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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Front Range (1)
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North America
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Rocky Mountains
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U. S. Rocky Mountains
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United States
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Colorado
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Washington
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geologic age
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hydrology (3)
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North America
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Rocky Mountains
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U. S. Rocky Mountains
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remote sensing (1)
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sediments
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clastic sediments
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clay (1)
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slope stability (3)
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structural geology (1)
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tectonics
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neotectonics (1)
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United States
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Colorado
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Chaffee County Colorado (2)
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Hinsdale County Colorado
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Slumgullion Landslide (1)
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Mesa County Colorado (1)
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Sawatch Range (1)
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Nevada
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Nye County Nevada
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Yucca Mountain (1)
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Oregon
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Willamette River (1)
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Yamhill County Oregon (1)
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U. S. Rocky Mountains
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Sawatch Range (1)
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Washington
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King County Washington
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Seattle Washington (1)
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waste disposal (1)
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sedimentary structures
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channels (1)
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sediments
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sediments
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clastic sediments
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The influence of vegetation on debris-flow initiation during extreme rainfall in the northern Colorado Front Range
Rock-avalanche dynamics revealed by large-scale field mapping and seismic signals at a highly mobile avalanche in the West Salt Creek valley, western Colorado
ERRATUM: Regional moisture balance control of landslide motion: Implications for landslide forecasting in a changing climate
Regional moisture balance control of landslide motion: Implications for landslide forecasting in a changing climate
Analysis of Elevation Changes Detected from Multi-Temporal LiDAR Surveys in Forested Landslide Terrain in Western Oregon
Evolution of a natural debris flow: In situ measurements of flow dynamics, video imagery, and terrestrial laser scanning
Abstract Recent debris flow studies in Colorado indicate that the state is most susceptible to debris flows that initiate from surface-water runoff that erodes and entrains hillslope and channel sediment. These runoff-initiated debris flows grow in size by entraining sediment along travel paths, thereby increasing their destructive potential. Yet, the mechanics of initiation, erosion, and entrainment processes for runoff-initiated debris flows are poorly understood. The steep, bedrock-dominated flanks of the formerly glaciated Chalk Creek Valley near Nathrop, Colorado, generate an average of two runoff-initiated debris flows per year, making the valley an ideal natural laboratory for debris-flow research. This two-day field trip to the Chalk Creek Valley will examine debris-flow initiation areas, transport zones, deposits, and the impact of large pulses of debris-flow sediment on the morphology of Chalk Creek. On the first day, participants will hike into a particularly active basin at Chalk Cliffs where debris flows are being monitored by the U.S. Geological Survey, the University of Colorado, and East Carolina University. The second day will focus on debris-flow deposits in Chalk Creek and on recent debris flows in and near the community of Alpine in the central part of the valley.