We classify mathematical models that can be used to describe photosynthetic oscillations using ideas from nonlinear dynamics, and discuss potential mechanisms for photosynthetic oscillations in the context of this classification. We then turn our attention to recent experiments with leaves transferred to a low CO(2) atmosphere which revealed stochastic oscillations with a period of a few seconds. Rubisco is the enzyme that takes both CO(2) and O(2) as substrates correspondingly for photosynthetic assimilation and for photorespiration. Photosynthesis depletes CO(2) and produces O(2) while respiration and photorespiration work in the opposite direction, so the product of one process becomes the reactant of the other coupled process. We examine the possibility of oscillations of CO(2) and O(2) in the leaf in relation to photorespiration. We suggest that in the cell, oscillations with a period of a few seconds, corresponding to the time between photosynthetic CO(2) fixation and photorespiratory CO(2) release, underlie the dynamics of metabolism in C(3) plants.

• 出版日期2011-2