Optimized breeding strategies to harness genetic resources with different performance levels

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Abstract

Background: The narrow genetic base of elite germplasm compromises long-term genetic gain and increases the vulnerability to biotic and abiotic stresses in unpredictable environmental conditions. Therefore, an efficient strategy is required to broaden the genetic base of commercial breeding programs while not compromising short-term variety release. Optimal cross selection aims at identifying the optimal set of crosses that balances the expected genetic value and diversity. We propose to consider genomic selection and optimal cross selection to recurrently improve genetic resources (i.e. pre-breeding), to bridge the improved genetic resources with elites (i.e. bridging), and to manage introductions into the elite breeding population. Optimal cross selection is particularly adapted to jointly identify bridging, introduction and elite crosses to ensure an overall consistency of the genetic base broadening strategy. Results: We compared simulated breeding programs introducing donors with different performance levels, directly or indirectly after bridging. We also evaluated the effect of the training set composition on the success of introductions. We observed that with recurrent introductions of improved donors, it is possible to maintain the genetic diversity and increase mid- A nd long-term performances with only limited penalty at short-term. Considering a bridging step yielded significantly higher mid- A nd long-term genetic gain when introducing low performing donors. The results also suggested to consider marker effects estimated with a broad training population including donor by elite and elite by elite progeny to identify bridging, introduction and elite crosses. Conclusion: Results of this study provide guidelines on how to harness polygenic variation present in genetic resources to broaden elite germplasm.

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Allier, A., Teyssèdre, S., Lehermeier, C., Moreau, L., & Charcosset, A. (2020). Optimized breeding strategies to harness genetic resources with different performance levels. BMC Genomics, 21(1), 1DUMM. https://doi.org/10.1186/s12864-020-6756-0

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