The purpose of this research was to study the changes in enzyme activities of antioxidant system in excised leaves in response to ethylene, and to find out the relationship between oxidative stress and ethylene-induced leaf senescence. Plant material used in this study were the second fully developed leaf of3-weekold seedlings of the ethylene-sensitive 'Veg Gin' Chinese kale (Brassica oleracea L. Alboglabra Group). Incubating the excised leaves of Chinese kale in dark at 25℃ in the presence of 1ppm ethylene for 4 days greatly accelerated the process of leaf yellowing. The ethylene treated leaves, in comparison with the air-treated control, had significantly lower chlorophyll and protein content on the third day. The hydrogen peroxide (H2O2) and malondialdehyde (MDA) content started to increase on the 1(superscript st) and 2(superscript nd) day after ethylene treatment, and were much higher than the control. Specific activities of three antioxidant enzymes within the plant's antioxidant defense system: the ascorbate peroxidase (APX), the glutathione reductase (GR) and the peroxidase (POX), all showed significant increase after two days in the ethylene-treated leaves. On the other hand, the superoxide dismutase (SOD) and the catalase (CAT) changed very little in these leaves. The above results suggested that in excised leaves of Chinese kale, ethylene induced their rapid senescence first by an increase in H2O2, which caused an increase in the lipid peroxidation of the membrane systems and resulted in the accumulation of MDA. When the oxidative stress progressed, enzymes in the cellular antioxidant system including APX, GR and POX responded by increasing their specific activities.