Title: Hydrogen and oxygen stable isotope composition of water in metaschoepite mineralization on U₃O₈

When exposed to humidity in an oxidizing atmosphere hydrated uranium oxide grows as a secondary mineral on aged U₃O₈ and may incorporate the oxygen stable isotope signature of the water vapor into the secondary uranium oxide, as well as hydrogen and oxygen stable isotopes into any mineral hydration water. Because geospatial variation in δ²H and δ¹⁸O values of atmospheric humidity and precipitation is well understood, the H and O stable isotope composition of mineral hydration waters can give information on the environment of mineral formation. We exposed powdered U₃O₈ to humidity with known H and O stable isotope composition at constant 30%, 61% and 91% relative humidity. We sampled and analyzed the U₃O₈ powders along with any secondary hydrated minerals that had formed on the particle surfaces at various intervals from 1 to 10 days throughout the 180-day humidity exposures. We present stable H and O isotope results of mineral hydration waters in uranium oxide materials analyzed by thermogravimetry-enabled isotope ratio infrared spectroscopy (TGA-IRIS), which uses precise heating by thermogravimetric analyzer to liberate water vapor for subsequent online isotope analysis via a laser-based isotope ratio infrared spectroscopy instrument (Picarro L-2130i). Scanning electron microscopy (SEM), transmission electron microscopy (TEM), and x-ray diffraction (XRD) analysis of humidity-exposed U₃O₈ heated to 350 °C indicates that the U₃O₈ had a measurable metaschoepite ((UO₃)•2H₂O) phase along with α-U₃O₈. After heating to 350 °C, the metaschoepite is eliminated but the α-U₃O₈ is retained, meaning that the heating successfully extracted the water in the metaschoepite but did not disturb the crystalline structure of the U₃O₈. Analysis of the bulk oxygen isotope composition by fluorination of these samples before and after heating, indicates that the oxygen isotope value of the U₃O₈ is also not affected by heating to 350 °C. Precision for δ²H and δ¹⁸O values of metaschoepite mineral hydration water stable isotope values yielded by the TGA-IRIS method on metaschoepite are 5.86‰ for δ²H, and 0.34‰ for δ¹⁸O. Hydrogen in the various water reservoirs is highly exchangeable and thus the δ²H values of these waters is not easily interpreted. However, oxygen in the separate water reservoirs is much less exchangeable, and thus δ¹⁸O values of the metaschoepite mineral hydration water is likely to reflect that of the water vapor the sample was exposed to. Once metaschoepite is formed on the surface of U₃O₈ particles, the oxygen isotope signature of the mineral hydration water in metaschoepite does not respond to changes in exposure vapor isotopic composition, and thus appears to be fairly durable in this regard. Furthermore, these results suggest that it may be possible to discern information about the provenance and history of an oxidized U₃O₈ sample from oxygen stable isotope measurements of metaschoepite mineral hydration water.