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The effect of composition on chlorine solubility and behavior in silicate melts

Richard W. Thomas and Bernard J. Wood
The effect of composition on chlorine solubility and behavior in silicate melts
American Mineralogist (May 2023) 108 (5): 814-825

Abstract

We have performed experiments at 1.5 GPa and 1400 degrees C on 25 different bulk compositions to determine the effects of major element compositions on the Cl contents of silicate melts at known fugacities of Cl2 and O (sub 2) . The experimental method involved mixing a "sliding" Cl buffer, a mixture of AgCl, AgI, and Ag with the silicate bulk composition and performing the experiment in a graphite capsule together with a source of CO (sub 2) (AgCO3). The graphite capsules were sealed inside welded Pt tubes to maintain a CO (sub 2) -CO atmosphere with oxygen fugacity fixed at the C-CO-CO (sub 2) (CCO) buffer. During the experiment, the Cl buffer segregates leaving a Cl-bearing melt, which quenches to a glass. We used the results to define chloride capacity CCl for each melt at the pressure and temperature of the experiment: C Cl = Cl ( wt% ) f ( Cl 2 ) + f O 2 4 Chloride capacity was found to correlate positively with optical basicity and NBO/T and negatively with ionic porosity and the Larsen index. We combined our new data with the results of Thomas and Wood (2021) to derive an equation describing the composition, pressure and temperature dependence of the chloride capacity: log (function) C C l = 1.604 + (4470X (sub Ca) - 3430X (sub Si) + 2592X (sub Fe) - 4092X (sub K) - 894 P) / T. In this equation, X (sub Ca) , X (sub Si) , and so on refer to the oxide mole fractions on a single-cation basis, P is in GPa and T in K. The equation reproduces 58 data points with an r (super 2) of 0.96 and a standard error of 0.089. The addition of literature data on hydrous experiments indicates that the effects <4.3 wt% H (sub 2) O are small enough to be ignored. We also performed experiments aimed at determining the conditions of NaCl saturation in melts. When combined with literature data we obtained: log(Cl (super -) ) = log( a (sub NaCl) ) + 0.06 - (2431X (sub Ca) + 3430X (sub Si) - 2592X (sub Fe) + 3484C (sub Na) + 4092X (sub K) - 2417)/T where (Cl (super -) ) is the Cl content of the melt in wt% a (sub NaCl) is the activity of NaCl (liquid) and the other symbols are the same as before. The results indicate that basalt dissolves approximately 8 times more Cl than rhyolite at a given NaCl activity i.e., Cl is approximately 8 times more soluble in basalt than in rhyolite.


ISSN: 0003-004X
EISSN: 1945-3027
Coden: AMMIAY
Serial Title: American Mineralogist
Serial Volume: 108
Serial Issue: 5
Title: The effect of composition on chlorine solubility and behavior in silicate melts
Affiliation: University of Oxford, Department of Earth Sciences, Oxford, United Kingdom
Pages: 814-825
Published: 202305
Text Language: English
Publisher: Mineralogical Society of America, Washington, DC, United States
References: 86
Accession Number: 2023-064090
Categories: Igneous and metamorphic petrology
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. 3 tables
Country of Publication: United States
Secondary Affiliation: GeoRef, Copyright 2023, American Geosciences Institute. Abstract, copyright, Mineralogical Society of America. Reference includes data from GeoScienceWorld, Alexandria, VA, United States
Update Code: 2023
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