Effects of milk replacer composition on growth and development of beef × dairy crossbred calves.

IF 1.8 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE Translational Animal Science Pub Date : 2025-01-20 eCollection Date: 2025-01-01 DOI:10.1093/tas/txaf005

Rachel E Carter, Joseph C Emenheiser, Steven A Zinn, Kristen E Govoni, Tara L Felix, Sarah A Reed

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Abstract

The production of crossbred beef × dairy (B × D) calves is increasing; however, evaluation of pre-weaning feeding strategies for B × D calves is limited. We hypothesized that both male and female B × D calves fed added fat and protein through milk replacer would have increased muscle growth, muscle fiber cross-sectional area, average daily gain, BW, and morphometric measurements. We also hypothesized that calves fed the additional fat and protein milk replacer would have upregulation of regulatory genes involved in muscle hypertrophy. SimAngus × Holstein calves (n = 42) were assigned to one of two milk replacers: 30.0% crude protein (CP), 32% crude fat (CF) milk replacer (HPHF, n = 11 males, 11 females), or 22% CP, 20% CF milk replacer (CON, n = 10 males, 10 females) from 0 to 8 wk of age. B × D calves were weighed at birth and weekly thereafter. At week 2 and 8, longissimus muscle biopsies were collected for muscle fiber cross-sectional area (CSA) or gene expression analysis. Ultrasounds were performed at 4 and 8 wk of age to quantify ribeye area (REA), and backfat and rump fat thickness. Morphometric measurements, BW, CSA, and ultrasound data were analyzed with PROC MIXED with animal as the subject and fixed effects of milk replacer, age, sex, and their interactions. Gene expression data were analyzed in R Studio. Calves that consumed the HPHF milk replacer were heavier than calves consuming the CON milk replacer (HPHF: 70.7 ± 0.39 kg; CON: 68.5 ± 0.41 kg; P < 0.01). At 8 wk of age, HPHF calves tended to have 14% larger muscle fiber CSA than CON calves (P = 0.06). No differences due to diet were observed for REA or fat thickness (P ≥ 0.38). Expression of MyoD tended to be 34% greater in CON females than HPHF females at 2 wk (P = 0.06), but at 8 wk, HPHF females tended to express 39% more MyoD than CON females (P = 0.09). Myogenin expression was 3% greater in CON calves than HPHF calves at 2 wk (P = 0.02), and CON females tended to express 52% more IGF-1 than HPHF females (P = 0.07). Feeding a milk replacer with a protein and fat content similar to beef cow milk improves B × D calf growth compared with a conventional milk replacer with less protein and fat. Improvements in early growth may improve B × D carcass quality and quantity, with the potential to increase return to the producer.

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乳代用品成分对牛×乳杂交犊牛生长发育的影响。

牛乳杂交犊牛（B × D）产量不断增加；然而，对B × D犊牛断奶前喂养策略的评价有限。我们假设，通过代乳剂添加脂肪和蛋白质的雄性和雌性B × D犊牛的肌肉生长、肌纤维横截面积、平均日增重、体重和形态测量都有所增加。我们还假设，犊牛被喂食额外的脂肪和蛋白质代乳品会导致与肌肉肥大有关的调节基因上调。选取SimAngus × Holstein犊牛（n = 42），从0 ~ 8周龄开始，分别饲喂30.0%粗蛋白质（CP）、32%粗脂肪（CF）代谢物（HPHF，公11母11）和22%粗蛋白质、20%粗脂肪（CON，公10母10）两种代谢物。B × D犊牛出生时称重，此后每周称重一次。在第2周和第8周，收集最长肌活检进行肌纤维横截面积（CSA）或基因表达分析。在4和8周龄时进行超声检查，量化肋眼面积（REA）、背部脂肪和臀部脂肪厚度。以PROC mix为实验对象，对形态测量、体重、CSA和超声数据进行分析，并确定代乳剂、年龄、性别及其相互作用的影响。基因表达数据在R Studio中分析。食用HPHF代乳品的犊牛比食用CON代乳品的犊牛重(HPHF: 70.7±0.39 kg；CON: 68.5±0.41 kg；p = 0.06)。饲料对REA和脂肪厚度没有影响（P≥0.38）。2周时，对照组的MyoD表达量比对照组高34% (P = 0.06)， 8周时，对照组的MyoD表达量比对照组高39% （P = 0.09）。2周时，CON犊牛的肌原素表达量比HPHF犊牛高3% (P = 0.02)， CON母犊牛的IGF-1表达量比HPHF母犊牛高52% （P = 0.07）。饲用蛋白质和脂肪含量与牛乳相近的代乳比饲用蛋白质和脂肪含量较低的传统代乳能提高犊牛的B × D生长。早期生长的改善可以改善B × D胴体质量和数量，并有可能增加生产者的回报。

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来源期刊

Translational Animal Science Veterinary-Veterinary (all)

CiteScore

2.80

自引率

15.40%

发文量

149

审稿时长

8 weeks

期刊介绍： Translational Animal Science (TAS) is the first open access-open review animal science journal, encompassing a broad scope of research topics in animal science. TAS focuses on translating basic science to innovation, and validation of these innovations by various segments of the allied animal industry. Readers of TAS will typically represent education, industry, and government, including research, teaching, administration, extension, management, quality assurance, product development, and technical services. Those interested in TAS typically include animal breeders, economists, embryologists, engineers, food scientists, geneticists, microbiologists, nutritionists, veterinarians, physiologists, processors, public health professionals, and others with an interest in animal production and applied aspects of animal sciences.