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1.
在军曹鱼幼鱼商品饲料中添加铁100、200、300 mg/kg,添加锌30、110、190 mg/kg,共投喂56 d.试验结束时测定,军曹鱼成活率、质量增加率、红细胞含量、肌肉铁含量、骨骼铁、锌含量和肝脏铁、锌含量明显受饲料中铁、锌添加量的影响;血清碱性磷酸酶活性受铁、锌交互作用影响显著,饲料系数主要受铁锌交互作用的影响.以成活率和质量增加率为评价指标,军曹鱼幼鱼商品饲料中铁和锌适宜添加量分别为200 mg/kg和110 mg/kg.  相似文献   
2.
An 8-week feeding trial was conducted to evaluate the effect of dietary carbohydrate sources on the growth performance and hepatic carbohydrate metabolic enzyme activities of juvenile cobia. Six experimental diets were formulated to contain 20% glucose, sucrose, maltose, dextrin, corn starch and wheat starch respectively. The results indicated that fish fed the wheat starch and dextrin diets showed significantly better weight gain, specific growth rate and protein efficiency ratio compared with those fed the other diets. However, fish fed the glucose diet had a significantly lower survival and condition factor than those fed the other diets. There were significant differences in the total plasma glucose and triglyceride concentration in fish fed diets with different dietary carbohydrate sources. Haematocrit, haemoglobin, red blood cell and leucocytes were significantly affected by the dietary carbohydrate sources. The activities of glucose-6-phosphate dehydrogenase (G6PD), 6-phosphofructokinase (PFK) and fructose-1,6-bisphosphatase (FBPase) were significantly affected by the dietary carbohydrate sources, while fish fed the glucose diet showed higher G6PD, PFK and FBPase activities than those fed the other diets. These data indicated that dextrin and wheat starch were the most optimal carbohydrate sources for juvenile cobia.  相似文献   
3.
本研究根据其他鱼类MHC-Ⅱα基因的保守序列设计兼并引物,运用同源克隆和末端快速扩增方法扩增了军曹鱼MHC-Ⅱα基因的全长cDNA序列,并对cDNA及其氨基酸序列进行了分析,比较了军曹鱼和其他物种的MHC-Ⅱα氨基酸序列的差异,分析了军曹鱼MHC-Ⅱα基因的组织分布及经LPS刺激后头肾组织中MHC-Ⅱα基因的表达变化。结果表明,军曹鱼MHC-Ⅱα cDNA全长998 bp,包括53 bp的5′末端非编码区(5′UTR)、234 bp的3′末端非编码区(3′UTR)及711 bp的开放阅读框(ORF),编码236个氮基酸,其蛋白质分子质量约为25.94 ku,等电点为4.39;军曹鱼MHC-Ⅱα蛋白质序列具有一些重要的特征,包括前导肽、α1、α2、CP/TM/CYT区和保守的半胱氨酸等;军曹鱼MHC-Ⅱα与鼠、人及其它鱼类的氨基酸同源性在25.0%~69.5%之间。Real-time PCR检测结果显示,MHC-Ⅱα基因在正常军曹鱼组织中均有表达,但其表达量在各种组织中存在差异,其中较强表达于头肾、鳃,中等程度表达于脾脏、肠,在心脏、脑、肌肉中表达较弱;经LPS刺激后,头肾中MHC-Ⅱα基因表达下调。  相似文献   
4.
The potential beneficial effects of supplementing live feeds with mannan oligosaccharide (MOS; BioMos®) upon cobia Rachycentron canadum larval performance were examined. Characteristics of fish examined included survival to weaning, growth, ability to withstand osmotic stress and the degree of development of the brush border of the intestine. Live feeds included rotifers (Brachionus plicatilis) and Artemia which were enriched for 24 h with a commercial enrichment media alone or in combination with 0.2% (dry weight basis) MOS. Salinity challenges were performed at 6 days post-hatch (dph) and at 7, 13, and 14 dph (0 and 65 g L− 1 for 6 dph; 0 and 55− 1 7+ dph) corresponding to transitions in feeding, to examine the ability of larval cobia to survive stress. Differences (P < 0.05) in survival, favoring cobia receiving MOS-supplemented feeds were discerned at 6 and 7 days post-hatch (dph) when fish were challenged at 0 g L− 1 and at 13 dph when challenged with 55 g L− 1 salinity water. Electron microscopy of the mid-intestine of developing larvae revealed that MOS-supplemented diets enhanced (P < 0.05) the height of microvilli while reducing (P < 0.05) the occurrence and size of supranuclear vacuoles. Supplementation of diets with MOS could assist cobia larvae in maintaining allostasis especially when reared at sub-optimal salinities.  相似文献   
5.
