Background: Genomic selection (GS) in forestry can substantially reduce the length of breeding cycle and increase gain per unit time through early selection and greater selection intensity, particularly for traits of low heritability and late expression. Affordable next-generation sequencing technologies made it possible to genotype large numbers of trees at a reasonable cost. Results: Genotyping-by-sequencing was used to genotype 1,126 Interior spruce trees representing 25 open-pollinated families planted over three sites in British Columbia, Canada. Four imputation algorithms were compared (mean value (MI), singular value decomposition (SVD), expectation maximization (EM), and a newly derived, family-based k-nearest neighbor (kNN-Fam)). T...
Background Genomic selection (GS) or genomic prediction is a promising approach for tree breeding to...
Conventional tree breeding productivity (especially in conifers) is primarily constrained by late ex...
Breeding conifer species for phenotypic improvement is challenging due to delayed expression of impo...
Background: Genomic selection (GS) in forestry can substantially reduce the length of breeding cycle...
Background: Genomic selection (GS) in forestry can substantially reduce the length ...
Background Genomic selection (GS) can offer unprecedented gains, in terms of cost efficiency and gen...
Tree improvement programs are long-term and resource-demanding endeavors consisting of repeated cycl...
Background: Genomic selection (GS) uses information from genomic signatures consist...
Background: Genomic selection (GS) can offer unprecedented gains, in terms of cost ...
Genomic selection (GS) potentially offers an unparalleled advantage over traditional pedigree-based ...
The genetic gain of spruce (Picea spp.) breeding programs is impeded by long recurrent selection cyc...
Genomic selection is expected to enhance the genetic improvement of forest tree species by providing...
Genomic selection (GS) is of interest in breeding because of its potential for predicting the geneti...
We report a genomic selection (GS) study of growth and wood quality traits in an outbred F2 hybrid E...
Background: Genomic selection (GS) or genomic prediction is considered as a promising approach to ac...
Background Genomic selection (GS) or genomic prediction is a promising approach for tree breeding to...
Conventional tree breeding productivity (especially in conifers) is primarily constrained by late ex...
Breeding conifer species for phenotypic improvement is challenging due to delayed expression of impo...
Background: Genomic selection (GS) in forestry can substantially reduce the length of breeding cycle...
Background: Genomic selection (GS) in forestry can substantially reduce the length ...
Background Genomic selection (GS) can offer unprecedented gains, in terms of cost efficiency and gen...
Tree improvement programs are long-term and resource-demanding endeavors consisting of repeated cycl...
Background: Genomic selection (GS) uses information from genomic signatures consist...
Background: Genomic selection (GS) can offer unprecedented gains, in terms of cost ...
Genomic selection (GS) potentially offers an unparalleled advantage over traditional pedigree-based ...
The genetic gain of spruce (Picea spp.) breeding programs is impeded by long recurrent selection cyc...
Genomic selection is expected to enhance the genetic improvement of forest tree species by providing...
Genomic selection (GS) is of interest in breeding because of its potential for predicting the geneti...
We report a genomic selection (GS) study of growth and wood quality traits in an outbred F2 hybrid E...
Background: Genomic selection (GS) or genomic prediction is considered as a promising approach to ac...
Background Genomic selection (GS) or genomic prediction is a promising approach for tree breeding to...
Conventional tree breeding productivity (especially in conifers) is primarily constrained by late ex...
Breeding conifer species for phenotypic improvement is challenging due to delayed expression of impo...