Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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  • Christian-Albrechts-Universität zu Kiel (CAU)
  • Eberhard Karls Universität Tübingen
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OriginalspracheEnglisch
Seiten (von - bis)7612-7631
Seitenumfang20
FachzeitschriftGeochimica et Cosmochimica Acta
Jahrgang75
Ausgabenummer23
Frühes Online-Datum21 Sept. 2011
PublikationsstatusVeröffentlicht - 1 Dez. 2011

Abstract

The sulfur concentration at pyrrhotite- and anhydrite-saturation in primitive hydrous basaltic melt of the 2001-2002 eruption of Mt. Etna was determined at 200MPa, T=1050-1250°C and at logfO2 from FMQ to FMQ+2.2 (FMQ is Fayalite-Magnetite-Quartz oxygen buffer). At 1050°C Au sample containers were used. A double-capsule technique, using a single crystal olivine sample container closed with an olivine piston, embedded in a sealed Au80Pd20 capsule, was developed to perform experiments in S-bearing hydrous basaltic systems at T>1050°C. Pyrrhotite is found to be a stable phase coexisting with melt at FMQ-FMQ+0.3, whereas anhydrite is stable at FMQ+1.4-FMQ+2.2. The S concentration in the melt increases almost linearly from 0.12±0.01 to 0.39±0.02wt.% S at FeS-saturation and from 0.74±0.01 to 1.08±0.04wt.% S at anhydrite-saturation with T ranging from 1050-1250°C. The relationships between S concentration at pyrrhotite and/or anhydrite saturation, MgO content of the olivine-saturated melt, T, and logfO2 observed in this study and from previous data are used to develop an empirical model for estimating the magmatic T and fO2 from the S and MgO concentrations of H2O-bearing olivine-saturated basaltic melts. The model can also be used to determine maximum S concentrations, if fO2 and MgO content of the melt are known. The application of the model to compositions of melt inclusions in olivines from Mt. Etna indicates that the most primitive magmas trapped in inclusions might have been stored at logfO2 slightly higher than FMQ+1 and at T=1100-1150°C, whereas more evolved melts could have been trapped at T≤1100°C. These values are in a good agreement with the estimates obtained by other independent methods reported in the literature.

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Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas. / Beermann, O.; Botcharnikov, Roman; Holtz, Francois et al.
in: Geochimica et Cosmochimica Acta, Jahrgang 75, Nr. 23, 01.12.2011, S. 7612-7631.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Beermann O, Botcharnikov R, Holtz F, Diedrich O, Nowak M. Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas. Geochimica et Cosmochimica Acta. 2011 Dez 1;75(23):7612-7631. Epub 2011 Sep 21. doi: 10.1016/j.gca.2011.09.024
Beermann, O. ; Botcharnikov, Roman ; Holtz, Francois et al. / Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas. in: Geochimica et Cosmochimica Acta. 2011 ; Jahrgang 75, Nr. 23. S. 7612-7631.
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title = "Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas",
abstract = "The sulfur concentration at pyrrhotite- and anhydrite-saturation in primitive hydrous basaltic melt of the 2001-2002 eruption of Mt. Etna was determined at 200MPa, T=1050-1250°C and at logfO2 from FMQ to FMQ+2.2 (FMQ is Fayalite-Magnetite-Quartz oxygen buffer). At 1050°C Au sample containers were used. A double-capsule technique, using a single crystal olivine sample container closed with an olivine piston, embedded in a sealed Au80Pd20 capsule, was developed to perform experiments in S-bearing hydrous basaltic systems at T>1050°C. Pyrrhotite is found to be a stable phase coexisting with melt at FMQ-FMQ+0.3, whereas anhydrite is stable at FMQ+1.4-FMQ+2.2. The S concentration in the melt increases almost linearly from 0.12±0.01 to 0.39±0.02wt.% S at FeS-saturation and from 0.74±0.01 to 1.08±0.04wt.% S at anhydrite-saturation with T ranging from 1050-1250°C. The relationships between S concentration at pyrrhotite and/or anhydrite saturation, MgO content of the olivine-saturated melt, T, and logfO2 observed in this study and from previous data are used to develop an empirical model for estimating the magmatic T and fO2 from the S and MgO concentrations of H2O-bearing olivine-saturated basaltic melts. The model can also be used to determine maximum S concentrations, if fO2 and MgO content of the melt are known. The application of the model to compositions of melt inclusions in olivines from Mt. Etna indicates that the most primitive magmas trapped in inclusions might have been stored at logfO2 slightly higher than FMQ+1 and at T=1100-1150°C, whereas more evolved melts could have been trapped at T≤1100°C. These values are in a good agreement with the estimates obtained by other independent methods reported in the literature.",
author = "O. Beermann and Roman Botcharnikov and Francois Holtz and O. Diedrich and M. Nowak",
note = "Funding Information: This work was funded by the German Science Foundation (DFG, NO. 378/4-1 – 4-2 ). The natural rock sample was kindly provided by Max Wilke. We would like to thank Catherine McCammon for M{\"o}ssbauer spectroscopic measurements of our samples at the Bayerisches Geoinstitut (Bayreuth, Germany). We also thank Michael Toplis, Bruno Scaillet and Malcolm J. Rutherford for their detailed reviews. Michael Toplis is acknowledged for the editorial handling of the manuscript. Copyright: Copyright 2011 Elsevier B.V., All rights reserved.",
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T1 - Temperature dependence of sulfide and sulfate solubility in olivine-saturated basaltic magmas

AU - Beermann, O.

