Background: Simulation and empirical studies of genomic selection (GS) show accuracies sufficient to generate rapid gains in early selection cycles. Beyond those cycles, allele frequency changes, recombination, and inbreeding make analytical prediction of gain impossible. The impacts of GS on long-term gain should be studied prior to its implementation. Methods: A simulation case-study of this issue was done for barley, an inbred crop. On the basis of marker data on 192 breeding lines from an elite six-row spring barley program, stochastic simulation was used to explore the effects of large or small initial training populations with heritabilities of 0.2 or 0.5, applying GS before or after phenotyping, and applying additional weight on low-...
International audienceRelatively little effort has been made yet to optimize the allocation of resou...
Breeding schemes that utilize modern breeding methods like genomic selection (GS) and speed breeding...
Long-term breeding schemes using genomic selection (GS) can boost the response to selection per year...
Abstract Background Simulation and empirical studies of genomic selection (GS) show accuracies suffi...
Background: Genomic selection has revolutionized genetic improvement in animals and plants, but litt...
Genomic predictions or genomic selection (GS) was proposed to overcome a number of challenges in app...
We intuitively believe that the dramatic drop in the cost of DNA marker information we have experien...
Reductions of genotyping marker density have been extensively evaluated as potential strategies to r...
International audienceBackgroundThe short-term impact of using different genomic prediction (GP) mod...
Long-term genomic selection (GS) requires strategies that balance genetic gain with population diver...
Genomic-assisted breeding has become an important tool in soybean breeding. However, the impact of d...
The use of dense SNPs to predict the genetic value of an individual for a complex trait is often ref...
New genotyping technologies have made large amounts of genotypic data available for plant breeders t...
Many agronomic traits, such as grain yield, are controlled by polygenes with minor effects and epist...
Plant breeding is concerned with genetic improvement of crops. Phenotypic selection has been and sti...
International audienceRelatively little effort has been made yet to optimize the allocation of resou...
Breeding schemes that utilize modern breeding methods like genomic selection (GS) and speed breeding...
Long-term breeding schemes using genomic selection (GS) can boost the response to selection per year...
Abstract Background Simulation and empirical studies of genomic selection (GS) show accuracies suffi...
Background: Genomic selection has revolutionized genetic improvement in animals and plants, but litt...
Genomic predictions or genomic selection (GS) was proposed to overcome a number of challenges in app...
We intuitively believe that the dramatic drop in the cost of DNA marker information we have experien...
Reductions of genotyping marker density have been extensively evaluated as potential strategies to r...
International audienceBackgroundThe short-term impact of using different genomic prediction (GP) mod...
Long-term genomic selection (GS) requires strategies that balance genetic gain with population diver...
Genomic-assisted breeding has become an important tool in soybean breeding. However, the impact of d...
The use of dense SNPs to predict the genetic value of an individual for a complex trait is often ref...
New genotyping technologies have made large amounts of genotypic data available for plant breeders t...
Many agronomic traits, such as grain yield, are controlled by polygenes with minor effects and epist...
Plant breeding is concerned with genetic improvement of crops. Phenotypic selection has been and sti...
International audienceRelatively little effort has been made yet to optimize the allocation of resou...
Breeding schemes that utilize modern breeding methods like genomic selection (GS) and speed breeding...
Long-term breeding schemes using genomic selection (GS) can boost the response to selection per year...