杂交奶牛育肥牛的营养需求及预测其化学体组成方程的评估
Nutrient requirements and evaluation of equations to predict chemical body composition of dairy crossbred steers.
作者信息
Silva Flavia Adriane de Sales, Valadares Filho Sebastião de Campos, Costa E Silva Luiz Fernando, Fernandes Jaqueline Gonçalves, Lage Bruno Corrêa, Chizzotti Mario Luiz, Felix Tara Louise
机构信息
Department of Animal Science, Universidade Federal de Viçosa, Viçosa 36570-900, Brazil.
Alltech do Brasil Agroindustrial, Maringá 87050220, Brazil.
出版信息
Anim Biosci. 2021 Apr;34(4):558-566. doi: 10.5713/ajas.19.0829. Epub 2020 Jun 24.
OBJECTIVE
Objectives were to estimate energy and protein requirements of dairy crossbred steers, as well as to evaluate equations previously described in the literature (HH46 and CS16) to predict the carcass and empty body chemical composition of crossbred dairy cattle.
METHODS
Thirty-three Holstein × Zebu steers, aged 19 ± 1 months old, with an initial shrunk body weight of 324 ± 7.7 kg, were randomly divided into three groups: reference group (n = 5), maintenance level (1.17% BW; n = 4), and the remaining 24 steers were randomly allocated to 1 of 4 treatments. Treatments were: intake restricted to 85% of ad libitum feed intake for either 0, 28, 42, or 84 d of an 84-d finishing period.
RESULTS
The net energy and the metabolizable protein requirements for maintenance were 0.083 Mcal/EBW0.75/d and 4.40 g/EBW0.75, respectively. The net energy (NEG) and protein (NPG) requirements for growth can be estimated with the following equations: NEG (Mcal/kg EBG) = 0.2973(± 0.1212) × EBW0.4336(± 0.1002) and NPG (g/d) = 183.6(± 22.5333) × EBG - 2.0693(± 4.7254) × RE, where EBW = empty body weight, EBG = empty body gain, and RE = retained energy. Crude protein (CP) and ether extract (EE) chemical contents in carcass, and all the chemical components in the empty body were precisely and accurately estimated by CS16 equations. However, water content in carcass was better predicted by HH46 equation.
CONCLUSION
The equations proposed in this study can be used for estimating the energy and protein requirements of crossbred dairy steers. The CS16 equations were the best estimator for CP and EE chemical contents in carcass, and all chemical components in the empty body of crossbred dairy steers, whereas water in carcass was better estimated using the HH46 equations.
目的
本研究旨在估算杂交奶牛育肥牛的能量和蛋白质需求,并评估文献中先前描述的方程(HH46和CS16),以预测杂交奶牛的胴体和空体化学成分。
方法
选取33头荷斯坦×泽布杂交育肥牛,年龄为19±1月龄,初始缩重体重为324±7.7kg,随机分为三组:对照组(n=5)、维持水平组(1.17%体重;n=4),其余24头牛随机分配到4种处理中的1种。处理方式为:在84天的育肥期内,分别限制采食量为自由采食量的85%,持续0、28、42或84天。
结果
维持所需的净能量和可代谢蛋白质分别为0.083Mcal/EBW0.75/d和4.40g/EBW0.75。生长所需的净能量(NEG)和蛋白质(NPG)需求可用以下方程估算:NEG(Mcal/kg EBG)=0.2973(±0.1212)×EBW0.4336(±0.1002),NPG(g/d)=183.6(±22.5333)×EBG - 2.0693(±4.7254)×RE,其中EBW为空体体重,EBG为空体增重,RE为保留能量。CS16方程能精确准确地估算胴体中的粗蛋白(CP)和乙醚提取物(EE)化学含量,以及空体中的所有化学成分。然而,HH46方程对胴体水分含量的预测效果更好。
结论
本研究提出的方程可用于估算杂交奶牛育肥牛的能量和蛋白质需求。CS16方程是估算杂交奶牛胴体中CP和EE化学含量以及空体中所有化学成分的最佳方程,而HH46方程对胴体水分的估算效果更好。
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