首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 640 毫秒
1.
This study assessed the effect of starvation on survival and nutritional status of newborn juveniles H. erectus (<10 days) to optimize rearing protocols, thereby helping to reduce wildlife exploitation. Maximum starvation time (MST) was estimated through the survival of juveniles continuously starved from birth. Resistance to starvation and the effect of food re‐introduction after 1, 2, 4 and 6 days of starvation on survival and metabolite concentrations (total proteins, total lipids, acylglycerides, cholesterol, glucose) were also determined. Survival amongst continuously starved animals decreased from 6.6 ± 0.5 to 0% from days 9 to 10 of starvation. Seahorses under different starvation–refeeding treatments all had 100% survival up to day 5 of experiments. After 10 days, however, a 4‐day starvation period followed by refeeding showed negative effects with <50% survival. During continuous starvation, lipids were the first energy reserve used to maintain basal metabolism, followed by proteins. Except for cholesterol, all metabolite concentrations differed between continuous starvations and feeding. Despite high seahorse survival after 5 days in the absence of food, the recovery of the metabolic status is possible after a starvation period of no more than 2 days, since irreversible physiological changes compromising the ultimate survival of the organisms take place after this time.  相似文献   

2.
朱艺峰  林霞  关文静  陈芝丹 《水产科学》2007,26(11):597-600
试验设3个饥饿处理组和1个对照组,研究花鲈在短期周期性饥饿下的补偿生长。试验结果表明,不同饥饿处理下的花鲈具有部分补偿生长能力,再投喂下的干物质摄食率(FR)显著高于对照组(P<0.0001),但饲料效率(FE)与对照组相比差异不显著(P<0.05),表明花鲈在短期周期性饥饿下的补偿生长通过提高摄食率实现。花鲈在补偿生长期间的生长效率大幅度提高,在投喂时间为对照组50%的条件下,周期性饥饿7 d(SR77)和周期性饥饿2 d(SR22)组平均特定生长率达到对照组的70.0%。  相似文献   

3.
Under normal farming conditions, shrimp can experience starvation periods attributable to disease outbreaks or adverse environmental conditions. Starvation leads to significant morphological changes in the hepatopancreas (HP), being the main organ for absorption and storage of nutrients. In the literature, limited research has described the effect on the HP of periods of starvation followed by refeeding and none in whiteleg shrimp (Penaeus vannamei) using computer‐assisted image analysis (CAIA). This study describes the effect of starvation and starvation followed by refeeding on the HP of whiteleg shrimp using CAIA. Visiopharm® software was used to quantify the following morphological parameters, measured as ratio to the total tissue area (TLA): total lumen area (TLA:TTA), haemocytic infiltration area in the intertubular spaces (HIA:TTA), B‐cell vacuole area (VBA:TTA), lipid droplet area within R cells (LDA:TTA) and F‐cell area (FCA:TTA). Significant changes were measured for HIA:TTA and LDA:TTA during starvation (increase in HIA:TTA associated with decrease in LDA:TTA) and starvation followed by refeeding (decrease in HIA:TTA associated with increase in LDA:TTA). In the future, HIA:TTA and LDA:TTA have the potential to be used in a pre‐emptive manner to monitor the health of the HP, facilitate early diagnosis of diseases and study the pathophysiology of the organ.  相似文献   

4.
采用一直投喂(SOR0)和周期性饥饿2d再投喂2d(S2R2)、饥饿7d再投喂2d(S7R2)、饥饿7d再投喂7d(S7R7)4种投喂方式,研究周期性饥饿对花鲈(Lateolabrax japonicus)形态参数的影响,并对形态参数进行典型判别分析。实验周期为8周,所用饲料为浮性饲料。结果表明,4种处理对花鲈的形态参数影响有显著差异(P〈0.0001)。除Fulton值(K)外,3种周期性饥饿模式下的各形态参数以S2R2组最好,S7R7组次之,S7R2组最差,但3种处理下的形态参数均未超过SOR0组。在不同参数中,鱼体宽与内脏团重显著相关(r=0.9224),K值在周期性饥饿中变化最敏感,而体长受饥饿影响最小。典型判别分析显示,6个形态参数产生的2个典型变量主要代表体重和内脏团重,并依此分析了4种投喂模式下花鲈的相对饥饿状态,认为在相似体重下,内脏团越重,花鲈受饥饿程度越低。  相似文献   

