Frontiers in Plant Science (Jul 2023)

A novel method for genomic-enabled prediction of cultivars in new environments

  • Osval A. Montesinos-López,
  • Sofia Ramos-Pulido,
  • Carlos Moisés Hernández-Suárez,
  • Brandon Alejandro Mosqueda González,
  • Felícitas Alejandra Valladares-Anguiano,
  • Paolo Vitale,
  • Abelardo Montesinos-López,
  • José Crossa,
  • José Crossa,
  • José Crossa

DOI
https://doi.org/10.3389/fpls.2023.1218151
Journal volume & issue
Vol. 14

Abstract

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IntroductionGenomic selection (GS) has gained global importance due to its potential to accelerate genetic progress and improve the efficiency of breeding programs.Objectives of the researchIn this research we proposed a method to improve the prediction accuracy of tested lines in new (untested) environments.Method-1The new method trained the model with a modified response variable (a difference of response variables) that decreases the lack of a non-stationary distribution between the training and testing and improved the prediction accuracy.Comparing new and conventional methodWe compared the prediction accuracy of the conventional genomic best linear unbiased prediction (GBLUP) model (M1) including (or not) genotype × environment interaction (GE) (M1_GE; M1_NO_GE) versus the proposed method (M2) on several data sets.Results and discussionThe gain in prediction accuracy of M2, versus M1_GE, M1_NO_GE in terms of Pearson´s correlation was of at least 4.3%, while in terms of percentage of top-yielding lines captured when was selected the 10% (Best10) and 20% (Best20) of lines was at least of 19.5%, while in terms of Normalized Root Mean Squared Error (NRMSE) was of at least of 42.29%.

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