Item: USING TREE RINGS TO COMPARE COLORADO'S 2019 AVALANCHE CYCLE TO PREVIOUS LARGE AVALANCHE CYCLES
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Title: USING TREE RINGS TO COMPARE COLORADO'S 2019 AVALANCHE CYCLE TO PREVIOUS LARGE AVALANCHE CYCLES
Proceedings: International Snow Science Workshop Proceedings 2023, Bend, Oregon
Authors:
- Erich H. Peitzsch [ U.S. Geological Survey, Northern Rocky Mountain Science Center, West Glacier, Montana, USA ]
- Ethan M. Greene [ Colorado Avalanche Information Center, Leadville, Colorado, United States ]
- Jason Konigsberg [ Colorado Avalanche Information Center, Leadville, Colorado, United States ]
- Gregory T. Pederson [ U.S. Geological Survey, Northern Rocky Mountain Science Center, West Glacier, Montana, USA ]
- Justin T. Martin [ U.S. Geological Survey, Northern Rocky Mountain Science Center, West Glacier, Montana, USA ]
- Nickolas Kichas [ Montana State University, Bozeman, Montana, United States ]
- Daniel K. Stahle [ U.S. Geological Survey, Northern Rocky Mountain Science Center, West Glacier, Montana, USA ]
- Adrien Favillier [ Climate Change Impacts and Risks in the Anthropocene, Institute for Environmental Sciences, University of Geneva, Geneva, Switzerland ]
- Nicolas Eckert [ Univ. Grenoble Alpes, INRAE, CNRS, IRD, Grenoble INP, IGE, Grenoble, France ]
- Karl W. Birkeland [ Birkeland Snow and Avalanche Scientific, Bozeman, Montana, United States ]
- Kelly Elder [ U.S.D.A. Forest Service Rocky Mountain Research Station, Fort Collins, Colorado, United States ]
Date: 2023-10-08
Abstract: Large magnitude avalanches (size ≥D3) impact settlements, transportation corridors, and public safety worldwide. In Colorado, United States, avalanches have killed more people than any other natural hazard since 1950. In March 2019, a historically large magnitude avalanche cycle occurred throughout the entire mountainous portion of Colorado resulting in more than 1000 reported avalanches during a 2-week period. Nearly 200 of these avalanches were size D4 or larger with at least three D5 avalanches. The extensive number of downed trees from this avalanche cycle allowed us to collect 1188 cross-sections and cores from 1023 unique trees within 24 avalanche paths across the state. We recorded 4135 growth disturbances in these samples. These data comprise the largest known avalanche tree-ring dataset in the world. We employed a strategic nested sampling design to account for scale by including several individual avalanche paths within a given drainage to create sub-regions and then sampled six major sub-regions (counties) throughout the greater region (state). We identified 76 avalanche years within 24 individual avalanche paths from 1698 to 2020. Large magnitude empirical avalanche event frequency varied across paths and sub-regions. Our results indicate the most widespread avalanche cycle in our study area prior to 2019 occurred in 1899, where 12 avalanche paths show evidence of large magnitude avalanche activity. Historical records also highlight 1899 as a year with widespread and large magnitude avalanche activity. These results indicate the avalanche cycle of March 2019 was of similar magnitude. Understanding the spatial extent and return frequency of large magnitude avalanche cycles across multiple spatial scales, from individual paths to an entire state, helps avalanche forecasters improve their products and mitigation strategies and assists infrastructure planners when designing and planning in avalanche terrain.
Object ID: ISSW2023_O7.01.pdf
Language of Article: English
Presenter(s): Erich H. Peitzsch
Keywords: large magnitude avalanche, dendrochronology, Colorado.
Page Number(s): 577 - 584
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