Department of Agricultural Sciences, University of Helsinki, FI-00014 Helsinki, Finland.
Department of Agricultural Sciences, University of Helsinki, FI-00014 Helsinki, Finland.
J Dairy Sci. 2023 Oct;106(10):6903-6920. doi: 10.3168/jds.2022-22997. Epub 2023 May 23.
The objective of this experiment was to investigate the effect of forage type [red clover (51%)-grass silage, i.e., RCG; vs. faba bean (66%)-grass silage, i.e., FBG] and concentrate type (faba bean, FB; vs. rapeseed expeller, RE) on lactational performance, milk composition and nitrogen (N) utilization in lactating dairy cows. Eight lactating multiparous Nordic Red cows were used in a replicated 4 × 4 Latin Square experiment, with 21-d periods, in a 2 × 2 factorial arrangement of treatments. The experimental treatments were as follows: (1) RCG with RE, (2) RCG with FB, (3) FBG with RE, and (4) FBG with FB. Inclusion rates of RE and FB were isonitrogenous. Crude protein contents of the experimental diets were 16.3, 15.9, 18.1, and 17.9% of dry matter, respectively. All diets included oats and barley and were fed ad libitum as total mixed rations with forage-to-concentrate ratio of 55:45. Dry matter intake and milk yield were recorded daily, and spot samples of urine, feces, and blood were collected at the end of each experimental period. Dry matter intake did not differ across diets, averaging 26.7 kg/d. Milk yield averaged 35.6 kg/d and was 1.1 kg/d greater for RCG versus FBG, and milk urea N concentration was lower for RCG compared with FBG. Milk yield was 2.2 kg/d and milk protein yield 66 g/d lower for FB versus RE. Nitrogen intake, urinary N, and urinary urea N excretions were lower, and milk N excretion tended to be lower for RCG compared with FBG. The proportion of the dietary N excreted as fecal N was larger in cows fed RCG than for those fed FBG, and the opposite was true for urinary N. We detected an interaction for milk N as percentage of N intake: it increased with RE compared with FB for RCG-based diet, but only a marginal increase was observed for FBG-based diet. Plasma concentration of His and Lys were lower for RCG than for FBG, whereas His tended to be greater and Lys lower for FB compared with RE. Further, plasma Met concentration was around 26% lower for FB than for RE. Of milk fatty acids, saturated fatty acids were decreased by RCG and increased by FB compared with FBG and RE, respectively, whereas monounsaturated fatty acids were increased by RCG versus FBG, and were lower for FB than for RE. In particular, 18:1n-9 concentration was lower for FB compared with RE. Polyunsaturated fatty acids, such as 18:2n-6 and 18:3n-3, were greater for RCG than for FBG, and 18:2n-6 was greater and 18:3n-3 was lower for FB versus RE. In addition, cis-9,trans-11 conjugated linoleic acid was lower for FB compared with RE. Faba bean whole-crop silage and faba bean meal have potential to be used as a part of dairy cow rations, but further research is needed to improve their N efficiency. Red clover-grass silage from a mixed sward, without inorganic N fertilizer input, combined with RE, resulted in the greatest N efficiency in the conditions of this experiment.
本实验的目的是研究饲粮类型[红三叶草(51%)- 禾本科青贮料,即 RCG;与 66%的兵豆-禾本科青贮料,即 FBG]和精饲料类型(兵豆,FB;与油菜籽压饼,RE)对泌乳奶牛的泌乳性能、乳成分和氮(N)利用的影响。8 头泌乳经产北欧红牛在 21 天重复 4 × 4 拉丁方实验中,采用 2 × 2 因子处理安排进行实验。实验处理如下:(1)RCG 与 RE,(2)RCG 与 FB,(3)FBG 与 RE,(4)FBG 与 FB。RE 和 FB 的添加率是等氮的。实验日粮的粗蛋白含量分别为干物质的 16.3%、15.9%、18.1%和 17.9%。所有日粮均包含燕麦和大麦,作为总混合日粮自由采食,饲草与精料比为 55:45。每天记录干物质采食量和产奶量,并在每个实验期结束时采集尿液、粪便和血液的点样。干物质采食量不受日粮影响,平均为 26.7kg/d。产奶量平均为 35.6kg/d,RCG 比 FBG 多 1.1kg/d,RCG 的乳尿素氮浓度比 FBG 低。与 RE 相比,FB 的产奶量和乳蛋白产量分别低 2.2kg/d 和 66g/d。氮摄入量、尿氮和尿尿素氮排泄量较低,RCG 比 FBG 更倾向于减少乳氮排泄。与 FBG 相比,饲喂 RCG 的奶牛粪便中氮的排泄比例更大,而尿氮则相反。我们检测到乳氮作为氮摄入量的百分比存在互作:与 FB 相比,RCG 基础日粮的比例增加,但 FBG 基础日粮的增加幅度较小。与 FBG 相比,RCG 的血浆组氨酸和赖氨酸浓度较低,而 FB 使组氨酸趋于增加,赖氨酸减少。此外,与 RE 相比,FB 的血浆蛋氨酸浓度低约 26%。在乳脂肪酸中,饱和脂肪酸分别因 RCG 和 FB 而减少,因 FBG 和 RE 而增加,而单不饱和脂肪酸因 RCG 而增加,因 FB 而减少,低于 RE。特别是,与 RE 相比,FB 中的 18:1n-9 浓度较低。多不饱和脂肪酸,如 18:2n-6 和 18:3n-3,RCG 比 FBG 多,18:2n-6 多,18:3n-3 少,FB 比 RE 少。此外,顺式-9,反式-11 共轭亚油酸的含量也低于 RE。整株兵豆青贮料和兵豆粉具有作为奶牛日粮一部分的潜力,但需要进一步研究以提高其氮效率。在本实验条件下,混合草地红三叶草-禾本科青贮料,不添加无机氮肥,与 RE 结合,可获得最大的氮效率。
