Add to ORKGPlant roots have been recognized to play an important adaptive role in drought prone environments. There have been many efforts to improve root traits in order to develop drought tolerant cereal crops including maize but significant progress has not yet to be made. Twelve maize hybrids and their corresponding 12 female inbred par- ents were evaluated for genetic variation in deep root mass and other root traits in PVC tubes. The hybrids were selected based on their grain yield performance under water-stressed conditions in the field. Plants were grown in three different growing media, and a mixture of sand, vermiculite, perlite and soil was found to be the best growing medium to study root growth. Significant phenotypic var...
Understanding how roots respond to increasing rate of evapotranspiration in warmer days and exposure...
Introduction Maize is the cereal with the largest annual global production at 1000 M tons annually. ...
ABSTRACT. Drought stress is limiting global crop production more seriously than ever because of rapi...
Background and aims: Selection for deep roots to improve drought tolerance of maize (Zea mays L.) re...
Background: Maize is an important cereal crop, grown throughout the globe for human food and livesto...
Drought stress is limiting global crop production more seriously than ever because of rapid change...
Most maize production across the globe is rain-fed, and production is set to be negatively impacted ...
University of Minnesota Ph.D. dissertation. November 2016. Major: Applied Plant Sciences. Advisor: J...
Drought stress is paramount in limiting worldwide maize (Zea mays L.) production and productivity. I...
Shortage of irrigation water at critical growth stages of maize is limiting its production worldwide...
Deep rooting has been identified as strategy for desiccation avoidance in natural vegetation as well...
Maize genotypes may adapt to dry environments by avoiding desiccation by means of a deeper root syst...
Water availability can limit maize (Zea mays L.) yields, and root traits may enhance drought adaptat...
Maize is the third most important food crop worldwide, and it is more sensitive to drought. Two fiel...
An emerging paradigm is that root traits that reduce the metabolic costs of soil exploration improve...
Understanding how roots respond to increasing rate of evapotranspiration in warmer days and exposure...
Introduction Maize is the cereal with the largest annual global production at 1000 M tons annually. ...
ABSTRACT. Drought stress is limiting global crop production more seriously than ever because of rapi...
Background and aims: Selection for deep roots to improve drought tolerance of maize (Zea mays L.) re...
Background: Maize is an important cereal crop, grown throughout the globe for human food and livesto...
Drought stress is limiting global crop production more seriously than ever because of rapid change...
Most maize production across the globe is rain-fed, and production is set to be negatively impacted ...
University of Minnesota Ph.D. dissertation. November 2016. Major: Applied Plant Sciences. Advisor: J...
Drought stress is paramount in limiting worldwide maize (Zea mays L.) production and productivity. I...
Shortage of irrigation water at critical growth stages of maize is limiting its production worldwide...
Deep rooting has been identified as strategy for desiccation avoidance in natural vegetation as well...
Maize genotypes may adapt to dry environments by avoiding desiccation by means of a deeper root syst...
Water availability can limit maize (Zea mays L.) yields, and root traits may enhance drought adaptat...
Maize is the third most important food crop worldwide, and it is more sensitive to drought. Two fiel...
An emerging paradigm is that root traits that reduce the metabolic costs of soil exploration improve...
Understanding how roots respond to increasing rate of evapotranspiration in warmer days and exposure...
Introduction Maize is the cereal with the largest annual global production at 1000 M tons annually. ...
ABSTRACT. Drought stress is limiting global crop production more seriously than ever because of rapi...