Landsliding is an important surface process in landscape evolution, and controls the erosion and sediment supply in river systems in active orogenic belts. A series of river terraces is situated near the confluence of the Luyeh River and Peinan River in Taitung Luyeh area and is neighbored by a landform showing an enormous landslide event (Luanshan landslide). Although there have been separate studies on the two landforms in the past, there has not been a detailed analysis on whether the change in river topography is related to the occurrence of the landslide, or vice versa. The purpose of this study is thus to understand the evolutionary history of the river system in Luyeh area and delineate the effects of surface processes on river evolution with the analysis of topography, stratigraphic relationship, and the ages of the Luanshan landslide and its surrounding river terraces. Real-time kinematic GPS and laser rangefinder were used in the field to measure the elevation of the contact between the landslide deposits and the bedrock strath. Then, topographic analysis was conducted with a digital elevation model to obtain the ancient land surface before the occurrence of the landslide. The results indicated that the Peinan River, a paleo-channel, might have been flowing down several hundred meters to the east of the current channel where the landslide event occurred at two thousand years ago. This paleo-channel was buried by landslide deposits when the landslide took place. Therefore, the Peinan River moved back to the current position and incised to the formation of an epigenetic gorge. Based on the previous and the current studies, the paleo-channel of the Peinan River was not the original location of the river. Longtian terrace, an enormous alluvial fan with a large amount of sediments was developed by the Luyeh River, which might have pushed the Peinan River channel to migrate about 300 to 700 meters eastward and then flowed onto the hanging-wall block of the Longitudinal Valley fault. The western slope of the Coastal Range became rising at a sharp angle because of the eastward migration and lateral erosion, which might have triggered the Luanshan landslide. According to the epigenetic gorge found in this study, the long-term bedrock incision rate might be overestimated if the height of the strath terrace was used to calculate the incision rate. A long-term incision rate of the Peinan River at the Luanshan landslide could be estimated at 14-19.6 mm/yr by calculating the elevation difference of the paleo-channel observed in this study and the current river channel. This can provide a basis for estimating the incision rate of Peinan River in Luanshan area. In summary, fluvial processes and landslides have interacted with each other to form the current landscapes in the Luyeh area.