Fabris Thiago F, Laporta Jimena, Corra Fabiana N, Torres Yazielis M, Kirk David J, McLean Derek J, Chapman J D, Dahl Geoffrey E
Department of Animal Sciences, University of Florida, Gainesville 32611.
Department of Animal Production, São Paulo State University, Botucatu 18618-000, Brazil.
J Dairy Sci. 2017 Aug;100(8):6733-6742. doi: 10.3168/jds.2016-12313. Epub 2017 Jun 16.
Heat stress in dairy cows during the dry period impairs milk yield in the next lactation. Feeding OmniGen-AF (OG; Phibro Animal Health Corp., Teaneck, NJ) to lactating cows during heat stress may increase dry matter intake (DMI) and lowers respiration rate (RR) and rectal temperature (RT), but the effects in dry cows are not known. We hypothesized that OG supplementation before, during, and after the dry period (approximately 160 d total) would overcome the effects of heat stress and improve cow performance in the next lactation. Cows were randomly assigned to OG or control (placebo) treatments for the last 60 d in milk (DIM), based on mature-equivalent milk yield in the previous lactation. Cows were dried off 45 d before expected calving and randomly assigned to heat stress (HT) or cooling (CL) treatments. Thus, cows received dietary supplementation during late lactation before they were exposed to either CL or HT. After dry-off, treatment groups included heat stress with placebo (HT, only shade, 56 g/d of placebo, n = 17), HT with OG supplementation (HTOG, 56 g/d of OG, n = 19), cooling with placebo (CL, shade, fans, and soakers, 56 g/d of placebo, n = 16), and CL with OG supplementation (CLOG, 56 g/d of OG, n = 11). After parturition, all cows were kept under the same CL system and management, and all cows continued to receive OG or control treatment until 60 DIM. Cooling cows during the dry period reduced afternoon RT (CL vs. HT; 38.9 ± 0.05 vs. 39.3 ± 0.05°C) and RR (CL vs. HT; 45 ± 1.6 vs. 77 ± 1.6 breaths/min). Respiration rate was also decreased by OG supplementation under HT conditions (HTOG vs. HT; 69.7 ± 1.6 vs. 77.2 ± 1.6 breaths/min). An interaction was observed between OG supplementation and HT; HTOG cows tended to have lower morning RT compared with HT cows. During the dry period, OG reduced DMI relative to control cows. Birth weight was greater in calves from CL cows (CL vs. HT; 40.6 ± 1.09 vs. 38.7 ± 1.09 kg). No differences were detected among treatments in hematocrit, total protein, and body condition score. Cows offered CLOG, CL, and HTOG treatments had greater body weight during the dry period (794.9 ± 17.9, 746.8 ± 16.7, and 762.9 ± 14.9 kg, respectively) than HT cows (720 ± 16.2 kg). Gestation length was approximately 4 d longer for CL cows compared with HT cows. Cows offered CLOG, CL, and HTOG treatments produced more milk (41.3 ± 1.6, 40.7 ± 1.6, and 40.5 ± 1.6 kg/d, respectively) than HT treatment (35.9 ± 1.6 kg/d). Body weight after parturition and DMI were evaluated up to 60 DIM and averaged 661.5 ± 15.8 and 19.4 ± 0.7 kg/d, respectively, with no differences observed among treatments. These results confirm that exposure of dry cows to heat stress negatively affects milk yield in the subsequent lactation. Active cooling of dry cows and OG supplementation can reduce the negative effects of heat stress in the dry period on subsequent performance.
干奶期奶牛的热应激会损害下一泌乳期的产奶量。在热应激期间给泌乳奶牛饲喂全基因-AF(OG;菲布罗动物保健公司,新泽西州蒂内克)可能会增加干物质摄入量(DMI),并降低呼吸频率(RR)和直肠温度(RT),但对干奶牛的影响尚不清楚。我们假设在干奶期之前、期间和之后(总计约160天)补充OG可以克服热应激的影响,并改善奶牛在下一泌乳期的性能。根据上一泌乳期的成熟当量产奶量,在产奶的最后60天,将奶牛随机分为OG组或对照组(安慰剂)。在预期产犊前45天让奶牛干奶,并随机分为热应激(HT)组或降温(CL)组。因此,奶牛在暴露于CL或HT之前的泌乳后期接受日粮补充。干奶后,处理组包括接受安慰剂的热应激组(HT,仅遮荫,56克/天安慰剂,n = 17)、补充OG的HT组(HTOG,56克/天OG,n = 19)、接受安慰剂的降温组(CL,遮荫、风扇和喷淋,56克/天安慰剂,n = 16)以及补充OG的CL组(CLOG,56克/天OG,n = 11)。分娩后,所有奶牛都饲养在相同的CL系统和管理条件下,所有奶牛继续接受OG或对照处理,直到产后60天。干奶期对奶牛进行降温可降低下午的RT(CL组与HT组;38.9±0.05 vs. 39.3±0.05°C)和RR(CL组与HT组;45±1.6 vs. 77±1.6次/分钟)。在HT条件下,补充OG也可降低RR(HTOG组与HT组;69.7±1.6 vs. 77.2±1.6次/分钟)。观察到OG补充与HT之间存在交互作用;与HT组奶牛相比,HTOG组奶牛的早晨RT往往较低。在干奶期,与对照奶牛相比,OG降低了DMI。CL组奶牛所产犊牛的出生体重更大(CL组与HT组;40.6±1.09 vs. 38.7±1.09千克)。在血细胞比容、总蛋白和体况评分方面,各处理组之间未检测到差异。接受CLOG、CL和HTOG处理的奶牛在干奶期的体重更大(分别为794.9±17.9、746.8±16.7和762.9±14.9千克),高于HT组奶牛(720±16.2千克)。与HT组奶牛相比,CL组奶牛的妊娠期大约长4天。接受CLOG、CL和HTOG处理的奶牛产奶量更高(分别为41.3±1.6、40.7±1.6和40.5±1.6千克/天),高于HT组处理(35.9±1.6千克/天)。评估了分娩后至产后60天的体重和DMI,平均分别为661.5±15.8和19.4±0.7千克/天,各处理组之间未观察到差异。这些结果证实,干奶牛暴露于热应激会对随后泌乳期的产奶量产生负面影响。对干奶牛进行主动降温和补充OG可以减少干奶期热应激对后续性能的负面影响。
