Department of Animal Science, Texas A&M University, College Station, TX.
Department of Animal and Dairy Science, University of Georgia, Athens, GA.
J Anim Sci. 2019 Mar 1;97(3):1347-1363. doi: 10.1093/jas/skz008.
The objective of this trial was to determine the benefits of supplementing active dried yeast (ADY; 3 × 1010 CFU/d of Saccharomyces cerevisiae) in diets of growing and finishing steers on ruminal pH and liver health, and evaluate the relationship of these variables with performance traits. Growing beef steers (n = 120) were blocked by weight (i.e., heavy and light) and allocated to 1 of 4 pens in an automated feed intake monitoring system. Steers were fed either control (CON; no ADY) or ADY supplemented in 4 sequential diets: grower diet from days 0 to 70, 2 step up diets (STEP1 and STEP2) for 7 d each, and finishing diet from days 85 to 164. Indwelling rumen boli were administered to monitor rumen pH during days 56 to 106 during the dietary transition. An exchange of pen assignment, within block, occurred on day 70 resulting in 4 final treatment (TRT) assignments: steers fed CON before and after the exchange (CC; n = 30), steers fed CON before and ADY after the exchange (CY; n = 30), steers fed ADY before and CON after the exchange (YC; n = 30), and steers fed ADY (YY; n = 30). Ruminal parameters were analyzed as a randomized complete block design with repeated measures of day, diet and TRT as fixed effects, and block as random effects, using 2 approaches: preliminary analysis of the means or drift analysis (DA; units change from basal values over time). Ruminal pH duration (DUR) below 6.0 (P = 0.05) and 5.8 (P = 0.05) was greater for CY steers than CC steers. Acidosis bout prevalence (pH < 5.6 for 180 consecutive minutes; P < 0.01) and bout DUR (P = 0.05) were greater for CY than other TRT groups. The DA indicated that the ruminal pH variables range, variance, and amplitude of steers in the YC group drifted further from basal pH values than CY and YY steers during the dietary transition (P ≤ 0.02), indicating that removing ADY during the dietary transition was not favorable, but including ADY may reduce ruminal fluctuation. Steers with fewer days experiencing bouts (DEB) had numerically greater ADG (P = 0.11) and tended to have greater G:F (P = 0.06). Liver abscess severity negatively affected ADG (P = 0.04). However, liver abscess severity was not affected by DEB (P = 0.90). There is evidence to suggest that the addition of the specific ADY strain in the diets of beef cattle during the dietary transition may aid in ruminal stabilization, but our study did not find evidence that acidosis bouts were related to abscess prevalence or severity.
本试验旨在确定在生长和育肥牛日粮中添加活性干酵母(ADY;3×1010 CFU/d 酿酒酵母)对瘤胃 pH 和肝脏健康的益处,并评估这些变量与性能特征的关系。将生长肉牛(n=120)按体重(即重和轻)分组,并在自动饲料摄入量监测系统中分配到 4 个围栏中的 1 个。牛只分别饲喂对照(CON;无 ADY)或 ADY 补充的 4 种连续日粮:0 至 70 日龄生长日粮、2 步升日粮(STEP1 和 STEP2),各 7 天、85 至 164 日龄育肥日粮。在日粮过渡期间的 56 至 106 天期间,通过内置瘤胃球囊监测瘤胃 pH。70 天内,在块内进行了围栏分配的交换,最终有 4 个最终处理(TRT)分配:交换前后饲喂 CON 的牛(CC;n=30)、交换前后饲喂 CON 和 ADY 的牛(CY;n=30)、交换前后饲喂 ADY 和 CON 的牛(YC;n=30)和饲喂 ADY 的牛(YY;n=30)。瘤胃参数采用随机完全区组设计进行分析,日、日粮和 TRT 为固定效应,块为随机效应,采用 2 种方法进行分析:均值初步分析或漂移分析(DA;单位随时间从基础值变化)。CY 牛的瘤胃 pH 持续时间(DUR)低于 6.0(P=0.05)和 5.8(P=0.05)均高于 CC 牛。CY 牛的酸中毒发作频率(pH<5.6 持续 180 分钟;P<0.01)和发作 DUR(P=0.05)均高于其他 TRT 组。DA 表明,在日粮过渡期间,YC 组牛的瘤胃 pH 变量范围、变异和幅度与 CY 和 YY 牛相比,从基础 pH 值漂移更远(P≤0.02),这表明在日粮过渡期间去除 ADY 是不利的,但添加 ADY 可能会减少瘤胃波动。经历发作天数较少(DEB)的牛具有更高的 ADG(P=0.11),且倾向于具有更高的增重/饲料比(P=0.06)。肝脓肿严重程度负影响 ADG(P=0.04)。然而,DEB 对肝脓肿严重程度没有影响(P=0.90)。有证据表明,在肉牛日粮中添加特定的 ADY 菌株可能有助于瘤胃稳定,但本研究没有证据表明酸中毒发作与脓肿发生率或严重程度有关。
