Sink or source? Insights into the behavior of copper and zinc in the sediment porewater of a constructed wetland by peepers

The H-02 free water surface constructed wetland has been applied to remove heavy metals, mainly copper (Cu) and zinc (Zn), from wastewater on the Savannah River Site (Aiken, SC, USA). More and more studies focus on the metal behavior between the sediment and the overlying water, which directly refle...

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Bibliographic Details
Published in:The Science of the total environment 2022-05, Vol.821 (C), p.153127-153127, Article 153127
Main Authors: Qin, Chongyang, Xu, Xiaoyu, Peck, Erin
Format: Article
Language:English
Subjects:
Constructed wetland
Copper
Geologic Sediments
Metals, Heavy - analysis
Peeper
Porewater
Water Pollutants, Chemical - analysis
Wetlands
Zinc
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Summary:The H-02 free water surface constructed wetland has been applied to remove heavy metals, mainly copper (Cu) and zinc (Zn), from wastewater on the Savannah River Site (Aiken, SC, USA). More and more studies focus on the metal behavior between the sediment and the overlying water, which directly reflects the stability of metals after sedimentation in constructed wetlands. This study focused on the biogeochemical pathways in metal bioavailability and remobilization in the sediment after metals were removed from the overlying water. The dialysis sampling device (peeper) was used to collect porewater samples from eight depths in the sediment for the measurement of Cu, Zn, dissolved organic carbon (DOC), and major anions (sulfate and chloride). Surface water samples were also collected for the measurement of Cu, Zn, DOC, and anions. Different temporal trends were observed for dissolved Cu between the surface and bottom waters, but not for dissolved Zn. There were no obvious changes in porewater metal concentrations with increasing depths in the sediment. Sediment served as a sink for Cu as only 3% of porewater samples showed higher labile Cu concentrations than the surface water during the entire year, and these samples were collected below the sediment-water interface. However, sediment served as a source for Zn in summer and winter as 32% of porewater samples showed higher labile Zn concentrations than the surface water, and these samples were collected at all sediment depths. We think the seasonal changes in the behaviors of Cu and Zn are primarily controlled by the sulfur dynamics and the metal removal processes in the constructed wetland, as well as the different complexing chemistry between Cu and Zn. Also, our study supports that peeper is a powerful tool for studying the biogeochemistry of metals in the sediment. [Display omitted] •Metal fluxes were observed between sediment and the overlying water in a free water surface constructed wetland.•Only 3% of sediment porewater samples showed higher copper (Cu) concentrations than the surface water.•32% porewater samples showed higher zinc (Zn) concentrations than the surface water.•Sediment served as a sink for Cu.•Sediment served as a sink for Zn in spring and fall, and a source for Zn in summer and winter.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.153127