微粒饲料中鱼油n-3HUFA的分子结构对真鲷仔稚鱼生长、存活的影响

制备3种基本组成相同、添加不同类型鱼油的微粒饲料。将3种微粒饲料分别投喂真鲷(Pagrus major)仔鱼，探讨了微粒饲料中鱼油n—3HUFA的不同分子结构对真鲷仔、稚鱼生长、存活的影响。25d的养殖试验结果表明，虽然饲料2中n-3HUFA的含量高于饲料1中n—3HUFA的含量，饲料3中n—3HUFA的含量同饲料1中n—3HUFA的含量相等，但是用饲料1投喂的真鲷仔、稚鱼的全长、成活率要优于分别用饲料2和饲料3投喂的真鲷仔、稚鱼的全长、成活率。而且，用饲料1投喂的真鲷仔、稚鱼体内n-3HUFA和DHA的含量高于用饲料2和饲料3投喂的真鲷仔、稚鱼体内n—3HUFA和DHA的含量，这说明真鲷仔、稚鱼对天然鱼油的消化、吸收要优于对乙酯化鱼油的消化、吸收。     

仔稚鱼的极性脂——磷脂研究进展

总结了饲料磷脂对仔稚鱼在成活率、生长、抗御外部压力的耐受性以及畸形鱼发生率等方面的重要作用。饲料中缺乏磷脂对仔稚鱼的影响比对幼鱼的影响更明显 ,仔稚鱼饲料中的磷脂含量应高于幼鱼饲料中磷脂的含量。仔稚鱼对饲料磷脂中的磷脂酰胆碱和磷脂酰肌醇的需要量占饲料的 1%～ 3% (干重 )。用磷脂作为必需脂肪酸和能量的来源在仔稚鱼中的消化率高于中性脂的消化率。饲料磷脂可以增强仔稚鱼体内的脂类运输能力     

n-3高不饱和脂肪酸对黑鲷幼鱼生长及脂肪代谢的影响

研究了饲料中不同水平n-3 HUFA(0.79%,0.83%,0.85%,0.88%,0.92%,0.94%;DHA/EPA=2.8/1)对黑鲷幼鱼生长及脂肪代谢的影响.结果显示:(1)黑鲷幼鱼肝体指数(HSI)及腹脂率(IPF ratio)随饲料中n-3 HUFA含量的增加而减小,且于0.92%和0.94%组时显著低于其他各组;脂肪细胞直径呈减小趋势,其中0.94%组显著小于0.85%组;肌肉脂肪含量受n-3 HUFA的影响显著,于0.88%组时达到最低.各组全鱼水份和脂肪含量差异不显著(P＞0.05).肝脏、肌肉及腹腔脂肪组织饱和脂肪酸(∑SFA)和C16:0含量均随饲料n-3HUFA水平增加呈下降趋势,而∑n-3 HUFA呈显著上升趋势.各组织中DHA/EPA不受饲料脂肪酸组成的影响.以增重率为参考指标,二次回归分析结果表明,黑鲷幼鱼[(8.08±0.09)g]获得最佳增重时对饲料中n-3 HUFA的需要量为0.87%DM;(2)黑鲷幼鱼肝脏脂肪酸合成酶(FAS)活性及基因表达水平均在n-3 HUFA＞0.92%时有显著下降(P＜0.05);腹腔脂肪激素敏感脂肪酶(HSL)活性及基因表达水平均随饲料中n-3 HUFA的添加呈升高趋势(P＜0.05),且高含量n-3 HUFA(0.94%)可使HSL活性增加近一倍.结果表明,饲料中n-3HUFA通过同步调控脂肪合成与分解两个过程影响黑鲷幼鱼脂肪代谢.     

《海洋水产研究》2004年第25卷总目次

第 1期鲈鱼胚胎程序化冷冻保存的研究于过才　陈松林　孔晓瑜　田永胜　季相山 (1)………………………………………………黄海中南部水域鱼脂肪含量的季节变化张　衡　张　波　金显仕　赵宪勇 (9)………………………………………………真鲷仔稚鱼对实验微粒饲料中卵磷脂适宜需要量的研究陈晓琳　刘镜恪 (15 )……………………………………………………智利外海渔场竹鱼资源分布特征李显森　戴芳群　赵　俊　孙　珊　王凤臣　徐玉成　李　桥　金显仕 (2 0 )……………60 Co辐照对对虾白斑综合征病毒 (WSSV)的灭活效果刘　莉　宋晓玲　…     

