肉鸡年龄对膨化豆粕表观代谢能和净能的影响不同。
Broiler Age Differently Affects Apparent Metabolizable Energy and Net Energy of Expanded Soybean Meal.
作者信息
Jiang Qiuyu, Liu Yongfa, Ban Zhibin, Zhang Bingkun
机构信息
State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University, No. 2, Yuanmingyuan West Road, Haidian District, Beijing 100193, China.
Laboratory of Animal Nutrition Metabolism, Jilin Academy of Agricultural Sciences, Gongzhuling 136100, China.
出版信息
Animals (Basel). 2024 Apr 16;14(8):1198. doi: 10.3390/ani14081198.
Accurately determining the energy values of ingredients is crucial for meeting energy requirements and achieving maximum production performance of animals. This study was conducted to measure the available energy values of three expanded soybean meals () for Arbor Acres male broilers from 14 to 16 day and 28 to 30 day using the difference method. A corn-soybean basal diet was formulated, and test diets were developed with 25% ESBMs as substitutes for energy-yielding ingredients. A completely randomized design was used for determining heat production and energy balance of broilers in 12 open-circuit respiration chambers, with six replicates per group. Prior to measurement, four (14 to 16 day) or two (28 to 30 day) birds per chamber were given a 4-day adaption to diets and chambers. The period lasted for 3 days to determine the apparent metabolizable energy (), nitrogen balance, gas exchanges, and heat production. Broilers fed test diets with 25% ESBM exhibited higher nitrogen intake ( < 0.05), nitrogen excreta ( < 0.05), and increased energy deposition as protein irrespective of age ( < 0.05). Furthermore, results showed that AME, nitrogen corrected AME (), and net energy () values of 3 ESBMs averaged 10.48, 8.93, and 6.88 MJ/kg for broilers from 14 to 16 day, while averaged 11.91, 10.42, and 6.43 MJ/kg for broilers from 28 to 30 day. Broilers from 28 to 30 day showed significantly higher AMEn values but lower NE/AME values of ESBMs compared with those from 14 to 16 day ( < 0.05). Therefore, age-dependent energy values of a single ingredient should be considered in feed formulations to optimize economic returns.
准确测定饲料原料的能量值对于满足动物的能量需求和实现最大生产性能至关重要。本研究采用差值法测定了14至16日龄和28至30日龄的爱拔益加雄性肉鸡对三种膨化大豆粕的可利用能量值。配制了玉米 - 大豆基础日粮,并开发了用25%膨化大豆粕替代能量产生成分的试验日粮。采用完全随机设计,在12个开路呼吸室中测定肉鸡的产热和能量平衡,每组6个重复。在测量前,每个呼吸室给4只(14至16日龄)或2只(28至30日龄)鸡4天时间适应日粮和呼吸室。该阶段持续3天,以测定表观代谢能、氮平衡、气体交换和产热。无论年龄大小,饲喂含25%膨化大豆粕试验日粮的肉鸡表现出较高的氮摄入量(P<0.05)、氮排泄量(P<0.05),并且作为蛋白质的能量沉积增加(P<0.05)。此外,结果表明,14至16日龄肉鸡的三种膨化大豆粕的AME、氮校正AME和净能值平均分别为10.48、8.93和6.88 MJ/kg,而28至30日龄肉鸡的平均分别为11.91、10.42和6.43 MJ/kg。与14至16日龄的肉鸡相比,28至30日龄的肉鸡膨化大豆粕的AMEn值显著更高,但NE/AME值更低(P<0.05)。因此,在饲料配方中应考虑单一原料随年龄变化的能量值,以优化经济效益。
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