饲喂红三叶草或苜蓿青贮饲料的奶牛氮效率在瘤胃可降解蛋白质供应方面的差异

M. Leduc, R. Gervais, P.Y. Chouinard
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Four treatments consisting of a 2-by-2 factorial arrangement of alfalfa silage (<strong>AL</strong>) or red clover (<strong>RC</strong>)-based diets designed to satisfy 100 (rumen-degradable protein (<strong>RDP</strong>)-100) or 85% (RDP-85) of rumen degradable protein demand, by varying the amounts of ground and steam-flaked corn grain, as well as non-treated and heat-treated soybean meals. Dietary CP concentrations were greater in diets based on AL as compared with RC (<em>P</em> &lt; 0.01). Kinetics of <em>in sacco</em> N disappearance revealed that the rapidly disappearing fraction was lower with RC than with AL diets, and this difference tended to be more pronounced for RDP-85 than RDP-100 (interaction, <em>P</em> = 0.06). On the contrary, slowly disappearing N fraction and fractional rate of disappearance were greater for RC as compared with AL diets (<em>P</em> &lt; 0.01). 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引用次数: 0

摘要

氮污染是现代农业中的一个重要问题。对于乳制品行业来说,提高牛奶蛋白生产效率可能会减少商业农场对环境的影响。饲料和精料在瘤胃中的降解性不同,可以实现最佳的氮利用率。本研究的目的是深入了解泌乳奶牛日粮氮的命运,以及饲料类型和瘤胃可降解蛋白质供应的影响,重点是乳氮效率。4×4拉丁正方形设计中使用了四头瘤胃瘘管荷斯坦奶牛,以平衡残余效应。四种处理方法,包括基于苜蓿青贮饲料(AL)或红三叶草(RC)的日粮的2乘2因子安排,旨在通过改变研磨和蒸汽片状玉米粒以及未处理和热处理豆粕的量来满足100(瘤胃可降解蛋白(RDP)-100)或85%(RDP-85)的瘤胃可降解蛋白质需求。与RC相比,基于AL的日粮中的日粮CP浓度更高(P<;0.01)。sacco N消失的动力学表明,RC的快速消失部分低于AL日粮,并且RDP-85的这种差异往往比RDP-100更明显(相互作用,P=0.06)。相反,与AL日粮相比,RC的缓慢消失的N组分和部分消失率更高(P<;0.01)。将RDP从需求的100%降低到85%增加了缓慢消失的氮组分,但降低了快速消失的N和部分消失的N(P<)。与AL相比,RC摄入的DM和N更少,与RDP-100相比,RDP-85的这些差异更为显著(相互作用,P≤0.04)。作为N摄入量的比例,RC的粪便排泄量往往更大(P=0.09),而尿液排泄量则低于AL。与AL日粮相比,RC降低了产奶量(趋势;P=0.07)和乳汁中分泌的总氮(P<;0.01)。与AL相比,饲喂RC提高了乳氮效率(g乳N/kg氮摄入量),并且RDP-85的这种差异往往比RDP-100更大(相互作用,P=0.06)。
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Nitrogen efficiency in cows fed red clover- or alfalfa-silage-based diets differing in rumen-degradable protein supply

Nitrogen pollution is an important issue in modern agriculture. For the dairy industry, increasing the efficiency of milk protein production may reduce the environmental impact of commercial farms. Optimal N utilization can be achieved by combining forage and concentrate varying in their degradability in the rumen. The aim of this study was to gain insight into the fate of dietary N as affected by forage type and rumen-degradable protein supply in lactating dairy cows, with an emphasis on milk N efficiency. Four rumen-fistulated Holstein cows were used in a 4 × 4 Latin square design balanced for residual effects. Four treatments consisting of a 2-by-2 factorial arrangement of alfalfa silage (AL) or red clover (RC)-based diets designed to satisfy 100 (rumen-degradable protein (RDP)-100) or 85% (RDP-85) of rumen degradable protein demand, by varying the amounts of ground and steam-flaked corn grain, as well as non-treated and heat-treated soybean meals. Dietary CP concentrations were greater in diets based on AL as compared with RC (P < 0.01). Kinetics of in sacco N disappearance revealed that the rapidly disappearing fraction was lower with RC than with AL diets, and this difference tended to be more pronounced for RDP-85 than RDP-100 (interaction, P = 0.06). On the contrary, slowly disappearing N fraction and fractional rate of disappearance were greater for RC as compared with AL diets (P < 0.01). Reducing RDP from 100 to 85% of requirements increased the slowly disappearing N fraction, but decreased the rapidly disappearing fraction and the fractional rate of disappearance of N (P < 0.01). Intakes of DM and N were lesser with RC compared with AL, and these differences were more pronounced with RDP-85 than with RDP-100 (interaction, P ≤ 0.04). As a proportion of N intake, fecal excretion tended to be greater (P = 0.09), whereas urinary excretion was lower (P = 0.04) with RC than with AL diets. Milk yield (tendency; P = 0.07) and total N secreted in milk were reduced (P < 0.01) with RC compared with AL diets. Feeding RC increased milk N efficiency (g of milk N/ kg of N intake) as compared with AL, and this difference tended to be of greater magnitude for RDP-85 than RDP-100 (interaction, P = 0.06). In conclusion, combining forage and concentrate of different CP degradability can improve milk N efficiency in dairy cows.

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