微颗粒饲料与冷藏桡足类对大黄鱼稚鱼消化酶活力、肠和肝脏显微结构的影响

以初始体重(13.80±0.40)mg的大黄鱼(Pseudosciaena crocea R.)稚鱼为对象,在室内系统内进行饲养试验,研究了新开发的3种微颗粒饲料(Diet 1–Diet 3)、混合饲料(Diet 4:Diet 3和冷藏桡足类)与冷藏桡足类(Diet 5,对照组)对25—60日龄大黄鱼稚鱼消化酶活力、肠和肝脏显微结构的影响。结果显示,35和60日龄时,微颗粒饲料组鱼苗间的胰蛋白酶活力差异不显著(P>0.05),但均较25日龄时高,而混合组和对照组无显著变化。除对照组鱼苗35日龄时的胰淀粉酶活力显著(P<0.05)高于25和60日龄外,其他各组间均无显著差异。随着鱼苗的生长,除混合组和对照组外,各组间鱼苗肠道氨肽酶和碱性磷酸酶活力均逐渐升高。组织学结果显示,混合组35日龄鱼苗前中肠黏膜上有大量脂滴,而其他各组鱼苗则没有。微颗粒饲料组鱼苗肠黏膜褶皱比混合组和对照组多且深,直肠黏膜上皮细胞中可见脂滴积累,而对照组鱼苗直肠几乎没有褶皱,并缺乏脂滴。微颗粒饲料组鱼苗肝细胞内有大量脂滴,胞核移向细胞外周。混合组鱼苗35日龄时肝细胞内也有脂滴,但数量在60日龄时减少。对照组鱼苗肝脏中可见类似于饥饿状态的胞间隙、细胞质塌陷和胞核固缩。以上结果表明,合适的微颗粒饲料可促进大黄鱼稚鱼消化道的发育。基于Diet 1效果优于Diet 2和Diet 3,可将其作为进一步研究大黄鱼稚鱼营养和微颗粒饲料的基础配方。     

大黄鱼稚鱼L-蛋氨酸需要量的研究

研究了1242日龄大黄鱼（Pseudosciaena crocea R.）稚鱼蛋氨酸需要量。以白鱼粉、磷虾粉和乌贼粉作蛋白源,通过添加L-晶体氨基酸使饲料与大黄鱼卵的必需氨基酸组成一致（蛋氨酸除外）,制成6种等氮（8.8%）等能（16.65 kJ/g）的微黏合饲料。L-蛋氨酸梯度依次为饲料的1.19%、1.62%、2.18%、2.65%、3.13%和3.66%,或饲料蛋白的2.17%、2.95%、3.95%、4.81%、5.70%和6.65%。以生物饵料（丰年虫无节幼体和桡足类）作对照组。每处理设3个重复,每桶（180 L）内随机放3500尾初始体重为（1.930.11） mg 的12日龄大黄鱼稚鱼。实验为期30d。结果显示,稚鱼的成活率随饲料蛋氨酸水平的升高而升高,在2.18%蛋氨酸水平时达到最高,之后无显著变化。特定生长率（SGR）随饲料蛋氨酸水平的升高而升高,在2.18%蛋氨酸水平时达到最高,之后则呈下降趋势。对照组稚鱼的成活率和SGR最高,均显著高于蛋氨酸组（P0.05）。各组间稚鱼体脂肪和灰分差异不显著,但体蛋白随饲料蛋氨酸水平的升高而升高,在2.65%蛋氨酸水平时达到最高,之后则稍微下降;对照组鱼体蛋白和各必需氨基酸含量均显著高于其他组（P0.05）。经二次多项式模型分析,1242日龄大黄鱼稚鱼的蛋氨酸需要量为饲料的2.58%或饲料蛋白的4.69%。       

