Ramirez-Garzon Orlando, Al-Alawneh John I, Barber David, Liu Huanle, Soust Martin
Terragen Biotech, Pty Ltd., Coolum Beach, QLD 4573, Australia.
GCP Veterinary Epidemiology Consulting, Pty Ltd., Brisbane, QLD 4069, Australia.
Animals (Basel). 2024 Apr 3;14(7):1092. doi: 10.3390/ani14071092.
This longitudinal study aimed to quantify the effects of dietary supplementation of a direct-fed microbial (DFM) consisting of three lactobacilli isolates on milk yield, milk fat and protein yields, somatic cell count (SCC), and liveweight in a single dairy herd in Australia. A total of 150 dairy cows were randomly selected based on parity and days in milk and divided into two groups: control ( = 75) and DFM treatment ( = 75). Throughout the study, the two groups of cows were housed separately in a dry lot yard, and each group had their own feeding area. For the DFM treatment group, selected cows in mid-lactation were supplemented with 10 mL/cow/day of the DFM via top dressing of the feed for the remainder of the lactation and through the dry period, extending into subsequent lactation. The control group had no supplementation. The milk yield and liveweight were recorded daily. Milk samples were collected every two months for milk component analysis (fat, protein, and somatic cell count [SCC]). The DFM-treated cows gained more liveweight across the study (19.40 kg, 95% CI 0.44 kg; 38.30 kg, = 0.05) compared to the control cows. In the second production year, the DFM-treated cows mobilized more liveweight (-6.06 kg, 95% CI -10.49 kg; -1.61 kg, = 0.01) and produced more milk (0.39 L/d 95% CI 0.10; 0.89, = 0.05). Over a full lactation, DFM cows yielded at least 258 L (95% CI 252 L; 265 L) more milk than controls. No significant differences were found in fat and protein yield or SCC. This study suggests that consistent and ongoing supplementation with a - and -based DFM could have a positive effect on milk production, but further research is needed to understand the underlying mechanism.
这项纵向研究旨在量化在澳大利亚的一个奶牛场中,日粮添加由三种乳酸杆菌分离株组成的直接投喂微生物(DFM)对产奶量、乳脂和乳蛋白产量、体细胞计数(SCC)以及体重的影响。根据胎次和泌乳天数,共随机选择了150头奶牛,并分为两组:对照组(n = 75)和DFM处理组(n = 75)。在整个研究过程中,两组奶牛分别饲养在一个干栏式畜栏中,每组都有自己的采食区。对于DFM处理组,选择处于泌乳中期的奶牛,在泌乳期剩余时间以及干奶期通过在饲料上撒施的方式,每头奶牛每天补充10 mL的DFM,持续到随后的泌乳期。对照组不进行补充。每天记录产奶量和体重。每两个月采集一次牛奶样本进行牛奶成分分析(脂肪、蛋白质和体细胞计数[SCC])。与对照奶牛相比,在整个研究过程中,经DFM处理的奶牛体重增加更多(19.40 kg,95% CI 0.44 kg;38.30 kg,P = 0.05)。在第二个生产年度,经DFM处理的奶牛体重下降更多(-6.06 kg,95% CI -10.49 kg;-1.61 kg,P = 0.01),产奶量更高(0.39 L/d,95% CI 0.10;0.89,P = 0.05)。在整个泌乳期,DFM处理的奶牛比对照组至少多产奶258 L(95% CI 252 L;265 L)。在脂肪和蛋白质产量或SCC方面未发现显著差异。这项研究表明,持续添加基于α-和β-的DFM可能对牛奶生产有积极影响,但需要进一步研究以了解其潜在机制。
