Add to ORKGPlant water relations are critical for determining the distribution, persistence, and fitness of plant species. Studying the genetic basis of ecologically relevant traits, however, can be complicated by their complex genetic, physiological, and developmental basis and their interaction with the environment. Water use efficiency (WUE), the ratio of photosynthetic carbon assimilation to stomatal conductance to water, is a dynamic trait with tremendous ecological and agricultural importance whose genetic control is poorly understood. In the present study, we use a quantitative trait locus-mapping approach to locate, fine-map, clone, confirm, and characterize an allelic substitution that drives differences in WUE among natural accessions of Ara...
Improving crop performance under water-limiting conditions is essential for achieving environmentall...
Stomata allow CO2 uptake by leaves for photosynthetic assimilation at the cost of water vapor loss t...
Abiotic stresses such as drought, salinity, and temperature trigger an increased production of the p...
Ecologists and physiologists have documented extensive variation in water use efficiency (WUE) in Ar...
Water is the most limiting factor for crop production. These issues necessitate the study of water u...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Water limitation is one of the most important factors limiting crop productivity world-wide and has ...
Natural selection driven by water availability has resulted in considerable variation for traits ass...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Improvement in crop water-use efficiency (WUE) is a critical priority for regions facing increased d...
Water-use efficiency (WUE), the ratio of biomass to water loss, is a heritable but complex trait, th...
The ability of plants to acquire and use water is critical in determining life‐history traits such a...
Plants tend to decrease transpiration under water deficit and/or high evaporative demand by closing ...
How genetic factors control plant performance under stressful environmental conditions is a central ...
Improving crop performance under water-limiting conditions is essential for achieving environmentall...
Stomata allow CO2 uptake by leaves for photosynthetic assimilation at the cost of water vapor loss t...
Abiotic stresses such as drought, salinity, and temperature trigger an increased production of the p...
Ecologists and physiologists have documented extensive variation in water use efficiency (WUE) in Ar...
Water is the most limiting factor for crop production. These issues necessitate the study of water u...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Water limitation is one of the most important factors limiting crop productivity world-wide and has ...
Natural selection driven by water availability has resulted in considerable variation for traits ass...
Stomata control gas exchanges between the plant and the atmosphere. How natural variation in stomata...
Improvement in crop water-use efficiency (WUE) is a critical priority for regions facing increased d...
Water-use efficiency (WUE), the ratio of biomass to water loss, is a heritable but complex trait, th...
The ability of plants to acquire and use water is critical in determining life‐history traits such a...
Plants tend to decrease transpiration under water deficit and/or high evaporative demand by closing ...
How genetic factors control plant performance under stressful environmental conditions is a central ...
Improving crop performance under water-limiting conditions is essential for achieving environmentall...
Stomata allow CO2 uptake by leaves for photosynthetic assimilation at the cost of water vapor loss t...
Abiotic stresses such as drought, salinity, and temperature trigger an increased production of the p...