动物营养学报
動物營養學報
동물영양학보
ACTA ZOONUTRIMENTA SINICA
2015年
6期
1740-1749
,共10页
贺喜%陈达图%胡官波%刘耕%李霞%叶小飞%闫景彩%张石蕊
賀喜%陳達圖%鬍官波%劉耕%李霞%葉小飛%閆景綵%張石蕊
하희%진체도%호관파%류경%리하%협소비%염경채%장석예
大米蛋白%消化能%代谢能%全收粪法%预测模型
大米蛋白%消化能%代謝能%全收糞法%預測模型
대미단백%소화능%대사능%전수분법%예측모형
rice protein%digestible energy%metabolic energy%total feces collection method%prediction model
本试验通过采集我国多个地区大米蛋白样品,分析大米蛋白常规成分,测定生长猪消化能( DE)、代谢能( ME),建立大米蛋白常规成分与生长猪DE、ME之间的关系。试验选用体重(33.0±1.3) kg的“杜×长×大”三元杂交健康去势公猪12头,采用2个6×6拉丁方试验设计,包括1种基础饲粮和11种大米蛋白替代15%基础饲粮的试验饲粮。采用全收粪法和套算法结合测定大米蛋白猪DE、ME,并将大米蛋白的常规成分与猪DE、ME进行相关和回归分析,建立大米蛋白猪 DE、ME 预测模型。结果表明,11种大米蛋白风干基础下猪 DE 为(18.13±1.12) MJ/kg,ME为(16.44±1.59) MJ/kg。由此得出,大米蛋白猪 DE 最佳预测模型(绝干基础)为DE=22.17-0.51NDF(R2=0.50,RSD=0.93),DE=18.58-0.49CF+0.31EE(R2=0.70, RSD=0.77);ME最佳预测模型(绝干基础)为ME=21.42-0.74NDF (R2=0.52,RSD=1.30)。NDF为大米蛋白猪DE、ME最佳预测因子。
本試驗通過採集我國多箇地區大米蛋白樣品,分析大米蛋白常規成分,測定生長豬消化能( DE)、代謝能( ME),建立大米蛋白常規成分與生長豬DE、ME之間的關繫。試驗選用體重(33.0±1.3) kg的“杜×長×大”三元雜交健康去勢公豬12頭,採用2箇6×6拉丁方試驗設計,包括1種基礎飼糧和11種大米蛋白替代15%基礎飼糧的試驗飼糧。採用全收糞法和套算法結閤測定大米蛋白豬DE、ME,併將大米蛋白的常規成分與豬DE、ME進行相關和迴歸分析,建立大米蛋白豬 DE、ME 預測模型。結果錶明,11種大米蛋白風榦基礎下豬 DE 為(18.13±1.12) MJ/kg,ME為(16.44±1.59) MJ/kg。由此得齣,大米蛋白豬 DE 最佳預測模型(絕榦基礎)為DE=22.17-0.51NDF(R2=0.50,RSD=0.93),DE=18.58-0.49CF+0.31EE(R2=0.70, RSD=0.77);ME最佳預測模型(絕榦基礎)為ME=21.42-0.74NDF (R2=0.52,RSD=1.30)。NDF為大米蛋白豬DE、ME最佳預測因子。
본시험통과채집아국다개지구대미단백양품,분석대미단백상규성분,측정생장저소화능( DE)、대사능( ME),건립대미단백상규성분여생장저DE、ME지간적관계。시험선용체중(33.0±1.3) kg적“두×장×대”삼원잡교건강거세공저12두,채용2개6×6랍정방시험설계,포괄1충기출사량화11충대미단백체대15%기출사량적시험사량。채용전수분법화투산법결합측정대미단백저DE、ME,병장대미단백적상규성분여저DE、ME진행상관화회귀분석,건립대미단백저 DE、ME 예측모형。결과표명,11충대미단백풍간기출하저 DE 위(18.13±1.12) MJ/kg,ME위(16.44±1.59) MJ/kg。유차득출,대미단백저 DE 최가예측모형(절간기출)위DE=22.17-0.51NDF(R2=0.50,RSD=0.93),DE=18.58-0.49CF+0.31EE(R2=0.70, RSD=0.77);ME최가예측모형(절간기출)위ME=21.42-0.74NDF (R2=0.52,RSD=1.30)。NDF위대미단백저DE、ME최가예측인자。
The digestible energy ( DE) , metabolic energy ( ME) and prediction model of DE and ME of rice protein ( RP) for growing pigs were investigated in this experiment, and RP were collected in main producing areas of China. Twelve “Duroc×Landrance×Large White” castrate male pigs with (33.0±1.3) kg initial body weight were allotted to two 6×6 Latin square designs. The diets included 1 kind of basal diet and 11 kinds of trial diets which used rice protein to replace 15% basal diet. The DE and ME of 11 kinds of rice protein was de-termined with total feces collection method and difference method. The regression equations were established on the basis of the correlation among DE, ME and proximate composition of RP. The results showed that the mean of DE (air-dry basis) of RP for pigs was (18.13±1.12) MJ/kg, the mean of ME (air-dry basis) of RP for pigs was (16.44±1.59) MJ/kg. In conclusion, the DE recommended prediction models (DM basis) of RP for swine are DE=22.17-0.51NDF ( R2=0.50,RSD=0.93) , DE=18.58-0.49CF+0.31EE ( R2=0.70, RSD=0.77) . The ME recommended prediction model ( DM basis) of RP for swine is ME=21.42-0.74NDF ( R2=0.52,RSD=1.30). The appropriate predicting factor is NDF.