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Preservation of Genetic Variation in a Breeding Population for Long-Term Genetic Gain

David Vanavermaete, Jan Fostier, Steven Maenhout, Bernard De Baets

2020G3 Genes Genomes Genetics28 citationsDOIOpen Access PDF

Abstract

Abstract Genomic selection has been successfully implemented in plant and animal breeding. The transition of parental selection based on phenotypic characteristics to genomic selection (GS) has reduced breeding time and cost while accelerating the rate of genetic progression. Although breeding methods have been adapted to include genomic selection, parental selection often involves truncation selection, selecting the individuals with the highest genomic estimated breeding values (GEBVs) in the hope that favorable properties will be passed to their offspring. This ensures genetic progression and delivers offspring with high genetic values. However, several favorable quantitative trait loci (QTL) alleles risk being eliminated from the breeding population during breeding. We show that this could reduce the mean genetic value that the breeding population could reach in the long term with up to 40%. In this paper, by means of a simulation study, we propose a new method for parental mating that is able to preserve the genetic variation in the breeding population, preventing premature convergence of the genetic values to a local optimum, thus maximizing the genetic values in the long term. We do not only prevent the fixation of several unfavorable QTL alleles, but also demonstrate that the genetic values can be increased by up to 15 percentage points compared with truncation selection.

Topics & Concepts

Selection (genetic algorithm)BiologyPopulationQuantitative trait locusGenetic gainTruncation selectionGenetic variationAlleleTraitGeneticsEvolutionary biologyComputer scienceDemographyGeneMachine learningProgramming languageSociologyGenetic and phenotypic traits in livestockGenetic Mapping and Diversity in Plants and AnimalsGenetics and Plant Breeding
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