Cherie Westbrook

Ecohydrologist

Comparing the Sources of Sediment Retained by Beaver Dams and Beaver Dam Analogs


Journal article


C. Westbrook, David J. Cooper
Water Resources Research, 2024

Semantic Scholar DOI
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APA   Click to copy
Westbrook, C., & Cooper, D. J. (2024). Comparing the Sources of Sediment Retained by Beaver Dams and Beaver Dam Analogs. Water Resources Research.


Chicago/Turabian   Click to copy
Westbrook, C., and David J. Cooper. “Comparing the Sources of Sediment Retained by Beaver Dams and Beaver Dam Analogs.” Water Resources Research (2024).


MLA   Click to copy
Westbrook, C., and David J. Cooper. “Comparing the Sources of Sediment Retained by Beaver Dams and Beaver Dam Analogs.” Water Resources Research, 2024.


BibTeX   Click to copy

@article{c2024a,
  title = {Comparing the Sources of Sediment Retained by Beaver Dams and Beaver Dam Analogs},
  year = {2024},
  journal = {Water Resources Research},
  author = {Westbrook, C. and Cooper, David J.}
}

Abstract

Beavers modify riverine systems by building dams that alter downstream fluxes of water and sediment. Where beavers have been lost and stream channels degraded, beaver dam analogs (BDAs) are being used to mimic the effects of beaver engineering. Central to the success of these structures in accelerating stream recovery is creating similar ecosystem responses as beaver dams including sediment retention. Unknown is the relative importance of beaver actions versus erosion in the catchment in generating the retained sediment. This study tested the viability of sediment fingerprinting to determine the source of sediment retained by beaver dams and BDAs in a watershed in Alberta, Canada. Concentrations of 29 elements were measured as potential tracers from known sediment sources: upland, terrace, stream bank, and beaver canal. Virtual mixture tests, used to compare the computed source estimates with known source mixtures, revealed that sediment fingerprinting is a robust method for identifying sources of sediment retained by beaver ponds and BDAs. The un‐mixing model results indicate that on average 56% of the sediment retained by the beaver dams originated from terraces, 23% from uplands, and 13% from beaver canals. About 89% of sediment retained by the BDAs originated from eroding stream banks. We conclude that the geomorphic effects of beavers and their dams are more diverse, resulting in more diverse sources of sediment retained by their dams. This differentiates beaver dams from BDAs. The study has implications for informing management practices that involve beavers and beaver mimicry.


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