条石鲷仔、稚、幼鱼脂肪酸组成变化研究

通过采用GC/MS法研究了条石鲷(Oplegnathus fasciatus)仔鱼、稚鱼及幼鱼阶段的脂肪酸组成和变化特点。共检测到28种脂肪酸,其中饱和脂肪酸(SFA)13种,单不饱和脂肪酸(MUFA)7种,多不饱和脂肪酸(PUFA)8种。结果表明:条石鲷鱼苗内源性营养阶段以饱和脂肪酸C16∶0、C20∶0及单不饱和脂肪酸C16∶1、C18∶1作为能量代谢的主要来源;必需脂肪酸C20∶4(n-6)(AA)、C22∶5(n-3)(DPA)和C22∶6(n-3)(DHA)在稚鱼期含量较低,∑EPA+DHA仅为6.89%,认为是发生稚鱼"胀鳔病"的主要原因;仔鱼开口前体内的DHA和EPA是由母体卵黄提供的。     

饲料中不同EPA和DHA含量对黄鳝脂类代谢、生长及繁殖性能的影响

为研究EPA和DHA对黄鳝脂类代谢、生长及繁殖性能的影响, 用添加有EPA和DHA比例相同(EPA/DHA=0.35)但水平不同(EPA和DHA总量分别为0.00%、0.35%、0.70%)的3种等氮等脂肪饲料, 在常温(2230 ℃)下, 分别喂养平均体重为(21.710.54) g的黄鳝7周, 分析黄鳝脂类代谢和生长性能, 然后每组取15尾继续养殖至性腺发育成熟用于繁殖性能分析。结果表明:在饲料中添加0.70%的EPA和DHA 能促进黄鳝生长, 显著提高黄鳝的特定生长率(SGR)及肌肉粗蛋白含量, 降低肝体指数(HSI)及肌肉、肝脏中的粗脂肪含量(P0.05), 显著提高亲鳝的性体指数(GSI)、产卵量、孵化率、幼苗的存活指数(SAI)(P0.05)。添加0.35%的EPA和DHA能显著降低肝脏中粗脂肪含量(P0.05)。综合分析表明:EPA和DHA能促进黄鳝的脂类代谢, 显著提高其生长及繁殖性能; 饲料中添加0.70%的EPA和DHA较为适宜。       

不同脂肪源对泥鳅稚鱼生长性能及脂肪酸组成的影响

为研究饲料不同脂肪源对泥鳅稚鱼生长性能及鱼体脂肪酸组成的影响, 实验选择初始体重为(10.002.00) mg的健康泥鳅稚鱼1500尾, 随机分为5组, 每组3个重复, 每个水箱100尾鱼, 分别投喂5种含有鱼油(FO)、大豆油(SO)、玉米油(CO)、花生油(PeO)和棕榈油(PaO)的配合饲料, 每种饲料3个重复, 饲养期为40d。结果显示, 摄食不同脂肪源饲料的泥鳅稚鱼在增重率、成活率、饲料系数等生长性能指标和体成分上没有显著差异(P0.05), 但是, 摄食FO组鱼体极性脂肪含量显著高于其他植物油组(P0.05)。鱼油组鱼体中性和极性脂肪中总n-3系脂肪酸含量和EPA+DHA含量显著高于其他植物油组(P0.05)。植物油组鱼体极性脂肪中20:4n-6含量显著高于鱼油组(P0.05), 表明泥鳅稚鱼具有将C18转换为C20的能力。研究表明, 在饲料中添加足量磷脂, 鱼油、大豆油、玉米油、花生油、棕榈油都可以用作泥鳅稚鱼期专用饲料脂肪源。     

饲料蛋氨酸对斜带石斑鱼生长性能、抗氧化及糖异生相关酶活性的影响

实验通过评价斜带石斑鱼幼鱼生长性能、血清指标和相关酶活性的变化, 探讨斜带石斑鱼获得最大生长的饲料蛋氨酸(Met)水平与Met代谢关键酶活性和氧化损伤的关系。添加DL-Met使实验饲料中Met的含量分别为0.71%、0.98%、1.26%、1.57%、1.86%和2.18%(Diet1-Diet6), 配制6组等氮等脂的饲料。选择健康实验鱼初重(9.750.05) g随机分为6组, 每天分别于8: 00和17: 00投喂实验饲料, 养殖8周。结果表明, Diet3组鱼体增重率和特定生长率显著高于Diet1和Diet6组(P0.05); Diet4斜带石斑鱼幼鱼的肥满度显著高于Diet1、Diet5和Diet6 (P0.05); Diet2和Diet3组血清总蛋白含量显著高于Diet5组(P0.05), Diet3组幼鱼血糖含量显著低于Diet1组和Diet2组(P0.05), 血清总胆固醇含量在Diet3组逐渐降低, Diet46组显著低于Diet2组(P0.05); Diet3组肝脏超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性最高, 显著高于其他各组(P0.05), Diet 4组肝脏磷酸烯醇式丙酮酸羧激酶(PEPCK)活性与Diet 3相比差异不显著, 但是显著低于其余各组(P0.05)。综合以上结果, 以特定生长率为判据, 经二次曲线模型拟合可得斜带石斑鱼幼鱼若获得最大特定生长率, 其饲料中Met的最适含量为1.42%(占饲料蛋白3.16%)。在该水平下, 鱼体血糖、血清总胆固醇含量和PEPCK活性较低, 有利于改善鱼体对能量的利用; SOD和CAT活性升高有利于改善鱼体的氧化损伤。       

