Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond
Mahyar Shafii, Stephanie Slowinski, Md Abdus Sabur, Alina Arvisais, Yubraj Bhusal, William Withers, Konrad Krogstad, Chris T. Parsons, Philippe Van Cappellen
Abstract
Stormwater ponds (SWPs) alter the export of the macronutrient phosphorus (P) from urban landscapes, hence impacting the trophic state and water quality of downstream aquatic environments.- Cite:
- Mahyar Shafii, Stephanie Slowinski, Md Abdus Sabur, Alina Arvisais, Yubraj Bhusal, William Withers, Konrad Krogstad, Chris T. Parsons, and Philippe Van Cappellen. 2024. Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond. Environmental Science: Advances, Volume 3, Issue 6, 3(6):819–832.
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@article{Shafii-2024-Mineral,
title = "Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond",
author = "Shafii, Mahyar and
Slowinski, Stephanie and
Sabur, Md Abdus and
Arvisais, Alina and
Bhusal, Yubraj and
Withers, William and
Krogstad, Konrad and
Parsons, Chris T. and
Cappellen, Philippe Van",
journal = "Environmental Science: Advances, Volume 3, Issue 6",
volume = "3",
number = "6",
year = "2024",
publisher = "Royal Society of Chemistry (RSC)",
url = "https://gwf-uwaterloo.github.io/gwf-publications/G24-11001",
doi = "10.1039/d3va00267e",
pages = "819--832",
abstract = "Stormwater ponds (SWPs) alter the export of the macronutrient phosphorus (P) from urban landscapes, hence impacting the trophic state and water quality of downstream aquatic environments.",
}
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%0 Journal Article %T Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond %A Shafii, Mahyar %A Slowinski, Stephanie %A Sabur, Md Abdus %A Arvisais, Alina %A Bhusal, Yubraj %A Withers, William %A Krogstad, Konrad %A Parsons, Chris T. %A Cappellen, Philippe Van %J Environmental Science: Advances, Volume 3, Issue 6 %D 2024 %V 3 %N 6 %I Royal Society of Chemistry (RSC) %F Shafii-2024-Mineral %X Stormwater ponds (SWPs) alter the export of the macronutrient phosphorus (P) from urban landscapes, hence impacting the trophic state and water quality of downstream aquatic environments. %R 10.1039/d3va00267e %U https://gwf-uwaterloo.github.io/gwf-publications/G24-11001 %U https://doi.org/10.1039/d3va00267e %P 819-832
Markdown (Informal)
[Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond](https://gwf-uwaterloo.github.io/gwf-publications/G24-11001) (Shafii et al., GWF 2024)
- Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond (Shafii et al., GWF 2024)
ACL
- Mahyar Shafii, Stephanie Slowinski, Md Abdus Sabur, Alina Arvisais, Yubraj Bhusal, William Withers, Konrad Krogstad, Chris T. Parsons, and Philippe Van Cappellen. 2024. Mineral formation explains the high retention efficiency of dissolved reactive phosphorus in a residential stormwater pond. Environmental Science: Advances, Volume 3, Issue 6, 3(6):819–832.