Debris flow initiation in proglacial gullies on Mount Rainier, Washington

Effects of climate change, retreating glaciers, and changing storm patterns on debris flow hazards concern managers in the Cascade Range (USA) and mountainous areas worldwide. During an intense rainstorm in November 2006, seven debris flows initiated from proglacial gullies of separate basins on the...

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Published in	Geomorphology (Amsterdam, Netherlands) Vol. 226; pp. 249 - 260
Main Authors	Legg, Nicholas T., Meigs, Andrew J., Grant, Gordon E., Kennard, Paul
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.12.2014 Elsevier
Subjects	Basins Cascade volcanoes Climate change Debris Debris flow Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Failure Geomorphology, landform evolution Glacier retreat Glaciers Gullies Hazards In-gully debris flow initiation Marine and continental quaternary Natural hazards: prediction, damages, etc Sediments Slopes Surficial geology Walls Cascade Range United States Washington Mount Rainier USA, Cascade Mts INE, USA, Washington Climate change In-gully debris flow initiation Hazards Debris flow Glacier retreat Cascade volcanoes glaciers models morphology gullies volcanoes debris flows drainage patterns North America spatial distribution sediment transport erosion drainage sediment volume landform evolution slope stability storms climate change
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Abstract	Effects of climate change, retreating glaciers, and changing storm patterns on debris flow hazards concern managers in the Cascade Range (USA) and mountainous areas worldwide. During an intense rainstorm in November 2006, seven debris flows initiated from proglacial gullies of separate basins on the flanks of Mount Rainier. Gully heads at glacier termini and widespread failure of gully walls imply that overland flow was transformed into debris flow along gullies. We characterized gully change and morphology, and assessed spatial distributions of debris flows to infer the processes and conditions for debris flow initiation. Slopes at gully heads were greater than ~0.35mm−1 (19°) and exhibited a significant negative relationship with drainage area. A break in slope–drainage area trends among debris flow gullies also occurs at ~0.35mm−1, representing a possible transition to fluvial sediment transport and erosion. An interpreted hybrid model of debris flow initiation involves bed failure near gully heads followed by sediment recruitment from gully walls along gully lengths. Estimates of sediment volume loss from gully walls demonstrate the importance of sediment inputs along gullies for increasing debris flow volumes. Basin comparisons revealed significantly steeper drainage networks and higher elevations in debris flow-producing than non-debris flow-producing proglacial areas. The high slopes and elevations of debris flow-producing proglacial areas reflect positive slope–elevation trends for the Mount Rainier volcano. Glacier extent therefore controls the slope distribution in proglacial areas, and thus potential for debris flow generation. As a result, debris flow activity may increase as glacier termini retreat onto slopes inclined at angles above debris flow initiation thresholds. •We analyze seven debris flows initiated in proglacial gullies.•Sediment from gully walls is identified as a major source for debris flows.•Slope–drainage area trends suggest a common threshold for debris flow initiation.•Glaciers affect debris flow potential by altering slope distributions in a basin.