饲料中不同脂肪源对黄鳝生长和组织中脂肪酸含量的影响

用6种不同脂肪源:鱼油(FO)、亚麻油(LO)、大豆油(SO)、二十碳四稀酸(ARA)+花生油(APO)、花生油(PO)和猪油(PL),配制了6组含脂量为8%的等氮(44%粗蛋白)、等能(19.4 MJ/kg)饲料,喂养黄鳝10周后,其结果显示:饲料中不同脂肪源对黄鳝的生长有影响。PO组的特定生长率(SGR)最低,显著低于SO、FO组(P<0.05);SO组的SGR显著高于除FO组之外的其他各组(P<0.05)。黄鳝组织中的18:3n-3和18:2n-6含量与饲料中的对应脂肪酸含量呈线性相关,缺乏ARA的试验组黄鳝各组织中ARA的含量与饲料中的18:2n-6含量存在弱的线性相关;但在各组织中ARA的含量均显著低于APO组(P<0.05)。缺乏二十碳五烯酸(EPA)、二十二碳六烯酸(DHA)的LO、SO、PL、PO各组,卵巢中的EPA和DHA含量与饲料中的18:3n-3含量呈对数函数相关;但在各组织中EPA、DHA的含量均显著低于FO组(P<0.05)。结果表明n-3多不饱和脂肪酸(PUFA)是黄鳝生长重要的脂肪酸,黄鳝生长需要一个适宜的n-6/n-3比值;大豆油、亚麻油、猪油替代鱼油可基本满足黄鳝生长对脂肪酸的需要,其中以大豆油最佳。黄鳝可合成长链多不饱和脂肪酸(LC-PUFA),但合成LC-PUFA的量有限。     

莱州湾春、夏季鱼卵、仔稚鱼群落结构及环境因子相关性

于2014年5月、8月和2015年5月、8月,利用大型浮游生物网,对莱州湾海域20个站位进行4个航次拖网调查,分析了鱼卵、仔稚鱼的种类组成、数量分布、优势种以及群落结构特征与环境因子的相关性。结果表明:4个航次共采获鱼卵、仔稚鱼22种,其中1种仔稚鱼未鉴定出种类,1种仔稚鱼鉴定到科,其余20种隶属于8目16科20属;鱼卵、仔稚鱼优势种季节变化明显;鱼卵、仔稚鱼数量分布与环境因子数据的多元分析表明,盐度对鱼卵数量影响较为明显,温度对仔稚鱼数量影响较为明显,仔稚鱼数量还与溶解氧(DO)、亚硝酸盐、无机氮、活性磷酸盐呈显著相关(P0.05),与氨氮(NH_3~-N)、叶绿素a含量呈极显著相关(P0.01),鱼卵数量与桡足类密度呈显著正相关(r=0.479,P=0.032),而仔稚鱼数量与桡足类密度呈显著负相关(r=-0.510,P=0.022)。     

