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Debris flows and sediment transport at Yucaipa Ridge and impacts to Oak Glen and Forest Falls area, southern California, following the 2020 El Dorado and Apple Fires Available to Purchase
ABSTRACT The 2020 El Dorado and Apple Fires burned a combined area of ~225 km 2 in the San Bernardino Mountains, California, USA, including much of the steep terrain of Yucaipa Ridge. Wildfire increases the potential for debris flows, flooding, and rockfall hazards. A California Watershed Emergency Response Team assessed these hazards to assist affected portions of San Bernardino and Riverside counties with their emergency preparedness efforts. These assessments identified high hazard sites in the Forest Falls and Oak Glen areas on the north and south flanks of Yucaipa Ridge, respectively. Subsequent monitoring by the California Geological Survey documented 16 flow events from nine study area basins and their impacts to downstream communities generated by six storms between fall 2020 and August 2023. Tropical Storms Kay (2022) and Hilary (2023) and monsoonal thunderstorms on August 13, 2022, produced the most widespread and severe impacts. Observations of flow characteristics were then used to determine flow type behavior and estimate flow velocities and discharge for 11 flow events, and the total volume of mobilized debris was estimated for three flow events. Debris flow velocities were found to range from 2.1 to 11.2 m/s (4.7–25 mph) and associated discharge values were estimated to range from 12 to 311 m 3 /s (~425–11,000 cfs). Observed discharges were then used to assess and calibrate previous flow bulking multipliers for post-fire emergency planning. Volumes of debris mobilized during three events were estimated based on hydraulic methods, field observations, and lidar differencing, respectively, with resulting volumes ranging from ~19,000 m 3 to more than 100,000 m 3 . Rainfall data were also acquired and reviewed to assess rainfall intensity thresholds for the generation of post-fire debris flows. Concurrently, studies were conducted to assess sediment transport and yields based on the distribution of fractured rock outcrops, colluvial debris, and dry ravel generated by fire impacts, as documented by repeat surveys of selected source basin areas. The surveys showed a mixture of fractured rock outcrops, and steep soil mantled slopes provided both coarse (>3 m) boulders and fine sediment. The latter was preferentially delivered to debris flow prone channels as post-fire dry ravel. Debris flows generated by Tropical Storms Kay and Hilary mobilized all of these grain size fractions downstream to alluvial fans and developed areas.
Assessment of Logistic Regression Model Performance and Physical Controls on January 9, 2018, Debris Flows, Thomas Fire, California Available to Purchase
Observations and Analyses of the 9 January 2018 Debris-Flow Disaster, Santa Barbara County, California Available to Purchase
Recent advancements in geochronology, geologic mapping, and landslide characterization in basement rocks of the San Gabriel Mountains block Available to Purchase
ABSTRACT This field trip examines Paleoproterozoic basement, Neoproterozoic metasedimentary strata, and crosscutting Mesozoic intrusive rocks at Frazier Mountain, Placerita Canyon, and Limerock Canyon in the western San Gabriel Mountains block, California. We present new U-Pb zircon geochronology results that constrain the Proterozoic through Cretaceous tectonic and magmatic history. The excursion ends in San Antonio Canyon in the eastern San Gabriel Mountains where several large rock avalanche deposits are sourced from distinct basement rocks. 10 Be surface exposure ages and post-infrared infrared stimulated luminescence burial ages demonstrate late Pleistocene to Holocene movements for these landslides.