在不同赛程上的表现是否应该被视为冷血蹄马的遗传特征?

IF 1.9 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of Animal Breeding and Genetics Pub Date : 2023-11-27 DOI:10.1111/jbg.12837
Paulina Berglund, Sreten Andonov, Erling Strandberg, Susanne Eriksson
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引用次数: 0

摘要

速度,以每公里的比赛时间(km)的形式,是瑞典-挪威冷血蹄的一种性能特征,包括在瑞典-挪威联合基因评估中。少数受欢迎的种马主导了冷血蹄的繁殖,这导致了种群中个体之间的平均关系增加。本研究通过选择不同赛段(短赛段:1640米,中赛段:2140米,长赛段:2640米)的每公里比赛时间,探讨了扩大育种目标的范围,因为这可以鼓励使用与种群关系较小的育种品种。1995-2021年瑞典所有比赛中3 - 12岁的冷血小马的表现数据来自瑞典小马协会。这些数据包括短距离比赛中8375匹马的46,356次观察,中距离比赛中11193匹马的430,512次观察和长距离比赛中3341匹马的11,006次观察。方差成分和遗传相关性使用三变量动物模型与Gibbs抽样从BLUPF90套件程序计算。然后使用与三元模型相同的固定和随机效应的单变量动物模型估计这三个性状的育种值。遗传力估计为0.27-0.28,不同距离每公里比赛时间的遗传相关性为0.97-0.99。尽管这些性状之间存在较强的遗传相关性,但根据距离特异性育种值,前10名和前30名种马之间存在一定的重新排序。中短距离比赛中每公里比赛时间的育种值的秩相关系数估计为0.86,而短距离比赛和长距离比赛以及中长距离比赛的育种值的秩相关系数估计为0.61。每公里跑用时前10名和前30名的平均亲缘关系分别为0.31 ~ 0.33和0.23 ~ 0.24,其余群体的平均亲缘关系在0.17 ~ 0.18之间,但前10名和前30名在性状上存在一定差异。估计近亲繁殖的平均增长率为每年出生0.1%,每一代1.2%。不同距离的每公里比赛时间之间存在很强的遗传相关性,但这并不支持将它们作为遗传上不同的特征。对不同赛段的公马进行每公里赛时的重新排序,有利于利用较多的公马进行育种,但对与种群总数关联度较低的公马不具有促进作用。其他特征,如寿命或健康特征,例如,职业长度和矫形状态,可能与扩大育种目标和防止少数品种主宰未来育种更相关,这将是进一步研究的有趣之处。
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Should performance at different race lengths be treated as genetically distinct traits in Coldblooded trotters?

Speed, in the form of racing time per kilometre (km), is a performance trait of the Swedish–Norwegian Coldblooded trotter included in the joint Swedish–Norwegian genetic evaluation. A few popular stallions have dominated Coldblooded trotter breeding, which has led to an increasing average relationship between individuals in the population. This study investigated the scope for broadening the breeding goal by selecting for racing time per km over different race lengths (short: 1640 m, medium: 2140 m and long: 2640 m), as this could encourage the use of breeding sires that are less related to the population. Performance data on three- to 12-year-old Coldblooded trotters in all Swedish races run 1995–2021 were obtained from the Swedish Trotting Association. These data consisted of 46,356 observations for 8375 horses in short-distance races, 430,512 observations for 11,193 horses in medium-distance races and 11,006 observations for 3341 horses in long-distance races. Variance components and genetic correlations were calculated using a trivariate animal model with Gibbs sampling from the BLUPF90 suite of programs. Breeding values for the three traits were then estimated using univariate animal models with the same fixed and random effects as in the trivariate model. Heritability estimates of 0.27–0.28 and genetic correlations between racing time per km at the different distances of 0.97–0.99 were obtained. Despite the strong genetic correlation between the traits, there was some re-ranking among the top 10 and top 30 stallions based on distance-specific breeding values. Estimated rank correlation between breeding values for racing time per km in short- and medium-distance races was 0.86, while between short- and long-distance races and between medium- and long-distance races it was 0.61. Mean relationship within the top 10 and top 30 stallions based on breeding values for racing time per km at each distance was 0.31–0.33 and 0.23–0.24 while mean relationship to the rest of the population ranged from 0.17 to 0.18 for all groups, although the 10 and 30 top-ranking stallions differed somewhat in the traits. Estimated average increase in inbreeding was 0.1% per year of birth and 1.2% per generation. The strong genetic correlation between racing time per km at different distances did not support their use as genetically distinct traits. Re-ranking of stallions for racing time per km at different race lengths could favour the use of a larger number of stallions in breeding, but according to our results it would not promote the use of stallions that are less related to the total population. Other traits like longevity or health traits, for example, career length and orthopaedic status, may be more relevant in broadening the breeding goal and preventing a few sires dominating future breeding, and this would be interesting to study further.

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来源期刊
Journal of Animal Breeding and Genetics
Journal of Animal Breeding and Genetics 农林科学-奶制品与动物科学
CiteScore
5.20
自引率
3.80%
发文量
58
审稿时长
12-24 weeks
期刊介绍: The Journal of Animal Breeding and Genetics publishes original articles by international scientists on genomic selection, and any other topic related to breeding programmes, selection, quantitative genetic, genomics, diversity and evolution of domestic animals. Researchers, teachers, and the animal breeding industry will find the reports of interest. Book reviews appear in many issues.
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