Geologic Publications for Mount Rainier
The role of large woody debris and riparian forest in channel avulsion in the Carbon River, Mount Rainier National Park, WA
[
back to previous page
]
Author(s):
Chester Chiao
Category: PUBLICATION
Document Type: M.S. Earth and Space Science Applied Geosciences (MESSAGe) Thesis
Publisher: University of Washington
Published Year: 2016
Volume:
Number:
Pages: 56
DOI Identifier:
ISBN Identifier:
Keywords:
Abstract:
A specific type of natural log jam in the upper alluvial reach of the Carbon River was found to influence secondary channel avulsion, causing flooding hazards to the adjacent Carbon River Road in the northwest quadrant of Mount Rainier National Park, Washington. The fence-like natural log jam was characterized by large woody debris buttressed horizontally against standing riparian trees (i.e. "fence rails" and "fence post"). The objectives of this report are two-fold. First, physical characteristics and spatial distribution were documented to determine the geomorphic controls on the fence-like log jams. Second, the function and timing of the natural log jam in relation to channel avulsion was determined to provide insight into flooding hazards along the Carbon River Road. The fence-like log jams are most abundant in the upper reaches of the Carbon River between 3.0 and 5.5 kilometers from the Carbon Glacier terminus, where longitudinal gradient significantly decreases from about 0.06 to 0.03. Sediment impoundment can occur directly upstream of the fence-like log jam, creating vertical bed elevation difference as high as 1.32 meters, and can form during low magnitude, high frequency flood event (3.5-year recurrence interval). In some locations, headcuts and widening of secondary channel were observed directly to the side of the log jams, suggesting its role in facilitating secondary channel avulsions. Areas along the Carbon River Road more prone to damages from avulsion hazards were identified by coupling locations of the log jams and Relative Water Surface Elevation map created using the 1-meter 2012 Light Detection and Ranging Digital Elevation Map. Ultimately, the results of this report may provide insight to flooding hazards along the Carbon River Road from log jam-facilitated channel avulsion.
View Report:
View Report (7.83M)
Suggested Citations:
In Text Citation:
Chiao (2016) or (Chiao, 2016)
References Citation:
Chiao, C., 2016, The role of large woody debris and riparian forest in channel avulsion in the Carbon River, Mount Rainier National Park, WA: M.S. Earth and Space Science Applied Geosciences (MESSAGe) Thesis, University of Washington, 56 p..