Oklahoma State University, Department of Food and Animal Science, Stillwater, Oklahoma.
J Anim Sci. 2019 Mar 1;97(3):1198-1211. doi: 10.1093/jas/skz019.
Early weaning is used to minimize cow nutrient requirements in situations where feed inputs are scarce or expensive. For many years, maintenance energy requirements have been assumed to be 20% greater in lactating compared with non-lactating beef cows. While not well established, maintenance energy requirements are thought to be greatest in primiparous cows and to decline with age. Consequently, early weaning primiparous cow-calf pairs should improve overall efficiency, particularly in situations where mid-to-late lactation forage or feed nutritive value is low. The objective of this study was to determine the biological efficiency of early weaning and maintenance energy requirements of lactating versus non-lactating primiparous cows. Experiments were conducted in two consecutive years using 90 primiparous cows and their calves (48 in yr 1, 42 in yr 2). Pairs were randomly assigned to one of the six pens (8 pairs/pen yr 1, 7 pairs/pen yr 2) and pens were randomly assigned to 1 of 2 treatments; (1) early weaning (130 d ± 15.4; EW, n = 6) and (2) traditional weaning (226 d ± 13.1; TW, n = 6). Late lactation cow and calf performance and feed consumption were measured for 92 d (yr 1) and 100 d (yr 2). Cows were limit-fed to meet maintenance requirements, while calves were offered ad libitum access to the same diet in a creep-feeding area. Calves were not allowed access to the cows' feed. Cow feed intake, body condition score, body weight (BW), milk yield and composition, and calf body weight gain and creep feed intake were recorded. After accounting for lactation and retained energy, there was a trend for greater maintenance energy requirements of lactating primiparous cows (P = 0.07). From the early weaning date to traditional weaning date, calf average daily gain (ADG) was greater (P < 0.01) for TW calves. Feed and energy efficiency of the pair was improved for the TW system (P < 0.01). Greater ADG were reported for EW calves during the stocker period (P = 0.03), but there were no differences during the finishing period (P > 0.40). At harvest, BW was greater (P = 0.02) and gain to feed ratio tended (P = 0.06) to be improved for TW calves. The increased TW calf performance offset the additional maintenance costs of their lactating dams, resulting in the TW system converting total feed energy to kilograms of calf BW gain more efficiently.
早期断奶用于在饲料投入稀缺或昂贵的情况下尽量减少奶牛的营养需求。多年来,人们一直认为泌乳奶牛的维持能量需求比非泌乳奶牛高 20%。虽然尚未得到充分证实,但人们认为初产奶牛的维持能量需求最大,并随着年龄的增长而下降。因此,早期断奶的初产奶牛和小牛应该会提高整体效率,特别是在泌乳中期至后期的饲草或饲料营养价值较低的情况下。本研究的目的是确定泌乳和非泌乳初产奶牛的早期断奶的生物学效率和维持能量需求。实验连续两年使用 90 头初产奶牛及其小牛(第 1 年 48 头,第 2 年 42 头)进行。将牛随机分配到 6 个围栏中的一个(第 1 年 8 对/围栏,第 2 年 7 对/围栏),然后将围栏随机分配到 2 种处理中的一种:(1)早期断奶(130d±15.4;EW,n=6)和(2)传统断奶(226d±13.1;TW,n=6)。第 1 年对泌乳后期的牛和小牛进行了 92d 的性能和饲料消耗测量,第 2 年对小牛进行了 100d 的测量。对奶牛进行限饲以满足维持需求,而小牛则在一个育肥区自由采食相同的饲料。不允许小牛接触奶牛的饲料。记录了奶牛的饲料摄入量、体况评分、体重(BW)、产奶量和组成以及小牛的体重增加和育肥饲料摄入量。在考虑泌乳和保留能量后,泌乳初产奶牛的维持能量需求有增加的趋势(P=0.07)。从早期断奶日期到传统断奶日期,TW 组的小牛的平均日增重(ADG)更高(P<0.01)。TW 系统提高了配对的饲料和能量效率(P<0.01)。在育肥期,EW 组的小牛报告的 ADG 更高(P=0.03),但在育肥后期则没有差异(P>0.40)。在收获时,TW 组的小牛的 BW 更高(P=0.02),并且增重与饲料比的趋势(P=0.06)也得到了改善。TW 组小牛的生长性能提高,抵消了泌乳母牛的额外维持成本,使 TW 系统更有效地将饲料总能量转化为小牛 BW 增重的公斤数。
