亚麻酸(C_(18∶3n-3)).胚胎对不同脂肪酸的利用因胚胎发育时期的不同而有差异,多不饱和脂肪酸(PUFA)在囊胚期、原肠期和器官形成期占有较高的比例;单不饱和脂肪酸(MUFA)在卵裂期和囊胚期所占比例升高较快;饱和脂肪酸(SFA)是胚胎发育过程中能量的主要提供者,在原肠期、神经胚期和器官形成期存在着活跃的代谢,为这些时期的发育提供能量.与成熟卵相比,黄颡鱼的受精卵在脂肪酸组成上显示了不同.PUFA比例明显减少,而SFA的比例迅速增加,表明在卵粒受精后,胚胎内开始了活跃的代谢过程. 相似文献
13.
Elena Palacios Ilie S. Racotta Benjamín Aparicio Olivia Arjona Carlos A. Martínez-Palacios 《Fish physiology and biochemistry》2007,33(1):81-91
Lipid classes and fatty acid levels were analyzed in freshly fertilized eggs, early and late embryo development, and freshly
hatched larvae obtained from wild and captive silverside Chirostoma estor estor broodstock, as well as in plankton, Artemia, and pelleted feed. The concentration of triglycerides (TGs) and highly unsaturated fatty acids (HUFAs) in neutral lipid
fraction significantly decreased during early development and especially after hatching, whereas phospholipids and HUFA in
polar lipid fraction remained constant. These results indicate that TGs rather than PLs are used as energy sources and that
all HUFAs [20:4n-6/arachidonic acid (ARA), 20:5n-3/eicosapentaenoic acid (EPA), and 22:6n-3/docosahexaenoic acid (DHA)] of
polar lipids are selectively conserved during early development. High levels of DHA (30%, on average, of total fatty acids)
and low levels of EPA (4%) were observed in eggs, embryos, and larvae and did not reflect the proportions of these fatty acids
in food. Preferential accumulation of DHA from food consumed by broodstock, and then transference to eggs, was probably occurring.
The main difference between eggs from both origins was a low level of ARA in eggs from captive fish (4% of total fatty acids)
compared to wild fish (9%). This could be associated with a deficiency in the diet that is not compensated for by desaturation/elongation
of 18:2n-6 and, possibly, with greater stress in captive fish. In any case, particular requirements of ARA should be determined
to optimize the culture of C. estor. 相似文献
14.
Rasanthi M. Gunasekera Sena S. De Silva Brett A. Ingram 《Fish physiology and biochemistry》2001,25(4):255-268
The changes in proximate composition, amino acid (total and free) and fatty acid content of artificially propagated trout cod, Maccullochella macquariensis larvae from five mothers hatched, weaned and reared separately, each in two groups, one fed with Artemia naupli and the other starved, for 15 days (after yolk resorption), are presented. There was no significant change in the proximate composition of fed larvae with devlopment, but in starved larvae the protein (linearly) and lipid (curvi-linearly) content decreased significantly as starvation progressed. The essential amino acids (EAA) and non- essential amino acids (NEAA) found in highest amounts in trout cod larvae were lysine, leucine, threonine and arginine, and alanine, serine and glutamic acid, respectively. In fed larvae the total amino acid (TAA), TEAA and TNEAA content did not vary significantly as development progressed. In starved larvae the TAA, EAA and NEAA content, as well as all the individual amino acids decreased significantly (P<0.05) from the levels in day of hatch and/or yolk-sac resorbed larvae. The greatest decrease occurred in the TEAA content (7.38±0.76 at day of hatch to 1.96±0.09 15 day starved in moles larva–1; approximately a 74% decrease), whereas the decrease in TNEAA was about 38%. Unlike in the case of TAA distinct changes in the free amino acid (FAA) pool were discernible, from day of hatch and onwards, in both fed and starved trout cod larvae. In both groups of larvae the most noticeable being the decrease of % FEAA in TFAA, but not the % FAA in TAA. Four fatty acids together, accounted for more than 50% of the total in each of the major fatty acid categories in all larvae sampled; 16: 0, 18:1n-9, 22: 6n-3 and 20: 4n-6, amongst saturates, monoenes, n-3 PUFA and n-6 PUFA, respectively. Twelve fatty acids either decreased (14: 0, 16: 1n-7, 20: 1n-9, 20: 4n-6, 20: 5n-3, 22: 5n-3 and 22: 6n-3) or increased (18: 2n-6, 18: 3n-3, 18: 3n-6, 18: 4n-3 and 20: 3n-3) in quantity, after 15 days of feeding, from the base level in day of hatch and/ or yolk- sac resorbed larvae. The greatest increase occurred in 18: 3n-3 from 6.4±0.1 to 106.2±13.1 g mg lipid–1 larva–1, and the greatest decrease occurred in 22: 6n-3 (181.2±12.4 to 81.4±6.2 g mg lipid–1 larva–1). In starved larvae, at the end of 15 days, all the fatty acids, except 18: 0, 20: 3n-3 and 20: 4n-6, decreased significantly (P<0.05) from the levels in day of hatch and/or yolk- sac resorbed larvae. 相似文献
15.