5.
The compensatory growth response of juvenile three‐keeled pond turtles, Chinemys reevesii, was investigated by food deprivation for 1–4 wk and then refeeding for 4 wk. After feeding resumed, only turtles that were deprived over 2 wk displayed higher specific growth rates than the continuously fed turtles for 1 wk, but their weights were lower than the control at the end of refeeding, showing a partial compensatory growth pattern. Their feeding rate, rather than the feed conversion efficiency and apparent digestibility of energy, was higher than the control during the compensatory phase, indicating that hyperphagia was responsible for the compensatory growth. As starvation intensified, protein concentrations of deprived turtles increased significantly, whereas the contents of fat tissues decreased sharply. After 4 wk of refeeding, the contents of fat tissues in deprived turtles returned to the control level, whereas protein concentrations did not, indicating that lipid rather than protein was the main fuel utilized during short‐term starvation for juvenile turtles aged over 2 mo.  相似文献   

6.
To determine the main expression site of major yolk protein (MYP) gene and the mechanisms for adaptation to starvation and refeeding in Strongylocentrotus intermedius, MYP mRNA expression amounts were analysed using a real‐time RT‐PCR. The results showed that MYP could be transcribed in the intestine, stomach, gonad and coelomocytes, and that the intestine was the main expression site of MYP gene in non‐starved urchins. The MYP synthesis in the intestine decreased during 15 days of starvation (67.70%, 52.58% and 71.35% of the control at 5, 10 and 15 days of fasting respectively) and then increased dramatically by different amounts (the peaks were 2.71‐, 12.16‐ and 7.89‐fold that of the control respectively) during the refeeding stages. Nevertheless, the expression amounts in the gonads did not decline, but increased continuously during all periods of fasting (2.66‐, 3.72‐ and 13.19‐fold that of the control at 5, 10 and 15 days of starvation respectively) and during the refeeding stages. At the end of the recovery feeding experiment, the levels reached 9.58‐, 17.48‐ and 100.69‐fold that of the control. These data suggested that the ‘priority’ strategy for the sea urchin is to reduce MYP expression amounts in the intestine if food is limited and to increase MYP gene expression in the gonad to protect reproductive function.  相似文献   

7.
To increase the current knowledge about the relationship between nutritional status and the digestive capacity of Siberian sturgeon (Acipenser baerii), we addressed the effect of starvation‐refeeding and macronutrient composition on growth parameters and key digestive enzyme activities in A. baerii. Acipenser baerii juveniles were fed four different diets for 3 weeks, then starved for 2 weeks and allowed to refed for 5 weeks with the same diets. Another group of fish were fed 10 weeks with the corresponding diets. Among 10‐week fed fish, high‐protein diets promoted higher body weight values, while the lowest specific growth rate was observed in fish fed a low‐protein, medium‐carbohydrate, high‐lipid diet (p < .05). At the end of the experiment, in fish refed for 5 weeks following a feeding‐starvation cycle and in 10‐week fed animals, the higher levels of blood glucose, triglycerides and cholesterol were found in fish fed low‐protein diets (p < .05). In all treatments, 2 weeks of starvation decreased α‐amylase activity in the intestine (p < .05), while 4 days of refeeding increased lipase (p > .05) and α‐amylase activity in the intestine as well as pepsin in the stomach (p < .05). Our findings suggest that A. baerii maintains a high capacity to digest proteins and lipids after 2 weeks of starvation and that α‐amylase can be used as an indicator of the nutritional status in fish submitted to starvation‐refeeding cycles. Indeed, refeeding with high‐protein and CHO:L ratio diets after starvation could improve the growth rate of A. baerii in culture.  相似文献   

