Observational Monitoring Records Downstream Impacts of Beaver Dams on Water Quality and Quantity in Temperate Mixed-Land-Use Watersheds

Novobilsky, Erin E.; Navin, Jack R.; Knights, Deon H.; Klos, P. Zion

Observational Monitoring Records Downstream Impacts of Beaver Dams on Water Quality and Quantity in Temperate Mixed-Land-Use Watersheds

Erin E. Novobilsky, Jack R. Navin, Deon H. Knights and P. Zion Klos ()
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Erin E. Novobilsky: Undergraduate Research Program, Marist University, Poughkeepsie, NY 12601, USA
Jack R. Navin: Undergraduate Research Program, Marist University, Poughkeepsie, NY 12601, USA
Deon H. Knights: Department of Earth Science and Geography, Vassar College, Poughkeepsie, NY 12604, USA
P. Zion Klos: Department of Environmental Science and Policy, Marist University, Poughkeepsie, NY 12601, USA

Data, 2025, vol. 10, issue 4, 1-18

Abstract: Beaver populations in the U.S. northeast are rising, increasing the number of beaver dams and ponds in suburban watersheds. These new beaver ponds may impact the way that harmful algal blooms occur by changing biogeochemical cycling and sediment characteristics. In this study, piezometers, installed upstream and downstream of multiple dam structures were used to evaluate changes in nitrate and orthophosphate concentrations in surface and hyporheic water. Data were also collected with seepage meters, discharge measurements, lab and field-based analytical tests, and sediment samples. These were collected from beaver dams and paired non-beaver dams upstream of unimpounded reaches to look at the potential for dormant sediment-based cyanobacteria to bloom and produce toxins under ideal light and nutrient levels. Results indicate a significant increase in orthophosphate from upstream to downstream of beaver dams. Results also demonstrate that toxin potential did not increase between cyanobacteria in beaver pond sediment and the paired unimpounded sample; however, under ideal light and nutrient levels, sediment from a beaver dam led to faster cyanobacterial growth. These findings highlight that while beaver dams and impoundments function as nutrient sinks within the tributary watersheds, there are potential risks from downstream transport of bloom-inducing sediment following a dam collapse.

Keywords: harmful algal blooms; eutrophication; cyanobacteria; nutrient pollution; beavers; hyporheic zone; biogeochemical cycling; climate change (search for similar items in EconPapers)
JEL-codes: C8 C80 C81 C82 C83 (search for similar items in EconPapers)
Date: 2025
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