Riparian soil development linked to forest succession above and below dams along the Elwha River, Washington, USA

Ecosystems
By: , and 

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Abstract

Riparian forest soils can be highly dynamic, due to frequent fluvial disturbance, erosion, and sediment deposition, but effects of dams on riparian soils are poorly understood. We examined soils along toposequences within three river segments located upstream, between, and downstream of two dams on the Elwha River to evaluate relationships between riparian soil development and forest age, succession, and channel proximity, explore dam effects on riparian soils, and provide a baseline for the largest dam removal in history. We found that older, later-successional forests and geomorphic surfaces contained soils with finer texture and greater depth to cobble, supporting greater forest floor mass, mineral soil nutrient levels, and cation exchange. Forest stand age was a better predictor than channel proximity for many soil characteristics, though elevation and distance from the channel were often also important, highlighting how complex interactions between fluvial disturbance, sediment deposition, and biotic retention regulate soil development in this ecosystem. Soils between the dams, and to a lesser extent below the lower dam, had finer textures and higher mineral soil carbon, nitrogen, and cation exchange than above the dams. These results suggested that decreased fluvial disturbance below the dams, due to reduced sediment supply and channel stabilization, accelerated soil development. In addition, reduced sediment supply below the dams may have decreased soil phosphorus. Soil δ15N suggested that salmon exclusion by the dams had no discernable effect on nitrogen inputs to upstream soils. Recent dam removal may alter riparian soils further, with ongoing implications for riparian ecosystems.

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Publication type Article
Publication Subtype Journal Article
Title Riparian soil development linked to forest succession above and below dams along the Elwha River, Washington, USA
Series title Ecosystems
DOI 10.1007/s10021-016-0080-1
Volume 20
Issue 1
Year Published 2017
Language English
Publisher Springer
Contributing office(s) Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center
Description 26 p.
First page 104
Last page 129
Country United States
State Washington
Other Geospatial Elwa River
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