Add to ORKGPrevious work showed that a maize introgression library (IL) derived from the cross between Gaspé Flint (an early flowering Canadian landrace) and B73 (the reference maize line) segregated for phenology as well for seminal root architecture (SRA) traits. In this experiment, the IL was evaluated in the high-throughput phenotyping platform PhenoArch (INRA, Montpellier
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic...
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic ...
Drought severely limits forage productivity. The avoidance of water deficit by increasing the capaci...
Previous work showed that a maize introgression library (IL) derived from the cross between Gaspé Fl...
High transpiration efficiency (TE) is one way to optimize water use. Although variation for root mo...
Maintenance of expansive growth under water deficit has been selected as a key target trait of DROPS...
We studied the drought response of eight commercial hybrid maize lines with contrasting drought sens...
Sustaining world food production under a changing climate and a growing population demands for highe...
• The high-throughput phenotypic analysis of Arabidopsis thaliana collections requires methodologica...
Abstract only availableFaculty Mentor: Dr. Georgia Davis, Microbiology and ChemistryDrought alone co...
This new experimental platform allows:-to record detailled dynamic root morphological information-to...
AbstractThe urgent need of breeding more drought tolerant crops in order to meet the future needs of...
There is increasing interest in rapidly identifying genotypes with improved water use efficiency, ex...
Tolerance to soil water deficit is a priority of many maize breeding programs. Its genetic analysis ...
With the genomics revolution in full swing, relevant phenotyping is now a main bottleneck. New imag...
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic...
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic ...
Drought severely limits forage productivity. The avoidance of water deficit by increasing the capaci...
Previous work showed that a maize introgression library (IL) derived from the cross between Gaspé Fl...
High transpiration efficiency (TE) is one way to optimize water use. Although variation for root mo...
Maintenance of expansive growth under water deficit has been selected as a key target trait of DROPS...
We studied the drought response of eight commercial hybrid maize lines with contrasting drought sens...
Sustaining world food production under a changing climate and a growing population demands for highe...
• The high-throughput phenotypic analysis of Arabidopsis thaliana collections requires methodologica...
Abstract only availableFaculty Mentor: Dr. Georgia Davis, Microbiology and ChemistryDrought alone co...
This new experimental platform allows:-to record detailled dynamic root morphological information-to...
AbstractThe urgent need of breeding more drought tolerant crops in order to meet the future needs of...
There is increasing interest in rapidly identifying genotypes with improved water use efficiency, ex...
Tolerance to soil water deficit is a priority of many maize breeding programs. Its genetic analysis ...
With the genomics revolution in full swing, relevant phenotyping is now a main bottleneck. New imag...
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic...
Phenotypic measurements under controlled cultivation conditions are essential to gain a mechanistic ...
Drought severely limits forage productivity. The avoidance of water deficit by increasing the capaci...