Joint use of genome, pedigree, and their interaction with environment for predicting the performance of wheat lines in new environments
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
[PDF][PDF] Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments
scienceopen.com
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
Joint use of genome, pedigree, and their interaction with environment for predicting the performance of wheat lines in new environments
R Howard, D Gianola, OA Montesinos-Lopez, P Juliana… - sidalc.net
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
[PDF][PDF] Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments
R Howard, D Gianola, O Montesinos-Lopez, P Juliana… - core.ac.uk
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments.
R Howard, D Gianola, O Montesinos-López… - G3 (Bethesda …, 2019 - europepmc.org
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
[PDF][PDF] Joint use of genome, pedigree and their interaction with environment for predicting the performance of wheat lines in new environments
R Howard, D Gianola, O Montesinos-López, P Juliana… - 2013 - researchgate.net
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
[HTML][HTML] Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments
R Howard, D Gianola… - G3: Genes| Genomes …, 2019 - ncbi.nlm.nih.gov
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
Joint use of genome, pedigree, and their interaction with environment for predicting the performance of wheat lines in new environments.
R Howard, D Gianola, O Montesinos-López, P Juliana… - 2019 - cabidigitallibrary.org
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments.
R Howard, D Gianola… - G3: Genes …, 2019 - search.ebscohost.com
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
Joint Use of Genome, Pedigree, and Their Interaction with Environment for Predicting the Performance of Wheat Lines in New Environments
R Howard, D Gianola, O Montesinos-Lopez, P Juliana… - 2019 - digitalcommons.unl.edu
Genome-enabled prediction plays an essential role in wheat breeding because it has the
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …
potential to increase the rate of genetic gain relative to traditional phenotypic and pedigree …