Item: Forecasting for Natural Avalanches During Spring Opening of the Going-to-the-Sun Road, Glacier National Park, USA
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Title: Forecasting for Natural Avalanches During Spring Opening of the Going-to-the-Sun Road, Glacier National Park, USA
Proceedings: Proceedings of the 2004 International Snow Science Workshop, Jackson Hole, Wyoming
Authors:
- Blase A. Reardon [ USGS Northern Rocky Mountain Science Center, West Glacier, MT ]
- Chris Lundy [ Glacier National Park, West Glacier, MT ]
Date: 2004
Abstract: The annual spring opening of the Going-to-the-Sun Road in Glacier National Park presents a unique avalanche forecasting challenge. The highway traverses dozens of avalanche paths mid-track in a 23-kilometer section that crosses the Continental Divide. Workers removing seasonal snow and avalanche debris are exposed to paths that can produce avalanches of destructive class 4. The starting zones for most slide paths are within proposed Wilderness, and explosive testing or control are not currently used. Spring weather along the Divide is highly variable; rain-on-snow events are common, storms can bring several feet of new snow as late as June, and temperature swings can be dramatic. Natural avalanches - dry and wet slab, dry and wet loose, and glide avalanches - present a wide range of hazards and forecasting issues. This paper summarizes the forecasting program instituted in 2002 for the annual snow removal operations. It focuses on tools and techniques for forecasting natural wet snow avalanches by incorporating two case studies, including a widespread climax wet slab cycle in 2003. We examine weather and snowpack conditions conducive to wet snow avalanches, indicators for instability, and suggest a conceptual model for wet snow stability in a northern intermountain snow climate.
Object ID: issw-2004-565-581.pdf
Language of Article: English
Presenter(s): Unknown
Keywords: avalanche forecasting, natural avalanches, wet snow avalanches, glacier national park
Page Number(s): 565-581
Subjects: avalanche forecasting natural avalanches wet snow avalanches
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