在低能量饲粮中添加复合酶制剂对肉鸡生长性能、胴体特性和肉质的影响。
Growth, carcass characteristics, and meat quality of broilers fed a low-energy diet supplemented with a multienzyme preparation.
机构信息
Department of Animal Production, College of Food and Agricultural Sciences, King Saud University, 11451 Riyadh, Saudi Arabia.
Department of Animal Production, College of Food and Agricultural Sciences, King Saud University, 11451 Riyadh, Saudi Arabia; Department of Meat Production, Faculty of Animal Production, University of Khartoum, Sudan.
出版信息
Poult Sci. 2020 Apr;99(4):1988-1994. doi: 10.1016/j.psj.2019.09.007. Epub 2020 Mar 10.
The effect of a low-ME diet with a multienzyme (Kemzyme Plus, Kemin, Des Moines, IA) blend on performance, meat quality, and carcass traits was evaluated in Hubbard broiler chicks. A total of 120 Hubbard broiler chicks were allocated to the following 4 experimental groups and every group was separated into 6 replicates, with 5 birds per replicate: control (3,180 kcal/kg of ME), control + 0.50 g/kg diet of enzyme (Cont-Enz), low-ME diet (3,080 kcal/kg), and low-ME + 0.50 g/kg diet of enzyme (low-ME-Enz). The trail lasted for 16 D (32 to 48 D of age). No significant differences in growth parameters or carcass traits were observed among treatments. However, liver weight increased with the low-ME-Enz diet (P = 0.038). The low-ME diet recorded the highest weight for the bursa (P = 0.043) and thymus (P = 0.019). Dietary treatments had significant impacts on the length of duodenum, ileum, and cecum, as well as the weight of duodenum. The length of duodenum, ileum, and cecum increased with enzyme supplementation. The myofibril fragmentation index was lower with the Cont-Enz, low-ME, and low-ME-Enz diets than with the control diet (P = 0.043). The shear force increased with the low-ME-Enz diet (P = 0.022) than the control diet. Dietary treatments influenced breast meat yellowness (P = 0.019), whereas the low-ME diet had the lowest yellowness at the slaughtering age. The dietary treatments affected the breast meat pH (P = 0.001), with the control diet having the highest pH value after 24 hours. Thus, there was no effect of low-ME or enzyme supplementation to the control or low-ME diet on growth performance or carcass yield. However, feeding a low-ME diet or Cont-Enz preparation influenced organ and small intestine weights and meat characteristics.
在哈伯德肉鸡雏鸡中评估了低 ME 饮食与多种酶(Kemin,Des Moines,IA 的 Kemzyme Plus)混合物对性能、肉质和胴体特性的影响。共有 120 只哈伯德肉鸡雏鸡被分配到以下 4 个实验组,每个组分为 6 个重复,每个重复 5 只鸡:对照组(ME 为 3180 千卡/千克)、对照组+0.50 克/千克饮食酶(Cont-Enz)、低 ME 饮食(ME 为 3080 千卡/千克)和低 ME+0.50 克/千克饮食酶(低 ME-Enz)。试验持续 16 天(32 至 48 日龄)。处理之间的生长参数或胴体特性没有显著差异。然而,肝重随着低 ME-Enz 饮食而增加(P=0.038)。低 ME 饮食记录了法氏囊(P=0.043)和胸腺(P=0.019)的最高重量。饮食处理对十二指肠、回肠和盲肠的长度以及十二指肠的重量有显著影响。十二指肠、回肠和盲肠的长度随着酶的补充而增加。与对照饮食相比,Cont-Enz、低 ME 和低 ME-Enz 饮食的肌原纤维碎片指数较低(P=0.043)。随着低 ME-Enz 饮食(P=0.022)的增加,剪切力增加。饮食处理影响胸肉黄度(P=0.019),而低 ME 饮食在屠宰年龄时黄度最低。饮食处理影响胸肉 pH 值(P=0.001),对照组饮食 24 小时后 pH 值最高。因此,低 ME 或酶补充对生长性能或胴体产率没有影响。然而,低 ME 饮食或 Cont-Enz 制剂喂养会影响器官和小肠的重量和肉质。
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