River response to large‐dam removal in a Mediterranean hydroclimatic setting: Carmel River, California, USA

Lee R. Harrison; Amy E. East; Douglas P. Smith; Joshua B. Logan; Rosealea Bond; Colin L. Nicol; Thomas H. Williams; David A. Boughton; Kaitlyn Chow; Lauren Luna

doi:10.1002/esp.4464

River response to large‐dam removal in a Mediterranean hydroclimatic setting: Carmel River, California, USA

Earth Surface Processes and Landforms

By: Lee R. Harrison, Amy E. East, Douglas P. Smith, Joshua B. Logan, Rosealea Bond, Colin L. Nicol, Thomas H. Williams, David A. Boughton, Kaitlyn Chow, and Lauren Luna

https://doi.org/10.1002/esp.4464

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Abstract

Dam removal provides a valuable opportunity to measure the fluvial response to changes in both sediment supply and the processes that shape channel morphology. We present the first study of river response to the removal of a large (32‐m‐high) dam in a Mediterranean hydroclimatic setting, on the Carmel River, coastal California, USA. This before‐after/control‐impact study measured changes in channel topography, grain size, and salmonid spawning habitat throughout dam removal and subsequent major floods. During dam removal, the river course was rerouted in order to leave most of the impounded sediment sequestered in the former reservoir and thus prevent major channel and floodplain aggradation downstream. However, a substantial sediment pulse occurred in response to base‐level fall, knickpoint migration, and channel avulsion through sediment in the former reservoir above the newly rerouted channel. The sediment pulse advanced ~3.5 km in the first wet season after dam removal, resulting in decreased riverbed grain size downstream of the dam site. In the second wet season after dam removal, high flows (including a 30‐year flood and two 10‐year floods) transported sediment >30 km downstream, filling pools and reducing cross‐channel relief. Deposition of gravel in the second wet season after dam removal enhanced salmonid spawning habitat downstream of the dam site. We infer that in dam removals where most reservoir sediment remains impounded and where high flows follow soon after dam removal, flow sequencing becomes a more important driver of geomorphic and fish‐habitat change than the dam removal alone.

Suggested Citation

Harrison, L.R., East, A.E., Smith, D.P., Logan, J.B., Bond, R., Nicol, C.L., Williams, T.H., Boughton, D.A., Chow, K., Luna, L., 2018, River response to large‐dam removal in a Mediterranean hydroclimatic setting: Carmel River, California, USA: Earth Surface Processes and Landforms, v. 43, no. 15, p. 3009-3021, https://doi.org/10.1002/esp.4464.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	River response to large‐dam removal in a Mediterranean hydroclimatic setting: Carmel River, California, USA
Series title	Earth Surface Processes and Landforms
DOI	10.1002/esp.4464
Volume	43
Issue	15
Publication Date	August 06, 2018
Year Published	2018
Language	English
Publisher	Wiley
Contributing office(s)	Pacific Coastal and Marine Science Center
Description	13 p.
First page	3009
Last page	3021
Country	United States
State	California
Other Geospatial	Carmel River