Re-evaluation of recent research on metabolic utilization of energy in poultry: Recommendations for a net energy system for broilers

IF 6.3 Animal Nutrition Pub Date : 2023-12-07 DOI:10.1016/j.aninu.2023.10.006
Jean Noblet , Aye-Cho Tay-Zar , Shu-Biao Wu , Pairat Srichana , Pierre Cozannet , Pierre-André Geraert , Mingan Choct
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Abstract

Different energy systems have been proposed for energy evaluation of feeds for domestic animals. The oldest and most commonly used systems take into account the fecal energy loss to obtain digestible energy (DE), and fecal, urinary and fermentation gases energy losses to calculate metabolizable energy (ME). In the case of ruminants and pigs, the net energy (NE) system, which takes into account the heat increment associated with the metabolic utilization of ME, has progressively replaced the DE and ME systems over the last 50 years. For poultry, apparent ME (AME) is used exclusively and NE is not yet used widely. The present paper considers some important methodological points for measuring NE in poultry feeds and summarizes the available knowledge on NE systems for poultry. NE prediction equations based on a common analysis of three recent studies representing a total of 50 complete and balanced diets fed to broilers are proposed; these equations including the AME content and easily available chemical indicators have been validated on another set of 30 diets. The equations are applicable to both ingredients and complete diets. They rely primarily on an accurate and reliable AME value which then represents the first limiting predictor of NE value. Our analysis indicates that NE would be a better predictor of broiler performance than AME and that the hierarchy between feeds is dependent on the energy system with a higher energy value for fat and a lower energy value for protein in an NE system. Practical considerations for implementing such an NE system from the commonly used AME or AMEn (AME adjusted for zero nitrogen balance) systems are presented. In conclusion, there is sufficient information to allow the implementation of the NE concept in order to improve the accuracy of feed formulation in poultry.

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重新评估家禽能量代谢利用的最新研究:关于肉鸡净能系统的建议
针对家畜饲料的能量评估提出了不同的能量体系。最古老也是最常用的能量系统考虑了粪便能量损失以获得可消化能(DE),以及粪便、尿液和发酵气体能量损失以计算代谢能(ME)。对于反刍动物和猪来说,净能(NE)系统考虑了与代谢能利用相关的热增量,在过去的 50 年里逐渐取代了可消化能和代谢能系统。家禽只使用表观能耗(AME),而净能耗尚未得到广泛应用。本文探讨了测量家禽饲料中 NE 的一些重要方法,并总结了有关家禽 NE 系统的现有知识。本文提出了NE预测方程,该方程基于对近期三项研究的共同分析,代表了总共50种饲喂肉鸡的全价平衡日粮;这些方程包括AME含量和易于获得的化学指标,已在另一组30种日粮上得到验证。这些公式适用于原料和全价日粮。它们主要依赖于准确可靠的 AME 值,AME 值是预测 NE 值的第一限制因素。我们的分析表明,NE 比 AME 更能预测肉鸡的生产性能,而且饲料之间的层次结构取决于能量系统,在 NE 系统中,脂肪的能量值较高,蛋白质的能量值较低。本文还介绍了从常用的 AME 或 AMEn(根据零氮平衡调整的 AME)系统中实施 NE 系统的实际考虑因素。总之,有足够的信息允许实施 NE 概念,以提高家禽饲料配方的准确性。
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来源期刊
Animal Nutrition
Animal Nutrition Animal Science and Zoology
CiteScore
9.70
自引率
0.00%
发文量
542
审稿时长
65 days
期刊介绍: Animal Nutrition encompasses the full gamut of animal nutritional sciences and reviews including, but not limited to, fundamental aspects of animal nutrition such as nutritional requirements, metabolic studies, body composition, energetics, immunology, neuroscience, microbiology, genetics and molecular and cell biology related to primarily to the nutrition of farm animals and aquatic species. More applied aspects of animal nutrition, such as the evaluation of novel ingredients, feed additives and feed safety will also be considered but it is expected that such studies will have a strong nutritional focus. Animal Nutrition is indexed in SCIE, PubMed Central, Scopus, DOAJ, etc.
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