The accuracy of prediction of genomic selection in elite hybrid rye populations surpasses the accuracy of marker-assisted selection and is equally augmented by multiple field evaluation locations and test years |
| |
Authors: | Yu Wang Michael Florian Mette Thomas Miedaner Marlen Gottwald Peer Wilde Jochen C Reif Yusheng Zhao |
| |
Affiliation: | .Leibniz Institute of Plant Breeding and Crop Plant Research (IPK), Gatersleben, 06466 Germany ;.State Plant Breeding Institute, University of Hohenheim, Stuttgart, 70599 Germany ;.Syngenta Agro GmbH, Am Technologiepark 1-5, Maintal, 63477 Germany ;.KWS LOCHOW GMBH, Ferdinand-von-Lochow-Str. 5, 29303 Bergen, Germany |
| |
Abstract: | BackgroundMarker-assisted selection (MAS) and genomic selection (GS) based on genome-wide marker data provide powerful tools to predict the genotypic value of selection material in plant breeding. However, case-to-case optimization of these approaches is required to achieve maximum accuracy of prediction with reasonable input.ResultsBased on extended field evaluation data for grain yield, plant height, starch content and total pentosan content of elite hybrid rye derived from testcrosses involving two bi-parental populations that were genotyped with 1048 molecular markers, we compared the accuracy of prediction of MAS and GS in a cross-validation approach. MAS delivered generally lower and in addition potentially over-estimated accuracies of prediction than GS by ridge regression best linear unbiased prediction (RR-BLUP). The grade of relatedness of the plant material included in the estimation and test sets clearly affected the accuracy of prediction of GS. Within each of the two bi-parental populations, accuracies differed depending on the relatedness of the respective parental lines. Across populations, accuracy increased when both populations contributed to estimation and test set. In contrast, accuracy of prediction based on an estimation set from one population to a test set from the other population was low despite that the two bi-parental segregating populations under scrutiny shared one parental line. Limiting the number of locations or years in field testing reduced the accuracy of prediction of GS equally, supporting the view that to establish robust GS calibration models a sufficient number of test locations is of similar importance as extended testing for more than one year.ConclusionsIn hybrid rye, genomic selection is superior to marker-assisted selection. However, it achieves high accuracies of prediction only for selection candidates closely related to the plant material evaluated in field trials, resulting in a rather pessimistic prognosis for distantly related material. Both, the numbers of evaluation locations and testing years in trials contribute equally to prediction accuracy.Electronic supplementary materialThe online version of this article (doi:10.1186/1471-2164-15-556) contains supplementary material, which is available to authorized users. |
| |
Keywords: | Marker-assisted selection Genomic selection Cross-validation Hybrid rye Relatedness Evaluation locations Testing years |
|
|