稀有鮈鲫的脂肪酸组成

稀有鲫汉源种群和彭州种群全鱼中共检测到 3种饱和脂肪酸 (SFA) ,它们是C1 4∶0、C1 6∶0、C1 8∶0。 4种单不饱和脂肪酸 (MUFA) ,它们是C1 4∶1、C1 6∶1、C1 8∶1、C2 0∶1。 4种多不饱和脂肪酸 (PUFA) ,它们是C1 8∶2、C2 0∶4、C2 0∶5 (EPA)、C2 2∶6 (DHA)。SFA占总脂肪酸的2 3 6 3— 2 8 97% ,MUFA占 40 73— 5 4 3 2 % ,PUFA占 9 96— 2 3 1 7% ,EPA占 0 41— 1 74% ,DHA占 0 1 1— 5 3 7%。EPA含量一般低于DHA。UFA(MUFA +PUFA) % >SFA % ,且MUFA % >PUFA % ,n 3FA/n 6FA为 0 3 3— 0 99。此外还测定了鱼肌、内脏脂肪、肝脏、性腺等的脂肪酸组成和含量     

许氏平鲉发育早期的氨基酸与脂肪酸组成及变化

为了研究许氏平鲉(Sebastes schlegelii)雌鱼体内受精后仔鱼开口前和仔鱼开口后两个阶段氨基酸和脂肪酸的组成变化规律, 采用生化常规方法定量测定并分析了许氏平鲉发育早期的受精卵(FE)、胚胎期(ES)、初产仔鱼(PL₁)、前仔鱼期(PL₂)、后仔鱼期(PL₃)和稚鱼期(J)6个阶段的氨基酸和脂肪酸组成特点及含量变动。结果表明: 总氨基酸含量从FE至PL₁显著下降, 至PL₃显著上升, 至J又显著下降(P<0.05); 游离氨基酸含量以FE最低(12.77 mg/g), 从FE到PL₁显著上升(P<0.05), 并在PL₁含量达到最高值(92.19 mg/g), PL₁发育到J呈现先下降后上升再下降的变化趋势(P<0.05), 游离氨基酸与总氨基酸的比值范围在2.37%—19.66%。在各发育阶段干样中检出碳链长度在C₁₄-C₂₄的29种脂肪酸, 分别为9种饱和脂肪酸(SFA)、9种单不饱和脂肪酸(MUFA)和11种多不饱和脂肪酸为(PUFA), 受精卵中主要脂肪酸依次为C_22:6n-3(DHA)、C_18:ln-9c、C_16:0和C_20:5n-3(EPA)。胚胎期(FE-ES)的脂肪酸利用率顺序为SFA、MUFA、n-6PUFA、n-3PUFA, 主要以C_18:3n-3、C_18:0、C_16:1n-7及C_20:5n-3(EPA)作为胚胎期的能量来源, C_22:6n-3(DHA)的实际利用率最低(9.71%), 被优先保存下来, C_16:0的实际利用量最高(10.94mg/g); 仔鱼内源营养阶段(ES-PL₁)脂肪酸利用率顺序为MUFA、n-6PUFA、SFA、n-3PUFA, 主要以C_16:1n-7、C_18:0、C_20:4n-6(ARA)及C_18:1n-9c作为开口前仔鱼的主要能量来源, 其中仔鱼对DHA实际利用量最高(18.23 mg/g)。PL₁-PL₃阶段DHA相对于EPA和ARA被选择性利用; PL₃至J阶段ARA相对于EPA和DHA被选择性利用。研究表明: 许氏平鲉仔鱼开口前阶段总氨基酸含量与游离氨基酸含量的变化趋势截然相反, 胚胎期与仔鱼内源营养阶段脂肪酸利用率和利用量均有所不同, 仔鱼期DHA优先被利用, 过渡至稚鱼期ARA优先被利用。建议在仔鱼开口后添加富含DHA生物性饵料, 仔鱼过渡到稚鱼期在配合饵料中添加ARA营养物质, 防止苗种营养不足, 保证成活率。     

EVALUATION OF MICRODIETS VERSUS FROZEN COPEPODSON GROWTH, SURVIVAL AND SELECTED CHEMICALCOMPOSITION OF LARGE YELLOW CROAKERPSEUDOSCIAENA CROCEA LARVAE

