This study aimed to investigate: while the kayak and canoe athletes performing obstacle slalom, sprints on the kayak/canoe ergometry, and modified Wingate test, (1) are there differences among performance, HR_(peak) and LA_(post)? (2) are there correlations among performance, critical velocity, and modified Wingate test? and (3) establish a prediction formula of obstacle slalom performance. 17 kayak athletes (age 16.18 ± 3.40 years, height 171.31 ± 6.56 cm, and body mass 64.19 ± 8.05 kg) and 7 canoe athletes (age 18.29 ± 2.81 years, height 173.29 ± 2.81 cm, and body mass 69.41 ± 15.46 kg) were voluntarily recruited as the participants of this study. All participants were measured their body compositions and performances of obstacle slalom, spirits in different distances (200 m, 500 m, 1,000 m, and 2,000 m) and modified Wingate test on the kayak/canoe ergometry. Mix-design twoway ANOVA, paired t-test, Pearson's product moment correlation, and multiple stepwise regressions were adopted for statistical analysis. Significant difference was set as α = .05. The main findings of this study found that no significant difference between kayak and canoe in obstacle slalom performance was found, but kayak athletes performed better than canoe athletes in all sprint tests on the kayak/canoe ergometry. Kayak athletes were revealed higher blood lactate concentration, but there was no different of heart rate between kayak and canoe athletes. There were significant correlations among obstacle slalom performance, sprint tests on the kayak/canoe ergometry, critical velocity, and modified Wingate test. The result showed that the intensities of all sprint tests were similar between kayak athletes and canoe athletes, but kayak athletes recruited more muscles compared to canoe athletes according to the higher blood lactate levels. The best prediction formula for obstacle slalom performance would be: y = 0.4961 × Ergo 200-m + 10.015 (R^2 = .546, p = .001) for kayak athletes and y = 0.0047 × FI + 0.2647 (R^2 = .721, p = .013) for canoe athletes.