Phosphorus Retention in an Urban Stormwater Pond

Stormwater ponds are a critical piece of stormwater infrastructure which were originally developed to reduce local floods associated with the increased impervious surface area of urban environments. They are now increasingly promoted as contaminant sinks preventing downstream export of excess nutrie...

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Bibliographic Details
Main Author: Arvisais, Alina
Format: Text
Language:English
Published: University of Waterloo 2021
Subjects:
phosphorus
stormwater pond
nutrient retention
Pond Inlet
Online Access:http://hdl.handle.net/10012/19261
id ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/19261
record_format openpolar
spelling ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/19261 2023-06-06T11:58:45+02:00 Phosphorus Retention in an Urban Stormwater Pond Arvisais, Alina 2021-04-07 http://hdl.handle.net/10012/19261 en eng University of Waterloo http://hdl.handle.net/10012/19261 phosphorus stormwater pond nutrient retention Text 2021 ftunivwaterloo 2023-04-15T22:58:03Z Stormwater ponds are a critical piece of stormwater infrastructure which were originally developed to reduce local floods associated with the increased impervious surface area of urban environments. They are now increasingly promoted as contaminant sinks preventing downstream export of excess nutrient loads or other contaminants. However, their ability to retain phosphorus (P) and the mechanisms through which retention is achieved are not fully understood. This study investigates the ability of a stormwater pond located in Richmond Hill, Ontario to retain different forms of phosphorus. To evaluate the pond’s ability to retain P, sediment cores were collected in different zones of the pond and analyzed for total and operationally defined sediment P pools. To establish a P mass balance for the pond, inlet and outlet water samples collected from 2020-2022 were analyzed for dissolved and particulate P concentrations. The sediment core analyses showed a transition from more reactive to more stable P pools as the sediment aged. The inlet and outlet mass balance results indicate that the pond retains 72% of the inflowing dissolved reactive P (DRP) on an annual basis. This net DRP retention is matched by an increase in the sediment calcium-bound P pool, suggesting that the precipitation of calcium phosphate phases is occurring in the sediments. Because calcium phosphates are effective and stable P sinks, their potential formation in the sediment warrants further study as a P retention mechanism in this urban pond. Overall, the pond retained 70% of the inflowing P, supporting its effectiveness at retaining nutrient P and highlighting the important role of stormwater ponds in stormwater and nutrient management. Text Pond Inlet University of Waterloo, Canada: Institutional Repository Pond Inlet ENVELOPE(-77.960,-77.960,72.699,72.699)
institution Open Polar
collection University of Waterloo, Canada: Institutional Repository
op_collection_id ftunivwaterloo
language English
topic phosphorus
stormwater pond
nutrient retention
spellingShingle phosphorus
stormwater pond
nutrient retention
Arvisais, Alina
Phosphorus Retention in an Urban Stormwater Pond
topic_facet phosphorus
stormwater pond
nutrient retention
description Stormwater ponds are a critical piece of stormwater infrastructure which were originally developed to reduce local floods associated with the increased impervious surface area of urban environments. They are now increasingly promoted as contaminant sinks preventing downstream export of excess nutrient loads or other contaminants. However, their ability to retain phosphorus (P) and the mechanisms through which retention is achieved are not fully understood. This study investigates the ability of a stormwater pond located in Richmond Hill, Ontario to retain different forms of phosphorus. To evaluate the pond’s ability to retain P, sediment cores were collected in different zones of the pond and analyzed for total and operationally defined sediment P pools. To establish a P mass balance for the pond, inlet and outlet water samples collected from 2020-2022 were analyzed for dissolved and particulate P concentrations. The sediment core analyses showed a transition from more reactive to more stable P pools as the sediment aged. The inlet and outlet mass balance results indicate that the pond retains 72% of the inflowing dissolved reactive P (DRP) on an annual basis. This net DRP retention is matched by an increase in the sediment calcium-bound P pool, suggesting that the precipitation of calcium phosphate phases is occurring in the sediments. Because calcium phosphates are effective and stable P sinks, their potential formation in the sediment warrants further study as a P retention mechanism in this urban pond. Overall, the pond retained 70% of the inflowing P, supporting its effectiveness at retaining nutrient P and highlighting the important role of stormwater ponds in stormwater and nutrient management.
format Text
author Arvisais, Alina
author_facet Arvisais, Alina
author_sort Arvisais, Alina
title Phosphorus Retention in an Urban Stormwater Pond
title_short Phosphorus Retention in an Urban Stormwater Pond
title_full Phosphorus Retention in an Urban Stormwater Pond
title_fullStr Phosphorus Retention in an Urban Stormwater Pond
title_full_unstemmed Phosphorus Retention in an Urban Stormwater Pond
title_sort phosphorus retention in an urban stormwater pond
publisher University of Waterloo
publishDate 2021
url http://hdl.handle.net/10012/19261
long_lat ENVELOPE(-77.960,-77.960,72.699,72.699)
geographic Pond Inlet
geographic_facet Pond Inlet
genre Pond Inlet
genre_facet Pond Inlet
op_relation http://hdl.handle.net/10012/19261
_version_ 1767947640077549568

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