Fate of phosphorus from treated wastewater in soil-based constructed wetlands

Fate of phosphorus from treated wastewater in soil-based constructed wetlands

In France, soil-based constructed wetlands for the discharge of treated wastewater have become a popular technique to both reduce flow to surface receiving water bodies and perform complementary treatments. This study focuses on the fate of phosphorus in three different soils, as well as its assimil...

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Bibliographic Details
Published in:The Science of the total environment Vol. 816; p. 151589
Main Authors: Morvannou, Ania, Masson, Matthieu, Gautier, Mathieu, Bisone, Sara, Richard, Loïc, Boutin, Catherine, Forquet, Nicolas
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 10-04-2022
Subjects:
Calcium
Clay
Iron oxides/hydroxides
Phosphorus
Phosphorus retention
Soil
Soil lysimeters
Treated wastewater
Waste Water
Wetlands
Clay
Treated wastewater
Iron oxides/hydroxides
Calcium
Soil lysimeters
Phosphorus retention
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Summary:In France, soil-based constructed wetlands for the discharge of treated wastewater have become a popular technique to both reduce flow to surface receiving water bodies and perform complementary treatments. This study focuses on the fate of phosphorus in three different soils, as well as its assimilation by Phragmites australis. The experimental set-up consisted of three lysimeters containing three soils selected to be representative of those typically found near wastewater treatment plants (i.e. a silt loam Fluvisol, a sandy loam Fluvisol and a sandy-clay loam Technosol). Lysimeters are undisturbed soil monoliths (1.5 m3 in volume), whose masses are continuously monitored in order to obtain an accurate water mass balance. The lysimeters here were intermittently fed for 3.5 days and then left to rest for 3.5 days. The experiment lasted 26 months, including 18 months of feeding with phosphorus (PO4-P, TP) fluxes in and out being monitored along with water content, oxygen content and redox potential at various depths. The quantities of phosphorus stored in the soils and assimilated in the Phragmites australis were measured. Phosphorus fractionation in soils was performed to better understand its distribution and potential remobilization. Low phosphate concentrations were measured at the outlets of all three lysimeters, thereby highlighting satisfactory phosphorus retention in the three soils (removal efficiencies >90%). A significant amount of phosphorus can be exported by harvesting Phragmites australis aerial parts (26%, 17% and 13% of the yearly incoming phosphorus mass for the silt loam Fluvisol, sandy loam Fluvisol and sandy-clay loam Technosol, respectively). The fractionation step served to determine that the phosphorus retained in the soil was primarily bound to iron oxides/hydroxides, calcium and clay. Moreover, it was found to be preferable to hold oxidizing (aerobic) conditions and pH close to neutral in order to maintain conditions under which the complexes formed with phosphorus remain stable. [Display omitted] •Study of the influence of actual treated wastewater on undisturbed soils (lysimeters).•Soil exhibited high potential for phosphorus adsorption from treated wastewater.•Phosphorus was substantially retained in the three soils and the Phragmites australis.•The phosphorus retained in the soil was mostly bound to FeO(OH), calcium and clay.•Aerobic conditions seem favorable to long-term phosphorus retention.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.151589