Uranium (U) is of enormous global importance because of its use in energy generation,
albeit with potential environmental legacies. While naturally occurring U is widespread in the …

Microbial metabolism has the potential to alter the solubility of a broad range of priority
radionuclides, including uranium, other actinides and fission products. Of notable interest …

Uncovers the Key Role Microbes Play in the Transformation of Oxidizable and Reducible
MineralsMany areas of geomicrobial processes are receiving serious attention from …

Ferrihydrite was exposed to U (VI)-containing cement leachate (pH 10.5) and aged to induce
crystallization of hematite. A combination of chemical extractions, TEM, and XAS techniques …

Oscillations between reducing and oxidizing conditions are observed at the interface of
anaerobic/oxic and anaerobic/anoxic environments, and are often stimulated by an …

Stimulating the microbial reduction of aqueous uranium (VI) to insoluble U (IV) via electron
donor addition has been proposed as a strategy to remediate uranium-contaminated …

Understanding the long-term fate, stability, and bioavailability of uranium (U) in the
environment is important for the management of nuclear legacy sites and radioactive …

Uranium (U) pollution in soils is prevalent worldwide and poses a significant health risk that
will require remediation approaches. However, traditional U bioreduction by sulfate reducing …

Immobilization of uranyl by indigenous microorganisms has been proposed as an economic
and clean in-situ approach for removal of uranium, but the potential mechanisms of the …

Abstract Vivianite (Fe 3 (PO 4) 2· 8H 2 O) is a common hydrous ferrous phosphate mineral
which often occurs in reductive conditions, especially anoxic non-sulfide environment …