The leaf antioxidative system of water-stressed sweet potato was studied through exogenous calcium treating. Sweet potato 'Taoyuan 2', 'Simon 1', and 'Sushu 18' pre-applied with 0, 60, 120 and 180 kg/ha CaCl2 were given drought stress, and plants with non-drought condition were taken as control. A split-split plot design in randomized complete blocks with three replications was used. The values of all antioxidases and antioxidants in the sweet potatoes were significantly enhanced by drought following 60 and 120 kg/ha Ca^(+2) addition. However, pre-applying 180 kg/ha CaCl2 markedly reduced the amounts of some enzymes and antioxidants. Different varieties displayed variations in their oxidative system, and the differential expressions of each genotype were associated with drough stress response. The antioxidative system level in leaves of sweet potato under drought stress was related to its calcium pre-treatment. The plant cells may respond to water stress with Ca^(+2) flux and resulting increased GR activities, and reduced ASA, ASA, total ASA and GSH contents which provide increased drought tolerance. Calcium exhibited an important function in the antioxidative system under water-deficit stress. Optimum concentration of calcium can restore leaf oxidative damage. The results help explain why 'Sushu 18' is more resistant to drought than 'Taoyuan 2' and 'Simon 1'.