Kandelia obovata and Rhizophora stylosa were used as study materials in this study. The gas exchange and chlorophyll fluorescence parameters were measured under salinity ((10 per mille) and (40 per mille)) and flooding treatments to explore the photosynthetic characteristics. The results show that the photosynthesis rate of the Kandelia obovata varied with the duration of irradiation. During the initial 30 minutes of irradiation, the photosynthetic rate was almost not activated, and the stomatal conductance was also low. The energy absorbed by its leaves during this period is processed mainly through heat dissipation. After 30 minutes of irradiation, the photosynthetic rate gradually increased, but most of absorbed energy was still dissipated through heat. This phenomenon suggests that Kandelia obovata adjusts the physiological behavior in response to the dynamic changes of the irradiation. In response to flooding, K. obovate develops positive energy utilization and photoprotection patterns. Kandelia obovata is more suitable for growing in environment with intermittent flooding. Rhizophora stylosa cultured at (40 per mille) of salinity under flooding or no flooding treatments had low photosynthetic rate, low photochemical quenching and the energy absorbed was dissipated mainly through heat. Severe photoinhibiton was also found in Rhizophora stylosa cultured at (40 per mille) of salinity. The results suggest that R. stylosa is not resistant to flooding under (40 per mille) of salinity.