盐度变化对军曹鱼稚鱼相关免疫因子及其生长的影响   总被引:7,自引:0,他引:7  
研究了盐度(5、10、20、30及对照37)对军曹鱼(Rachycentron canadum)稚鱼生长及其血清溶菌酶、碱性磷酸酶(ALP)、旁路途径补体(ACP)溶血活性(ACH50)和总免疫球蛋白(T-Ig)含量等免疫因子的影响。实验周期为14 d。结果表明,在逐渐达到设定盐度后养殖14 d,盐度30组稚鱼特定生长率(SGR)最高(5.77%/d),而盐度5和10组的SGR(分别为4.24%/d和4.38%/d)显著低于其他组(P<0.05)。在低盐度环境中血清溶菌酶活性在第7天各组都有不同程度升高,其中以盐度20组升高最为显著,其次为盐度10和30组,但第14天各组溶菌酶活性又都回落至对照组水平;而稚鱼在低盐度环境中血清ALP活性受到明显抑制,且活性与盐度呈一定正相关;各组间ACP活性在第7天各盐度组间无明显差异,但实验结束时盐度5和10两组出现显著升高;而T-Ig含量在盐度10组中始终明显高于其他组。研究显示,军曹鱼稚鱼在盐度20~37范围内都可正常生长,尽管稚鱼有较强的低盐度耐受能力,但过低盐度明显影响其生长率并导致体色变黑、蛀鳍和应激增强等异常表现。此外,盐度变化还影响稚鱼多种免疫相关因子。[中国水产科学,2007,14(1):120-125]  相似文献   
6.
Growth and energy budget of juvenile cobia (initial body weight ∼ 22 g) at various temperatures (23, 27, 31 and 35 °C) were investigated in this study. Maximal ration level (RLmax, %/day) increased as temperature (T, °C) increased from 23 °C to 31 °C but decreased at 35 °C, described as a quadratic equation: RLmax = −0.023T2 + 1.495T − 17.52. Faecal production (f, mg g− 1 day− 1) increased with increased temperature (T, °C), described as a power function: lnf = 0.738lnT − 0.806. As temperature increased, feed absorption efficiency in dry weight (FAEd, %), protein (FAEp, %) and energy (FAEe, %) all increased first and then decreased, but the variation of feed absorption efficiency was small, with ranges of 89.59-91.08%, 92.91-94.71%, 93.92-95.32%, respectively. Specific growth rate in wet weight (SGRw, %/day), dry weight (SGRd, %/day), protein (SGRp, %/day) and energy (SGRe, %/day) showed a domed curve relative to temperature (T, °C), described as quadratic equations: SGRw = − 0.068T2 + 3.878T − 50.53, SGRd = − 0.079T2 + 4.536T −59.64, SGRp = − 0.084T2 + 4.783T − 63.08 and SGRe = − 0.082T2 + 4.654T − 60.99, and SGRw, SGRd, SGRp and SGRe maximized at 28.5 °C, 28.6 °C, 28.4 °C, 28.5 °C, respectively, as calculated from the regression equations. The relationships between feed conversion efficiency in wet weight (FCEw, %), dry weight (FCEd, %), protein (FCEp, %), energy (FCEe, %) and temperature (T, °C) also took on a domed curve described as quadratic equations: FCEw = − 0.726T2 + 39.71T − 473.8, FCEd = − 0.276T2 + 15.31T − 190.6, FCEp = − 0.397T2 + 22.05T − 277.9 and FCEe = − 0.350T2 + 19.39T − 239.9, and FCEw, FCEd, FCEp and FCEe maximized at 27.4 °C, 27.8 °C, 27.7 °C and 27.7 °C, respectively, as calculated from the regression equations. Energy budget of juvenile cobia fed satiation was 100C = 5F + 67(U + R) + 28G at water temperature 27 °C and 100C = 5F + 70(U + R) + 25G at water temperature 31 °C, where C is food energy, F is faeces energy, (U + R) is excretion energy and metabolism energy, and G is growth energy.  相似文献   
7.
网箱培育军曹鱼亲鱼及人工育苗研究   总被引:1,自引:1,他引:0  
12月底从海上网箱挑选14尾1 5龄以上,健康、外表无伤的军曹鱼(Rachycentron cana dum),移至陆地盖有顶棚的大水泥池进行强化培育。经过4个月左右的培养,结果显示,亲鱼在陆地强化培育比在海区网箱提前约7 d成熟并自然产卵。受精卵在室内育苗池进行人工育苗,在海水比重为1. 020±0. 5,pH 8 1~8 4,水温在27. 0、29. 2 ℃时,仔鱼孵出时间分别为26、24 h,孵化率为88 .8%~93 .5%。孵出后的仔鱼在第7~9天为死亡高峰期,第11天左右的仔鱼体色有明显的变化,由棕红色变为黑色。经过1个月的培养,仔鱼的成活率约为9%。  相似文献   
8.
