This study investigated stomatal conductance, photosynthetic rate and chlorophyll fluorescence parameters of Morii oak (Cyclobalanopsis morii), Nanban tanoak (Pasania hancei) and Arishan oak (Cyclobalanopsis stenophylloides) in response to simulated water deficits in the greenhouse of NTU, Taipei, Taiwan. This experiment classified the medium water potentials into three levels: non-stress (C), middle stress (-90~-50 kPa, M) and severe stress (-190~-130 kPa, S). Three levels were performed for 1 or 2 months and combined into five treatments of watering regimes (CC, CS, MM, MS, SS), and one month rewatering followed. This experiment was conducted from May 2008 to October 2008. Result showed that the relative growth rates of both height and diameter were differed significantly between control and water stress treaments. The most appalling injury was appeared in Morii oak, the seedlings died after 2 months of severe stress. The leaf length/width ratios in three species were significantly increased. The concentrations of chlorophyll under stress varied according to species, which of Morii oak and Nanban tanoak were decreased significantly whether in middle or severe stresses but of Arishan oak were decreased only in severe stresses. The net photosynthetic rates (Pn) and stomatal conductances (gs) were decreased in the stressed seedlings of all three species. Significant differences of water use efficiency (WUE) appeared after two months of severe stress in Nanban tanoak and Arishan oak instead of one month in Morii oak. The fluorescence parameters, Fv/Fm, F′v/F′m, ΦPSII, and qP, were significantly fell depending on the levels of water deficits or the lengths of treated periods, revealed the decreased activity of PS II; meanwhile, the rising of NPQ quenched excess energy to protect PS II from damage. The dark reaction parameter of photosystem, Rd, showed that more carbonhydrate was exhausted. The photosynthetic rates of stressed treatments were decreaded due to decrease of gs, Vcmax and Jmax, which indicated both of stomatal and non-stomatal limitations were occurred under middle and severe stress. After rewatering, Pn, gs, and WUE were partially or mostly recovered in stress treatments except that the seedlings of SS treatment of Morii oak died. The fluorescence parameters, Fv/Fm, F′v/F′m, qP, ΦPSII, and NPQ were recovered according to the damage caused by treatments. The recovery of Rd was affected by both soil water potentials and the persistent period of stress. The performances of Vcmax and Jmax were still significantly different between stress and control set.