Other
Scientific paper
Feb 1985
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1985lpsc...15..601c&link_type=abstract
(Lunar and Planetary Institute, NASA, American Geophysical Union, et al., Lunar and Planetary Science Conference, 15th, Houston,
Other
4
Earth Crust, Melts (Crystal Growth), Silicates, Solubility, Sulfates, Sulfides, Hydrogen Compounds, Hydrothermal Crystal Growth, Magma, Mars (Planet), Oxidation-Reduction Reactions, Venus (Planet), Planets, Terrestrial Planets, Sulfide, Sulfate, Sulfur, Saturation, Silicate, Melts, Hydrothermal Processes, Experiments, Pressure, Temperature, Fugacity, Oxygen, Compositon, Iron Oxide, Solubility, Fractionation, Reduction, Oxidation, Magma, Earth, Mars, Venus
Scientific paper
A series of hydrothermal experiments was performed over a wide range of pressures, temperatures, oxygen fugacities, and melt FeO content, in order to examine the effects of physical changes on sulfur solubility in fractionated hydrous silicate melts. On the basis of the experimental results, it is concluded that upper crustal oxidation-reduction reactions and crystal fractionation processes may exert considerable influence on the amount of sulfur contained in magmas erupted at the surface. The application of the experimental results to investigations of volatile transport and volcanic degassing processes on the earth, Venus, and Mars is discussed
Carroll Michael R.
Rutherford Malcolm J.
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