河川沙塘鳢胚胎、仔鱼发育过程中脂类含量及脂肪酸组成的变化 总被引:5,自引:1,他引:4
采用生物化学方法测定和分析了河川沙塘鳢(Odontobutis potamophila)胚胎、仔鱼发育过程中脂类的含量及脂肪酸的组成。结果显示,随着胚胎和仔鱼的发育,其总脂的含量呈下降趋势,饱和脂肪酸(SFA)的含量亦呈现出下降趋势,单不饱和脂肪酸(MUFA)的含量在胚胎期保持稳定、在仔鱼期下降,而多不饱和脂肪酸(PUFA)却呈现出不断增长的趋势。在整个胚胎和仔鱼发育过程中,平均含量最高的脂肪酸依次是C16∶0、C18∶1n-9、C18∶0、C16∶1、C22∶6n-3(DHA)和C20∶5n-3(EPA)。结果表明:河川沙塘鳢在胚胎和仔鱼发育过程中有消耗饱和脂肪酸和单不饱和脂肪酸,而保存n-3系列和n-6系列的高度不饱和脂肪酸的趋势,饱和脂肪酸被作为胚胎期能量代谢的主要来源,单不饱和脂肪酸被作为仔鱼期能量代谢的主要来源,而C18∶3n-3(亚麻酸)和C18∶2n-6(亚油酸)被用于合成DHA、EPA和C20∶4n-6(AA)。 相似文献
16.
The fatty acid composition of pikeperch (Sander lucioperca) was determined according to their physiological status, during starvation (10 days) and feeding (28 days). In starved larvae, polyunsaturated, monounsaturated and saturated fatty acids were utilized as metabolic substrates until day 9. At day 10, all fatty acid levels remained stable or, at least, increased in larval body. Among fatty acids, docosahexaenoic acid 22:6 n-3 was used preferentially (20.3% from total fatty acids utilized) followed by palmitoleic acid 16:1 n-7 (13.9%) and then by oleic 18:1 n-9 (12.3%), linoleic 18:2 n-6 (10.1%), linolenic 18:3 n-3 (9.7%) and eicosapentaenoic 20:5 n-3 (9.1%) acids. On the other hand, arachidonic acid 20:4 n-6 was utilized very lowly (0.3%). In fed larvae, no utilization of body fatty acids was observed during the experiment. It seems that energy requirements (and others) of fed larvae were satisfied by feed. 相似文献
17.
Total lipid content and total lipid fatty acid compositions were studied in larvae at the yolksac stage of gilthead sea bream
from two different broodstocks. The two broodstock diets had the same total lipid content but were different with respect
to their fatty acid levels.
There were differences in the fatty acid composition of total lipids in the two groups of larvae, reflecting the influence
of fatty acid levels in the diets fed to the broodstock. The main fatty acids in both larvae lots during yolksac stage were
16:0, 18:1n-9 and 22:6n-3.
The desaturation index Δx = [P + Σ (n − x) − Σ (n − x) diet]/P allowed the determination of the relative importance of the
Δ9, Δ6, Δ5 and Δ4 desaturations during the egg and larval yolksac stages.
The levels of total lipid fatty acids in eggs and larvae during yolksac period were almost constant and very low desaturation
and elongation activities were apparent.
A competitive inhibition was observed between the fatty acids of the n-6 series with respect to the ones of the n-3 series
in those eggs and larvae from broodstock whose diet contained a high proportion of linoleic acid and its derivatives. 相似文献
18.
