Phosphate removal from urban stormwater runoff using Canna lily and Cyperus alternifolius-based bioretention system

Phosphate removal from urban stormwater runoff using Canna lily and Cyperus alternifolius-based bioretention system

Rainfall is considered to be the purest form of water; however, it gets contaminated as it sweeps along suspended impurities from the atmosphere, and it traverses its path through different land uses. Hence, an effective water-sensitive urban design (WSUD) is required to treat this low-strength urba...

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Bibliographic Details
Published in:Sustainable water resources management Vol. 10; no. 2; p. 65
Main Authors: Jain, Naman, Yadav, Shivani, Taneja, Sonam, Ray, Sanak, Haritash, A. K., Pipil, Harsh
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-04-2024
Springer Nature B.V
Subjects:
Ambient temperature
Artificial wetlands
Biomass
Cells
Codes of Practice
Cyperus alternifolius
Design
Design standards
Development Economics
Earth and Environmental Science
Earth Sciences
Efficiency
Eutrophication
Fodder
Hydrogeology
Hydrology/Water Resources
Impurities
Land use
Nutrients
Original Article
Phosphate
Phosphates
Phosphorus removal
Plant tissues
Pollutant removal
Rainfall
Receiving waters
Removal
Retention basins
Runoff
Spring
Spring (season)
Storm runoff
Stormwater
Stormwater management
Stormwater runoff
Summer
Sustainable Development
Urban planning
Urban runoff
Water loss
Water Policy/Water Governance/Water Management
Winter
India
WSUD
Stormwater
Phosphate
Constructed wetland
Eutrophication
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Summary:Rainfall is considered to be the purest form of water; however, it gets contaminated as it sweeps along suspended impurities from the atmosphere, and it traverses its path through different land uses. Hence, an effective water-sensitive urban design (WSUD) is required to treat this low-strength urban stormwater runoff to minimise water loss and to improve its quality, lest it should cause eutrophication in receiving water bodies. The current study was undertaken to explore the performance of Canna lily and Cyperus alternifolius -based constructed wetland (CW) towards the removal of phosphate from the stormwater runoff. Total phosphate removal efficiency varied from 77.5% (winter) to 82.6% (spring) to 90.3% (summer) for Canna lily based-CW; while it varied from 62.3% (winter) to 74.2% (spring) to 84.1% (summer) for Cyperus alternifolius based-CW. The phosphate removal efficiency improved with a rise in ambient temperature through the changing seasons. The increase in biomass of both the plants, and accumulation of phosphate in different plant tissue suggested that the plants should be harvested periodically and nutrients be exported for use as fodder, manure, and for thatching. Therefore, an effective design standard and code of practice is required to be developed for WSUD in India. It will help in making future studies more effective in combination with other WSUD techniques for improved pollutant removal efficiency from real stormwater runoff. Research highlights Canna lily and Cyperus alternifolius -based CW cells are effective tool for the removal of phosphate from the stormwater runoff. Higher removal efficiency can be correlated with an increase in average sunshine hours. The removal of phosphate from CW cells is correlated with increase in biomass. An effective design standard and code of practice is required to be developed for WSUD in India.
ISSN:2363-5037
2363-5045
DOI:10.1007/s40899-024-01076-5