AUTHOR=Sabadin Felipe , DoVale Julio César , Platten John Damien , Fritsche-Neto Roberto 

TITLE=Optimizing self-pollinated crop breeding employing genomic selection: From schemes to updating training sets

JOURNAL=Frontiers in Plant Science

VOLUME=Volume 13 - 2022

YEAR=2022

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2022.935885

DOI=10.3389/fpls.2022.935885

ISSN=1664-462X

ABSTRACT=Long-term breeding schemes employing genomic selection (GS) can boost the response to selection per year. Although several studies show that GS delivers a higher response to selection, only a few analyze the best strategy to employ it, specifically how often and in what manner the training set (TS) should be updated. Therefore, we used stochastic simulation to compare in a long-term breeding program of a hypothetical self-pollinated crop five different strategies to implement GS in the line fixation stage and four methods and sizes to update the TS. Moreover, regarding breeding schemes, we proposed a new approach using GS to select the best individuals in each F2 progeny, based on genomic estimated breeding values and genetic divergence, to cross them and generate a new recombination event. Finally, we compared these schemes to the traditional phenotypic selection and drift. Our results showed that the best scenario was using GS in F2 followed by the phenotypic selection of new parents in F4. Furthermore, adding a new set of data every cycle (over 768) to update the TS maintains the prediction accuracy at satisfactory levels for many more generations. However, only the last three generations can be kept in the TS, optimizing the genetic relationship between TS and the targeted population and reducing the computing demand and risks. Hence, we believe that these results may help breeders optimize GS in their programs and improve genetic gain in long-term schemes.