Genomic Selection in Scots (Pinus Sylvestris) and Radiata (Pinus Radiata) Pines. Calleja-Rodríguez, A., Klápště, J., Dungey, H., Graham, N., Ismael, A., García-Gil, M. R., Abrahamsson, S., & Suontama, M. In The Pine Genomes, pages 233–250. Springer International Publishing, Cham, 2022.
Genomic Selection in Scots (Pinus Sylvestris) and Radiata (Pinus Radiata) Pines [link]Paper  doi  abstract   bibtex   
Pines are economically important species widely planted across the globe. Therefore, the industry is interested in increasing the efficacy of their breeding programs, which explains the urge to implement new technological solutions to increase breeding efficiency for traditional and novel breeding objectives. Recently, the development of genotyping platforms accessible even for non-model organisms such as Scots and radiata pines has made it possible to evaluate genomic selection for their breeding programs. Genomic studies in both species are limited by the size and complexity of their genomes; therefore, genotyping platforms based on reduced genome representation have been implemented. Genomic selection studies performed within their breeding programs show viability and potential to increase the intensity of genetic progress compared to conventional (i.e., pedigree-based) strategies. Additionally, genomic prediction of traits with challenging or costly phenotyping, such as forest diseases or wood quality and cell wall chemistry, might allow for large-scale screening and selection of individuals with superior traits. This chapter presents a review of the recent research on genomic selection for Scots pine in Sweden, and radiata pine in New Zealand, as well as future perspectives for the implementation of this methodology in their breeding programs.
@incollection{calleja-rodriguez_genomic_2022,
	address = {Cham},
	title = {Genomic {Selection} in {Scots} ({Pinus} {Sylvestris}) and {Radiata} ({Pinus} {Radiata}) {Pines}},
	isbn = {978-3-030-93390-6},
	url = {https://doi.org/10.1007/978-3-030-93390-6_11},
	abstract = {Pines are economically important species widely planted across the globe. Therefore, the industry is interested in increasing the efficacy of their breeding programs, which explains the urge to implement new technological solutions to increase breeding efficiency for traditional and novel breeding objectives. Recently, the development of genotyping platforms accessible even for non-model organisms such as Scots and radiata pines has made it possible to evaluate genomic selection for their breeding programs. Genomic studies in both species are limited by the size and complexity of their genomes; therefore, genotyping platforms based on reduced genome representation have been implemented. Genomic selection studies performed within their breeding programs show viability and potential to increase the intensity of genetic progress compared to conventional (i.e., pedigree-based) strategies. Additionally, genomic prediction of traits with challenging or costly phenotyping, such as forest diseases or wood quality and cell wall chemistry, might allow for large-scale screening and selection of individuals with superior traits. This chapter presents a review of the recent research on genomic selection for Scots pine in Sweden, and radiata pine in New Zealand, as well as future perspectives for the implementation of this methodology in their breeding programs.},
	language = {en},
	urldate = {2024-10-16},
	booktitle = {The {Pine} {Genomes}},
	publisher = {Springer International Publishing},
	author = {Calleja-Rodríguez, Ainhoa and Klápště, Jaroslav and Dungey, Heidi and Graham, Natalie and Ismael, Ahmed and García-Gil, Maria Rosario and Abrahamsson, Sara and Suontama, Mari},
	editor = {De La Torre, Amanda R.},
	year = {2022},
	doi = {10.1007/978-3-030-93390-6_11},
	pages = {233--250},
}
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