军曹鱼幼鱼耗氧率与窒息点的研究   总被引:10,自引:0,他引:10  
对平均体质量为16.0g~18.4g的军曹鱼在不同水温和盐度条件下的耗氧率进行了测定。结果表明,水温对军曹鱼的耗氧率有显著影响。盐度29‰时,水温从17℃上升到32℃,军曹鱼的耗氧率从0.357mg/g·h增加到0.880mg/g·h,水温(X)与耗氧率(Y)的关系可用幂函数表示:Y=0.0045X1.5197。在水温29℃时,军曹鱼的耗氧率随着盐度的变化而变化。此外,军曹鱼的耗氧率表现出较明显的昼夜变化规律,在中午前和傍晚后较高。水温对军曹鱼幼鱼的窒息点有显著影响。水温从21℃升高到33℃,窒息点从0.74mg/L增加到1.44mg/L。盐度对窒息点的影响不显著。  相似文献   
9.
An 8‐week feeding experiment was conducted in floating cages (1.5 × 1.0 × 2.0 m) to determine the potential use of defatted soybean meal (roasted and solvent‐extracted) as a partial replacement of fishmeal in the isonitrogenous (approximately 450 g kg?1 CP [crude protein]) diet for juvenile cobia with an initial average weight of about 8.3 g. Diets were formulated to include 0, 100, 200, 300, 400, 500 and 600 g kg?1 (diets D0, D10, D20, D30, D40, D50 and D60, respectively) of fishmeal protein being substituted by defatted soybean meal without methionine supplementation. The results showed that weight gain rate decreased significantly when the replacement level of fishmeal protein was increased from 400 g kg?1 to 500 g kg?1, and the D60 diet was the lowest in all groups. These results indicate that up to 400 g kg?1 of fishmeal protein can be replaced by defatted soybean meal without causing significant reduction in growth. Feed conversion ratio (FCR) and protein efficiency ratio (PER) were significantly affected by the replacement level of fishmeal protein being substituted by defatted soybean meal, when the replacement level of fishmeal protein was 200 g kg?1 (diet, D20), FCR was the lowest and PER was the highest. There were no significant differences in the moisture, lipid, crude protein and ash content in whole body and muscle, while lipid content in liver increased as the dietary soybean meal replacement levels increased. There were significant differences in haemoglobin, haematocrit, red blood cell, plasma glucose and triglyceride concentration in fish fed diets with different soybean meal replacement levels. Results of this trial indicated that the optimum level of fishmeal protein replacement with defatted soybean meal, determined by quadratic regression analysis was 189.2 g kg?1, on the basis of maximum weight gain.  相似文献   
10.
It is very necessary to clarify the mechanism of carbohydrate metabolism in fish due to their poor ability to utilize carbohydrates. Glucose transporters (GLUTs) are important carriers involved in glucose transport across the plasma membrane, which is the first rate‐limiting step of carbohydrate metabolism. In this study, five glucose transporters (RcGLUT1, RcGLUT2, RcGLUT3, RcGLUT5 and RcGLUT9) were obtained from Rachycentron canadum. The complete cDNAs open reading frames (ORF) of RcGLUT1, RcGLUT2, RcGLUT3, RcGLUT5 and RcGLUT9 were 1,476 bp, 1,530 bp, 1,551 bp, 1,539 bp and 1,578 bp (GenBank accession no. MK560257 , MK560258 , MH184460 , MH184461 and MH184462 ), encoding 491, 509, 516, 512 and 525 amino acid (aa) residues respectively. All five RcGLUTs contained a Sugar_tr domain, which is an important feature of the GLUT gene family. The multiple sequence alignment and phylogenetic relationship analyses showed that RcGLUTs were highly conserved and homologous from fish to mammals. Examination of tissue distribution showed that RcGLUTs were expressed constitutively in R. canadum. RcGLUT1‐5 and RcGLUT9 had the highest expression in the foregut, kidneys, haemocytes, muscles, liver and heart respectively. All six RcGLUTs first increased to peak levels of expression and then reduced both in the liver and muscle after fasting. The exception is that the expression levels of RcGLUT4 and RcGLUT5 in muscle were significantly lower than the control. In response to hypoxia, only RcGLUT2 in the liver and muscle and RcGLUT9 in muscle were expressed at a significantly lower level relative to the control. In sum, all RcGLUTs in the liver and muscles showed significant changes in response to fasting and hypoxia, suggesting that GLUT genes may play a role in the response to common physiological stresses.  相似文献   
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