Macelline Shemil P, Chrystal Peter V, Selle Peter H, Liu Sonia Y
Poultry Research Foundation, The University of Sydney, Camden NSW 2570, Australia.
School of Life and Environmental Sciences, Faculty of Science, The University of Sydney, Sydney NSW 2006, Australia.
Anim Nutr. 2022 Feb 3;9:204-213. doi: 10.1016/j.aninu.2022.01.003. eCollection 2022 Jun.
A total of 360 male, off-sex Ross 308 chicks were offered 10 dietary treatments from 14 to 35 d post-hatch in an equilateral-triangle response surface design feeding study in order to confirm the importance of protein and amino acid digestive dynamics in broiler chickens. The 3 apical diets were nutritionally-equivalent containing either soybean meal, non-bound amino acids or whey protein concentrate as the major source of dietary protein and amino acids. Appropriate blends of the 3 apical diets comprised the balance of 7 diets and each dietary treatment was offered to 6 replicate cages with 6 birds per cage. Growth performance, nutrient utilisation, apparent protein and starch digestibility coefficients were determined in 4 small intestinal segments. The optimal weight gain (2,085 g/bird) and feed conversion ratios (FCR, 1.397) were generated by Diet 50S50W which included a 50:50 blend of apical diets rich in whey protein concentrate and soybean meal. Broiler chickens offered Diet 50S50W also had the highest experimental and predicted jejunal digestibility (0.685 in proximal jejunum and 0.823 in distal jejunum). FCR was not correlated with apparent distal ileal digestibility coefficient ( > 0.05) of protein but was correlated with apparent protein digestibility in proximal jejunum ( -0.369, = 0.040) and distal jejunum ( -0.316, = 0.015). Surplus dietary starch was correlated with increased fat pad weight ( 0.781, = 0.008). The findings confirmed the relevance of protein digestion rate, reflected by jejunal digestibility, on feed conversion of broiler chickens. A balance between protein-bound and non-bound crystalline or synthetic amino acids may be required for optimal growth and protein digestion.
在一项等边三角形响应曲面设计饲养研究中,从孵化后14天到35天,共360只雄性罗斯308肉仔鸡接受了10种日粮处理,以确定蛋白质和氨基酸消化动力学在肉鸡中的重要性。3种顶端日粮在营养上等效,分别以豆粕、非结合氨基酸或乳清蛋白浓缩物作为日粮蛋白质和氨基酸的主要来源。3种顶端日粮的适当混合组成了其余7种日粮,每种日粮处理提供给6个重复笼,每个笼6只鸡。在4个小肠段测定生长性能、养分利用率、表观蛋白质和淀粉消化率系数。日粮50S50W(包含富含乳清蛋白浓缩物和豆粕的顶端日粮各50%的混合物)产生了最佳体重增加(2085克/只)和饲料转化率(FCR,1.397)。接受日粮50S50W的肉鸡在空肠的实验和预测消化率也最高(近端空肠为0.685,远端空肠为0.823)。FCR与蛋白质的表观回肠远端消化率系数不相关(P>0.05),但与近端空肠(P=-0.369,P=0.040)和远端空肠(P=-0.316,P=0.015)的表观蛋白质消化率相关。日粮淀粉过剩与脂肪垫重量增加相关(P=0.781,P=0.008)。研究结果证实了空肠消化率所反映的蛋白质消化率与肉鸡饲料转化率的相关性。为实现最佳生长和蛋白质消化,可能需要结合型和非结合型结晶或合成氨基酸之间的平衡。
