International audienceAbstractBackgroundExtending the reference set for genomic predictions in dairy cattle by adding large numbers of cows with genotypes and phenotypes has been proposed as a means to increase reliability of selection decisions for candidates.MethodsIn this study, we explored the potential of increasing the reliability of breeding values of young selection candidates by genotyping a fixed number of first-crop daughters of each sire from one or two generations in a balanced and regular system of genotyping. Using stochastic simulation, we developed a basic population scenario that mimics the situation in dual-purpose Fleckvieh cattle with respect to important key parameters. Starting with a reference set consisting of only ...
Genomic selection holds the promise to be particularly beneficial for traits that are difficult or e...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: The success of genomic selection depends mainly on the extent of linkage disequilibrium ...
Genomic selection (GS) permits accurate breeding values to be obtained for young animals, shortening...
AbstractSmall dairy breeds are challenged by low reliabilities of genomic prediction. Therefore, we ...
Objective Models for genomic selection assume that the reference population is an unselected populat...
The objectives of this Ph.D. thesis were (1) to optimise genomic selection in dairy cattle with resp...
Genomic selection is rapidly becoming the state-of-the-art genetic selection methodology in dairy ca...
Genomic selection relaxes the requirement of traditional selection tools to have phenotypic measurem...
Genomic selection is rapidly becoming the state-of-the-art genetic selection methodology in dairy ca...
AbstractIncluding genotyped females in a reference population (RP) is an obvious way to increase the...
Compared with traditional selection, the use of genomic information tends to increase the accuracy o...
Abstract. High rates of genetic gain canbe achieved through (1) accurate predictions of breedingvalu...
Genomic selection has the potential to revolutionize dairy cattle breeding because young animals can...
Accuracy of genomic selection depends on the accuracy of prediction of single nucleotide polymorphis...
Genomic selection holds the promise to be particularly beneficial for traits that are difficult or e...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: The success of genomic selection depends mainly on the extent of linkage disequilibrium ...
Genomic selection (GS) permits accurate breeding values to be obtained for young animals, shortening...
AbstractSmall dairy breeds are challenged by low reliabilities of genomic prediction. Therefore, we ...
Objective Models for genomic selection assume that the reference population is an unselected populat...
The objectives of this Ph.D. thesis were (1) to optimise genomic selection in dairy cattle with resp...
Genomic selection is rapidly becoming the state-of-the-art genetic selection methodology in dairy ca...
Genomic selection relaxes the requirement of traditional selection tools to have phenotypic measurem...
Genomic selection is rapidly becoming the state-of-the-art genetic selection methodology in dairy ca...
AbstractIncluding genotyped females in a reference population (RP) is an obvious way to increase the...
Compared with traditional selection, the use of genomic information tends to increase the accuracy o...
Abstract. High rates of genetic gain canbe achieved through (1) accurate predictions of breedingvalu...
Genomic selection has the potential to revolutionize dairy cattle breeding because young animals can...
Accuracy of genomic selection depends on the accuracy of prediction of single nucleotide polymorphis...
Genomic selection holds the promise to be particularly beneficial for traits that are difficult or e...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: The success of genomic selection depends mainly on the extent of linkage disequilibrium ...