月桂酸酯对真鲷幼鱼脂质蓄积和生理活力的影响

在配合饲料中加人月桂酸酯（0．5％）饲喂真鲷稚鱼（0．3g）以评价其对脂质蓄积及生理活力的影响。经过47d饲养，对真鲷的生长情况、鱼体性状和体成份进行测定和分析，并通过施以麻醉和离水应激以评价其抗逆能力。结果表明，饲料中添加月桂酸酯未影响生长，但提高了肌肉比率，降低了比肝重和腹腔脂肪组织比率。同时脂肪细胞缩小，肝脂及肝脂中中性脂肪比率下降，组织中DHA比率有上升趋势。另外，饲料月桂酸酯增强了真鲷肝功能和离水等抗逆能力，指出月桂酸酯的效果可能与组织中DHA比率上升有关。     

活饵料中n-3高度不饱和脂肪酸对黑鲷仔稚鱼生长和存活的影响

采用乳化油直接添加法,用n－3高度不饱和脂肪酸（n－3HUFA）含量不等的4种乳化油分别强化轮虫、卤虫活饵料,培育4组黑鲷仔鱼和稚鱼,各自历时15d,结果表明,n－3HUFA对黑鲷仔鱼和稚鱼的生长和存活均有重要影响。在该条件下,轮虫体内n－3HUFA含量为0．233％（湿重计）,卤虫体内n－3HUFA含量为4．273％（湿重计）时,仔鱼和稚鱼达到最佳生长和成活率。     

饵料中高不饱和脂肪酸在海水鱼苗培育中的作用

大量研究表明，海水鱼苗对饵料中的某些高不饱和脂肪酸(HUFA)有特殊的需要，如果饵料中缺乏这些HUFA，如DHA(docoaahexaenoic acid 22：6n-3)、EPA(eicosapentaenoic acid 20：5n-3)和AA(arachidonic acid 20：4n-6)，将严重影响其营养价值。主要介绍了HUFA对海水鱼苗的营养和生理作用以及饵料中的各种HUFA水平在海水鱼苗培育中的作用，并且给出了某些海水鱼苗对饵料中HUFA的需要量和各种HUFA之间的适宜比例。     

牙鲆幼鱼对EPA和DHA的营养需求

研究了EPA和DHA水平对牙鲆生长的影响,饲料中含0.5%EPA和1.0%～1.5%DHA能保证牙鲆幼鱼最适生长,鱼体水分最低,肝体指数最小,脂肪含量有较大幅度提高,肝脏极性脂中EPA和DHA达到最大积累;在肝脏和肌肉的非极性脂部分,各组间的脂肪酸组成没有显著变化,而极性脂部分能体现出饲料中n-3 HUFA含量对鱼体脂肪酸组成的影响,极性脂中的EPA和DHA含量远高于非极性脂;在肌肉和肝脏的极性脂和非极性脂中都含有较高的16:0和18:1n-9; 18:1n-9/n-3HUFA可以作为必需脂肪酸满足程度的一个判据,18:1n-9值的升高往往是缺乏必需脂肪酸的表现,在生长最佳时18:1n-9/n-3HUFA比值下降,为0.62和0.74.     

海洋酵母培养褶皱臂尾轮虫的脂肪酸组成研究

以两株海洋酵母（Saccharomyces sp.和Rhodotorula sp.）培养褶皱臂尾轮虫（Brachionus plicatilis），测定其脂肪酸组成。结果表明：轮虫具有一定的合成高度不饱和脂肪酸（HUFA）的能力，但其体内HUFA含量不足1％，仍需用富含HUFA的饵粒强化，才能满足海水仔稚鱼对HUFA的需要。     

