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Arsenic Mobilization in a Seawater Inundated Acid Sulfate Soil

Authors :
Johnston, Scott G.
Keene, Annabelle F.
Burton, Edward D.
Bush, Richard T.
Sullivan, Leigh A.
McElnea, Angus E.
Ahern, Col R.
Smith, C. Douglas
Powell, Bernard
Hocking, Rosalie K.
Source :
Environmental Science & Technology; 20240101, Issue: Preprints
Publication Year :
2024

Abstract

Tidal seawater inundation of coastal acid sulfate soils can generate Fe- and SO4-reducing conditions in previously oxic-acidic sediments. This creates potential for mobilization of As during the redox transition. We explore the consequences for As by investigating the hydrology, porewater geochemistry, solid-phase speciation, and mineralogical partitioning of As across two tidal fringe toposequences. Seawater inundation induced a tidally controlled redox gradient. Maximum porewater As (∼400 μg/L) occurred in the shallow (<1 m), intertidal, redox transition zone between Fe-oxidizing and SO4-reducing conditions. Primary mechanisms of As mobilization include the reduction of solid-phase As(V) to As(III), reductive dissolution of As(V)-bearing secondary Fe(III) minerals and competitive anion desorption. Porewater As concentrations decreased in the zone of contemporary pyrite reformation. Oscillating hydraulic gradients caused by tidal pumping promote upward advection of As and Fe2+-enriched porewater in the intertidal zone, leading to accumulation of As(V)-enriched Fe(III) (hydr)oxides at the oxic sediment−water interface. While this provides a natural reactive-Fe barrier, it does not completely retard the flux of porewater As to overtopping surface waters. Furthermore, the accumulated Fe minerals may be prone to future reductive dissolution. A conceptual model describing As hydro-geochemical coupling across an intertidal fringe is presented.

Details

Language :
English
ISSN :
0013936X and 15205851
Issue :
Preprints
Database :
Supplemental Index
Journal :
Environmental Science & Technology
Publication Type :
Periodical
Accession number :
ejs20694211
Full Text :
https://doi.org/10.1021/es903114z