Selenium can be highly toxic in excess for both animals and humans. However, since its mobile forms can be easily adsorbed with ferric minerals, its mobility in the natural oxic environment is generally not an issue. Still, the removal and immobilization of the long-lived radioactive isotope 79Se from the contaminated anoxic waters is currently a significant concern. 79Se can be accessible in the case of radionuclides' leaching from radioactive waste disposals, where anoxic conditions prevail and where ferrous ions and Fe(II)-bearing minerals predominate after corrosion processes (e.g., magnetite). Therefore, reductive and adsorptive immobilizations by Fe(II)-bearing minerals are the primary mechanisms for removing redox-sensitive selenium. Even though the information on the sorptive interactions of selenium and Fe(II)-bearing minerals seems to be well documented, this review focuses specifically on the state of the available information on the effects of the redox properties of Fe(II)-bearing solid phases (e.g., ferrous oxides, hydroxides, sulfides, and carbonates) on selenium speciation via redox transformation and co-occurring coprecipitation.

• Keywords
• ferrous minerals, nuclear waste, reduction processes, selenium, sorption,
• MeSH
• Humans MeSH
• Minerals MeSH
• Oxidation-Reduction MeSH
• Radioactive Waste * MeSH
• Selenium * MeSH
• Water MeSH
• Ferric Compounds MeSH
• Ferrous Compounds MeSH
• Iron MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Review MeSH
• Names of Substances
• Minerals MeSH
• Radioactive Waste * MeSH
• Selenium * MeSH
• Water MeSH
• Ferric Compounds MeSH
• Ferrous Compounds MeSH
• Iron MeSH