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The role of beaver dam networks in regulating surface flows

Date

2025-01-08

Journal Title

Journal ISSN

Volume Title

Publisher

ORCID

0009-0007-0741-0570

Type

Thesis

Degree Level

Masters

Abstract

Beavers are ecosystem engineers that are widely recognized for their ability to modify ecosystem hydrology through dam-building activities. Beaver dams increase surface water storage through the formation of beaver ponds. When full, ponds can spill water to those downstream which has led to dam sequences being described as cascading systems. However, the fill-and-spill concept has yet to be applied to beaver-impacted systems. Additionally, existing studies have focused on the hydrological effects of individual dams or dam sequences, but very little is known about water transmission across the larger dam networks that beaver typically construct. This thesis tests the utility of the fill-and-spill concept to explain surface flow regulation through a network of dams that vary in flow state and are leaky in nature. The hydrological response of a network of 28 dams at Sibbald Fen, a mountain wetland in Kananaskis, Alberta, Canada, was examined following a 73-year, 37-year, 11-year, and 6-year rainfall event occurring in 2023. Drone surveys were conducted to measure changes in surface water extent and storage for each pond over the study period. Pond and stream hydrographs were used to assess the timing and magnitude of peak flows down the network, and observations of dam flow state were also recorded. Surface water extent and storage expanded during spring freshet and contracted during the summer. Responses in pond storage and dam flow state were also dynamic across the network in response to individual rainfall events. Hydrograph analysis for the four rainfall events indicated that the dam network did not effectively delay or appreciably reduce the magnitude of peak flows. Thus, sequential filling and spilling across the network from the upstream ponds to the downstream ponds was not observed. Instead, ponds expanded in surface area. These findings suggest the potential influence of other hydrological processes on network hydrological functioning, specifically overbank flows and flow through beaver canals, in regulating water transmission across the network. This type of flow regulation is better aligned with the variable source area concept than the fill-and-spill concept. The significant contributions of this research will scale to the cumulative impact of beaver dam networks on flow routing and their potential role as a natural flood management strategy.

Description

Keywords

Beaver, beaver dams, nature-based solutions, surface flows

Citation

Degree

Master of Science (M.Sc.)

Department

Geography and Planning

Program

Geography

Advisor

Part Of

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DOI

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