三疣梭子蟹幼蟹对大豆卵磷脂的需要量

为确定三疣梭子蟹幼蟹对大豆卵磷脂(SL)最适需要量,进行了为期8周的生长实验。实验以鱼油和豆油为脂肪源,红鱼粉和豆粕为蛋白源,添加不同含量的SL(0、10、20、40、60、80 g/kg),配制成6种等氮等脂饲料。每个处理60只蟹,设3个重复,每个重复放养平均体质量为(3.68±0.02)g的三疣梭子蟹20只,养殖于长方形塑料筐中。结果发现,当SL添加量为0~40 g/kg时,增重率(WGR)、蜕壳率(MR)、蛋白质效率(PER)、特定生长率(SGR)和成活率(SR)显著升高,而WGR、FCR显著而降低;当饲料中SL添加水平为40~80g/kg时,三疣梭子蟹的WR、MR和SGR无显著性变化,而FCR显著升高,PER显著减低。饲料中适宜水平的SL可以提高三疣梭子蟹幼蟹的生长性能和饲料利用率。血清中总蛋白(TP)、甘油三酯(TG)和高密度脂蛋白(HDL)不受SL添加量的影响;当SL添加量为0~40g/kg时,血清中胆固醇(CHO)、葡萄糖(GLU)的含量显著升高,而随着SL添加量继续增加时,血清中CHO、GLU的含量无显著性变化;SL添加量为0~20 g/kg时,低密度脂蛋白(LDL)含量显著性升高,但随着SL添加量的增加,LDL含量显著性降低。饲料中添加不同含量的SL对三疣梭子蟹幼蟹中肝胰腺的总抗氧化能力(T-AOC)、丙二醛(MDA)及溶菌酶活性无显著性影响,但当SL添加量为0~60 g/kg时,肝胰腺中过氧化物歧化酶(SOD)活性显著升高;当SL添加水平为0~40 g/kg时,谷胱甘肽过氧化物(GPX)的含量显著性上升。饲料中添加不同的SL对三疣梭子蟹幼蟹肌肉中C20:5(EPA),C22:6(DHA),n-3PUFA和C18:2脂肪酸含量无显著性影响。但当SL添加量为0~40 g/kg时,肝胰腺中C18:2的含量极显著降低,DHA和EPA含量显著上升,而肝胰腺中n-3PUFA的含量虽然无显著性差异,但当SL的含量为40 g/kg时,n-3PUFA的含量高于其他组;随着SL添加量的继续增加,C18:2显著性升高,而n-3PUFA极显著性降低,DHA和EPA含量显著降低。研究表明,当大豆卵磷脂添加量在一定范围内可以提高三疣梭子蟹肝胰腺中不饱和脂肪酸的含量,特别是n-3PUFA、DHA和EPA。以SGR为指标,通过折线模型得出三疣梭子蟹幼蟹饲料中大豆卵磷脂的适宜需要量为41.96 g/kg。     

Optimum soybean lecithin contents in microdiets for gilthead seabream (Sparus aurata) larvae

The aim of the present study was to determine the optimum dietary levels of soybean lecithin (SBL) for seabream (Sparus aurata) larvae, and its influence on production performance and digestive enzymes activity. Larvae were fed five formulated microdiets with five levels of SBL. Complete replacement of live preys with the experimental microdiets for seabream larvae at 16 dph produced over 55% survival rates, particularly in fish fed with the highest levels of SBL. Moreover, increase in dietary SBL up to 80 g kg⁻¹ significantly improved larval growth, leading to high final total length and body weight. An increase in alkaline phosphatase activity with the elevation up to 80 g kg⁻¹ SBL was also found denoting a better maturation of the digestive system. Besides, there was a stimulatory effect of dietary SBL on PLA2 activity. Finally, increasing dietary SBL lead to better utilization of dietary highly unsaturated fatty acid, as it was reflected in their higher content in both neutral and polar lipid of the larvae. In summary, elevation of dietary SBL up to 80 g kg⁻¹ in microdiets for seabream significantly improved digestive enzymes activities, enterocyte maturation, utilization and deposition of dietary essential fatty acids and larval growth, as a consequence of a better digestion, absorption, transport and deposition of dietary nutrients.     

Effect of Dietary Phospholipids on the Choline Requirement ofLitopenaeus vannamei Juveniles

An 8-wk feeding trial was conducted with a 3 ± 4 factorial design for evaluating the nutritional relationship between phospholipids (lecithin at 0, 1.5% or 3% of diet) and choline chloride (0, 1,000, 2,000, or 4,000 mg/kg diet) in juvenile Litopenaeus vannamei . In addition, diets with five graded levels of choline chloride (0, 500, 1,000, 2,000, and 4,000 mg/kg) without supplemental phospholipids or cholesterol were fed for determining the dietary choline requirement. Overall survival was 99% with no difference among the dietary treatments. The choline requirement was estimated to be 871 mg/kg diet without dietary phospholipids. No choline requirement was evident when lecithin was provided at 1.5% and 3% of diet. Shrimp growth significantly increased with incremental dietary phospholipids regardless of choline chloride level. These results indicate that lecithin could effectively provide choline. Conversely, synthesis of phospholipids from choline could not meet the phospholipids requirement of shrimp. Both dietary lecithin and choline chloride supplementation reduced lipid in shrimp muscle. However, only lecithin supplementation increased lipid in hepatopancreas, and dietary choline chloride decreased the level of other phospholipids (except phosphatidylcholine) in shrimp muscle.     

