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3
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4
Critical evaluation of in vitro methods for estimating digestibility in simple-stomach animals.对用于估计单胃动物消化率的体外方法的批判性评价。
Nutr Res Rev. 1991 Jan;4(1):141-62. doi: 10.1079/NRR19910012.
5
Prediction of in vivo apparent total tract energy digestibility of barley in grower pigs using an in vitro digestibility technique.使用体外消化技术预测生长猪体内大麦的表观总消化道能量消化率
J Anim Sci. 2008 Oct;86(10):2619-26. doi: 10.2527/jas.2008-1058. Epub 2008 Jun 20.
6
Effects of dietary energy on growth performance and carcass quality of white growing pekin ducks from two to six weeks of age.日粮能量对2至6周龄白羽北京鸭生长性能和胴体品质的影响。
Poult Sci. 2008 Jun;87(6):1162-4. doi: 10.3382/ps.2007-00460.
7
Apparent and true metabolizable energy values of feedstuffs for ducks.鸭饲料的表观代谢能值和真代谢能值
Poult Sci. 1997 Oct;76(10):1418-23. doi: 10.1093/ps/76.10.1418.
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Determination of metabolizable energy contents of feed ingredients for ducks.鸭饲料原料代谢能含量的测定。
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Feeding and excreta collection techniques in metabolizable energy assays for ducks.鸭代谢能测定中的饲喂与排泄物收集技术
Poult Sci. 1997 May;76(5):728-32. doi: 10.1093/ps/76.5.728.
10
Effect of dietary protein and energy on broiler performance and production costs.日粮蛋白质和能量对肉鸡生产性能及生产成本的影响。
Poult Sci. 1982 Nov;61(11):2232-40. doi: 10.3382/ps.0612232.

用酶解物总能来配制鸭饲料的可行性。

The feasibility of enzyme hydrolysate gross energy for formulating duck feeds.

机构信息

State Key Laboratory of Animal Nutrition, Key Laboratory of Animal (Poultry) Genetics Breeding and Reproduction, Ministry of Agriculture and Rural Affairs, Institute of Animal Science, Chinese Academy of Agricultural Sciences, Beijing 100193, China.

State Key Laboratory of Animal Nutrition, Key Laboratory of Animal (Poultry) Genetics Breeding and Reproduction, Ministry of Agriculture and Rural Affairs, Institute of Animal Science, Chinese Academy of Agricultural Sciences, Beijing 100193, China.

出版信息

Poult Sci. 2020 Aug;99(8):3941-3947. doi: 10.1016/j.psj.2020.03.046. Epub 2020 Apr 25.

DOI:10.1016/j.psj.2020.03.046
PMID:32731981
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7597926/
Abstract

Two experiments were designed to investigate the feasibility of enzyme hydrolysate gross energy (EHGE) for formulating duck feeds. In experiment 1, six mixed diets and 6 experimental diets (compound feeds) with 20% CP were formulated, and their EHGE, AME, and TME were determined so as to analyze the correlation between EHGE and AME, TME. In experiment 2, six experimental diets with different EHGE levels were further arranged to determine the EHGE requirement for Pekin ducks from hatch to 21 D of age. A total of 384 freshly hatched ducklings was randomly divided into 6 experimental treatments, each treatment containing 8 replicates with 8 ducks per replicate. The results showed that there were a linear correlation between EHGE and AME (r = 0.998, P < 0.01), TME (r = 0.997, P < 0.01) for 6 mixed diets, and the regression models were AME = 0.996 × EHGE-1.062 (R = 0.996, P < 0.01), TME = 0.997 × EHGE+0.304 (R = 0.995, P < 0.01). For the 6 experimental diets, EHGE was also positively correlated with AME (r = 0.983, P < 0.01), TME (r = 0.984, P < 0.01), and the regression models were AME = 1.2054 × EHGE-3.180 (R = 0.967, P < 0.01), TME = 1.2054 × EHGE-1.783 (R = 0.967, P < 0.01). According to the broken-line model and optimal BW, the EHGE requirement for ducks from hatch to 21 D of age was 2,937 kcal/kg (calculated value), 3,182 kcal/kg (determined value). In conclusion, EHGE could be used to predict the AME and TME values for mixed diets and compound feeds based on established regression models, and the simulated digestion method in vitro has the potential for effective energy evaluation and formulation for duck feeds.

摘要

两个实验旨在研究酶解粗能(EHGE)在配制鸭饲料中的可行性。在实验 1 中,设计了 6 种混合日粮和 6 种 20%CP 的实验日粮(配合饲料),并测定了它们的 EHGE、AME 和 TME,以分析 EHGE 与 AME、TME 之间的相关性。在实验 2 中,进一步安排了 6 种不同 EHGE 水平的实验日粮,以确定从孵化到 21 日龄鸭的 EHGE 需要量。共有 384 只刚孵化的雏鸭随机分为 6 个实验处理,每个处理含 8 个重复,每个重复 8 只鸭。结果表明,6 种混合日粮的 EHGE 与 AME(r = 0.998,P < 0.01)、TME(r = 0.997,P < 0.01)呈线性相关,回归模型为 AME = 0.996×EHGE-1.062(R = 0.996,P < 0.01),TME = 0.997×EHGE+0.304(R = 0.995,P < 0.01)。对于 6 种实验日粮,EHGE 与 AME(r = 0.983,P < 0.01)、TME(r = 0.984,P < 0.01)也呈正相关,回归模型为 AME = 1.2054×EHGE-3.180(R = 0.967,P < 0.01),TME = 1.2054×EHGE-1.783(R = 0.967,P < 0.01)。根据折线模型和最佳 BW,从孵化到 21 日龄鸭的 EHGE 需要量为 2937kcal/kg(计算值)、3182kcal/kg(实测值)。结论:基于建立的回归模型,EHGE 可用于预测混合日粮和配合饲料的 AME 和 TME 值,体外模拟消化法具有有效能量评价和鸭饲料配方的潜力。