Add to ORKGAbstract:Modeling genotype by environment interaction (GEI) is one of the most challenging aspects of plant breeding programs. The use of efficient trial networks is an effective way to evaluate GEI to define selection strategies. Furthermore, the experimental design and the number of locations, replications, and years are crucial aspects of multi-environment trial (MET) network optimization. The objective of this study was to evaluate the efficiency and performance of a MET network of sunflower (Helianthus annuus L.). Specifically, we evaluated GEI in the network by delineating mega-environments, estimating genotypic stability and identifying relevant environmental covariates. Additionally, we optimized the network by comparing experimenta...
High early vigour (plant dry matter in the early development stages) in sunflower may be a desirable...
ABSTRACT.Genomic selection (GS) has successfully been used in plant breeding to improve selection ef...
Genotype × environment interactions (GEI) are common in plant multi-environment trials (METs). In th...
Modeling genotype by environment interaction (GEI) is one of the most challenging aspects of plant b...
International audiencePlant breeding programs design new crop varieties which, while adapted to dist...
Yield improvement certainly depends on breeding new genotypes, but also on identifying the best geno...
Genotype X environment (G X E) interactions can be a major impediment to genetic progress in sunflow...
Trials in different environmental conditions have a fundamental role in selecting genotypes that per...
Climate change and input reduction in agriculture lead to a diversification of cropping environments...
A reference set of 10 sunflower hybrids was evaluated in 21 subtropical (northern), temperate (centr...
The evaluation of genotype x environment interaction (GXE) is an important component of the selectio...
Sunflower (Helianthus annuus L.) breeding programs typically target het-erogeneous regions, where la...
<p>Analysis and modelling of genotype x environment x management interactions : application to the s...
GGE biplot technique is one of the appropriate methods for investigating the genotype–environment in...
High early vigour (plant dry matter in the early development stages) in sunflower may be a desirable...
ABSTRACT.Genomic selection (GS) has successfully been used in plant breeding to improve selection ef...
Genotype × environment interactions (GEI) are common in plant multi-environment trials (METs). In th...
Modeling genotype by environment interaction (GEI) is one of the most challenging aspects of plant b...
International audiencePlant breeding programs design new crop varieties which, while adapted to dist...
Yield improvement certainly depends on breeding new genotypes, but also on identifying the best geno...
Genotype X environment (G X E) interactions can be a major impediment to genetic progress in sunflow...
Trials in different environmental conditions have a fundamental role in selecting genotypes that per...
Climate change and input reduction in agriculture lead to a diversification of cropping environments...
A reference set of 10 sunflower hybrids was evaluated in 21 subtropical (northern), temperate (centr...
The evaluation of genotype x environment interaction (GXE) is an important component of the selectio...
Sunflower (Helianthus annuus L.) breeding programs typically target het-erogeneous regions, where la...
<p>Analysis and modelling of genotype x environment x management interactions : application to the s...
GGE biplot technique is one of the appropriate methods for investigating the genotype–environment in...
High early vigour (plant dry matter in the early development stages) in sunflower may be a desirable...
ABSTRACT.Genomic selection (GS) has successfully been used in plant breeding to improve selection ef...
Genotype × environment interactions (GEI) are common in plant multi-environment trials (METs). In th...