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Response of the Columbia River Fluvial System to Holocene Climatic Change

Published online by Cambridge University Press:  20 January 2017

James C. Chatters
Affiliation:
Pacific Northwest Laboratory, P.O. Box 999, Richland, Washington 99352
Karin A. Hoover
Affiliation:
Pacific Northwest Laboratory, P.O. Box 999, Richland, Washington 99352

Abstract

An understanding of the response of a fluvial system to past climatic changes is useful for predicting its response to future shifts in temperature and precipitation. To determine the response of the Columbia River system to previous climatic conditions and transitions, a well-dated sequence of floodplain development in the Wells Reservoir region was compared with the paleoenvironmental history of the Columbia River Basin. Results of this comparison indicate that aggradation episodes, occurring approximately 9000-8000, 7000-6500, 4400-3900, and 2400-1800 yr B.P., coincided with climatic transitions that share certain characteristics. The inferred climates associated with aggradation had at least moderate rates of precipitation that occurred mainly in winter coupled with moderate winter temperatures. Such conditions would have resulted in the buildup of snowpacks and a high frequency of rain-on-snow events. The warming and precipitation increases predicted for the Pacific Northwest under most CO2-doubling scenarios are likely to repeat these conditions, which could increase the frequency of severe, sediment-laden floods in the Columbia River Basin.

Type
Research Article
Copyright
University of Washington

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