Abstract:The optimal temperature for the nitrogenase activity in the terrestrial cyanobacterium N. flagelliforme was 21–28℃; the optimal water content in thallus was 1000--1500%; the light saturation was between 150–200 J·m-2·s-1. The thallus of N. flagelliforme is extremely sensitive to higher temperature in wet. Long-term exposure of wetted thallus to high temperature at 45℃ causes rapid declination of its nitr0genase activity to zero. Under dry condition, N. flagelliforme is extremely resistant to extensive desiccation and heat exposure. Dry thalli exposed to 55℃, 5 hours daily for 21 days, show no marked change in its nitrogenase activity. The thalli preincubated in wet condition for 4–5 days, are highly sensitive against desication. However, repeated drying/wetting cycles induce a slow and gradual increase of its nitrogenase activity and improve the resistance of its nitrogenase activity against desiccation. High concentrated NaC1 salt solution (0.17–0.43 mol/L) depletes nitrogenase activity of the thalli quickly. Above result shows that N. flagelliforme is not able to resist against salt. The physiological characteristics of nitrogen fixation of cyanobacterium N. flagelliforme may be eonsidered as a result of drought adaptation of the terrestrial ecological condition aad the drying westting cycle is perhaps a necessary factor to maintain its growth.