Multi-trait and multi-environment data are common in animal and plant breeding programs. However, what is lacking are more powerful statistical models that can exploit the correlation between traits to improve prediction accuracy in the context of genomic selection (GS). Multi-trait models are more complex than univariate models and usually require more computational resources, but they are preferred because they can exploit the correlation between traits, which many times helps improve prediction accuracy. For this reason, in this paper we explore the power of multi-trait deep learning (MTDL) models in terms of prediction accuracy. The prediction performance of MTDL models was compared to the performance of the Bayesian multi-trait and mul...
Implementing genomic-based prediction models in genomic selection requires an understanding of the m...
In genomic-enabled prediction, the task of improving the accuracy of the prediction of lines in envi...
Background Genomic selection has become a very important tool in animal genetics and is rapidly emer...
Multiple-trait experiments with mixed phenotypes (binary, ordinal and continuous) are not rare in an...
Genomic selection is revolutionizing plant breeding and therefore methods that improve prediction ac...
Genomic-enabled prediction models are of paramount importance for the successful implementation of g...
In this paper we propose a Bayesian multi-output regressor stacking (BMORS) model that is a generali...
Genomic selection (GS) changed the way plant breeders select genotypes. GS takes advantage of phenot...
<p>Prediction of the phenotypes for a set of genotypes across multiple environments is a fundamental...
Genomic prediction is a promising approach for accelerating the genetic gain of complex traits in wh...
Incorporating measurements on correlated traits into genomic prediction models can increase predicti...
Incorporating measurements on correlated traits into genomic prediction models can increase predicti...
Prediction of the phenotypes for a set of genotypes across multiple environments is a fundamental ta...
Evidence that genomic selection (GS) is a technology that is revolutionizing plant breeding continue...
Genomic-enabled prediction models are of paramount importance for the successful implementation of g...
Implementing genomic-based prediction models in genomic selection requires an understanding of the m...
In genomic-enabled prediction, the task of improving the accuracy of the prediction of lines in envi...
Background Genomic selection has become a very important tool in animal genetics and is rapidly emer...
Multiple-trait experiments with mixed phenotypes (binary, ordinal and continuous) are not rare in an...
Genomic selection is revolutionizing plant breeding and therefore methods that improve prediction ac...
Genomic-enabled prediction models are of paramount importance for the successful implementation of g...
In this paper we propose a Bayesian multi-output regressor stacking (BMORS) model that is a generali...
Genomic selection (GS) changed the way plant breeders select genotypes. GS takes advantage of phenot...
<p>Prediction of the phenotypes for a set of genotypes across multiple environments is a fundamental...
Genomic prediction is a promising approach for accelerating the genetic gain of complex traits in wh...
Incorporating measurements on correlated traits into genomic prediction models can increase predicti...
Incorporating measurements on correlated traits into genomic prediction models can increase predicti...
Prediction of the phenotypes for a set of genotypes across multiple environments is a fundamental ta...
Evidence that genomic selection (GS) is a technology that is revolutionizing plant breeding continue...
Genomic-enabled prediction models are of paramount importance for the successful implementation of g...
Implementing genomic-based prediction models in genomic selection requires an understanding of the m...
In genomic-enabled prediction, the task of improving the accuracy of the prediction of lines in envi...
Background Genomic selection has become a very important tool in animal genetics and is rapidly emer...