Calculation of CO2 gas phase diffusion in leaves and its relation to stomatal resistance

A new theory and experimental method was developed to measure the diffusion resistance to CO₂ in the gas phase of mesophyll leaf tissue. Excised leaves were placed in a chamber and their net evaporation and CO₂ assimilation rates measured at two different ambient pressures. These data were used to calculate CO₂ gas phase diffusion resistances. A variety of field grown leaves were tested and the effects of various experimental errors considered. Increasing the gas phase diffusion resistance decreased transpiration more than it decreased CO₂ assimilation. It was concluded that gas phase diffusion resistance associated with CO₂ assimilation may sometimes be 100 or 200 s·m^-1 greater than the resistance implied by transpiration rates. This may be due to longer path lengths for the CO₂ diffusion, constricted in places by the shape and arrangement of mesophyll cells.