Add to ORKGAnalysis of previously published data shows that an extremely close correlation (r(2) = 0.83) exists between stomatal sensitivity to changes in leaf to air vapor pressure deficit and the maximum leaf conductance at low VPD in a wide range of plant species. The hypothesis is presented that stomatal sensitivity to changes in VPD is related to the evaporative area of the stomatal apparatus coupled with a large hydraulic resistance between the epidermal cells and the bulk of the lea
Stomata are orifices that connect the drier atmosphere with the interconnected network of more humid...
To better understand the poor regulation of water loss after leaf development at high relative air h...
The stomatal conductance of several anisohydric plant species, including field-grown sunflower, freq...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Leaf-to-air water vapor pressure deficit (VPD) is an important environmental factor that can affect ...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
A better understanding of the mechanistic basis of stomatal control is necessary to understand why m...
A new mechanism for stomatal responses to humidity and temperature is proposed. Unlike previously-p...
This paper reports the results of two experiments undertaken to investigate the influence of season ...
The ability of guard cells to hydrate and dehydrate from the surrounding air was investigated using ...
Background Stomata respond to vapour pressure deficit (D) – when D increases, stomata begin to...
Stomatal responses to closing stimuli are disturbed after long-term exposure of plants to low vapour...
As a result of contemporary horticultural practices relative air humidities (RH) in greenhouses are ...
Humidity in a small area of a Vicia faba L. leaf was perturbed with a flow of dry air from an 80 µm ...
Stomatal responsiveness to vapour pressure deficit (VPD) results in continuous regulation of daytime...
Stomata are orifices that connect the drier atmosphere with the interconnected network of more humid...
To better understand the poor regulation of water loss after leaf development at high relative air h...
The stomatal conductance of several anisohydric plant species, including field-grown sunflower, freq...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Leaf-to-air water vapor pressure deficit (VPD) is an important environmental factor that can affect ...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
A better understanding of the mechanistic basis of stomatal control is necessary to understand why m...
A new mechanism for stomatal responses to humidity and temperature is proposed. Unlike previously-p...
This paper reports the results of two experiments undertaken to investigate the influence of season ...
The ability of guard cells to hydrate and dehydrate from the surrounding air was investigated using ...
Background Stomata respond to vapour pressure deficit (D) – when D increases, stomata begin to...
Stomatal responses to closing stimuli are disturbed after long-term exposure of plants to low vapour...
As a result of contemporary horticultural practices relative air humidities (RH) in greenhouses are ...
Humidity in a small area of a Vicia faba L. leaf was perturbed with a flow of dry air from an 80 µm ...
Stomatal responsiveness to vapour pressure deficit (VPD) results in continuous regulation of daytime...
Stomata are orifices that connect the drier atmosphere with the interconnected network of more humid...
To better understand the poor regulation of water loss after leaf development at high relative air h...
The stomatal conductance of several anisohydric plant species, including field-grown sunflower, freq...