Internal Leaf Area and Cellular CO 2 Resistance: Photosynthetic Implications of Variations with Growth Conditions and Plant Species

The influences of illumination, temperature, and soil water potential during development on leaf thickness, mesophyll cell wall area per unit leaf area ( Ames /A ), and the cellular CO 2 , resistance expressed on a mesophyll cell wall area basis ( r CO2 cell ,) were examined for Plectranthus parviflorus Henckel. Although the ranges of all three growth conditions caused at least 9‐fold variations in the leaf biomass produced in 4 weeks, only the illumination had a major effect on internal leaf morphology, e.g. the thickness went from 279 to 831 μ m and A mes / A from 10.5 to 34.8 as the photosynthetically active radiation was raised from 3 to 53 nEinsteins cm −2 s −1 , while r CO2 cell remained close to 154 s cm −1 . Variations in the growth temperature, soil water potential, and the nutritional status of the plant, affected photosynthesis mainly by changes in r CO2 cell . To compare the influence of internal leaf area on photosynthesis for other plants, especially those with low A mes / A values, the maximum rates of CO 2 uptake at light saturation and photosynthetically optimal temperatures were also determined for a moss, Mnium ciliare (C. Muell.) Schimp., and two ferns, Adiantum decorum Moore and Alsophila australe R. Br. As A mes/ A went from 2.00 for the moss to 3.8, 7.5, 11.7, and 20.8 for the fens, the illumination at light saturation and the maximum rate of photosynthesis both progressively increased. The cellular CO 2 resistance, which theoretically might have a lower limit of 20 s cm −1 , ranged from 85 to 190 s cm −1 .