8.
探讨了饥饿及恢复投饵过程中花鲈(Lateolabrax japonicus)(196±38g)肌肉组成分及鱼体非特异免疫水平的变化。实验设S0组(对照组,持续正常投喂),S5组(饥饿5d后恢复正常投喂),S10组(饥饿10d后恢复正常投喂),S15组(饥饿15d后恢复正常投喂)。S0组每隔5d取样,S5,S10和S15组分别在结束饥饿及恢复投饵后每隔5d取样测定。结果显示:饥饿程度对花鲈肌肉组成有显著影响。与对照组相比,S10组饥饿结束时肌肉的总脂含量显著降低;S15组饥饿结束时肌肉的总脂含量和粗蛋白含量都显著降,同时显著增加了肌肉的水分含量。表明饥饿过程中花鲈先动用肌肉脂肪,后动用肌肉蛋白。在恢复投饵过程中,S10和S15组总脂含量表现出先降后升的规律,而S15组蛋白表现为逐步回升的趋势。表明花鲈在饥饿后恢复投饵的过程中,先恢复肌肉蛋白含量,后恢复肌肉脂肪含量。饥饿15d时花鲈血清蛋白浓度显著降低。与对照组相比,S5组血清、脾脏和头肾溶菌酶活性均无显著变化;S10组头肾溶菌酶活性在恢复投饵10d时补偿性升高。S15组在饥饿结束时显著降低了花鲈头肾溶菌酶活性,但在恢复投饵5d时恢复到对照组水平。花鲈白细胞的吞噬活性也受饥饿程度及恢复投饵的影响。饥饿会降低花鲈血液白细胞的吞噬活性。在恢复投饵过程中,饥饿(5d)后恢复投饵会引起白细胞吞噬百分率和吞噬指数的补偿性升高。表明饥饿及恢复投饵也影响花鲈的非特异免疫水平。  相似文献   

9.
在水温22~26℃条件下,研究了在不同饥饿时间处理后再投喂对白斑狗鱼(Esox lucius)生长性能的影响,试验设置饥饿14、21、28、35、42 d组和正常投喂对照组,各组饥饿结束后恢复正常投饵,在投喂后以7 d为一个生长阶段,比较各处理组的增重率、特定生长率、摄食率、饲料系数,试验周期为56 d。结果显示,随着饥饿时间的延长,白斑狗鱼的总体重损失率呈逐渐升高的趋势,而各饥饿阶段体重损失率呈下降的趋势;各饥饿处理组恢复投喂后的增重率和特定生长率均显著高于对照组(P<0.05),且随饥饿时间的延长而逐渐升高,但在恢复投喂后的第35天,S14组(饥饿14 d组)与对照组无显著性差异(P>0.05);各饥饿处理组恢复投喂后的摄食率随饥饿时间的延长而显著性升高(P<0.05);饵料系数随饥饿时间的延长而逐渐下降,其中在第14天时,S42组(饥饿42 d组)的饵料系数显著高于其他饥饿处理组(P<0.05),与对照组无显著性差异(P>0.05)。在同一饥饿处理组,随着投喂时间的延长,增重率、特定生长率和摄食率均呈显著性下降的趋势(P<0.05),饵料系数呈升高的趋势,其中S14组在第35天时恢复到对照组水平。结果表明:摄食率升高和饵料系数下降是饥饿再投喂白斑狗鱼增重率显著上升的原因,且这种生长倾向随着恢复投喂时间的延长而不断减弱。  相似文献   

