Performance of constructed floating wetlands in a cold climate waste stabilization pond
Date
2023
Authors
Arslan, M.
Wilkinson, S.
Naeth, M.A.
Gamal El Din, M.
Khokhar, Z.
Walker, C.
Lucke, T.
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Journal article
Citation
Science of the Total Environment, 2023; 880(163115):1-13
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Abstract
Effectiveness of constructed floating wetlands (CFWs) is largely unknown for wastewater treatment in cold climates. An operational-scale CFW system was retrofitted into a municipal waste stabilization pond in Alberta, Canada. During the first year (Study I), insignificant performance was recorded for water quality parameters, although phyto-uptake of elements was evident. In Study II, doubling of the CFW area and addition of underneath aeration promoted plant uptake of elements, including nutrients and metals, following significant pollutant reduction in the water; 83 % of chemical oxygen demand, 80 % of carbonaceous biochemical oxygen demand, 67 % of total suspended solids, and 48 % of total Kjeldhal nitrogen. A mesocosm study, conducted in parallel to the pilot scale field study, confirmed the impact of both vegetation and aeration on water quality improvement.
The phytoremediation potential was linked to accumulation within plant shoot and root biomass and was confirmed by mass balance. Bacterial community analyses reflected that heterotrophic nitrification, aerobic denitrification, complete denitrification, organic matter decomposition, and methylotrophy were dominant mechanisms in the CFW, likely resulting in successful transformation of organics and nutrients. CFWs appear to be a viable ecotechnology to treat municipal wastewater in Alberta; however, larger and aerated CFW systems are recommended to achieve maximum remediation. The study aligns with the United Nations Environment Program to scale up restoration of degraded ecosystems, and to improve conditions for water supply and biodiversity following recognition of 2021–2030 as the Decade on Ecosystem Restoration.
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Data source: supplementary material, https://doi.org/10.1016/j.scitotenv.2023.163115
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Copyright 2023 Elsevier
Access Condition Notes: Preprint available after 1 July 2025