-
Inhertiance of resistance to striga hermonthica in early white and yellow maize
Striga hermonthica can cause as high as 100% yield loss in maize depending on soil fertility level, type of genotype, severity of infestation and climatic conditions.... -
Phenotypic data of 156 extra-early PVA maize hybrids evaluated under artifici...
Stress Tolerant Maize for Africa for Improved Livelihoods. -
Phenotypic data of 156 extra-early PVA maize hybrids evaluated under optimal ...
Stress Tolerant Maize for Africa for Improved Livelihoods -
Screening of early and extra-early maize inbreds under artificial turcicum in...
Landraces of maize (Zea mays L.) are invaluable sources of genetic variability for improving agronomic traits, and they hold great promise in developing new maize varieties with... -
Evaluation of testcrosses involving extra-early maturing maize inbred lines u...
The GGE biplot tool has potential for determining combining ability effects, identifying distinct heterotic groups and efficient testers in a line × tester study. However, its... -
Evaluation of testcrosses involving early maturing yellow maize inbred lines ...
Availability of multiple-stress tolerant maize is critical for improvement in maize production in West and Central Africa (WCA). A study was carried out to (i) assess a set of... -
Evaluation of Extra-Early-Maturing Provitamin A Maize Diallel Crosses
Vitamin A deficiency, drought, low soil nitrogen (low N) and Striga hermonthica parasitism of maize (Zea mays L.) cause malnutrition and food insecurity in sub-Saharan Africa.... -
Phenotypic data generated from QPM Hybrids evaluation under Low Soil Nitrogen...
Determine the gene action conditioning grain yield and other traits of the early maturing white QPM inbred lines under CDHS, low-N, and optimal environments and (ii) group the...