Crystal chemistry and radiation-induced amorphizatlon of p-coflnlte from the natural fission reactor at bangombe, gabon

Artur P. Deditius, Satoshi Utsunomiya, Matthew A. Wall, Veronique Pointeau, Rodney C. Ewing

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16 Citations (Scopus)


Phosphorous-rich coffinite, U(Si, P)04Ti20, from the natural nuclear reactor at Bangombe, Gabon (depth 12.25 m), has been examined as an important primary mineral and alteration product of uraninite under reducing conditions. Based on electron microprobe analyses (EMPA) and textural relationships, two distinct types of coffinite have been identified: (1) P-coffinite-(i) [with P2C)5 and (REE+Y)20, as high as 9.84 and 8.66 wt%, respectively] replaces uraninite and has a chemical formula of (FJ0.84±.0.05Y, REE 0.12±0.02Ca0.10±0.02Th 0.003±0.002)Σ1.07±o.o6(Si 0.41±0.07P0.34±0.03S 0.08±0.05) Σ0.84±0.05O4 and; (2) coffmite-(ii), lacks uraninite inclusions [with P20 5 and (Y+REE)203 up to 1.45 and 1.79 wt%, respectively] and has a chemical formula of (U0.78±0.02Ca 0.05±0.003YREE0.03±0.01 Th0.002 ±0.001) Σ0.87±0.02(Si 1.02±0.02P0.06±0.01) Σ 1.08±0.01O4- The EMPA elemental maps reveal a homogeneous distribution of P, Si, Nd, and FT in P-coffinite-(i). Charge-balance calculations indicate that S substitution for Si in the coffinite structure results in the enhancement of the incorporation of P and REEs. High EMPA totals (95-100 wt%), suggest that water is not an essential component of the coffmite structure. High-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) reveal the decomposition of single crystals of uraninite into 50 nm grains during the alteration process to P-coffmite-(i). High-resolution transmission electron microscopy (F1RTEM) and selected area electron diffraction (SAED) patterns confirm that P-cofiinite-(i) has the coffinite structure. However, P-coffmite-(i) has a large amorphous fraction probably due to radiation damage caused by a-decay events. The calculated cumulative dose for both types of coffinite varies from 1.6-1.9 x 10 18 (a-decay events/mg), which is equivalent to 134.2-161.5 displacement per atom (dpa) that have accumulated most probably during the past 800 million years.

Original languageEnglish
Pages (from-to)827-836
Number of pages10
JournalAmerican Mineralogist
Issue number5-6
Publication statusPublished - 2009

All Science Journal Classification (ASJC) codes

  • Geophysics
  • Geochemistry and Petrology


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