Raman spectroscopy study of C-O-H-N speciation in reduced basaltic glasses: Implications for reduced planetary mantles
Date
2019
Authors
Dalou, Celia
Hirschmann, Marc
Jacobsen, Steven D.
Le Losq, Charles
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
To better understand the solution of volatile species in a reduced magma ocean, we identify via Raman spectroscopy the
nature of C-O-H-N volatile species dissolved in a series of reduced basaltic glasses. The oxygen fugacity (f O2) during synthesis
varied from highly reduced at two log units below the iron-wustite buffer (IW-2.1) to moderately reduced (IW-0.4), spanning
much of the magmatic f O2 conditions during late stages of terrestrial accretion. Raman vibrational modes for H2, NH2
–
, NH3,
CH4, CO, CN–
, N2, and OH– species are inferred from band assignments in all reduced glasses. The integrated area of Raman
bands assigned to N2, CH4, NH3 and H2 vibrations in glasses increases with increasing molar volume of the melt, whereas that
of CO decreases. Additionally, with increasing f O2, CO band areas increase while those of N2 decrease, suggesting that the
solubility of these neutral molecules is not solely determined by the melt molar volume under reduced conditions. Coexisting
with these neutral molecules, other species as CN–
, NH2
– and OH– are chemically bonded within the silicate network. The
observations indicate that, under reduced conditions, (1) H2, NH2
–
, NH3, CH4, CO, CN–
, N2, and OH– species coexist in silicate glasses representative of silicate liquids in a magma ocean (2) their relative abundances dissolved in a magma ocean
depend on melt composition, f O2 and the availability of H and, (3) metal-silicate partitioning or degassing reactions of those
magmatic volatile species must involve changes in melt and vapor speciation, which in turn may influence isotopic
fractionation.
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Keywords
Magma ocean, Volatiles, Oxygen fugacity, Nitrogen, Carbon, Hydrogen, Raman spectroscopy
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Source
Geochimica et Cosmochimica Acta
Type
Journal article
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Restricted until
2037-12-31
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