Add to ORKGStomata are microscopic variable aperture pores on the surfaces of leaves. In response to different environmental stimuli, they control the exchange rate of both water vapor and carbon dioxide between the air and the leaf interior, making their role an important determination of the status of plant life on Earth. This study is based on a recently developed stomatal model in which the aperture size is governed by vapor phase humidity. The study describes an electronic analog of the stomatal unit; in it, current models water flow, a transistor represents the variable resistance of the stomatal aperture, capacitors represent turgor pressure in cellular tissue, and variable potential sources represent outside stimuli such as humidity, light, an...
Control of gas exchange between a leafs interior and the surrounding air is accomplished by variatio...
Stomatal pores facilitate gaseous exchange between the inner air spaces of the leaf and the atmosphe...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Stomata are microscopic variable aperture pores on the surfaces of leaves. In response to different ...
Plants have evolved incredible tools to respond to changing environmental conditions in order to max...
Stomatal function can be used effectively to monitor plant hydraulics, photosensitivity, and gas exc...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
It is proposed that a measurement of the peristomatal criterion for choosing a technique is scale of...
We developed a new digital image processing technique for exactly measuring the degree of stomatal o...
102 pagesClimate change is increasing the intensity and frequency of abiotic stresses – temperature,...
Much of atmospheric water originates from transpiration, the process by which plants release H2O fro...
BackgroundGuard cells perceive external and internal stimuli and regulate stomatal conductance in pl...
Abstract Background Guard cells perceive external and internal stimuli and regulate stomatal conduct...
Stomata (singular: stoma) are pores on the surface of the aerial parts of most higher plants. The si...
Control of gas exchange between a leafs interior and the surrounding air is accomplished by variatio...
Stomatal pores facilitate gaseous exchange between the inner air spaces of the leaf and the atmosphe...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...
Stomata are microscopic variable aperture pores on the surfaces of leaves. In response to different ...
Plants have evolved incredible tools to respond to changing environmental conditions in order to max...
Stomatal function can be used effectively to monitor plant hydraulics, photosensitivity, and gas exc...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
It is proposed that a measurement of the peristomatal criterion for choosing a technique is scale of...
We developed a new digital image processing technique for exactly measuring the degree of stomatal o...
102 pagesClimate change is increasing the intensity and frequency of abiotic stresses – temperature,...
Much of atmospheric water originates from transpiration, the process by which plants release H2O fro...
BackgroundGuard cells perceive external and internal stimuli and regulate stomatal conductance in pl...
Abstract Background Guard cells perceive external and internal stimuli and regulate stomatal conduct...
Stomata (singular: stoma) are pores on the surface of the aerial parts of most higher plants. The si...
Control of gas exchange between a leafs interior and the surrounding air is accomplished by variatio...
Stomatal pores facilitate gaseous exchange between the inner air spaces of the leaf and the atmosphe...
Stomata respond to increasing leaf-to-air vapour pressure difference (LAVPD) (D) by closing. The mec...