Nitrate Deficiency Shortens the Circadian Period in Gonyaulax

Abstract

The circadian rhythms in bioluminescence and photosynthesis in Gonyaulax polyedra suspended in unsupplemented sea water have been compared to the same rhythms in f/2, an enriched seawater medium. Cells suspended in sea water for 2 days in continuous light (450 microwatts per square centimeter) showed significantly shorter circadian periods and lower amplitudes than did cells in f/2 medium (a period of 22.2 hours as compared to 23.5 hours). Both period and amplitude changes could be completely reversed by the addition of nitrate at one-fourth or more of the concentration in f/2 medium (0.88 millimolar). The addition to autoclaved seawater of phosphate, vitamins, minerals, or soil extract in concentrations present in f/2 medium had no effect. Thus, the shortening of the circadian period is the consequence of reduced nitrogen supply. Since both the rhythms in bioluminescence and photosynthesis showed similarly shortened circadian periods and lower amplitudes, it is probable that the depletion of nitrate directly affects the circadian clock.