EP33A-1037
Effects of Wildfire on Fluvial Sediment Regime through Perturbations in Dry-Ravel

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Joan L Florsheim1, Anne Chin2, Alicia M Kinoshita3, Samira Nourbakhshbeidokhti4, Rune Storesund5 and Edward A Keller1, (1)University of California Santa Barbara, Santa Barbara, CA, United States, (2)University of Colorado Denver, Geography and Envinronmental Sciences, Denver, CO, United States, (3)San Diego State University, Department of Civil, Construction, and Environmental Engineering, San Diego, CA, United States, (4)San Diego State University, San Diego, CA, United States, (5)Storesund Consulting, Kensington, CA, United States
Abstract:
In steep chaparral ecosystems with Mediterranean climate, dry ravel is a natural process resulting from wildfire disturbance that supplies sediment to fluvial systems. When dense chaparral vegetation burns, sediment accumulated on steep hillslopes is released for dry-season transport (dry ravel) down steep hillslopes during or soon after the wildfire. Results of a field study in southern California’s Transverse Ranges illustrate the effect of wildfire on fluvial sediment regime in an unregulated chaparral system. Big Sycamore Canyon in the steep Santa Monica Mountains burned during the May 2013 Springs Fire and experienced one small sediment-transporting stormflow during the following winter. We conducted pre- and post-storm field campaigns during the fall and winter following the fire to quantify the effect of wildfire on the fluvial sediment regime. We utilized a sediment mass balance approach in which: 1) sediment supply, consisting primarily of dry ravel-derived deposits composed of relatively fine grained-sediment, was measured in the upstream basin and in the hillslope-channel margin adjacent to the study reach; 2) changes in storage in the study reach were quantified by analyzing the difference between pre- and post-storm channel topography derived from Terrestrial LiDAR Scanning (TLS) and field surveys; and 3) transport from the study reach was estimated as the difference between supply and change in storage where uncertainty is estimated using calculated sediment transport as a comparison. Results demonstrate channel deposition caused by changes in the short-term post-wildfire sediment regime. The increased sediment supply and storage are associated with significant changes in morphology, channel bed-material characteristics, and ecology. These results suggest that dry-ravel processes are an important factor to consider in post-wildfire sediment management.