AU - Botcharnikov, Roman

AU - Holtz, Francois

AU - Diedrich, O.

AU - Nowak, M.

N1 - Funding Information: This work was funded by the German Science Foundation (DFG, NO. 378/4-1 – 4-2 ). The natural rock sample was kindly provided by Max Wilke. We would like to thank Catherine McCammon for Mössbauer spectroscopic measurements of our samples at the Bayerisches Geoinstitut (Bayreuth, Germany). We also thank Michael Toplis, Bruno Scaillet and Malcolm J. Rutherford for their detailed reviews. Michael Toplis is acknowledged for the editorial handling of the manuscript. Copyright: Copyright 2011 Elsevier B.V., All rights reserved.

PY - 2011/12/1

Y1 - 2011/12/1

N2 - The sulfur concentration at pyrrhotite- and anhydrite-saturation in primitive hydrous basaltic melt of the 2001-2002 eruption of Mt. Etna was determined at 200MPa, T=1050-1250°C and at logfO2 from FMQ to FMQ+2.2 (FMQ is Fayalite-Magnetite-Quartz oxygen buffer). At 1050°C Au sample containers were used. A double-capsule technique, using a single crystal olivine sample container closed with an olivine piston, embedded in a sealed Au80Pd20 capsule, was developed to perform experiments in S-bearing hydrous basaltic systems at T>1050°C. Pyrrhotite is found to be a stable phase coexisting with melt at FMQ-FMQ+0.3, whereas anhydrite is stable at FMQ+1.4-FMQ+2.2. The S concentration in the melt increases almost linearly from 0.12±0.01 to 0.39±0.02wt.% S at FeS-saturation and from 0.74±0.01 to 1.08±0.04wt.% S at anhydrite-saturation with T ranging from 1050-1250°C. The relationships between S concentration at pyrrhotite and/or anhydrite saturation, MgO content of the olivine-saturated melt, T, and logfO2 observed in this study and from previous data are used to develop an empirical model for estimating the magmatic T and fO2 from the S and MgO concentrations of H2O-bearing olivine-saturated basaltic melts. The model can also be used to determine maximum S concentrations, if fO2 and MgO content of the melt are known. The application of the model to compositions of melt inclusions in olivines from Mt. Etna indicates that the most primitive magmas trapped in inclusions might have been stored at logfO2 slightly higher than FMQ+1 and at T=1100-1150°C, whereas more evolved melts could have been trapped at T≤1100°C. These values are in a good agreement with the estimates obtained by other independent methods reported in the literature.

AB - The sulfur concentration at pyrrhotite- and anhydrite-saturation in primitive hydrous basaltic melt of the 2001-2002 eruption of Mt. Etna was determined at 200MPa, T=1050-1250°C and at logfO2 from FMQ to FMQ+2.2 (FMQ is Fayalite-Magnetite-Quartz oxygen buffer). At 1050°C Au sample containers were used. A double-capsule technique, using a single crystal olivine sample container closed with an olivine piston, embedded in a sealed Au80Pd20 capsule, was developed to perform experiments in S-bearing hydrous basaltic systems at T>1050°C. Pyrrhotite is found to be a stable phase coexisting with melt at FMQ-FMQ+0.3, whereas anhydrite is stable at FMQ+1.4-FMQ+2.2. The S concentration in the melt increases almost linearly from 0.12±0.01 to 0.39±0.02wt.% S at FeS-saturation and from 0.74±0.01 to 1.08±0.04wt.% S at anhydrite-saturation with T ranging from 1050-1250°C. The relationships between S concentration at pyrrhotite and/or anhydrite saturation, MgO content of the olivine-saturated melt, T, and logfO2 observed in this study and from previous data are used to develop an empirical model for estimating the magmatic T and fO2 from the S and MgO concentrations of H2O-bearing olivine-saturated basaltic melts. The model can also be used to determine maximum S concentrations, if fO2 and MgO content of the melt are known. The application of the model to compositions of melt inclusions in olivines from Mt. Etna indicates that the most primitive magmas trapped in inclusions might have been stored at logfO2 slightly higher than FMQ+1 and at T=1100-1150°C, whereas more evolved melts could have been trapped at T≤1100°C. These values are in a good agreement with the estimates obtained by other independent methods reported in the literature.

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U2 - 10.1016/j.gca.2011.09.024

DO - 10.1016/j.gca.2011.09.024

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SP - 7612

EP - 7631

JO - Geochimica et Cosmochimica Acta

JF - Geochimica et Cosmochimica Acta

SN - 0016-7037

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