Limnology and Oceanography Letters (Aug 2020)

Internal loading in stormwater ponds as a phosphorus source to downstream waters

  • Vinicius J. Taguchi,
  • Tyler A. Olsen,
  • Poornima Natarajan,
  • Ben D. Janke,
  • John S. Gulliver,
  • Jacques C. Finlay,
  • Heinz G. Stefan

DOI
https://doi.org/10.1002/lol2.10155
Journal volume & issue
Vol. 5, no. 4
pp. 322 – 330

Abstract

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Abstract We assessed the prevalence and causes of sediment phosphorus (P) release within urban stormwater ponds, a process that may reduce P removal by sedimentation. Data collected from surface water of 98 urban stormwater ponds in Minnesota showed that nearly 40% had median summer total P concentrations in excess of average stormwater runoff (0.38 mg L−1), implying effects of internal loading. We sampled seven ponds more intensively and found four were strongly stratified with persistent hypolimnetic anoxia, despite mean depths <2 m. Sediment core incubations revealed that, unlike in most lakes, both labile organic P (NaOH minus persulfate extractions) and redox‐sensitive P (NH4Cl and Na2S2O4 extractions) contribute to P release. Together, these analyses suggest P accumulated in stormwater ponds is highly susceptible to internal release and potentially contributes to downstream eutrophication. Understanding how frequently these conditions occur and how they affect different P forms is vital to improving pond design and management.