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Robust estimation of heritability and predictive accuracy in plant breeding: evaluation using simulation and empirical data. | LitMetric

AI Article Synopsis

  • Genomic prediction (GP) is essential in plant breeding for identifying optimal genotypes, with predictive accuracy being a critical measure of its reliability.* ! -
  • Classical regression models often struggle with bias when underlying assumptions are violated, especially with contaminated phenotypic data, leading to inaccurate heritability and predictive accuracy estimates.* ! -
  • Robust statistical methods outperform classical approaches in estimating heritability and predictive accuracy, showing greater stability and reliability, particularly in scenarios involving data contamination.* !

Article Abstract

Background: Genomic prediction (GP) is used in animal and plant breeding to help identify the best genotypes for selection. One of the most important measures of the effectiveness and reliability of GP in plant breeding is predictive accuracy. An accurate estimate of this measure is thus central to GP. Moreover, regression models are the models of choice for analyzing field trial data in plant breeding. However, models that use the classical likelihood typically perform poorly, often resulting in biased parameter estimates, when their underlying assumptions are violated. This typically happens when data are contaminated with outliers. These biases often translate into inaccurate estimates of heritability and predictive accuracy, compromising the performance of GP. Since phenotypic data are susceptible to contamination, improving the methods for estimating heritability and predictive accuracy can enhance the performance of GP. Robust statistical methods provide an intuitively appealing and a theoretically well justified framework for overcoming some of the drawbacks of classical regression, most notably the departure from the normality assumption. We compare the performance of robust and classical approaches to two recently published methods for estimating heritability and predictive accuracy of GP using simulation of several plausible scenarios of random and block data contamination with outliers and commercial maize and rye breeding datasets.

Results: The robust approach generally performed as good as or better than the classical approach in phenotypic data analysis and in estimating the predictive accuracy of heritability and genomic prediction under both the random and block contamination scenarios. Notably, it consistently outperformed the classical approach under the random contamination scenario. Analyses of the empirical maize and rye datasets further reinforce the stability and reliability of the robust approach in the presence of outliers or missing data.

Conclusions: The proposed robust approach enhances the predictive accuracy of heritability and genomic prediction by minimizing the deleterious effects of outliers for a broad range of simulation scenarios and empirical breeding datasets. Accordingly, plant breeders should seriously consider regularly using the robust alongside the classical approach and increasing the number of replicates to three or more, to further enhance the accuracy of the robust approach.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6958597PMC
http://dx.doi.org/10.1186/s12864-019-6429-zDOI Listing

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