In the present paper, the results of a study on changes in the proximate and amino acid composition of the eggs and larvae of two Australian native Percichthyid fish, Macquarie perch, Macquaria australasica Cuvier, and trout cod, Maccullochella macquarensis (Cuvier), are presented. The stages of development studied were unfertilized and fertilized eggs, newly hatched larvae, and post-yolk-sac larvae (in Macquarie perch only). In Macquarie perch, significant changes in moisture content occurred throughout development, but this was not so in trout cod. The protein content (per cent dry weight) in Macquarie perch larvae only decreased significantly after hatching (P < 0.05). On the other hand, the total lipid (by dry weight) increased significantly during this transformation (P < 0.05), and decreased significantly in yolk-sac-resorbed larvae. In trout cod, the protein and lipid content did not change significantly up to hatching. The ash content increased significantly in newly hatched and yolk-sac-resorbed larvae of both species. The total amino acid contents of unfertilized eggs, fertilized eggs, newly hatched larvae and yolk-sac-resorbed larvae of Macquarie perch and trout cod were 5752, 4652, 3696 and 2723 μmol g?1 (dry weight), and 4688. 3448 and 2329 μmol g?1, respectively. In the amino acid pool in Macquarie perch, the essential amino acids (EAAs) leucine, isoleucine and valine, and the non-essential amino acids (NEAAs) alanine, aspargine and glutamate occurred in the greatest quantities in non-fertilized eggs, and the cysteine content was the smallest. In Macquarie perch, five out of nine EAAs (i.e. isoleucine, leucine, lysine, threonine and valine) and six out of eight NEAAs (i.e. alanine, asparagine, glutamate, glycine, proline and serine) decreased significantly (P < 0.05) from one developmental stage to the other. In trout cod, all the EAAs, barring lysine and all the NEAAs decreased significantly with development. 相似文献
19.
The viability of batches of larvae reared to produce lobsters, Homarus gammarus (L.), for stock-supplementation experiments varied widely and rendered the timing and numbers of juveniles available for release unpredictable. Egg lipid reserves, time of hatching, exposure to low salinity during incubation and the influence of feeding regimes on water quality during larval culture were among the factors judged most likely to have affected viability. There was considerable variation in the lipid content of eggs from different females captured in 1989 and 1990. The proportion of lipid in eggs from females caught in 1990 was higher (10-20%) than that in eggs from females caught in 1989 (6-11%). The fatty acid content of eggs declined 72-80% during development although the overall proportions of fatty acids remained similar. Analysis of eggs and larvae from a single brood showed that rapidly developing eggs and the larvae that hatched from them contained greater triacylglyceride lipid reserves (by 49% and 15% respectively) than those which developed more slowly and hatched later. Exposure to reduced salinity (below 29 psu) prolonged development (by 30%), increased losses (to > 50%) and reduced the ratio of n-3:n-6 fatty acids (from 35-48 to 18-29) of eggs being incubated by captive, wild-caught, female lobsters. Larvae hatching from eggs held in reduced salinity (23 psu) survived less well (3% compared with 15%) than those incubated in sea water of 29 psu. The rate and degree to which fouling organisms became attached to larvae was related to feeding regime but not to development rate. A diet of mysids supplemented with mussel produced most fouling, generally poorer growth and a higher incidence of moulting abnormalities than a diet of mysids supplemented with Artemia nauplii. Among larvae fed Artemia, those developing early were significantly larger at instar 4 than late developers (56.4 mg cf. 49.8 mg, P < 0.05), but such differences in weight were not maintained by juveniles during the following 31 days of culture. The ecological and aquacultural implications of the results are discussed. 相似文献
20.
Lipid Nutrition and Feeding of Cobia Rachycentron canadum Larvae 总被引:3,自引:0,他引:3
This study examined the fatty acid composition of cobia Rachycentron canadum eggs and yolksac larvae, as well as the ovaries of wild caught females as an initial guide to lipid nutritional requirements. A 2-wk feeding study also was conducted to investigate the effectiveness of four dietary treatments on the growth and survival of cobia larvae. Cobia eggs in the tailbud stage contained 31.4 ± 1.3 μg lipid/egg. After hatching, the amount of lipid decreased significantly (P < 0.05) from 28.3 ± 0.3 to 23.2 ± 0.1 μg lipid/larvae during the yolksac larval stage (days 1 to 3 after hatching). Ovaries from wild caught adults and captive spawned eggs and yolksac larvae contained high levels of PUFAs with docosahexaenoic acid (DHA), eicosapentaenoic acid (EPA), and arachidonic acid (ARA) accounting for approximately 80% of the total suggesting that cobia larvae may have a high dietary requirement for these fatty acids. For the feeding study, larvae were fed: 1) Artemia only; 2) enriched rotifers for 1 d only + microparticulate diet (day 313); 3) enriched rotifers for 3 d (day 3–5) + Artemia (day 3–13); and 4) enriched rotifers for 6 d (day 3–8) + Artemia (day 3–13). Cobia larvae began feeding on rotifers 3 d after hatching and on newly hatched Artemia nauplii by the fifth day following the onset of exogenous feeding (day 7). On day 7, no differences in larval growth were found among larvae fed rotifers for 3 versus 6 d, whereas larvae fed only Artemia or rotifers for I d followed by microparticulate diet were significantly smaller (P < 0.05) and did not survive beyond day 9 and 13, respectively. The results of the feeding study indicate that cobia larvae require rotifers for a minimum of 4 d following the onset of exogenous feeding. 相似文献