10.
以点带石斑鱼幼鱼为试验动物,进行短期饥饿和再投喂对其生长、生化组成及行为的影响试验。对照组(S0)持续投喂30 d,饥饿组S2、S4、S6、S8和S10分别饥饿2 d、4 d、6 d、8 d和10 d后再分别恢复投喂28 d、26 d、24 d、22 d和20 d,试验设3平行。结果表明:随着饥饿时间的延长,点带石斑鱼幼鱼全长、湿重、粗蛋白、粗脂肪、糖类的含量和能值均逐渐减少,粗蛋白、粗脂肪和糖类的相对损失率顺序为糖类>粗脂肪>粗蛋白。再投喂后,S2湿重超过S0(P>0.05);各试验组粗蛋白含量除S10外,均与S0差异不显著(P>0.05);S2粗脂肪含量超过S0组,且差异显著(P<0.05),S4粗脂肪含量与S0组差异不显著(P>0.05);S2糖类含量达到了S0组(P>0.05)。再投喂期间,粗蛋白、粗脂肪和糖类的相对增加率顺序为粗脂肪>糖类>粗蛋白。粗蛋白、粗脂肪、糖类的质量分数和能值的变化与饥饿时间呈负相关关系,与再投喂时间呈正相关关系;粗蛋白、粗脂肪和糖类的质量分数变化与能值呈正相关关系;认为蛋白质是影响点带石斑鱼幼鱼肌肉能值变化的主要的含能物质。饥饿幼鱼行为变化表现为集群觅食、反应迟钝和外部形态变化并均匀静伏底。  相似文献   

11.
饥饿后再投喂对星斑川鲽生长、摄食的影响   总被引:1,自引:0,他引:1  
采用饥饿不同时间后再恢复投喂相同时间的方法,在温度(19±1)℃、盐度32±1的条件下,对相同规格的星斑川鲽[(26.02±0.30)g]的生长、摄食进行了研究。研究结果表明,饥饿5 d的星斑川鲽在恢复投喂20 d后鱼体质量超过对照组水平,差异不显著(P>0.05),获得了超补偿生长;饥饿10d的星斑川鲽恢复投喂20 d后,鱼体质量接近对照组水平,差异不显著(P>0.05),获得了完全补偿生长;饥饿15 d的星斑川鲽恢复投喂20 d后,鱼体质量未能达到对照组水平,差异显著(P<0.05),获得了部分补偿生长。饥饿后再投喂处理对星斑川鲽的体质量、全长、特定生长率、比肝质量等生长指标均有显著影响;对总摄食量、平均摄食量、食物转化率、摄食率、吸收率、排粪率的影响亦比较明显。结果表明,饥饿5 d的星斑川鲽在恢复投喂后生长最快,表现出很强的补偿生长能力。  相似文献   

12.
This study investigated the effect of starvation (78 days) and refeeding (33 days) on the oxidative stress [malondialdehyde (MDA)] and the non‐enzymatic antioxidants [vitamin E (VE), vitamin C (VC), vitamin A (VA), beta carotene (βC) and reduced glutathione (GSH)] in the hepatopancreas, muscle and gill tissues of freshwater crayfish (Astacus leptodactylus). Crayfish were divided into three experimental groups: control (fed), starved (not fed) crayfish for 78 days and refeeding crayfish for 33 days after 78 days of starvation. The biochemical analysis of the tissues was conducted at 3, 18, 33, 48, 63 and 78 days of starvation and feeding and at 3, 18 and 33 days of refeeding. It was determined that crayfish can withstand starvation period of 78 days. In all of the periods, the MDA levels were significantly higher in the tissues of starved crayfish when compared with the control. The findings of this study demonstrate that starvation has a negative effect on the VE, VC, VA, βC and GSH levels in the crayfish. The measured parameters returned to control values after 33 days of the refeeding. Additionally, the starvation resulted in decreased levels of VE, VA and βC in the abdomen muscle of crayfish consumed by humans.  相似文献   

13.
The study was designed to investigate the effect of four cycles of 5 weeks starvation followed by 10‐week refeeding compared with daily feeding under either natural photoperiod or continuous light (LL) regime on body composition and flesh quality in Atlantic cod in sea cages, northern Norway. The fish were sampled for body composition and flesh quality parameters at the start of the trial, twice at the end of a 10‐week feeding period and twice at the end of a 5‐week starvation period. There was effect of both feeding and light regime on growth, the two starving groups losing weight during starvation and regaining weight during refeeding, and the group under LL being heavier. But, the mean overall growth did not vary between groups. Starvation/refeeding regime resulted in higher slaughter yield, but no overall effect was seen on hepatosomatic index, water content, water holding capacity (WHC), muscle pH, hardness or flesh colour compared with control groups. Continuous light increased gutted weight and slaughter yield, lowered WHC and depressed maturation compared with fish under natural light regime. Increased growth rate resulted in softer fillets and lower muscle pH.  相似文献   

