Optimal implementation of genomic selection in clone breeding programs—Exemplified in potato: I. Effect of selection strategy, implementation stage, and selection intensity on short‐term genetic gain

Author:

Wu Po‐Ya1ORCID,Stich Benjamin123ORCID,Renner Juliane4,Muders Katja5,Prigge Vanessa6,van Inghelandt Delphine1ORCID

Affiliation:

1. Institute of Quantitative Genetics and Genomics of Plants Heinrich Heine University Düsseldorf Germany

2. Cluster of Excellence on Plant Sciences (CEPLAS) Heinrich Heine University Düsseldorf Germany

3. Max Planck Institute for Plant Breeding Research Köln Germany

4. Böhm‐Nordkartoffel Agrarproduktion GmbH & Co. OHG Hohenmocker Germany

5. NORIKA GmbH Sanitz Germany

6. SaKa Pflanzenzucht GmbH & Co. KG Windeby Germany

Abstract

AbstractGenomic selection (GS) is used in many animal and plant breeding programs to enhance genetic gain for complex traits. However, its optimal integration in clone breeding programs, for example potato, that up to now relied on phenotypic selection (PS) requires further research. In this study, we performed computer simulations based on an empirical genomic dataset of tetraploid potato to (i) investigate under a fixed budget how the weight of GS relative to PS, the stage of implementing GS, the correlation between an auxiliary trait and the target trait, the variance components, and the prediction accuracy affect the genetic gain of the target trait, (ii) determine the optimal allocation of resources maximizing the genetic gain of the target trait, and (iii) make recommendations to breeders how to implement GS in clone and especially potato breeding programs. In our simulation results, any selection strategy involving GS had a higher short‐term genetic gain for the target trait than Standard‐PS. In addition, we showed that implementing GS in consecutive selection stages can largely enhance short‐term genetic gain and recommend the breeders to implement GS at single hills and A clone stages. Furthermore, we observed for selection strategies involving GS that the optimal allocation of resources maximizing the genetic gain of the target trait differed considerably from those typically used in potato breeding programs and, thus, require the adjustment of the selection and phenotyping intensities. The trends are described in our study. Therefore, our study provides new insight for breeders regarding how to optimally implement GS in a commercial potato breeding program to improve the short‐term genetic gain for their target trait.

Funder

Fachagentur Nachwachsende Rohstoffe

Publisher

Wiley

Subject

Plant Science,Agronomy and Crop Science,Genetics

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