Simulations of multiple breeding strategy scenarios in common bean for assessing genomic selection accuracy and model updating

Author:

Chiaravallotti Isabella1,Lin Jennifer1,Arief Vivi2,Jahufer Zulfi2,Osorno Juan M.3ORCID,McClean Phil3,Jarquin Diego4ORCID,Hoyos‐Villegas Valerio1ORCID

Affiliation:

1. Department of Plant Science McGill University Montreal Quebec Canada

2. School of Agriculture and Food Sustainability Faculty of Science University of Queensland Brisbane Australia

3. Department of Plant Sciences North Dakota State University Fargo North Dakota USA

4. Agronomy Department University of Florida Gainesville Florida USA

Abstract

AbstractThe aim of this study was to evaluate the accuracy of the ridge regression best linear unbiased prediction model across different traits, parent population sizes, and breeding strategies when estimating breeding values in common bean (Phaseolus vulgaris). Genomic selection was implemented to make selections within a breeding cycle and compared across five different breeding strategies (single seed descent, mass selection, pedigree method, modified pedigree method, and bulk breeding) following 10 breeding cycles. The model was trained on a simulated population of recombinant inbreds genotyped for 1010 single nucleotide polymorphism markers including 38 known quantitative trait loci identified in the literature. These QTL included 11 for seed yield, eight for white mold disease incidence, and 19 for days to flowering. Simulation results revealed that realized accuracies fluctuate depending on the factors investigated: trait genetic architecture, breeding strategy, and the number of initial parents used to begin the first breeding cycle. Trait architecture and breeding strategy appeared to have a larger impact on accuracy than the initial number of parents. Generally, maximum accuracies (in terms of the correlation between true and estimated breeding value) were consistently achieved under a mass selection strategy, pedigree method, and single seed descent method depending on the simulation parameters being tested. This study also investigated model updating, which involves retraining the prediction model with a new set of genotypes and phenotypes that have a closer relation to the population being tested. While it has been repeatedly shown that model updating generally improves prediction accuracy, it benefited some breeding strategies more than others. For low heritability traits (e.g., yield), conventional phenotype‐based selection methods showed consistent rates of genetic gain, but genetic gain under genomic selection reached a plateau after fewer cycles. This plateauing is likely a cause of faster fixation of alleles and a diminishing of genetic variance when selections are made based on estimated breeding value as opposed to phenotype.

Funder

Natural Sciences and Engineering Research Council of Canada

Publisher

Wiley

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