Machine learning algorithms translate big data into predictive breeding accuracy
2025
Ortiz Rios, Rodomiro Octavio
Statistical machine learning (ML) extracts patterns from extensive genomic, phenotypic, and environmental data. ML algorithms automatically identify relevant features and use cross-validation to ensure robust models and improve prediction reliability in new lines. Furthermore, ML analyses of genotype-by-environment (GxE) interactions can offer insights into the genetic factors that affect performance in specific environments. By leveraging historical breeding data, ML streamlines strategies and automates analyses to reveal genomic patterns. In this review we examine the transformative impact of big data, including multi- trait genomics, phenomics, and environmental covariables, on genomic-enabled prediction in plant breeding. We discuss how big data and ML are revolutionizing the field by enhancing prediction accuracy, deepening our understanding of GxE interactions, and optimizing breeding strategies through the analysis of extensive and diverse datasets.
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This bibliographic record has been provided by Swedish University of Agricultural Sciences
