Quantum Requirement for Photosynthesis in Sedum praealtum during Two Phases of Crassulacean Acid Metabolism

Abstract

The quantum requirement (QR) for photosynthesis in Sedum praealtum, a Crassulacean acid metabolism plant, was compared with that of wheat, a C₃ plant, and maize, a C₄ plant, at 30 C. During the deacidification phase in S. praealtum, approximately 16 moles quanta were absorbed per mole malate consumed. This is equivalent to 16 moles quanta per mole CO₂ fixed, assuming 1 mole CO₂ is assimilated per mole malate decarboxylated. This QR for Crassulacean acid metabolism is similar to that of the C₃ or C₄ plant under atmospheric conditions, even though there are considerable differences in the biochemistry of photosynthesis. During late-afternoon C₃-like fixation of atmospheric CO₂ in S. praealtum, the QR was relatively high with values of 41 under 21% O₂ and 19 under 2% O₂. During the deacidification phase in S. praealtum, the relatively low QR can be accounted for by the repression of photorespiration and saturation of photosynthesis from the elevated CO₂ concentration in the leaves during malate decarboxylation.