Three newly developed microdiets (MDs: Diet 1, Diet 2 and Diet 3), one co–feeding diet (Diet 4, combinedDiet 3 with frozen copepods) and frozen copepods (Diet 5) were tested for weaning large yellow croaker (Pseudosciaenacrocea) larvae from 25 to 60 days after hatching (DAH). The highest final specific growth rate (SGR, 7.97%/d) and sur-vival (40.0%) were observed in fish fed Diet 1, while those were the lowest in fish fed Diet 5 (4.15%/d and 20.4%, re-spectively). The survival of larvae fed Diet 4 showed no significant difference (P>0.05) from that of larvae fed Diet 1.However, SGR of larvae fed Diet 4 was significantly lower (P<0.05) than that of larvae fed Diet 1. Among the MDs,Diet 1 was proved to be superior to Diet 2 and Diet 3 for both SGR and survival. For all treatments, biomass in each tankwas observed a similar trend as SGR. Whole-body protein was not significantly different (P>0.05) among fish fed theMDs, which was lower than that of fish fed Diet 4, but higher than that of fish fed Diet 5. Fish fed the MDs had signifi-cantly higher (P<0.05) lipid deposition (10.6%—13.3%) than fish fed either Diet 4 (7.6%) or Diet 5 (7.2%). DietaryC20:4n-6 (AA) level was significantly lower (P<0.05) in Diet 5 than that in the MDs. However, the AA level was sig-nificantly higher (P<0.05) in fish fed either Diet 4 or Diet 5 than that in fish fed the MDs. The exceeded C22:6n-3 (DHA)levels in fish compared to their corresponding diets were found in those fed either Diet 4 or Diet 5. Inversely, C20:5n-3(EPA) and DHA levels decreased in fish fed the MDs relative to their proportions in MDs. These results showed that fishfed either Diet 4 or Diet 5 had higher efficiency of AA, DHA and EPA deposition than fish fed the MDs. This study sug-gested that large yellow croaker larvae could be successfully weaned by MD. Future research should be based on for-mula of Diet 1, since it was superior to Diet 2 and Diet 3. In addition, changes of digestive enzymes and digestive tractof large yellow croaker larvae fed different diets need to be investigated for an overall evaluation.     

Maternal dietary n-3 fatty acids alter immune cell fatty acid composition and leukotriene production in growing chicks

The effect of feeding different amounts of n-6 and n-3 fatty acids (FA) to hens on immune tissue FA composition and leukotriene production of hatched chicks was investigated. Hens were fed diets supplemented with either 3.0% sunflower oil (Diet I), 1.5% sunflower+1.5% fish oil (Diet II), or 3.0% fish oil (Diet III) for 46 days. The hatched chicks were fed a diet containing C18:3n-3, but devoid of longer chain n-6 and n-3 FA, for 21 days. Spleen docosahexaenoic acid (DHA) content was higher in chicks from hens fed Diet III (P<0.05). The bursa content of arachidonic acid was lower in chicks hatched from hens fed Diet III (P<0.05), and the ratio of n-6 to n-3 FA was significantly higher in bursa of chicks hatched to hens fed Diet I (P<0.05). Eicosapentaenoic acid (EPA) and DHA contents were higher in bursa of chicks hatched from hens fed Diet III (P<0.05). Thrombocytes from chicks hatched to hens fed Diet III produced the most leukotriene B(5) (LTB(5)). The ratio of LTB(5) to LTB(4) concentrations was also highest (P<0.05) in chicks hatched to hens fed Diet III. These results indicate that modulating maternal dietary n-6 and n-3 FA may alter leukotriene production in chicks, which could lead to less inflammatory-related disorders in poultry.     

