C3-C4 intermediate photosynthetic characteristics of cassava (Manihot esculenta Crantz)

Abstract

The gas exchange characteristics of cassava were compared with one C₃ species, common bean, and two C₄ species, maize and amaranthus. Cassava leaf photorespiration, about 12% of maximum net photosynthesis in normal air, and the CO₂ release in CO₂-free air under intense light were lower than the values typically reported for C₃ species. The CO₂ compensation point of whole leaves (25 cm³ CO₂m⁻³) was intermediate between C₃ and C₄ species values. Gas exchange was restricted to either the upper or lower surface of amphistomatous leaves by covering one side of the leaf with silicone grease. The CO₂ compensation point of the upper leaf surface was less than 6 cm³ CO₂m⁻³ and the CO₂ release into CO₂-free air in the light was essentially zero. On the lower leaf surface considerable CO₂ release occurred in both the light and the dark. The hypothesis presented to explain these results is the existence of an efficient CO₂ recycling mechanism in the palisade layer in the upper half of the leaf. In the light of recent data (presented in the second paper of this series) indicating that cassava produces C₄ acids as primary products of photosynthesis, it is proposed that this hypothesis is consistent with the possible existence of the C₄ photosynthetic pathway in the palisade layer of cassava leaves. The results and hypothesis are discussed in relation to the crop's adaptation to the environmental conditions where it is normally grown. The implications of variation in anatomical features such as stomatal distribution on both surfaces of the leaf are analyzed with a view to enhancing the potential productivity of cassava under stress conditions.