Abstract
AbstractIron valence state and local environment in a set of fibrous diamonds from Brazilian and Zairean placers were investigated using X-ray Absorption and Mössbauer spectroscopies. It is shown that the diamonds could be divided into two main groups, differing in the type of dominant Fe-bearing inclusions. In the first group Fe is mostly trivalent and is present in octahedral coordination; diamonds from the second group contain a mixture of Fe^2+^ and Fe^3+^, most likely with Fe^2+^ in dodecahedral coordination. A few other diamonds contain iron in a more reduced state: the presence of metallic Fe and Fe~3~O~4~ is inferred from XAS measurements. Spatially resolved XANES and Mössbauer measurements on polished diamond plates show that in some cases the Fe valence state may change considerably between the core and rim, whereas in other cases Fe speciation and valence remain constant. It is shown that Fe valence does not correlate with water and/or carbonate content or ratio, suggesting that iron is a minor element in the growth medium of fibrous diamonds and plays a passive role. This study suggests that, when present, evolution of the C isotopic composition with diamond growth is largely due to changes in chemistry of the growth medium and not due to variations of fO~2~.
Highlights
Fibrous diamonds are an important source of information about fluids in the Earth’s upper mantle
In this study we have investigated the Fe redox state and atomic environment in fibrous diamonds from Zaire and Brazil using X-ray Absorption (XAS) and Mössbauer spectroscopies
In this subsection we discuss measurements performed on whole diamonds; micro-XANES measurements of Brazilian flats are discussed together with micro-Mössbauer results
Summary
Fibrous diamonds are an important source of information about fluids in the Earth’s upper mantle. To check the validity of such extrapolations it is important to perform complementary studies of fibrous diamonds. Up to now no information about the redox conditions during fibrous diamond formation was available. One of the most widely employed methods for assessment of the redox conditions of mineral formation is the investigation of iron valence state. It is well known that fibrous diamonds are rich in mineral and fluid microinclusions, and some of them may contain iron. In this study we have investigated the Fe redox state and atomic environment in fibrous diamonds from Zaire and Brazil using X-ray Absorption (XAS) and Mössbauer spectroscopies. The present data provide information that has been averaged over numerous multiphase microinclusions
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