终生生殖性能的遗传选择。

A. Clutter
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引用次数: 4

摘要

无论是从猪肉生产者和猪肉行业的经济角度来看,还是从公众关注的伦理和动物福利的角度来看,母猪终身繁殖性能的遗传改良都具有价值。单个窝产的仔猪的遗传潜力是终生繁殖能力的主要决定因素,但雌性必须能够在实现正净现值之外保持不受伤或死亡的生产力。有证据表明,母猪终生生产性能存在株系间和株系内遗传变异,这表明,株系选择和株系内遗传选择可能都能改善母猪的生产性能。然而,适用于个体窝产性状的准确内系选择的一些相同障碍也对母猪终身繁殖的遗传选择提出了挑战:遗传率普遍较低,性别受限表达,在动物通常被选择的年龄之后表达,以及与利润函数中其他性状的不利遗传相关性。此外,在遗传核心群中,缩短世代间隔以加快遗传进程的目标与母猪终生性状的表达之间存在着内在的冲突。具有直接遗传联系和常规记录流的商业倍增器行业的激增为准确估计相关遗传方差和协方差以及估计可用于遗传选择的母猪终身性状的育种价值提供了框架。
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Genetic selection for lifetime reproductive performance.
Genetic improvement of sow lifetime reproductive performance has value from both the economic perspectives of pork producers and the pork industry, but also from the perspective of ethical and animal welfare concerns by the general public. Genetic potential for piglets produced from individual litters is a primary determinant of lifetime prolificacy, but females must be able to sustain productivity without injury or death beyond the achievement of positive net present value. Evidence exists for between- and within-line genetic variation in sow lifetime performance, suggesting that improvements may be made by both line choices and genetic selection within lines. However, some of the same barriers to accurate within-line selection that apply to individual litter traits also present challenges to genetic selection for sow lifetime prolificacy: generally low heritabilites, sex-limited expression, expression after the age that animals are typically selected, and unfavorable genetic correlations with other traits in the profit function. In addition, there is an inherent conflict within the genetic nucleus herds where selections take place between the goal of shortened generation interval to accelerate genetic progress and the expression of sow lifetime traits. A proliferation in the industry of commercial multipliers with direct genetic ties and routine record flows to genetic nucleus herds provides a framework for accurate estimates of relevant genetic variances and covariances, and estimation of breeding values for sow lifetime traits that can be used in genetic selection.
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