Effect of krill phospholipids versus soybean lecithin in microdiets for gilthead seabream (Sparus aurata) larvae on molecular markers of antioxidative metabolism and bone development

The objective of the present study was to compare the effectiveness of dietary marine phospholipids (MPL) obtained from krill and soybean lecithin (SBL) on the rearing performance and development of seabream (Sparus aurata) larvae. Larvae were fed from 16 to 44 day posthatching (dph) five formulated microdiets with three different levels (50, 70 and 90 g kg^–1) of phospholipids (PL) obtained either from an MPL or from a SBL source. Larvae‐fed MPL show a higher survival, stress resistance and growth than those‐fed SBL, regardless the dietary PL level. Overall, the increase in MPL up to 70 g kg^–1 total PL in diet was enough to improve larval gilthead seabream performance, whereas even the highest SBL inclusion level (90 g kg^–1 PL) was not able to provide a similar success in larval growth or survival. Inclusion of SBL markedly increased the peroxidation risk as denoted by the higher TBARs in larvae, as well as a higher expression of CAT, GPX and SOD genes. Moreover, SBL tends to produce larvae with a lower number of mineralized vertebrae and a lower expression of osteocalcin, osteopontin and BMP4 genes. Finally, increasing dietary MPL or SBL lead to a better assimilation of polyunsaturated fatty acids in the larvae, n‐3HUFA (especially 20:5n‐3) or n‐6 fatty acids (especially 18:2n‐6), respectively. In conclusion, MPL had a higher effectiveness in promoting survival, growth and skeletal mineralization of gilthead seabream larvae in comparison with SBL.     

The effect of dietary lecithin and lipase,as a function of age,on n-9 fatty acid incorporation in the tissue lipids of Sparus aurata larvae

The present study tested the effect of dietary lecithin and exogenous lipase on the incorporation of oleic acid in the tissue lipids of gilthead seabream larvae (Sparus aurata). Two of four microdiets were prepared by the addition of [¹⁴C]oleic acid as free fatty acid (FFA) to diets containing either 5% cuttlefish liver oil (CLO) or 5% soybean lecithin. Glycerol tri[1-¹⁴C]oleate was similarly incorporated in two other diets identical in lipid (4% cuttlefish liver oil, 1% soybean lecithin) and non-lipid composition but differed in that one contained a supplement of 0.05% porcine lipase. The effect of these diets was tested by following the incorporation of the label (dpm/mg larvae DBW) in the neutral and phospholipid fractions of seabream larvae at four different ages (21, 27, 32 and 45 days after hatching).A significant (p<0.05) effect of dietary lecithin on the incorporation of labelled FFA in both larval neutral and phospholipid fractions was demonstrated at all ages. This was particularly pronounced during early development (day 21) where fish fed the lecithin supplement incorporated 6.75 times more label than the diet containing [¹⁴C]oleic acid in CLO. The dietary lecithin enhancing effect diminished with age but was still significant at day 45 (2.17 times more label). In addition, the label was considerably higher in the phospholipid fraction compared to the neutral lipid, reflecting the high demand for membrane synthesis during rapid growth. Lecithin fed larvae demonstrated a higher consumption rate and efficiency of incorporation than fish consuming the cuttlefish liver oil diet, suggesting an emulsifying function for dietary phospholipid.In contrast, the supplementation with lipase showed a clear effect only in older fish where 45 day old larvae fed the lipase diet demonstrated a 3.42 times increase in radioactivity in their tissue lipids. This late lipase response may be the result of an insufficient level of dietary lecithin (M) and a short intestinal length being ineffective, in the early larval stages, in incorporating labelled free fatty acid from dietary glycerol tri[1-¹⁴C]oleate breakdown.     

Importance of the relative levels of dietary arachidonic acid and eicosapentaenoic acid for culture performance of gilthead seabream (Sparus aurata) larvae

The effect of different arachidonic acid (ARA) dietary contents at several dietary eicosapentaenoic acid (EPA) levels on the growth, survival and biochemical composition of gilthead seabream larvae was studied to better define the importance of this fatty acid as a function of EPA. Larvae of 18 days were fed one of the five isonitrogenous and isolipidic microdiets with three different EPA (0.3%, 2% and 4%) and ARA amounts (0.1%, 0.6% and 1.2%). Although a dietary increase in either ARA or EPA alone did not improve survival significantly, the increase in both fatty acids significantly enhanced growth and survival, suggesting an optimum dietary value of EPA:ARA close to 4:1.2. Dietary ARA was more efficiently incorporated into larval tissues than EPA. Increased dietary EPA or ARA contents reduced the incorporation of ARA or EPA into larval lipids, indicating their competition as substrates for different enzymes. The possible negative effect of further elevation of dietary ARA and its competition with EPA for phospholipids synthesis deserves further studies in marine fish larvae.     

