In this study, Aeromonas veronii DYU-Too 19 obtained in Dacun, Changhua, Taiwan was screened for chitin degradation. This study explored the optimal cultivation conditions of Aeromonas veronii DYU-Too 19 for the breakdown of chitin. The one-factor-at-a-time method was used to investigate the effect of different carbon sources and concentrations as well as peptone concentrations on chitinase activity and the production of reducing sugar. Response surface methodology was used to explore optimal cultivation conditions for the production of reducing sugars through chitin degradation. The results showed that the highest chitinase activity in 5% β-chitin culture was 1,572 U/L. The highest proportion of reducing sugar was 15.4 g/L in 4% β-chitin culture. When 0.5 g/L peptone was the nitrogen source, the highest chitinase activity and reducing-sugar proportion were 1,850 U/L and 12.5 g/L, respectively. Central composite design was used to investigate the optimal cultivation conditions for the production of reducing sugars by Aeromonas veronii DYU-Too 19. The concentrations of β-chitin and peptone were significantly related to the level of reducing-sugar production (p ＜ 0.05). The optimal cultivation condition obtained by the response surface methodology was 4.42% β-chitin and 0.55 g/L peptone, which had the maximum reducing-sugar yield 20.52 g/L. The optimal cultivation conditions yielded 20.24 g/L reducing sugar. No significant difference was observed between the experimental and the predicted values. Therefore, this response model can accurately predict the yield of reducing sugar produced by Aeromonas veronii DYU-Too 19.