双低菜粕高水平替代饲料鱼粉对大黄鱼潜在风险的评估:生长、健康和营养价值

研究从生长、健康和营养价值方面评估了高水平的双低菜粕替代饲料鱼粉对大黄鱼潜在的危害。在鱼粉含量60%的基础饲料（FM）上按照质量分数用双低菜粕分别替代15%（CM15）、30%（CM30）、60%（CM60）和100%（CM100）的鱼粉,配制成5种实验饲料。每种饲料投喂5个网箱的大黄鱼[初重（135.38±1.02）g],即每个处理5个重复,进行12周的养殖实验。结果表明,当双低菜粕替代水平在15%和30%时,大黄鱼的生长及饲料系数并没有受到显著性的影响。然而,当替代水平高于30%时,大黄鱼的末重和特定生长率均显著降低,而饲料系数显著升高（P < 0.05）。当替代水平达到100%时,大黄鱼摄食率达到最高值而肥满度达到最低值（P < 0.05）。在组织形态方面,大黄鱼摄食双低菜粕替代的饲料后肠道绒毛的弯曲程度减少并且排列更加不规则,而肝细胞则呈现出圆形空泡状并伴随着细胞核的偏移。对大黄鱼骨骼进行X-射线扫描发现,摄食双低菜粕的大黄鱼椎体和头部出现了畸形。在营养价值方面,双低菜粕替代鱼粉并未显著影响大黄鱼背肌的脂肪含量、蛋白含量和氨基酸组成,然而脂肪酸组成受到了显著影响,即N-6系列脂肪酸含量显著升高,而DHA与EPA含量显著降低（P < 0.05）。根据欧洲食品安全局（EFSA）的相关标准,这些营养价值的变化并没有影响大黄鱼作为健康食品的功能。由此可见,高水平（60%和100%）的双低菜粕替代鱼粉对大黄鱼的负面影响主要表现为降低大黄鱼的生长性能、改变肠道和肝脏组织形态,以及影响大黄鱼的骨骼健康。然而,双低菜粕替代鱼粉养殖大黄鱼的肌肉仍然符合人类的膳食要求。因此,双低菜粕替代鱼粉并没有影响大黄鱼作为食用鱼的营养价值。     

鱼溶浆、酶解鱼溶浆和酶解鱼浆完全替代鱼粉对黄颡鱼生长的影响

为了探究鱼溶浆、酶解鱼溶浆和酶解鱼浆完全替代鱼粉后对黄颡鱼(Pelteobagrus fulvidraco)生长的影响, 在黄颡鱼实用型日粮配方模式下, 以28%的日本级蒸汽鱼粉为对照(FM), 按照FM组鱼粉蛋白质量的15%、30%和45%三个梯度, 分别添加鱼溶浆(SW15、SW30和SW45)、酶解鱼溶浆(SWH15、SWH30和SWH45)、酶解鱼浆(FPH15、FPH30和FPH45)完全替代鱼粉, 设计共10组等氮等能日粮, 每组设定3个重复, 在池塘网箱中养殖初始体重(18.68±0.10) g /尾黄颡鱼60d。结果显示: (1)以FM为对照, SW的3个试验组黄颡鱼的SGR降低9.89%—20.33%(P<0.05), FCR增加18.79%—44.85%(P<0.05); SWH试验组中SWH15和SWH45的SGR相对FM组分别降低8.79%和14.84%, FCR相对FM组增加16.97%和27.88%, 差异显著(P<0.05); FPH试验组中FPH15和FPH45的SGR相对FM组降低13.18%和15.38%, FCR相对FM增加30.30%和29.70%, 差异显著(P<0.05); (2)SWH30和FPH30组的SGR、FCR与FM组无显著差异(P>0.05); (3)相对于SW, 同等添加量SWH的SGR增加4.40%—9.39%, FCR降低9.81%—15.31%(P<0.05); (4)与FM组的FIFO值相比, SW30、SWH30和FPH30的FIFO值仅为0.67、0.61和0.60, 降低67.67%—70.15%(P<0.05)。结果表明: 在黄颡鱼日粮中, 8.5%添加量的酶解鱼溶浆(干物质)、8.2%添加量的酶解鱼浆(干物质)可以完全替代鱼粉(28%), 而相应的FIFO值分别比鱼粉组降低了69.95%和70.15%; 酶解鱼溶浆对黄颡鱼的生长效果优于鱼溶浆。日粮中过高或过低添加量的鱼溶浆、酶解鱼溶浆和酶解鱼浆都会导致黄颡鱼的生长速度和饲料效率下降。     

Effects of dietary n-3 highly unsaturated fatty acids on growth, nonspecific immunity, expression of some immune related genes and disease resistance of large yellow croaker (Larmichthys crocea) following natural infestation of parasites (Cryptocaryon irritans)

