Abstract
AbstractDigital topographic data derived from airborne light detection and ranging (LiDAR) provide high-resolution information for characterizing the morphology of channels and riparian zones, and can be used to map the spatial distribution of channel incision resulting from flashy runoff response in small urban streams. Here the researchers present a methodology for extraction and analysis of transects throughout the drainage network in order to quantify longitudinal patterns of bankfull channel geometry and to identify the spatial distribution of channel incision. Owing to local gaps in LiDAR coverage and anomalies in channel and riparian zone morphology, the set of extracted transects are censored to remove those that would otherwise yield spurious results. Two procedures are then utilized to identify the bankfull stage along individual transects: (1) an iterative spline procedure based on minimizing slope angle and distance from the channel for points that exceed a minimum elevation threshold above th...
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