Carstens G E, Johnson D E, Ellenberger M A, Tatum J D
Colorado State University, Fort Collins 80523.
J Anim Sci. 1991 Aug;69(8):3251-64. doi: 10.2527/1991.6983251x.
The composition of carcass and noncarcass tissue growth was quantified by serial slaughter of 26 Angus x Hereford crossbred steers (initial age and weight 289 +/- 4 d and 245 +/- 4 kg) during continuous growth (CON) or compensatory growth (CG) after a period of growth restriction (.4 kg/d) from 245 to 325 kg BW. All steers were fed a 70% concentrate diet at ad libitum or restricted levels. Homogenized samples of 9-10-11th rib and noncarcass tissues were analyzed for nitrogen, fat, ash, and moisture. Growth rate from 325 to 500 kg BW was 1.54 and 1.16 kg/d for CG and CON steers. The weight of gut fill in CG steers was 10.8 kg less (P less than .05) before realimentation and 8.8 kg more (P less than .10) at 500 kg BW than in CON steers. The allometric accretive rates for carcass chemical components relative to the empty body were not affected by treatment. However, the accretive rates for CG steers were greater (P less than .01) for noncarcass protein (.821 vs .265), noncarcass water (.861 vs .507), and empty-body protein (.835 vs. .601) than for CON steers. Final empty-body fat was lower (P less than .001; 24.2 vs 32.4%) and empty-body protein higher (P less than .001; 16.6 vs 14.8%) in CG steers than in CON steers. Consequently, net energy requirements for growth (NEg) were approximately 18% lower for CG steers. We conclude that reduced NEg requirements and changes in gut fill accounted for most of the compensatory growth response exhibited in these steers.
在连续生长(CON)或补偿生长(CG)阶段,对26头安格斯×赫里福德杂交阉牛(初始年龄和体重为289±4天和245±4千克)进行连续屠宰,量化胴体和非胴体组织生长情况。这些阉牛在体重从245千克增长到325千克期间经历了一段时间的生长限制(0.4千克/天),之后进入连续生长或补偿生长阶段。所有阉牛自由采食或限制采食70%精料日粮。对第9 - 10 - 11肋的匀浆样本和非胴体组织进行氮、脂肪、灰分和水分分析。在体重从325千克增长到500千克阶段,补偿生长组(CG)和连续生长组(CON)阉牛的生长速度分别为1.54千克/天和1.16千克/天。补偿生长组阉牛在重新采食前的肠道充盈重量比连续生长组少10.8千克(P < 0.05),在体重达到500千克时比连续生长组多8.8千克(P < 0.10)。胴体化学成分相对于空体的异速生长率不受处理影响。然而,补偿生长组阉牛的非胴体蛋白质(0.821对0.265)、非胴体水分(0.861对0.507)和空体蛋白质(0.835对0.601)的生长率比连续生长组更高(P < 0.01)。补偿生长组阉牛的最终空体脂肪含量更低(P < 0.001;24.2%对32.4%),空体蛋白质含量更高(P < 0.001;16.6%对14.8%)。因此,补偿生长组阉牛的生长净能需求(NEg)大约低18%。我们得出结论,净能需求降低和肠道充盈变化是这些阉牛表现出补偿生长反应的主要原因。
