In genomic selection (GS) DNA markers and trait data are integrated in a model that then predicts genomic-estimated breeding values (GEBV’s) for individuals using DNA marker information alone, improving breeding efficiency. We assessed a genomic breeding strategy (APWFGS) for improving dry matter yield (DMY) in perennial ryegrass. In APWFGS the best-performing half-sibling families (HS) are identified using phenotypic data and GS is used to select the best individuals within those HS. Four selections were made from three breeding populations: Base (random sample of plants from all HS), HSP (random sample from the six phenotypically-best HS), APWFGS and APWFGS-L (top or bottom 5% of plants, respectively, selected by GEBV from the six HS). Selected plants were polycrossed, creating 12 experimental synthetics that were evaluated as sown rows for DMY (n=7 harvests) in field trials at two locations over 18 months. In each population, mean DMY across locations and harvests showed a trend of APWFGS> HSP>Base. Averaged across all populations, APWFGS increased DMY by 43% (P<0.05) compared to Base, more than twice the level of improvement achieved with conventional HSP. Our results show the APWFGS breeding approach can substantially improve selection response for a genetically complex trait from a single breeding cycle.
History
Rights statement
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. http://creativecommons.org/licenses/by-nc-nd/4.0/
Language
English
Does this contain Māori information or data?
No
Publisher
NZ Grassland Association Inc.
Journal title
Journal of New Zealand Grasslands
ISSN
2463-2872
Citation
Faville, M. J., Schmidt, J., Trolove, M., Moran, P., Hong, W., Cao, M., Ganesh, S., George, R., & Barrett, B. (2021). Empirical assessment of a genomic breeding strategy in perennial ryegrass. Journal of New Zealand Grasslands, 83, 115–122. https://doi.org/10.33584/jnzg.2021.83.3490