The study was conducted to investigate the effects of dietary n-3 highly unsaturated fatty acid (n-3 HUFA) on growth, nonspecific immunity, expression of some immune related genes and disease resistance of juvenile large yellow croaker (Larmichthys crocea) following natural infestation of parasites (Cryptocaryon irritans). Six isoproteic and isolipidic diets were formulated with graded levels of n-3 HUFA ranging from 0.15% to 2.25% of the dry weight and the DHA/EPA was approximately fixed at 2.0. Each diet was randomly allocated to triplicate groups of fish in floating sea cages (1.0 × 1.0 × 1.5 m), and each cage was stocked with 60 fish (initial average weight 9.79 ± 0.6 g). Fish were fed twice daily (05:00 and 17:00) to apparent satiation for 58 days. Results showed that moderate n-3 HUFA level (0.98%) significantly enhanced growth compared with the control group (0.15% HUFA) (P < 0.05), while higher n-3 HUFA levels (1.37%, 1.79% and 2.25%) had detrimental effects on the growth though no significance was found (P > 0.05). Nitro blue tetrazolium (NBT) positive leucocytes percentage of head kidney and serum superoxide dismutase (SOD) activity increased with increasing n-3 HUFA from 0.15% to 0.60%, and decreased with further increase of n-3 HUFA from 0.60% to 2.25% (P < 0.05). Serum lysozyme activity increased significantly as n-3 HUFA increased from 0.15% to 1.37%, and then decreased with n-3 HUFA from 1.37% to 2.25% (P > 0.05). There were no significant differences in phagocytosis index (PI) of head kidney leucocytes among dietary treatments (P > 0.05). The hepatic mRNA expression of Toll-like receptor 22 (TLR22) and Myeloid differentiation factor 88 (MyD88) was significantly up-regulated in fish fed the diets with low or moderate levels, while in kidney this increment was only found at specific sampling time during the natural infestation of parasites. The 13 d cumulative mortality rate following natural infestation of parasites decreased with n-3 HUFA increased from 0.15% to 0.60% (P < 0.05), and significantly increased with n-3 HUFA from 0.60% to 2.25% (P < 0.05). Results of this study suggested that fish fed low or moderate dietary n-3 HUFA had higher growth, nonspecific immune responses, expression levels of some immune related genes and disease resistance of large yellow croaker following natural infestation of parasites and dietary n-3 HUFA may regulate fish immunity and disease resistance by altering the mRNA expression levels of TLR22 and MyD88.     

饲料糖水平对大黄鱼生长和糖代谢的影响

以初始体重为（137.5±0.4）g的大黄鱼Larimichthys crocea为实验对象,在海水浮式网箱中进行为期8周的摄食生长实验,研究饲料中糖水平对其生长、饲料利用、血液生化指标和糖代谢酶活力等的影响,以确定大黄鱼的饲料糖需求量。实验饲料按等氮（粗蛋白质45%）等能（18 kJ/g）设计,糖含量分别为1.75%、6.67%、13.64%、21.15%、26.69%和32.25%。结果表明随着饲料糖水平的升高,大黄鱼特定生长率（SGR）先升高后降低,当糖含量为26.69%时,SGR达最大值,显著高于糖含量为1.75%、6.67%、13.64%和32.25%处理组（P < 0.05）。饲料效率（FER）和蛋白质效率（PER）均在糖含量为13.64%-21.15%时显著高于其他处理组（P < 0.05）。随饲料中糖水平的升高,全鱼粗脂肪含量显著降低,在糖含量为32.25%时降至最低（10.56%）,显著低于其他处理组（P < 0.05）。肝体比和肝糖原含量均随饲料糖水平的升高而显著升高（P < 0.05）,在糖含量为32.25%时达到最大值,显著高于糖含量为1.75%和6.67%处理组（P < 0.05）。随饲料糖水平的升高,血浆甘油三酯和胆固醇水平均显著降低（P < 0.05）,而血糖水平不受饲料糖含量的影响（P>0.05）。大黄鱼血清溶菌酶、脂蛋白脂酶和肝脂酶活性均随饲料糖水平的升高显著降低（P < 0.05）,而肠淀粉酶活性表现为先升高后降低,在糖含量为26.69%时,酶活力达到最大值。随饲料糖水平的升高,大黄鱼肝脏己糖激酶活性先上升后下降,在糖含量为21.15%时达到最大值,显著高于糖含量为32.25%处理组（P < 0.05）,而丙酮酸激酶活力在糖水平为32.25%时达到最大值,显著高于糖含量为1.75%和6.67%处理组（P < 0.05）。用二次多项回归模型拟合特定生长率和饲料糖水平的关系,得到大黄鱼饲料中最适糖含量为22.7%。     

