Azevedo P A, van Milgen J, Leeson S, Bureau D P
Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario N1G 2W1, Canada.
J Anim Sci. 2005 Apr;83(4):842-51. doi: 10.2527/2005.834842x.
A study was conducted to compare utilization of ME for growth vs. maintenance in rainbow trout and Atlantic salmon. Fish were hand-fed to satiation one of four isoenergetic diets (DE = 20 MJ/kg, as-fed basis) with different digestible protein (DP) to DE ratios (24, 22, 20, and 18 g/MJ). Intake of ME (kJ/d), energy deposited as protein (PD, kJ/d), and energy deposited as lipid (LD, kJ/d) were determined by a comparative slaughter technique. Data were analyzed by a factorial approach or by multivariate analysis of PD and LD on ME. Maintenance energy requirements (ME(m)) and efficiency of ME utilization for PD (k(p)) and LD (k(f)) were estimated with both approaches. For the multivariate analysis, an additional parameter, the fraction of ME intake above maintenance used for PD (X) was defined as linear function of BW, with slope (d) and intercept (c) estimated simultaneously with the above parameters. Estimates were highly dependent on the approach and assumptions used. The ME(m) and k(p) values were higher and less accurate with the factorial approach than with multivariate analysis. The factorial approach estimated unrealistic k(f) values (k(f) > 1). With the multivariate analysis, ME(m) did not differ between species (20 kJ x d(-1) x kg(-0.8)). On the other hand, k(p) was significantly higher (e.g., 0.52 +/- 0.06 vs. 0.43 +/- 0.06; P < 0.05) for salmon than for trout and independent of diet, but k(f) was 0.81 (+/-0.13) regardless of species or diet. The ME intake above ME(m) used for PD (c) was higher in salmon than trout (57 vs. 55%; P < 0.05). The change in partitioning of ME for PD due to the change in BW was negative for trout (d = -0.18), but positive for salmon (d = 0.16). The d values agreed well with the increase of LD:PD ratio with BW for trout and the decrease of LD:PD with BW for salmon, which may have been related to the maturation status of this fish and the associated loss of body lipid observed by maturing salmon. In conclusion, ME(m) and cost of LD were similar for rainbow trout and Atlantic salmon, but the cost of PD was lower for salmon than for trout.
开展了一项研究,以比较虹鳟和大西洋鲑鱼用于生长与维持的代谢能利用情况。将鱼人工投喂至饱足,投喂四种等能量日粮(消化能 = 20兆焦/千克,以投喂量计)之一,这些日粮具有不同的可消化蛋白(DP)与消化能比值(24、22、20和18克/兆焦)。通过比较屠宰技术测定代谢能摄入量(千焦/天)、以蛋白质形式沉积的能量(PD,千焦/天)和以脂肪形式沉积的能量(LD,千焦/天)。数据采用析因法或对PD和LD与代谢能进行多变量分析。两种方法均估算了维持能量需求(ME(m))以及代谢能用于PD(k(p))和LD(k(f))的利用效率。对于多变量分析,定义了一个额外参数,即高于维持量的代谢能摄入量中用于PD的部分(X),将其定义为体重的线性函数,斜率(d)和截距(c)与上述参数同时估算。估算值高度依赖所采用的方法和假设。与多变量分析相比,析因法得出的ME(m)和k(p)值更高且准确性更低。析因法估算出不切实际的k(f)值(k(f) > 1)。采用多变量分析时,两种鱼的ME(m)没有差异(20千焦×天⁻¹×千克⁻⁰·⁸)。另一方面,鲑鱼的k(p)显著高于虹鳟(例如,0.52±0.06对 0.43±0.06;P < 0.05),且与日粮无关,但无论鱼种或日粮如何,k(f)均为0.81(±0.13)。鲑鱼高于ME(m)的代谢能摄入量中用于PD的部分(c)高于虹鳟(57%对55%;P < 0.05)。由于体重变化导致的代谢能用于PD的分配变化,虹鳟为负(d = -0.18),而鲑鱼为正(d = 0.16)。d值与虹鳟体重增加时LD:PD比值的增加以及鲑鱼体重增加时LD:PD比值的降低情况吻合良好,这可能与鱼的成熟状态以及成熟鲑鱼观察到的体脂损失有关。总之,虹鳟和大西洋鲑鱼的ME(m)和LD成本相似,但鲑鱼的PD成本低于虹鳟。
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