Biogeochemical Controls on Strontium Fate at the Sediment–Water Interface of Two Groundwater-Fed Wetlands with Contrasting Hydrologic Regimes

Boyer, Antoine; Hatat-Fraile, Mélisa; Passeport, Elodie

Biogeochemical Controls on Strontium Fate at the Sediment–Water Interface of Two Groundwater-Fed Wetlands with Contrasting Hydrologic Regimes

2018

Boyer, Antoine | Hatat-Fraile, Mélisa | Passeport, Elodie

Radioactive strontium (Sr) is a common groundwater contaminant at many nuclear sites. Its natural retention in groundwater-fed wetlands is an attractive remediation strategy. However, at present, the biogeochemical mechanisms controlling Sr transport at the sediment–water interface are poorly understood. In this field study, Sr fate was investigated in two wetlands with contrasting vegetation and hydrologic regimes. The marsh was an open-water wetland with constant water table and no emergent vegetation. The swamp was vegetated with fluctuating water levels and a thick mat of submerged cattail litter in the water column. High-resolution porewater Sr concentrations and solid-phase sediment Sr species revealed distinct profiles between the two wetlands. The marsh exhibited a strongly reduced environment and sharp concentration peaks at the sediment–water interface. In contrast, the smaller concentration gradients of the swamp resulted in a reduced flux of Sr to the surface water. The organic fraction of the sediment dominated Sr retention compared to the inorganic iron and manganese oxides. However, the marsh had a significant fraction of recalcitrant Sr presumably due to its incorporation into sulfur and/or carbonate minerals. These results suggest that vegetated wetlands with fluctuating hydrologic regimes could act as efficient sinks for Sr pollution.

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