Add to ORKGStomata, the microvalves on leaf surfaces, exert major influences across scales, from plant growth and productivity to global carbon and water cycling. Stomatal opening enables leaf photosynthesis, and plant growth and water use, whereas plant survival of drought depends on stomatal closure. Here we report that stomatal function is constrained by a safety-efficiency trade-off, such that species with greater stomatal conductance under high water availability (gmax) show greater sensitivity to closure during leaf dehydration, i.e., a higher leaf water potential at which stomatal conductance is reduced by 50% (Ψgs50). The gmax - Ψgs50 trade-off and its mechanistic basis is supported by experiments on leaves of California woody species, and in ...
Stomatal conductance links plant water use and carbon uptake. Its responses to environmental conditi...
AbstractThe control of gaseous exchange between the leaf and bulk atmosphere by stomata governs CO2 ...
The leaf surface is the locus of a multitude of physiological processes important in determining pla...
Plants control water-use efficiency (WUE) by regulating water loss and CO2 diffusion through stomata...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
In order for plants to use water efficiently, stomata must ensure an appropriate balance between CO2...
The question as to what triggers stomatal closure during leaf desiccation remains controversial. Thi...
In the current century, global warming is becoming an alarming issue causing an increase in the area...
Isohydry (maintenance of plant water potential at the cost of carbon gain) and anisohydry (gas excha...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
• The stomata of angiosperms respond to changes in ambient atmospheric concentrations of CO2 (Ca) in...
Stomatal responsiveness to vapour pressure deficit (VPD) results in continuous regulation of daytime...
The classical theory of stomatal optimization stipulates that stomata should act to maximize photosy...
<div><p>Climate change is expected to lead to increases in drought frequency and severity, with dele...
Stomatal conductance links plant water use and carbon uptake. Its responses to environmental conditi...
AbstractThe control of gaseous exchange between the leaf and bulk atmosphere by stomata governs CO2 ...
The leaf surface is the locus of a multitude of physiological processes important in determining pla...
Plants control water-use efficiency (WUE) by regulating water loss and CO2 diffusion through stomata...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
In order for plants to use water efficiently, stomata must ensure an appropriate balance between CO2...
The question as to what triggers stomatal closure during leaf desiccation remains controversial. Thi...
In the current century, global warming is becoming an alarming issue causing an increase in the area...
Isohydry (maintenance of plant water potential at the cost of carbon gain) and anisohydry (gas excha...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
• The stomata of angiosperms respond to changes in ambient atmospheric concentrations of CO2 (Ca) in...
Stomatal responsiveness to vapour pressure deficit (VPD) results in continuous regulation of daytime...
The classical theory of stomatal optimization stipulates that stomata should act to maximize photosy...
<div><p>Climate change is expected to lead to increases in drought frequency and severity, with dele...
Stomatal conductance links plant water use and carbon uptake. Its responses to environmental conditi...
AbstractThe control of gaseous exchange between the leaf and bulk atmosphere by stomata governs CO2 ...
The leaf surface is the locus of a multitude of physiological processes important in determining pla...