14.
饥饿与再投喂对中华倒刺鲃幼鱼生长和消化酶活性的影响   总被引:1,自引:0,他引:1  
周兴华  向枭  向桢  欧仁建  陈俊  冉龙虎 《淡水渔业》2012,42(3):50-54,73
在室内水温23~26℃的条件下,将中华倒刺鲃(Spinibarbus sinensis)幼鱼分装于6个饲养桶中,试验设计分为两组,每组3个平行,并依次编号为A、B、C、D、E、F,将两组同时饥饿20 d,分别在饥饿0、3、5、10、15、20 d对A、B、C取样。而D、E、F饥饿20 d后进行16 d的恢复投喂,并在再投喂3、7、12、16 d进行取样,分别测定其体质量、肥满度、肝脏指数以及肝胰脏、前后肠消化酶(胰蛋白酶、脂肪酶、淀粉酶)活性的变化。结果表明:(1)在饥饿过程中,中华倒刺鲃幼鱼体质量、肥满度、肝脏指数均呈下降趋势;恢复投喂后,三者均有不同程度的恢复。(2)肝胰脏蛋白酶活性在饥饿过程中呈下降趋势,并在20 d降到最低,恢复投喂后其活性逐步回升到正常水平;而肠蛋白酶活性饥饿过程中先升高,并在5 d达到最高值而后呈下降趋势,恢复投喂后达到正常水平。(3)饥饿过程中,肝胰脏和前后肠脂肪酶活性迅速升高,在10 d达到最值,并显著高于饥饿前的水平,而后逐步下降,恢复投喂后脂肪酶活性仍持续维持在较高的水平。(4)肝胰脏和前后肠淀粉酶活性在饥饿过程中逐步下降,恢复投喂后其活性恢复至正常水平。  相似文献   

15.
饥饿后再投喂对异育银鲫生长和体成分的影响   总被引:2,自引:1,他引:1  
在(25±2)℃条件下,对体重(15.6±0.84)g的异育银鲫(Carassius auratus gibelio)进行了不同时间的饥饿处理和再投喂的恢复生长实验。实验把异育银鲫分为4组,为Ⅰ组(持续投喂48 d)、Ⅱ组(饥饿8 d后再投喂40 d)、Ⅲ组(饥饿16 d后再投喂32 d)和Ⅳ组(饥饿24 d后再投喂24 d),每组20尾鱼,研究再投喂后体重和体成分(粗蛋白、粗脂肪、水分和灰分)的变化。结果显示:与持续投喂组相比,饥饿8 d后异育银鲫体重下降了13.28%,饥饿16 d和24 d后体重分别下降了22.36%和33.03%。短期饥饿(Ⅱ)组,再恢复投喂8 d后能实现完全补偿生长,而中长期饥饿组(Ⅲ和Ⅳ)分别在投喂16 d和24 d后表现为部分补偿生长。在饥饿和恢复投喂过程中其体成分呈现规律性变化:各试验组饥饿后,粗蛋白和粗脂肪显著下降,而水分和灰分含量上升,而再投喂后,各营养成分逐渐恢复。Ⅱ组再投喂8 d后,粗脂肪和粗灰份恢复到对照组水平,蛋白质显著低于对照组水平,水分显著高于对照组;再投喂40 d后,粗蛋白和水分亦恢复到对照水平,Ⅲ组恢复投喂16 d后,粗蛋白、粗脂肪和灰分不能恢复到对照水平,恢复投喂32 d后,除灰分外,其余成分皆不能恢复到对照水平。Ⅳ组再投喂24 d后,除水分外,其余各营养成分皆不能恢复到对照水平。结果表明,实现异育银鲫完全补偿生长,其饥饿时间以短时间饥饿8 d为宜。  相似文献   

