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Chlorine incorporation in amphiboles synthesized along the magnesio-hastingsite-hastingsite compositional join

Bailey L. Mueller, David M. Jenkins and M. Darby Dyar
Chlorine incorporation in amphiboles synthesized along the magnesio-hastingsite-hastingsite compositional join
European Journal of Mineralogy (May 2017) 29 (2): 167-180

Abstract

Hastingsitic amphiboles can contain high Cl contents in both terrestrial and meteorite samples; however, the solutions or melts providing Cl to the amphibole, as well as the crystal-chemical controls of the host amphibole, are not well understood. This study focuses on the correlation between the Fe# (= Fe (super 2+) /(Fe (super 2+) + Mg)) and the acceptance of Cl for amphiboles synthesized along the magnesio-hastingsite-hastingsite bulk compositional join, NaCa (sub 2) (Mg (sub 4) Fe (super 3+) )(Al (sub 2) Si (sub 6) )O (sub 22) (OH,Cl) (sub 2) -NaCa (sub 2) (Fe (sub 4) (super 2+) Fe (super 3+) )(Al (sub 2) Si (sub 6) )O (sub 22) (OH,Cl) (sub 2) Samples were made from mixtures of reagent-grade starting materials prepared along the compositional join at approximately 20 mol% increments and synthesized at 700-850 degrees C and 0.2-0.4 GPa for 3-4 days, where the oxygen fugacity was broadly constrained to lie below the Co-CoO and above the wustite-magnetite oxygen buffers. The source of Cl was FeCl (sub 2) Although the amphibole syntheses were nominally anhydrous, some moisture was inevitably absorbed by the hygroscopic FeCl (sub 2) and could have produced brines with mole fractions of Cl (=X (sub Cl) ) of 0.58 to 0.91, assuming such brine concentrations are below saturation in FeCl (sub 2) Ferric iron contents of the synthetic amphiboles were determined by Mossbauer spectroscopy. Amphiboles formed along this compositional join were generally deficient in Fe (super 3+) near the Mg-rich end and deficient in Na near the Fe-rich end, yielding amphiboles that are classified as pargasite and ferro- or ferro-ferri-hornblende, respectively, rather than hastingsitic amphiboles. An overall positive correlation was observed between Cl content and the Fe#, but with a distinct maximum at Fe# of 0.69 + or - 0.04 where the Cl reaches 0.42 + or - 0.06 atoms per formula unit (apfu) or 1.5 + or - 0.2 wt% Cl, and decreases to 0.20 Cl apfu at Fe# of 1.0. This observation points to a factor other than Fe# as being more important, namely the proportion of Fe (super 2+) (=Fe (super 2+) /(Fe (super 2+) Fe (super 3+) ). In comparison to other Cl-rich pargasitic amphiboles in nature, the maximum of 0.42 Cl apfu observed in this study is still about a factor of two to three lower than the maximum observed in natural samples. The implications of this study are that the amphiboles most likely to host the highest Cl contents are those with the highest proportion of Fe (super 2+) , and conversely the lowest proportion of Fe (super 3+) , as well as having significant (super T) Al and most likely K.


ISSN: 0935-1221
EISSN: 1617-4011
Serial Title: European Journal of Mineralogy
Serial Volume: 29
Serial Issue: 2
Title: Chlorine incorporation in amphiboles synthesized along the magnesio-hastingsite-hastingsite compositional join
Affiliation: Binghamton University, Department of Geological Sciences and Environmental Studies, Binghamton, NY, United States
Pages: 167-180
Published: 201705
Text Language: English
Publisher: Schweizerbart'sche Verlagsbuchhandlung (Naegele u. Obermiller), Stuttgart, Germany
References: 59
Accession Number: 2017-075915
Categories: Mineralogy of silicates
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. 5 tables
Secondary Affiliation: Mount Holyoke College, USA, United States
Country of Publication: Germany
Secondary Affiliation: GeoRef, Copyright 2017, American Geosciences Institute. Abstract, copyright, Schweizerbart'sche Verlagsbuchhandlung. Reference includes data from GeoScienceWorld, Alexandria, VA, United States
Update Code: 201740
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