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標(biāo)題: 25-120kg豬飼喂低蛋白日糧情況下推薦的標(biāo)準(zhǔn)回腸可消化纈氨酸:賴(lài)氨酸 [打印本頁(yè)]

作者: 畜牧編輯 時(shí)間: 2016-8-9 09:41
標(biāo)題: 25-120kg豬飼喂低蛋白日糧情況下推薦的標(biāo)準(zhǔn)回腸可消化纈氨酸:賴(lài)氨酸
　　2015. J. Anim. Sci. 93(10):4761-4773

　　25-120kg豬飼喂低蛋白日糧情況下推薦的標(biāo)準(zhǔn)回腸可消化纈氨酸:賴(lài)氨酸

　　X. T. Liu, W. F. Ma, X. F. Zeng, C. Y. Xie, P. A. Thacker, J. K. Htoo和S. Y. Qiao

　　本論文進(jìn)行4個(gè)為期28天的試驗(yàn)，測(cè)定26-46kg（試驗(yàn)一）、49-70kg（試驗(yàn)二）、71-92kg（試驗(yàn)三）、94-119kg（試驗(yàn)四）階段豬只飼喂低蛋白日糧下合適的可消化纈氨酸:賴(lài)氨酸比例。試驗(yàn)一至三使用150頭杜長(zhǎng)大三元雜交豬，試驗(yàn)四選用90頭育肥豬。四個(gè)試驗(yàn)中所有豬只隨機(jī)分為5個(gè)處理組，每組6圈，閹公豬和母豬各三圈，前三個(gè)試驗(yàn)每圈5頭，試驗(yàn)四每圈3頭。四個(gè)試驗(yàn)中可消化纈氨酸:賴(lài)氨酸試驗(yàn)處理均為0.55、0.60、0.65、0.70、0.75。試驗(yàn)一（26-46kg），隨著日糧可消化纈氨酸:賴(lài)氨酸的提高，日增重有顯著增加（線(xiàn)性，P=0.039;二次線(xiàn)性，P=0.042）。最大日增重時(shí)推薦添加量為0.62（折線(xiàn)模型）和0.71（二次線(xiàn)性模型）。試驗(yàn)二（49-70kg），日增重隨著日糧可消化纈氨酸:賴(lài)氨酸的增加而提高（線(xiàn)性，P=0.021;二次線(xiàn)性，P=0.042），而血漿尿素氮含量隨之降低（線(xiàn)性，P=0.021;二次線(xiàn)性，P=0.024）。日增重最好和血漿尿素氮最低時(shí)推薦比例分別為0.67和0.65（折線(xiàn)模型），使用二次線(xiàn)性模型時(shí)，推薦比例則分別為0.72和0.74。試驗(yàn)三（71-92kg），隨著日糧可消化纈氨酸:賴(lài)氨酸的增加，日增重隨之增加（線(xiàn)性，P=0.007;二次線(xiàn)性，P=0.022），血漿尿素氮隨之降低（線(xiàn)性，P=0.011;二次線(xiàn)性，P=0.034）。日增重最好和血漿尿素氮最低時(shí)推薦比例分別為0.67和0.67（折線(xiàn)模型），使用二次線(xiàn)性模型時(shí)，推薦比例則分別為0.72和0.74。試驗(yàn)四（94-119kg），隨著日糧可消化纈氨酸:賴(lài)氨酸的增加，日增重隨之增加（線(xiàn)性，P=0.041;二次線(xiàn)性，P=0.004），飼料轉(zhuǎn)化率隨之降低（線(xiàn)性，P=0.004;二次線(xiàn)性，P=0.005）。飼料轉(zhuǎn)換率最佳時(shí)推薦比例為0.68（折線(xiàn)模型）或0.72（二次線(xiàn)性模型），血漿尿素氮最低時(shí)推薦比例?？上i氨酸:賴(lài)氨酸比例不影響胴體品質(zhì)和肌肉質(zhì)量。總之，26-46kg、49-70kg、71-92kg、94-119kg階段日糧可消化纈氨酸:賴(lài)氨酸的推薦比例分別為0.62、0.66、0.67、0.68（折線(xiàn)模型）或0.71、0.72、0.73、0.72（二次線(xiàn)性模型）。

