The temperature effects on photosynthetic characteristics and biomass production of green bamboo (Bambusa oldhamii Munro) were studied. Mosaic virus-free potted green bamboo layers were grown for eleven months at phytotrons with day/night temperatures of 15/13, 20/15, 25/20, 30/25, and 35/30℃. Plants grown at a polyethylene tunnel with prevailing temperature were as control. The results showed that the life span of green bamboo leaves ranged in 66-101 days, and was negatively correlated with temperature (R^2＝ 0.94，P＜0.05). The leaf longevity under two lower temperature treatments was extended for 22-25 days comparing to the control. The net photosynthetic rate (Pn) of mature leaf was 2.7-6.93 μmol．m^-2．s^-1, and increased with temperature up to 35/30℃ under light intensity of 1,200 μmol．m^-2．s^-1 and 350 μmol．mol^-1 CO2. A curvilinear regression model (Y(subscript Pn)＝－0.01X^2＋0.7128X－5.6692, R^2＝0.92, P＜0.01) depicted the relationship between Pn and temperature. The maximum Pn value would occur at 35.6℃. The stomatal conductance (0.09-0.22 H2O mol．m^-2．s^-1) and transpiration rate (2.0-2.8 H2O mmol．m^-2．s^-1) followed similar trend to temperature as Pn. Both fresh and dry biomass were lowest in plants under two lower temperature treatments. A curvilinear regression model depicted the relationship between biomass and temperature. The biomass partition in plant parts followed in decending order of branch and culm, root, rhizome and leaves. Lower biomass of leaf litter and higher biomass of root were obtained in green bamboo at both temperatures of 20/15℃and 15/13℃ comparing to higher temperature. The ratios partitioned in branch and culm, rhizome, and fresh leaves showed small variation. The maximum total dry weight of plant would attain at 28.1℃.