Rathbun Francesca M, Pralle Ryan S, Bertics Sandra J, Armentano Louis E, Cho K, Do C, Weigel Kent A, White Heather M
Department of Dairy Science, University of Wisconsin-Madison, Madison 53706.
Division of Animal Breeding and Genetics, National Institute of Animal Science, Cheonan 21001, Korea.
J Dairy Sci. 2017 May;100(5):3685-3696. doi: 10.3168/jds.2016-12085. Epub 2017 Mar 16.
Extensive efforts have been made to identify more feed-efficient dairy cows, yet it is unclear how selection for feed efficiency will influence metabolic health. The objectives of this research were to determine the relationships between residual feed intake (RFI), a measure of feed efficiency, body condition score (BCS) change, and hyperketonemia (HYK) incidence. Blood and milk samples were collected twice weekly from cows 5 to 18 d postcalving for a total of 4 samples. Hyperketonemia was diagnosed at a blood β-hydroxybutyrate (BHB) ≥1.2 mmol/L and cows were treated upon diagnosis. Dry period, calving, and final blood sampling BCS was recorded. Prior mid-lactation production, body weight, body weight change, and dry matter intake (DMI) data were used to determine RFI phenotype, calculated as the difference between observed DMI and predicted DMI. The maximum BHB concentration (BHB) for each cow was used to group cows into HYK or not hyperketonemic. Lactation number, BCS, and RFI data were analyzed with linear and quadratic orthogonal contrasts. Of the 570 cows sampled, 19.7% were diagnosed with HYK. The first positive HYK test occurred at 9 ± 0.9 d postpartum and the average BHB concentration at the first positive HYK test was 1.53 ± 0.14 mmol/L. In the first 30 d postpartum, HYK-positive cows had increased milk yield and fat concentration, decreased milk protein concentration, and decreased somatic cell count. Cows with a dry BCS ≥4.0, or that lost 1 or more BCS unit across the transition to lactation period, had greater BHB than cows with lower BCS. Prior-lactation RFI did not alter BHB. Avoiding over conditioning of dry cows and subsequent excessive fat mobilization during the transition period may decrease HYK incidence; however, RFI during a prior lactation does not appear to be associated with HYK onset.
人们已付出巨大努力来识别饲料效率更高的奶牛,但尚不清楚针对饲料效率的选择将如何影响代谢健康。本研究的目的是确定残余采食量(RFI,一种饲料效率指标)、体况评分(BCS)变化与高酮血症(HYK)发病率之间的关系。在产犊后5至18天,每周两次采集奶牛的血液和牛奶样本,共采集4次。当血液β-羟基丁酸(BHB)≥1.2 mmol/L时诊断为高酮血症,奶牛一经诊断即接受治疗。记录干奶期、产犊时和最后一次采血时的BCS。利用泌乳中期之前的产量、体重、体重变化和干物质采食量(DMI)数据来确定RFI表型,计算方法为观察到的DMI与预测DMI之间的差值。用每头奶牛的最大BHB浓度(BHB)将奶牛分为高酮血症组或非高酮血症组。用线性和二次正交对比分析泌乳次数、BCS和RFI数据。在采样的570头奶牛中,19.7%被诊断为高酮血症。首次出现阳性高酮血症检测结果的时间为产后9±0.9天,首次阳性高酮血症检测时的平均BHB浓度为1.53±0.14 mmol/L。在产后的前30天,高酮血症阳性奶牛的产奶量和脂肪浓度增加,乳蛋白浓度降低,体细胞数减少。干奶期BCS≥4.0或在过渡到泌乳期时BCS下降1个或更多单位的奶牛,其BHB水平高于BCS较低的奶牛。前一个泌乳期的RFI并未改变BHB水平。避免干奶牛过度膘情以及过渡期随后过度的脂肪动员可能会降低高酮血症的发病率;然而,前一个泌乳期的RFI似乎与高酮血症的发病无关。
