德国荷斯坦奶牛背膘厚和体况评分的遗传研究。

Institute of Animal Breeding and Husbandry, Christian-Albrechts-University Kiel, Kiel, Germany.

IT-Solutions for Animal Production (vit), Verden, Germany.

J Anim Breed Genet. 2024 Nov;141(6):602-613. doi: 10.1111/jbg.12867. Epub 2024 Apr 8.

Up to now, little has been known about backfat thickness (BFT) in dairy cattle. The objective of this study was to investigate the lactation curve and genetic parameters for BFT as well as its relationship with body condition score (BCS) and milk yield (MKG). For this purpose, a dataset was analysed including phenotypic observations of 1929 German Holstein cows for BFT, BCS and MKG recorded on a single research dairy farm between September 2005 and December 2022. Additionally, pedigree and genomic information was available. Lactation curves were predicted and genetic parameters were estimated for all traits in first to third lactation using univariate random regression models. For BCS, lactation curves had nadirs at 94 DIM, 101 DIM and 107 DIM in first, second and third lactation. By contrast, trajectories of BFT showed lowest values later in lactation at 129 DIM, 117 DIM and 120 DIM in lactation numbers 1 to 3, respectively. Although lactation curves of BCS and BFT had similar shapes, the traits showed distinct sequence of curves for lactation number 2 and 3. Cows in third lactation had highest BCS, whereas highest BFT values were found for second parity animals. Average heritabilities were 0.315 ± 0.052, 0.297 ± 0.048 and 0.332 ± 0.061 for BCS in lactation number 1 to 3, respectively. Compared to that, BFT had considerably higher heritability in all lactation numbers with estimates ranging between 0.357 ± 0.028 and 0.424 ± 0.034. Pearson correlation coefficients between estimated breeding values for the 3 traits were negative between MKG with both BCS (r = -0.245 to -0.322) and BFT (r = -0.163 to -0.301). Correlation between traits BCS and BFT was positive and consistently high (r = 0.719 to 0.738). Overall, the results of this study suggest that BFT and BCS show genetic differences in dairy cattle, which might be due to differences in depletion and accumulation of body reserves measured by BFT and BCS. Therefore, routine recording of BFT on practical dairy farms could provide valuable information beyond BCS measurements and might be useful, for example, to better assess the nutritional status of cows.

到目前为止，人们对奶牛的背膘厚度（BFT）知之甚少。本研究旨在研究 BFT 的泌乳曲线和遗传参数及其与体况评分（BCS）和产奶量（MKG）的关系。为此，分析了一个数据集，其中包括 1929 头德国荷斯坦奶牛在单个研究奶牛场的 BFT、BCS 和 MKG 的表型观察结果，这些观察结果记录于 2005 年 9 月至 2022 年 12 月之间。此外，还提供了系谱和基因组信息。使用单变量随机回归模型，对所有性状在第一至第三泌乳期的泌乳曲线和遗传参数进行了预测和估计。对于 BCS，在第一、第二和第三泌乳期，泌乳曲线的最低点分别出现在第 94、101 和 107 天。相比之下，BFT 的轨迹在泌乳期 1 到 3 的第 129、117 和 120 天显示出较低的值。尽管 BCS 和 BFT 的泌乳曲线形状相似，但这些性状在泌乳期 2 和 3 的曲线顺序上存在明显差异。第三泌乳期的奶牛具有最高的 BCS，而第二胎次的动物具有最高的 BFT 值。BCS 在泌乳期 1 到 3 的平均遗传力分别为 0.315±0.052、0.297±0.048 和 0.332±0.061。相比之下，BFT 在所有泌乳期的遗传力都要高得多，估计值在 0.357±0.028 到 0.424±0.034 之间。3 个性状的估计育种值之间的皮尔逊相关系数在 MKG 与 BCS（r=-0.245 至-0.322）和 BFT（r=-0.163 至-0.301）之间为负。BCS 和 BFT 之间的性状相关性为正且始终较高（r=0.719 至 0.738）。总体而言，本研究结果表明，奶牛的 BFT 和 BCS 具有遗传差异，这可能是由于 BFT 和 BCS 测量的体储备耗竭和积累的差异所致。因此，在实际奶牛场常规记录 BFT 可以提供比 BCS 测量更有价值的信息，例如，有助于更好地评估奶牛的营养状况。