Effect of varying levels of dietary essential fatty acid during early ontogeny of the sea scallop Placopecten magellanicus

This study investigated the biological effects of various dietary essential fatty acids levels to sea scallop larvae, Placopecten magellanicus. Scallop larvae were fed three diets from D-veliger to settlement. Diet A consisted of Isochrysis sp. and Pavlova lutheri, diet B was a mix of Isochrysis sp. and Chaetoceros muelleri and diet C consisted of the same two species, but C. muelleri was grown under silicate deprivation to alter the fatty acid composition. Pediveligers (28 days old) were sampled prior to settlement for fatty acid analysis, growth measurement and survival assessment. Survival and settlement success were measured at the end of the experiment (day 40). Our results show that feeding regime greatly influenced larval size, settlement and fatty acid composition. Diet A was severely deficient in arachidonic acid (20:4n-6, AA), leading to the poorest larval growth, survival and lipid content. Nevertheless, larvae fed diet A selectively accumulate AA by a factor three compared to the dietary amount. Shell size of 28-day-old larvae was positively correlated with AA content and negatively correlated with eicosapentaenoic acid (20:5n-3, EPA)-AA ratio, thus suggesting that these two variables are of major interest for the optimisation of larval growth in sea scallops. Finally, larvae fed diet C displayed 20% higher shell size at day 28 than larvae fed diet A and B, likely in relation to the dietary amount of saturated fatty acid (SFA). However, the moderate survival and settlement success of these groups of larvae might be associated with a relative deficiency in docosahexaenoic acid (22:6n-3, DHA). This study underlines that the overall balance between polyunsaturated fatty acid (PUFA) needs to be considered to adequately fed sea scallop larvae.     

低蛋白饲料对杂交黄颡鱼幼鱼生长性能、体组成、转氨酶活性和抗氧化能力的影响

本实验以杂交黄颡鱼(Pelteobagrus fulvidraco♀ ×Pelteobagrus vachelli♂)幼鱼为研究对象,探究低蛋白饲料中补充蛋氨酸和赖氨酸对杂交黄颡鱼的生长性能、体组成、转氨酶活性及抗氧化能力的影响.实验设计5组饲料,设置3个蛋白梯度(42％、37％和32％),分别记为对照组、LP1组和L...     

Dietary low linolenic acid compared with docosahexaenoic acid alter synaptic plasma membrane phospholipid fatty acid composition and sodium-potassium ATPase kinetics in developing rats

The objective of this study was to investigate if maternal dietary 20:4n-6 arachidonic acid (AA) and 22:6n-3 compared with adequate or low levels of 18:3n-3 linolenic acid (LNA) increases synaptic plasma membrane (SPM) cholesterol and phospholipid content, phospholipid 20:4n-6 and 22:6n-3 content, and Na,K-ATPase kinetics in rat pups at two and five weeks of age. At parturition, Sprague-Dawley rats were fed semi-purified diets containing either AA + docosahexaenoic acid (DHA), adequate LNA (control; 18:2n-6 : 18:3n-3 ratio of 7.1 : 1) or low LNA (18:2n-6 : 18:3n-39 ratio of 835 : 1). During the first two weeks of life, the rat pups received only their dams' milk. After weaning, pups received the same diet as their respective dams to five weeks of age. No significant difference was observed among rat pups fed the diet treatments for SPM cholesterol or total and individual phospholipid content at two and five weeks of age. Fatty acid analysis revealed that maternal dietary AA + DHA, compared with feeding the dams the control diet or the low LNA diet, increased 20:4n-6 in phosphatidylserine and 22:6n-3 content of SPM phospholipids. Rats fed dietary AA + DHA or the control diet exhibited a significantly increased Vmax for SPM Na,K-ATPase. Diet treatment did not alter the Km (affinity) of SPM Na,K-ATPase in rat pups at two and five weeks of age. It is concluded that dietary AA + DHA does not alter SPM cholesterol and phospholipid content but increases the 22:6n-3 content of SPM phospholipids modulating activity of Na,K-ATPase.