What question did this study set out to answer?

This research examines how the removal of dams affects the evolution of river channels in sediment during the drawdown process.

April 19, 2026Open Access

Channel Evolution During Drawdown of Iron Gate and Copco I Reservoirs, Klamath River, CA

Key Points

This research examines how the removal of dams affects the evolution of river channels in sediment during the drawdown process.
Used timelapse imagery to monitor channel changes and sediment sources.
Analyzed bank failures and channel adjustments during reservoir drawdown.
Evaluated the effects of sediment consolidation, saturation, and valley morphology on erosion.
Identified retrogressing rotational slides and flowslides as major sediment sources during drawdown.
Most bank failures and peak turbidity occurred during the reservoir drawdown phase.
Pulsed flow releases did not significantly alter geomorphology but stirred fine sediments, leading to moderate turbidity.

Abstract

Abstract This study used the world's largest dam removal on the Klamath River to investigate channel evolution in unconsolidated silt and clay sediment during reservoir drawdown. Timelapse imagery revealed retrogressing rotational slides and flowslides as key sources of sediment to the re‐emerging channels. The majority of bank failures, channel adjustments and peak turbidity occurred during drawdown. Sediment consolidation, saturation, and valley morphology were the primary factors governing erosion. Rotational slides were more common along shallow hillslopes and deep deposits of Copco I reservoir, while steep hillslopes and shallower deposits of Iron Gate reservoir promoted flowsliding behavior. Four pulse flow releases of annual recurrence interval did not create appreciable geomorphic change but did mobilize fine sediments and produce moderate turbidity peaks.

Channel Evolution During Drawdown of Iron Gate and Copco I Reservoirs, Klamath River, CA

Key Points

Abstract

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