Determining transition reaches between torrents and downstream rivers using a valley morphology index in a mountainous landscape |
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Authors: | Cheng-Wei Kuo Samkele Tfwala Su-Chin Chen Hsuan-Pei An Fang-Yi Chu |
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Affiliation: | 1. Engineering Aesthetics Center, Sinotech Engineering Consultants, Taipei, Taiwan;2. Department of Geography, Environmental Science and Planning, University of Eswatini, Kwaluseni, Eswatini;3. Department of Soil and Water Conservation, National Chung Hsing University, Taichung, Taiwan;4. Climate Change Division, National Science and Technology Centre for Disaster Reduction, New Taipei, Taiwan |
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Abstract: | Dividing rivers into homogeneous reaches is key for river processes and watershed management. In contrast to downstream fluvially dominated rivers, upstream debris-flow dominated torrents have steeper channel slopes and smaller valley width/depth ratios. Investigating transition reaches between torrents and fluvially dominated rivers, not only explores the structure of the landscape, but also contributes to hazard management. This study proposed a valley morphology index combining two variables, channel slope and valley width/depth ratio, to determine transition reaches between torrents and rivers. The methodology was applied to 41 mountain streams in Taiwan using a Geographic Information System (GIS)-based topographic analysis. Plots of valley width/depth ratio versus channel slope were used to determine boundary values of the valley morphology index (Iv) separating torrents from rivers. The plots showed that about 80% of the river basins present “L-shaped” curves, which indicate sharp decreases in slope for upstream sections and dramatic increases of valley width/depth ratio for downstream sections. Results further demonstrated an average value of Iv 0.0047 across the study sites. Spatial comparison between geographic regions indicated that transition reaches in eastern rivers tend to occur lower in the drainage basin due, in part, to higher terrain. Local factors, such as tributary confluences and landslides promote the transition from torrents to fluvially dominated rivers. Satellite images verified that the approach correctly identified transition reaches, suggesting that it may provide a useful reference for river management. |
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Keywords: | channel slope torrents transition reach valley morphology index valley width/depth ratio |
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