16.
为了解2种状态(饥饿和复投喂)下投喂3种糖源对凡纳滨对虾仔虾生长、虾体组成成分、代谢指标的影响,实验共5个处理,分别为饥饿组S0、对照组C、实验组S1、S2、S3(在基础饲料中糖源分别为:葡萄糖、蔗糖、玉米淀粉)。实验选取体质量为(1.84±0.23) g的凡纳滨对虾仔虾用方形纱制网兜独立喂养,进行为期12 d的饥饿实验后继续复投喂12 d。结果显示,饥饿后仔虾体组成成分及相关酶[脂肪酶(LPS)、磷酸果糖激酶(PFK)、已糖激酶(HK)、谷氨酰胺合成酶(GS)]差异显著;仔虾肝糖原、肌糖原均呈现出反复升降的过程,饥饿8 d后肝糖原降到最低值,肌糖原短暂回升后显著下降。复投喂4 d后S3组增重率最高,实验各组间无显著差异,均低于C组;全虾水分、全虾粗灰分、肌糖原含量无显著差异;S1、S2组虾体粗脂肪含量显著高于S3组;肝糖原、肌糖原均有回升,S1组肝糖原显著低于其他组。复投喂12 d后,S3组LPS活性、HK活性显著高于其他各实验组,GS、PFK含量实验组间无显著差异。研究表明,凡纳滨对虾仔虾饥饿过程中糖原和脂肪先于蛋白质被动用供能;复投喂出现部分补偿生长效应,玉米淀粉作为糖源饲料对凡纳滨对虾仔虾期恢复生长效果最佳。  相似文献   

17.
Compensatory growth and changes in biochemical composition, hematocrit and body condition indices of juvenile flounder Paralichthys olivaceus were assessed during starvation and after refeeding. Twenty juvenile fish were stocked into each 200‐L flow‐through tank to give five treatments with three replicates per treatment: control group fish (C) were hand fed to apparent satiation twice daily for 8 wk, whereas the Sl, S2, S3, and S4 fish were hand fed to apparent satiation twice daily for 7, 6, 5, and 4 wk after 1, 2, 3, and 4 wk of starvation, respectively. During starvation, weight decreased linearly with periods of feed deprivation up to 3 wk. Survival was not significantly different among treatments. At the end of the feeding trial, weight gain (g/fish) and specific growth rate (SGR) of flounder in S2 was significantly (P < 0.05) higher than those of fish in S3 or S4, but not significantly different from those of fish in C or Sl. Feed consumption of flounder (g/fish) was proportional to duration of feeding except for that of fish in S2. Feed efficiency ratio (FER) and protein efficiency ratio (PER) values for flounder in S2 were significantly (P < 0.05) higher than those for fish in C, but not significantly different from those for fish in Sl, S3, or S4. During starvation, hepatosomatic index (HSI) and lipid content of flounder without liver decreased with periods of feed deprivation. However, HSI and condition factor (CF) for flounder in S2 were significantly (P < 0.05) higher than those for fish in Sl, S3, S4 and C except for CF in Sl at the end of the feeding trial. Proximate composition of flounder without the liver was not significantly different among treatments at the end of the feeding trial. In considering above results, juvenile flounder achieved compensatory growth with up to 2‐wk feed deprivation. Compensatory growth of flounder fed for 6 wk after 2‐wk feed deprivation was well supported by improvement in SGR, FER, and PER. HSI could be a good index to monitor changes in body condition during starvation and after refeeding.  相似文献   