　　Estimation of the standardized ileal digestible valine to lysine ratio required for 25- to 120-kilogram pigs fed low crude protein diets supplemented with crystalline amino acids

　　X. T. Liu, W. F. Ma, X. F. Zeng, C. Y. Xie, P. A. Thacker, J. K. Htoo and S. Y. Qiao

　　Four 28-d experiments were conducted to determine the standardized ileal digestible (SID) valine (Val) to lysine (Lys) ratio required for 26- to 46- (Exp. 1), 49- to 70- (Exp. 2), 71- to 92- (Exp. 3), and 94- to 119-kg (Exp. 4) pigs fed low CP diets supplemented with crystalline AA. The first 3 experiments utilized 150 pigs (Duroc × Landrace × Large White), while Exp. 4 utilized 90 finishing pigs. Pigs in all 4 experiments were randomly allocated to 1 of 5 diets with 6 pens per treatment (3 pens of barrows and 3 pens of gilts) and 5 pigs per pen for the first 3 experiments and 3 pigs per pen for Exp. 4. Diets for all experiments were formulated to contain SID Val to Lys ratios of 0.55, 0.60, 0.65, 0.70, or 0.75. In Exp. 1 (26 to 46 kg), ADG increased (linear, P = 0.039; quadratic, P = 0.042) with an increasing dietary Val:Lys ratio. The SID Val:Lys ratio to maximize ADG was 0.62 using a linear broken-line model and 0.71 using a quadratic model. In Exp. 2 (49 to 70 kg), ADG increased (linear, P = 0.021; quadratic, P = 0.042) as the SID Val:Lys ratio increased. G:F improved (linear, P = 0.039) and serum urea nitrogen (SUN) decreased (linear, P = 0.021; quadratic, P = 0.024) with an increased SID Val:Lys ratio. The SID Val:Lys ratios to maximize ADG as well as to minimize SUN levels were 0.67 and 0.65, respectively, using a linear broken-line model and 0.72 and 0.71, respectively, using a quadratic model. In Exp. 3 (71 to 92 kg), ADG increased (linear, P = 0.007; quadratic, P = 0.022) and SUN decreased (linear, P = 0.011; quadratic, P = 0.034) as the dietary SID Val:Lys ratio increased. The SID Val:Lys ratios to maximize ADG as well as to minimize SUN levels were 0.67 and 0.67, respectively, using a linear broken-line model and 0.72 and 0.74, respectively, using a quadratic model. In Exp. 4 (94 to 119 kg), ADG increased (linear, P = 0.041) and G:F was improved (linear, P = 0.004; quadratic, P = 0.005) as the dietary SID Val:Lys ratio increased. The SID Val:Lys ratio to maximize G:F was 0.68 using a linear broken-line model and 0.72 using a quadratic model. Carcass traits and muscle quality were not influenced by SID Val:Lys ratio. In conclusion, the dietary SID Val:Lys ratios required for 26- to 46-, 49- to 70-, 71- to 92-, and 94- to 119-kg pigs were estimated to be 0.62, 0.66, 0.67, and 0.68, respectively, using a linear broken-line model and 0.71, 0.72, 0.73, and 0.72, respectively, using a quadratic model。
本文由上海亙泰企業(yè)提供，感謝特此供稿！

作者: 山中的漫游者 時(shí)間: 2016-8-10 00:07
低蛋白背景下，我推薦使用二次線(xiàn)性模型，也就是較高比例的纈氨酸用量

作者: dingjq03 時(shí)間: 2016-9-27 14:24
其實(shí)實(shí)際上的配方，這個(gè)比例都能滿(mǎn)足2次模型

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