Department of Animal Nutrition, Autonomous Agrarian University Antonio Narro, Saltillo, Coah, Mexico.
Department of Veterinary Science, Autonomous Agrarian University Antonio Narro, Torreon, Mexico.
J Therm Biol. 2019 Apr;81:82-88. doi: 10.1016/j.jtherbio.2019.02.020. Epub 2019 Feb 27.
Vulnerable animals to heat stress have been described as ones with dark or black hides due to increasing absorption of solar radiation. The effect of coat color in pluriparous contemporary Holstein cows in a hot environment (mean annual temperature 24.6 °C), on body surface temperature (infrared thermography), physiological and hematological variables as well as milk yield and reproductive performance was assessed using 178 Holstein pluriparous cows (74 predominantly white and 104 predominantly black). Data were collected in the morning and afternoon in July (mean temperature-humidity index 82 units). Body condition score at mid-lactation (128 ± 32 days in milk at the start of the experiment) was higher (P < 0.01) in predominantly white than in black cows (3.3 vs. 3.2). Respiration rate did not differ between groups (72 ± 23 vs. 73 ± 20 breaths/min for white and black cows, respectively, sampling time combined). In contrast, rectal temperature of black cows was 0.1 °C higher (P ≤ 0.01) than white cows, regardless of sampling time. The only significant hematologic change was a slight increase in mean corpuscular volume in black cows (54.7 fL, P < 0.01) compared to white cows (53.8 fL), but it remained within the reference range. Differences due to coat color did not alter body surface temperatures at any time of the day. Conception rates, services per conception, calving intervals and fetal losses were not associated with hair coat color, but cows with predominantly white coat produced 394 kg more (P < 0.01) fat-corrected milk in 305 days compared to cows with predominantly black coat. It was concluded that in this hot-arid environment with cows housed in facilities with extensive cooling, black hair coat moderately reduces 305-d milk yield without affecting milk composition, body surface temperature, and reproductive performance.
易受热应激影响的动物被描述为那些皮毛颜色较深或黑色的动物,因为它们会增加对太阳辐射的吸收。本研究评估了在炎热环境(平均年温度 24.6°C)下,毛色对荷斯坦奶牛多胎次(74 头主要为白色,104 头主要为黑色)的体表面温度(红外热成像)、生理和血液变量以及产奶量和繁殖性能的影响。在 7 月的早晨和下午采集了 178 头荷斯坦多胎次奶牛的数据(平均温湿度指数为 82 个单位)。在实验开始时(产奶期 128±32 天)的泌乳中期,主要为白色的奶牛体况评分更高(P<0.01)(3.3 对 3.2)。两组间呼吸率无差异(白色和黑色奶牛分别为 72±23 次/分钟和 73±20 次/分钟,采样时间合并)。然而,无论采样时间如何,黑色奶牛的直肠温度均比白色奶牛高 0.1°C(P≤0.01)。唯一显著的血液学变化是黑色奶牛的平均红细胞体积略有增加(54.7fL,P<0.01),而白色奶牛为 53.8fL,但仍在参考范围内。毛色的差异没有改变奶牛在一天中的任何时间的体表面温度。受配率、配种次数/受胎率、产犊间隔和胎儿损失与毛色无关,但主要为白色皮毛的奶牛在 305 天内产奶量增加了 394kg(P<0.01),比主要为黑色皮毛的奶牛多。综上所述,在这个炎热干旱的环境中,奶牛在设施中饲养,设施具有广泛的降温措施,黑色毛发适度降低了 305 天的产奶量,但不影响牛奶成分、体表面温度和繁殖性能。
