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查看次數:8827
時間:2018-12-11雙低菜籽粕生長豬凈能值測定及實驗方法對能值的影響
J W Kim, B Koo, C M Nyachoti
翻譯:李平 校對: 上海亙泰實業集團
本試驗測定了雙低菜籽粕(CM)的消化能(DE)、代謝能(ME)和凈能(NE)含量,并且研究了基礎日糧[玉米日糧和玉米-豆粕(SBM)日糧],及不同測定方法(替代法和回歸法)對雙低菜籽粕能值的影響。
將36頭生長期去勢公豬(初始體重20.8±1.0kg)單獨飼養在代謝籠中,并隨機分配到6種日糧處理中,每個處理6個重復。6種試驗日糧包括玉米日糧,玉米-豆粕日糧,含15%或30%雙低菜籽粕的玉米日糧,和含15%或30%雙低菜籽粕的玉米-豆粕日糧。雙低菜籽粕的DE、ME和NE由玉米日糧或玉米-豆粕日糧作為基礎日糧來測定。在每種基礎日糧中配制2種包含15%或30%雙低菜籽粕的日糧,以通過替代法和回歸法來測定和估算能值。飼喂水平設定為每天550 kcal ME/kg BW0.6。豬飼喂試驗日糧共16天,包括10天適應期和6天全部糞便和尿液收集期。 然后將豬移入間接測熱室以測定24小時產熱量(HP),和12小時禁食產熱量。
無論采用何種基礎日糧,替代法測定雙低菜籽粕的DE、ME和NE均在回歸法測定DE、ME和NE估計的95%置信區間內,這表明替代法和回歸法可以得出基本相同的雙低菜籽粕DE、ME和NE值。 然而,當比較線性模型的擬合優度時,玉米-豆粕日糧回歸分析的相關系數r2(0.78)相對于玉米日糧的(0.40)更高。根據玉米日糧和玉米-豆粕日糧做出的預測方程,所得到雙低菜籽粕的預測NE值分別為2,096 kcal/kg和1,960kcal/kg(飼喂基礎),而用替代法測定的NE值分別為2,233kcal/kg和2,106 kcal/kg(飼喂基礎)。
總之,在此次研究中測定的雙低菜籽粕的NE值平均為2,099 kcal/kg(飼喂基礎)。在生長豬階段,使用替代法和回歸法來測定雙低菜籽粕的NE值,并沒有得出明顯不同的結果。雖然使用玉米日糧或玉米-豆粕日糧測定的雙低菜籽粕的NE值沒有差異,但玉米-豆粕日糧回歸分析的相關系數r2比玉米日糧中的r2值更大,這表明玉米-豆粕日糧是用于NE測定更合適的基礎日糧。
關鍵詞:雙低菜粕,產熱量,間接測熱,凈能,豬
Net energy content of canola meal fed to growing pigs and effect of experimental methodology on energy values
J W Kim, B Koo, C M Nyachoti
An experiment was conducted to determine the digestible energy (DE), metabolizable energy (ME), and netenergy (NE) contents of canola meal (CM) and to investigate the effects of basal diet [corn diet vs. corn-soybean meal (SBM) diet] and methodology (difference method vs. regression method) on energy values of CM. Thirty-six growing barrows (20.8 ± 1.0 kg initial body weight [BW]) were individually housed in metabolism crates and randomly allotted to one of six dietary treatments to give six replicates per treatment. The six experimental diets included a corn diet, a corn-SBM diet, a corn diet with 15 or 30% of CM, and acorn-SBM diet with 15 or 30% of CM. The DE, ME, and NE of CM were determined using the corn diet or the corn-SBM diet as a basal diet. In each basal diet, two additional diets containing 15 or 30% of CM were formulated to compare the determined energy values by the difference method and estimated energy values from the regression method. Feeding level was set at 550 kcal ME/kg BW0.6 per day. Pigs were fed experimental diets for 16 d including 10 d for adaptation and 6 d for total collection of feces and urine. Pigs were then moved into indirect calorimetry chambers to determine 24 h heat production (HP) and 12 h fasting HP. The DE, ME, and NE of CM determined by the difference method were within the 95% confidence intervals estimated for the DE, ME, and NE of CM by the regression method regardless of the basal diets used, which indicates that the difference and regression methods give equivalent DE, ME, and NE of CM. However, when the goodness of fit for the linear model was compared, the r2 of the regression analysis from the corn-SBM diet (0.78) was relatively greater than that from corn diet (0.40). The estimated NE of CM by the prediction equations generated by either the corndiet or corn-SBM diets were 2,096 kcal/kg and 1,960 kcal/kg (as-fed basis), respectively, whereas those values determined by the difference method were 2,233 kcal/kg and 2,106 kcal/kg (as-fed basis), respectively. In conclusion,the NE of CM determined in the current study was, on average, 2,099 kcal/kg (as-fed basis). The difference and regression methods do not give different NE value of CM fed to growing pigs. Although the NE values of CM determined using either the corn diet or the corn-SBM diet were not different, the greater r2 of the regression analysis from the corn-SBM diet than that from the corn diet suggests that the corn-SBM diet is a more appropriate basal diet for NE determination of ingredients.
Key words: canola meal, heat production, indirectcalorimetry, net energy, pig