Add to ORKGgests that the humidity response is actually a transpiration response (Mott & Parkhurst 1991) mediated by complex negative feedback via the water status of cells associated with the stomatal apparatus (Cowan 1995; Franks, Cowa
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN026669 / BLDSC - British Library D...
Dynamics of stomatal water relations during the humidity response: implications of two hypothetical ...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
Background: Stomata respond to vapour pressure deficit (D) - when D increases, stomata begin to clos...
A new mechanism for stomatal responses to humidity and temperature is proposed. Unlike previously-p...
The plant's water status is the balance of water uptake and water loss. Transpiration (water loss) i...
The stomatal response to air humidity has been recently reinterpreted in the sense that stomata seem...
The ability of guard cells to hydrate and dehydrate from the surrounding air was investigated using ...
Analysis of previously published data shows that an extremely close correlation (r(2) = 0.83) exists...
Leaf-to-air water vapor pressure deficit (VPD) is an important environmental factor that can affect ...
SummaryStomata are pores on the leaf surface, bounded by two guard cells, which control the uptake o...
Understanding the mechanism of humidity transduction calls for experimental data and a theory to int...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN026669 / BLDSC - British Library D...
Dynamics of stomatal water relations during the humidity response: implications of two hypothetical ...
Stomatal responses to humidity, soil moisture and other factors that influence plant water status ar...
Background: Stomata respond to vapour pressure deficit (D) - when D increases, stomata begin to clos...
A new mechanism for stomatal responses to humidity and temperature is proposed. Unlike previously-p...
The plant's water status is the balance of water uptake and water loss. Transpiration (water loss) i...
The stomatal response to air humidity has been recently reinterpreted in the sense that stomata seem...
The ability of guard cells to hydrate and dehydrate from the surrounding air was investigated using ...
Analysis of previously published data shows that an extremely close correlation (r(2) = 0.83) exists...
Leaf-to-air water vapor pressure deficit (VPD) is an important environmental factor that can affect ...
SummaryStomata are pores on the leaf surface, bounded by two guard cells, which control the uptake o...
Understanding the mechanism of humidity transduction calls for experimental data and a theory to int...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN026669 / BLDSC - British Library D...