Add to ORKGControl of gas exchange between a leafs interior and the surrounding air is accomplished by variations in the turgor pressures in the small epidermal and guard cells that cover the leafs surface. These pressures respond to changes in light intensity and color, temperature, CO2 concentration, and air humidity. The dynamical equations that describe these processes are formally identical to those that define computation in a two layer, adaptive, cellular nonlinear network. This identification suggests that leaf gas exchange processes can be understood as a kind of analog computation
Graduation date: 1965Because the life processes of the plant are related in a complex\ud way to the ...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
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...
It has been suggested that some biological processes are equivalent to computation, but quantitative...
Is the adaptive response to environmental stimuli of a biological system lacking a central nervous s...
102 pagesClimate change is increasing the intensity and frequency of abiotic stresses – temperature,...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Leaf gas exchange occurs through the stomata and cuticle, with water vapour and CO2 passing through ...
The best predictor of leaf level photosynthetic rate is the porosity of the leaf surface, as determi...
Gas exchange of leaves is generally considered as the interchange of gaseous compounds between the l...
The two-dimensional model of leaf gas exchange, 2DLEAF, which accounts for leaf intercellular struct...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Graduation date: 1965Because the life processes of the plant are related in a complex\ud way to the ...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
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...
It has been suggested that some biological processes are equivalent to computation, but quantitative...
Is the adaptive response to environmental stimuli of a biological system lacking a central nervous s...
102 pagesClimate change is increasing the intensity and frequency of abiotic stresses – temperature,...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Leaf gas exchange occurs through the stomata and cuticle, with water vapour and CO2 passing through ...
The best predictor of leaf level photosynthetic rate is the porosity of the leaf surface, as determi...
Gas exchange of leaves is generally considered as the interchange of gaseous compounds between the l...
The two-dimensional model of leaf gas exchange, 2DLEAF, which accounts for leaf intercellular struct...
Stomata are portals in plant leaves that control gas exchange for photosynthesis, a process fundamen...
Graduation date: 1965Because the life processes of the plant are related in a complex\ud way to the ...
Stomatal movements depend on the transport and metabolism of osmotic solutes that drive reversible c...
Stomata are microscopic variable aperture pores on the surfaces of leaves. In response to different ...