With synchronously grown cells of an aerobic unicellular marine cyanobacterium Synechococcus sp. Miami BG 043511, changes in the activities of anoxygenic, nitrogenase-dependent hydrogen photoproduction and oxygen photoevolution were measured under nongrowing hydrogen production conditions. Interestingly, synchronously grown cells, incubated in light under an argon atmosphere, exhibited cyclic changes in the activity of nitrogenase-catalyzed hydrogen production for approximately 20- to 25-h intervals. Cyclic photosynthetic oxygen production activity also appeared in approximately the same intervals. However, changes in hydrogen production and oxygen production activities were inversely correlated and temporally separated. Stepwise accumulation of hydrogen in closed vessels was also observed in approximately 24-h cycles in these non-growing cells. These observations in non-growing cells suggest that this unicellular aerobic, nitrogen-fixing cyanobacterium may have an endogenous system to control the exhibition of cyclic rhythms, in addition to the previously studied cell cycle-oriented system. Expression and switching between these two systems may be related to the sufficiency or insufficiency of nitrogen growth nutrients. The possibility of the existence of a common control factor of the two systems involving glycogen is also discussed.