Influence of long photoperiods on plant development and expression of Crassulacean acid metabolism in Mesembryanthemum crystallinum

Abstract. In the natural habitat plants of Mesembryanthemum crystallinum are induced to perform Crassulacean acid metabolism (CAM) after 3 months, and reproductive growth begins after 5 months (Winter, Liittge & Winter, 1978, Oecologia (Berlin), 34, 225-237). The life cycle of M. crystallinum and the extent of growth required prior to induction of enzymes of Crassulacean acid metabolism (CAM) are dramatically shortened by growing seedlings with a long photoperiod (3=16h/8h light/dark). Reproductive growth begins as soon as five weeks after germination when plants are grown in continuous light (under 600μmol quanta m^?2 s^?1, 30°C). In plants grown under well-watered conditions, the activities of PEP carboxylase and NADP-malic enzyme begin increasing markedly 2 weeks after germination, with plants grown under longer photoperiods having higher enzyme activities. After 3 weeks of growth, leaves accumulated a large amount of malate, but the microequivalents of malate present were up to nine times greater than the total titratable acidities. Interestingly, plants from a 24h/0h or a 20h/4h photo-period showed no diurnal fluctuation of malate, but did produce malate in the light as a major photosynthetic end product. That is, under these environmental conditions, principal enzymes of CAM can be induced without the plants performing CAM. However, plants grown in a 16h/8h photoperiod did exhibit nocturnal accumulation of malate after 3 weeks of growth. In plants of all three growth conditions, the activities of NADP-malic enzyme and PEP carboxylase were further increased two- to live-fold by irrigating 3-week-old-plants with 350mol m^?3 NaCl. Such early enhancement of these enzymes by salt and the shortened life cycle may be due to an accelerated development under the long photoperiods.