AbstractList	Effects of climate change, retreating glaciers, and changing storm patterns on debris flow hazards concern managers in the Cascade Range (USA) and mountainous areas worldwide. During an intense rainstorm in November 2006, seven debris flows initiated from proglacial gullies of separate basins on the flanks of Mount Rainier. Gully heads at glacier termini and widespread failure of gully walls imply that overland flow was transformed into debris flow along gullies. We characterized gully change and morphology, and assessed spatial distributions of debris flows to infer the processes and conditions for debris flow initiation. Slopes at gully heads were greater than ~0.35mm-1 (19 degree ) and exhibited a significant negative relationship with drainage area. A break in slope-drainage area trends among debris flow gullies also occurs at ~0.35mm-1, representing a possible transition to fluvial sediment transport and erosion. An interpreted hybrid model of debris flow initiation involves bed failure near gully heads followed by sediment recruitment from gully walls along gully lengths. Estimates of sediment volume loss from gully walls demonstrate the importance of sediment inputs along gullies for increasing debris flow volumes. Basin comparisons revealed significantly steeper drainage networks and higher elevations in debris flow-producing than non-debris flow-producing proglacial areas. The high slopes and elevations of debris flow-producing proglacial areas reflect positive slope-elevation trends for the Mount Rainier volcano. Glacier extent therefore controls the slope distribution in proglacial areas, and thus potential for debris flow generation. As a result, debris flow activity may increase as glacier termini retreat onto slopes inclined at angles above debris flow initiation thresholds. Effects of climate change, retreating glaciers, and changing storm patterns on debris flow hazards concern managers in the Cascade Range (USA) and mountainous areas worldwide. During an intense rainstorm in November 2006, seven debris flows initiated from proglacial gullies of separate basins on the flanks of Mount Rainier. Gully heads at glacier termini and widespread failure of gully walls imply that overland flow was transformed into debris flow along gullies. We characterized gully change and morphology, and assessed spatial distributions of debris flows to infer the processes and conditions for debris flow initiation. Slopes at gully heads were greater than ~0.35mm−1 (19°) and exhibited a significant negative relationship with drainage area. A break in slope–drainage area trends among debris flow gullies also occurs at ~0.35mm−1, representing a possible transition to fluvial sediment transport and erosion. An interpreted hybrid model of debris flow initiation involves bed failure near gully heads followed by sediment recruitment from gully walls along gully lengths. Estimates of sediment volume loss from gully walls demonstrate the importance of sediment inputs along gullies for increasing debris flow volumes. Basin comparisons revealed significantly steeper drainage networks and higher elevations in debris flow-producing than non-debris flow-producing proglacial areas. The high slopes and elevations of debris flow-producing proglacial areas reflect positive slope–elevation trends for the Mount Rainier volcano. Glacier extent therefore controls the slope distribution in proglacial areas, and thus potential for debris flow generation. As a result, debris flow activity may increase as glacier termini retreat onto slopes inclined at angles above debris flow initiation thresholds. •We analyze seven debris flows initiated in proglacial gullies.•Sediment from gully walls is identified as a major source for debris flows.•Slope–drainage area trends suggest a common threshold for debris flow initiation.•Glaciers affect debris flow potential by altering slope distributions in a basin.
Author	Kennard, Paul Grant, Gordon E. Legg, Nicholas T. Meigs, Andrew J.
Author_xml	– sequence: 1 givenname: Nicholas T. surname: Legg fullname: Legg, Nicholas T. email: ntlegg@gmail.com organization: Oregon State University, College of Earth, Ocean, and Atmospheric Sciences, Corvallis, OR 97331, USA – sequence: 2 givenname: Andrew J. surname: Meigs fullname: Meigs, Andrew J. organization: Oregon State University, College of Earth, Ocean, and Atmospheric Sciences, Corvallis, OR 97331, USA – sequence: 3 givenname: Gordon E. surname: Grant fullname: Grant, Gordon E. organization: Oregon State University, College of Earth, Ocean, and Atmospheric Sciences, Corvallis, OR 97331, USA – sequence: 4 givenname: Paul surname: Kennard fullname: Kennard, Paul organization: Mount Rainier National Park, 55210 238th Ave E, Ashford, WA 98304, USA
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Keywords	Climate change In-gully debris flow initiation Hazards Debris flow Glacier retreat Cascade volcanoes glaciers models morphology gullies volcanoes debris flows drainage patterns North America spatial distribution sediment transport erosion drainage sediment volume landform evolution slope stability storms climate change
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Snippet	Effects of climate change, retreating glaciers, and changing storm patterns on debris flow hazards concern managers in the Cascade Range (USA) and mountainous...
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SubjectTerms	Basins Cascade volcanoes Climate change Debris Debris flow Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Failure Geomorphology, landform evolution Glacier retreat Glaciers Gullies Hazards In-gully debris flow initiation Marine and continental quaternary Natural hazards: prediction, damages, etc Sediments Slopes Surficial geology Walls
Title	Debris flow initiation in proglacial gullies on Mount Rainier, Washington
URI	https://dx.doi.org/10.1016/j.geomorph.2014.08.003 https://search.proquest.com/docview/1639987163 https://search.proquest.com/docview/1651434271
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