Add to ORKGStomatal conductance (gs) and transpiration (E) are often positively correlated with the hydraulic conductance of the soil–leaf continuum (ks–l). Interaction between gs and ks–l helps regulate water potential (9) of leaves. When soil and plant 9 decreases during water stress, ks–l decreases. A well-documented cause of the decrease in ks–l is xylem cavitation. The interaction between k and 9 in xylem creates physical limits on the range of 9 and E over which gas exchange can occur. Differences in drought tolerance between species correlate with hydraulic limits. Safety margins from complete hydraulic failure are often small enough to require stomatal regulation of 9 and E. While stomatal regulation avoids complete hydraulic failure, controll...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
Efficient conduction of water inside leaves is essential for leaf function, yet the hydraulic-mediat...
• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...
Plants are continuously subject to changes in climate and soil conditions and their ability to promp...
During drought soil hydraulic conductivity constrains transpiration. To avoid losses in leaf water p...
The current trend towards linking stomata regulation to plant hydraulics emphasizes the role of xyle...
The current trend towards linking stomata regulation to plant hydraulics emphasizes the role of xyle...
Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...
There is increasing need for mechanistic and predictive models of transpiration and stomatal respons...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
Efficient conduction of water inside leaves is essential for leaf function, yet the hydraulic-mediat...
• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...
Plants are continuously subject to changes in climate and soil conditions and their ability to promp...
During drought soil hydraulic conductivity constrains transpiration. To avoid losses in leaf water p...
The current trend towards linking stomata regulation to plant hydraulics emphasizes the role of xyle...
The current trend towards linking stomata regulation to plant hydraulics emphasizes the role of xyle...
Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...
There is increasing need for mechanistic and predictive models of transpiration and stomatal respons...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
It's commonly accepted that the universal trade-off between water saving and CO2 capture driven by s...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
Efficient conduction of water inside leaves is essential for leaf function, yet the hydraulic-mediat...
• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...