Department of Agronomy, Food, Natural resources, Animals and Environment (DAFNAE), Università degli Studi di Padova, Viale dell'Università 16, 35020 Legnaro (PD), Italy.
J Anim Sci. 2012 Nov;90(11):3973-87. doi: 10.2527/jas.2011-4314. Epub 2012 Jul 24.
The hypothesis tested in this paper is that double-muscled (DBM) and conventional cattle, considerably differing in body composition, have similar NE requirements when: a) NE(m) is scaled as a function of current (P(i)) and adult (P(m)) protein mass; and b) ME for gain (ME(g)) is estimated from protein (Pr) and lipid (Lr) retention and their partial ME use efficiencies, the k(p) and k(l) values, respectively. First, 2 databases were examined: 1 was developed combining well known literature information from comparative slaughter trials conducted on British beef steers; the other was based on a trial conducted using extremely lean DBM Piemontese bulls. From the first database, NE(m) was calculated to be 1.625 × P(i) ÷ P(m) × P(m)(0.73) (MJ/kg(0.73)). From the second database, the daily ME(g) was determined as 22.8 MJ × Pr ÷ k(p) + 38.74 MJ × Lr ÷ k(l), assuming (from prior reports) that k(p) = 0.20 and k(l) = 0.75. Thereafter, ME(m) was defined as ME intake minus ME(g), and, hence, NE(m) was predicted as 1.625 × P(i) ÷ P(m) × P(m)(0.73) (where 1.625 was the value obtained from the first dataset). The resulting k(m) (NE(m)/ME(m)) averaged 0.67. This k(m) value did not differ from that (0.65; P = 0.12) predicted by Garrett's equation, which uses dietary ME content as the only predictive variable. Second, the procedure was tested for the ability to detect effects on k(m) caused by increasing BW and dietary factors not estimable from the dietary ME content only. Data were gathered from a trial involving 48 DBM Piemontese bulls divided into 4 groups fed 1 of 4 diets differing in CP content (145 or 108 g/kg DM), with or without addition of 80 g/d of rumen-protected CLA (rpCLA). Bulls were examined at 3 consecutive periods of growth, corresponding to 365, 512 and 631 kg of average BW. All energy balance items were influenced by increasing BW, except k(m) (P = 0.61), in agreement with the expectation that NE(m) requirement depends on the degree of maturity (P(i)/P(m)) and the P(m)(0.73) of an animal, whereas k(m) reflects characteristics of the feed provided. The k(m) value was also influenced by the CP × rpCLA interaction (P = 0.013). We conclude that DBM and British beef steers have similar NE requirements when these are scaled as a function of P(i) and P(m), and gain composition, considering Pr, k(p), Lr and k(l). The proposed procedure will be useful to predict the energy requirements and feed use in cattle of different types that vary in BW, provided that body and gain compositions are known or accurately predicted.
当:a)将净能(NE(m))作为当前(P(i))和成年(P(m))蛋白质质量的函数进行缩放;b)从蛋白质(Pr)和脂质(Lr)的保留和它们的部分净能利用效率(分别为 k(p)和 k(l))来估计用于增重的代谢能(ME(g))时,具有显著不同体组成的双肌牛(DBM)和传统牛具有相似的 NE 需求。首先,检查了 2 个数据库:1 个数据库是通过对英国肉牛进行的比较屠宰试验的知名文献信息组合而成;另一个数据库则是基于使用极其瘦的 DBM 皮埃蒙特公牛进行的试验。从第一个数据库中,计算出 NE(m)为 1.625×P(i)÷P(m)×P(m)(0.73)(MJ/kg(0.73))。从第二个数据库中,每天的 ME(g)被确定为 22.8 MJ×Pr÷k(p)+38.74 MJ×Lr÷k(l),假设(根据先前的报告)k(p)=0.20 和 k(l)=0.75。此后,ME(m)被定义为 ME 摄入量减去 ME(g),因此,NE(m)被预测为 1.625×P(i)÷P(m)×P(m)(0.73)(其中 1.625 是从第一个数据集获得的值)。由此得到的 k(m)(NE(m)/ME(m))平均为 0.67。这个 k(m)值与 Garrett 方程(使用日粮 ME 含量作为唯一预测变量)预测的值(0.65;P=0.12)没有差异。其次,测试了该方法检测由于 BW 增加和仅从日粮 ME 含量无法估计的日粮因素对 k(m)的影响的能力。该试验的数据来自于涉及 48 头 DBM 皮埃蒙特公牛的试验,这些公牛被分为 4 组,分别饲喂 4 种不同 CP 含量(145 或 108 g/kg DM)的日粮,其中一些日粮添加了 80 g/d 的瘤胃保护性 CLA(rpCLA)。公牛在连续 3 个生长阶段进行检查,对应于平均 BW 的 365、512 和 631 kg。除了 k(m)(P=0.61)外,所有能量平衡项目都受到 BW 增加的影响,这与 NE(m)需求取决于成熟度(P(i)/P(m))和动物的 P(m)(0.73)的预期一致,而 k(m)反映了提供的饲料的特性。k(m)值还受到 CP×rpCLA 相互作用的影响(P=0.013)。我们得出结论,当以 P(i)和 P(m)以及增益组成、Pr、k(p)、Lr 和 k(l)为函数对 DBM 和英国肉牛的 NE 需求进行缩放时,它们具有相似的 NE 需求。只要知道或准确预测牛的 BW 和增益组成,提出的方法将有助于预测不同 BW 类型牛的能量需求和饲料利用。
