Thermoluminescence (TL) signals were measured from leaves of the facultative CAM (crassulacean acid metabolism) plant Mesembryanthemum crystallinum L.. Following the induction of CAM by salt treatment, a TL band at 46 °C was induced, which was charged by a single-turnover flash. The intensity of the 46 °C-band depends on the number of excitation flashes and oscillates with a period of four. A similar band was induced in C3 plants by far-red illumination. Under CAM conditions, the intensity of the 46 °C-band underlies a diurnal rhythm. The maximal intensity of the 46 °C-band is observed in the morning after onset of the light and in the evening. At around 12 a.m. it is suppressed. The intensity of the 46 °C-band relates to diurnal changes in the ratio of dihydroxy acetone phosphate/3-phosphoglycerate (DHAP/PGA) which is an indicator of the energy status of the chloroplast. During high-intensity illumination, the 46 °C-band disappears, but it is restored in the dark. We propose that the 46 °C-band is an indicator of the metabolic state of the leaf, originating from photosystem II centres initially in the S2(S3)QB oxidation state, in which the electron acceptor QB becomes reduced either by reverse electron flow or reduction of the plastoquinone pool via an NAD(P)H plastoquinone oxidoreductase. We present evidence that the redox state of the electron-transport chain is different under conditions of CAM compared to C3 metabolism and that changes induced by CAM can be monitored by measuring the amplitude of the 46 °C-band after flash excitation.