Comparison of different types and levels of commercial soybean lecithin supplemented in semipurified diets for juvenile Litopenaeus vannamei Boone

Two 6-week growth trials were conducted to determine the dietary phospholipids (PL) requirement of Litopenaeus vannamei juveniles and to compare the effect of different types of soybean lecithin on shrimp growth and survival. In the first trial, a basal diet and diets containing 1.5, 3 or 5% (dry-weight basis) of Type I lecithin (97.6% PL) and 1.5 or 3% of Type II lecithin (71.4% PL) were evaluated. In the second trial, the basal diet and diets containing 1, 2 or 4% of either Type I or Type II lecithin and 1 or 2% of Type III lecithin (48.4% PL) were evaluated. Results showed that there was no interaction between lecithin type and PL level on shrimp growth or survival. Shrimp growth increased with PL levels up to 3–5% of diet. No significant differences were observed for instantaneous growth rate (IGR) of shrimp fed the different types of lecithin at the same inclusion level, and no effect of PL level and lecithin type on shrimp survival was found. Thus, the recommended level of PL supplementation in diets for L. vannamei juveniles ranges from 3 to 5% of diet.     

Optimal dietary lipid level for large yellow croaker (Pseudosciaena crocea) larvae

A 30‐day feeding experiment was conducted in blue tanks (70 × 50 × 60 cm, water volume 180 L) to determine the effects of dietary lipid levels on the survival, growth and body composition of large yellow croaker (Pseudosciaena crocea) larvae (12 days after hatchery, with initial average weight 1.93 ± 0.11 mg). Five practical microdiets, containing 83 g kg^?1 (Diet 1), 126 g kg^?1 (Diet 2), 164 g kg^?1 (Diet 3), 204 g kg^?1 (Diet 4) and 248 g kg^?1 lipid (Diet 5), were formulated. Live feeds (Artemia sinicia nauplii and live copepods) were used as the control diet (Diet 6). Each diet was randomly assigned to triplicate groups of tanks, and each tank was stocked with 3500 larvae. During the experiment, water temperature was maintained at 23(±1) °C, pH 8.0 (±0.2) and salinity 25 (±2) g L^?1. The results showed that dietary lipid significantly influenced the survival and growth of large yellow croaker larvae. Survival increased with the increase of dietary lipid from 83 to 164 g kg^?1, and then decreased. The survival of larvae fed the diet with 83 g kg^?1 lipid (16.1%) was significantly lower than that of larvae fed other diets. However, the survival in larvae fed the diet with 16.4 g kg^?1 lipid was the highest compared with other artificial microdiets. Specific growth rate (SGR) significantly increased with increasing dietary lipid level from 83 to 164 g kg^?1 (P < 0.05), and then decreased. The SGR in larvae fed the diet with 164 g kg^?1 lipid (10.0% per day) was comparable with 204 g kg^?1 lipid (9.6% per day), but were significantly higher than other microdiets (P < 0.05). On the basis of survival and SGR, the optimum dietary lipid level was estimated to be 172 and 177 g kg^?1 of diet using second‐order polynomial regression analysis respectively.     

饲料不同淀粉水平对团头鲂成鱼生长性能、消化酶活性及肌肉成分的影响

为探讨饲料淀粉水平对团头鲂成鱼生长、消化酶活性和肌肉成分的影响,选用初始均重为(161±2.7)g的团头鲂成鱼360尾,随机分成6组(每组3个重复),分别投喂含淀粉17.1%、21.8%、26.4%、32.0%、36.3%和41.9%的等氮等脂饲料9周。结果发现,团头鲂成鱼成活率和特定生长率不受饲料淀粉水平影响,但饲料添加适量淀粉能提高饲料和蛋白利用率,淀粉水平对肝脏和肠道中的总蛋白酶和纤维素酶活性不产生影响,却显著影响淀粉酶活性。肝体比、肝糖原和肌肉粗脂肪含量随饲料淀粉含量的增加而显著增加,血清血糖、胆固醇和甘油三酯含量不受饲料淀粉水平的显著影响,饲料中添加过量淀粉显著降低了血清补体3和补体4含量。以蛋白质效率和饲料效率为评价指标,经折线模型回归分析,得到团头鲂成鱼饲料中淀粉的适宜添加量分别为饲料干重的34.1%和31.4%,但考虑到血清补体的活性,团头鲂成鱼日粮淀粉水平不应超过36.3%。