Add to ORKGStomata can close to regulate plant water loss under unfavourable water availability. This closure can be triggered by hydraulic (‘H’) and/or chemical signals (‘C’, ‘H+C’). By combining plant hydraulic relations with a model for stomatal conductance, including chemical signalling, our aim was to derive a simple relation that links soil water availability, expressed as the fraction of roots in dry soil, to transpiration
Stomatal conductance (gs) and transpiration (E) are often positively correlated with the hydraulic c...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
Aims Stomata can close to avoid cavitation under decreased soil water availability. This closure can...
We describe here an integration of hydraulic and chemical signals which control stomatal conductance...
• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...
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...
There is increasing need for mechanistic and predictive models of transpiration and stomatal respons...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
A simulation model to demonstrate that soil water potential can regulate transpiration, by influenci...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...
Stomatal conductance (gs) and transpiration (E) are often positively correlated with the hydraulic c...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...
Aims Stomata can close to avoid cavitation under decreased soil water availability. This closure can...
We describe here an integration of hydraulic and chemical signals which control stomatal conductance...
• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...
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...
There is increasing need for mechanistic and predictive models of transpiration and stomatal respons...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
A simulation model to demonstrate that soil water potential can regulate transpiration, by influenci...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Understanding stomatal regulation during drought is essential to correctly predict vegetation-atmosp...
Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...
Stomatal conductance (gs) and transpiration (E) are often positively correlated with the hydraulic c...
The fundamental question as to what triggers stomatal closure during soil drying remains contentious...
Communication oraleNational audienceIt's commonly accepted that the universal trade-off between wate...