18.
研究了饥饿与再投喂及不同投喂频率对条石鲷(Oplegnathus fasciatus)幼鱼生长和消化酶活力的影响.饥饿与再投喂的实验结果表明:条石鲷幼鱼体质量、蛋白酶(胃蛋白酶、胰蛋白酶)与脂肪酶活力随着饥饿时间的延长均呈现明显的下降趋势,体质量与蛋白酶活力在饥饿6d后与对照组表现出显著性差异(P<0.05),脂肪酶活力在饥饿9d后才与对照组表现出显著性差异(P<0.05),而淀粉酶活力在饥饿过程中呈波动性变化;恢复投喂后,除饥饿3d的幼鱼体质量、特定生长率与对照组无明显差异外,其他各处理组均明显低于对照组;蛋白酶与脂肪酶活力在恢复投喂后均有明显回升,且蛋白酶活力与对照组相比已无显著性差异,但较长时间的饥饿处理(9~12 d)并未使脂肪酶活力恢复至对照组水平.投喂频率实验的研究结果表明:随着投喂频率的增加,条石鲷幼鱼的特定生长率呈上升趋势,在投喂频率达到投喂2次/d后,条石鲷幼鱼的特定生长率、消化酶活力及肝体指数差异均不显著.结论认为,在本实验条件下,饥饿3d后再经投喂,条石鲷幼鱼具有完全补偿生长效应,但随着饥饿时间的延长补偿生长的效应逐渐降低.对条石鲷幼鱼而言,选择日投喂两次最合适.  相似文献   

19.
饥饿和恢复投喂对翘嘴鲌幼鱼摄食、生长及体成分的影响   总被引:3,自引:2,他引:1  
研究了在20.3~24.8℃条件下分别饥饿0 d、4 d、8 d、12 d和16 d后恢复投喂16 d对翘嘴鲌(Culter al-burnus)幼鱼摄食、生长及体成分的影响。结果显示:随着饥饿时间延长,幼鱼体质量损失率显著增大;肝体指数变小,水分和灰分含量逐渐升高;粗脂肪含量在饥饿前期下降较快,饥饿后期下降速率降低,各饥饿组与对照组差异显著(P<0.05);粗蛋白含量饥饿前期下降缓慢,饥饿4 d、8 d组与对照组差异不显著(P>0.05),饥饿后期下降明显,饥饿12 d、16 d组与对照组有显著差异(P<0.05);比能值不断下降,除饥饿4 d组外,各饥饿组与对照组都有显著差异(P<0.05)。恢复投喂后,各饥饿组鱼体生化组成和鱼体比能值均恢复至对照组水平,恢复投喂期间各饥饿处理组的摄食率显著高于对照组(P<0.05)。结果表明:饥饿4 d、8 d组翘嘴鲌幼鱼具有完全补偿生长能力;饥饿12 d、16 d幼鱼仅有部分补偿生长能力。  相似文献   

20.
We evaluated whether body fat content affects the energetic metabolism and growth in pacu submitted to daily feeding, fasting and refeeding. For 15 days, fish were fed different diets to obtain lean and fat conditions, and then subjected, for 20 days to: (1) continuously feeding (control), or (2) fasting for 15 days and refeeding for 5 days. Blood (glucose, triglycerides, cholesterol, non‐esterified fatty acids and total protein) and tissue (liver lipid and glycogen, muscle lipid and mesenteric fat) metabolic indicators, and growth performance parameters (weight gain, specific growth rate, daily feed intake and feed conversion ratio) were measured. Fasting led both lean and fat pacu to make notable use of their energy reserves, through glycogenolysis and lipolysis, reflected in reduced blood glucose and triglycerides, liver glycogen and muscle lipid levels. Lipolysis was confirmed by the high levels of non‐esterified fatty acids, especially in fat pacu. Refeeding led to higher plasma glucose and liver lipid in lean fish. Muscle fat increased in fat fish but was not restored in lean fish, while mesenteric fat index (MFI) remained the same in fat fish and increased in lean fish. Although refeeding occurred only for 5 days, lean fish grew more and were more efficient at utilizing food (higher weight gain and better feed conversion ratio). In conclusion, our results suggest that fat pacu have higher glycogenic and lipogenic abilities, and the higher deposition of lipids in fish does not mean higher availability of energy for growth when compensatory growth is stimulated by refeeding after fasting.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号