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Incorporation of actinides into iron (oxyhydr)oxides: A long-term environmental barrier to radionuclide migration

Olwen Stagg, Katherine Morris, Luke T. Townsend, Eugene S. Ilton, Liam Abrahamsen-Mills, Samuel Shaw

2023Applied Geochemistry17 citationsDOIOpen Access PDF

Abstract

Iron (oxyhydr)oxide minerals are ubiquitous in the sub-surface environment (e.g. soils and sediments) and have the potential to act as a long-term barrier to the migration of radionuclides. The long-lived actinides (e.g. 237Np, 2.14 million year half-life) are particularly challenging, and pose multigenerational technical and policy issues for the remediation of contaminated land and the disposal of radioactive wastes. Over the last decade, increasing evidence indicates that actinides may substitute for Fe in the structure of iron (oxyhydr)oxides. Given the thermodynamic stability of iron (oxyhydr)oxides over the crustal continuum, incorporation may provide long-term immobilisation pathways for anthropogenic actinide contaminants. Here, the speciation and coordination adopted by key actinides (i.e. U, Np, Pu and Am) on incorporation into iron (oxyhydr)oxides is reviewed. The stability of these phases under fluctuating environmental conditions is also discussed, to provide constraints on the long-term fate of actinides incorporated into iron (oxyhydr)oxides.

Topics & Concepts

ActinideEnvironmental remediationRadionuclideRadioactive wasteChemistryEnvironmental chemistryRadiochemistryEnvironmental scienceContaminationInorganic chemistryNuclear chemistryBiologyQuantum mechanicsPhysicsEcologyRadioactive element chemistry and processingGeochemistry and Elemental AnalysisGeochemistry and Geologic Mapping
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