The effect of H2O on the crystallization of orthopyroxene in a high-Mg andesitic melt

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OriginalspracheEnglisch
Seiten (von - bis)2007–2016
Seitenumfang10
FachzeitschriftAmerican mineralogist
Jahrgang110
Ausgabenummer12
Frühes Online-Datum4 Dez. 2025
PublikationsstatusVeröffentlicht - Dez. 2025

Abstract

Near-liquidus crystallization experiments were performed on a high-Mg andesite from the Izu-Bonin-Mariana forearc to study the effect of H 2O on the orthopyroxene crystallization temperature. Experiments were conducted at 200 and 500 MPa in an internally heated pressure vessel at temperatures ranging from 1260 to 1075 °C. Orthopyroxene was the liquidus phase at both investigated pressures. The H 2O content in quenched glasses was quantified by Raman spectroscopy. The following equation describes the liquidus depression for orthopyroxene at 200 MPa: ΔT dry liq=26.02(±1.84)⋅C H2O 0.933(±0.050), where ΔT dry liq is the difference between the anhydrous liquidus temperature (in °C) and the liquidus at a specific melt water concentration C H2O(inwt%).A linear equation can describe the liquidus depression curve at 500 MPa:ΔT dry liq=25.72(±0.20)⋅C H2O.The experimental data set shows that the orthopyroxene liquidus depression is independent of absolute melt H 2O concentration at constant pressure. Thermodynamic and petrological models predict a more pronounced nonlinear behavior and generally overestimate the role of H 2O in the depression of the orthopyroxene liquidus at H 2O contents below 5 wt%, while partly underestimating it at higher H 2O contents. Comparing our data set with experimental results from the literature for a high-Mg basaltic andesite and different boninites confirms the validity of our orthopyroxene liquidus parameterization for a wider range of melt compositions. A comparison with previous experimental data obtained for olivine and plagioclase shows that the effect of H 2O on the depression of the liquidus temperature of orthopyroxene is slightly lower than for olivine, while the plagioclase liquidus temperature is depressed more significantly in the presence of H 2O. Our experimental data can be used to predict liquidus temperatures for hydrous melts in which orthopyroxene is the liquidus phase. Moreover, the empirical parameterization can be incorporated into petrological models to improve the modeling of crystallization paths in hydrous magmas.

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The effect of H2O on the crystallization of orthopyroxene in a high-Mg andesitic melt. / Koch, Lennart; Almeev, Renat R.; Linsler, Stefan A. et al.
in: American mineralogist, Jahrgang 110, Nr. 12, 12.2025, S. 2007–2016.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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abstract = "Near-liquidus crystallization experiments were performed on a high-Mg andesite from the Izu-Bonin-Mariana forearc to study the effect of H 2O on the orthopyroxene crystallization temperature. Experiments were conducted at 200 and 500 MPa in an internally heated pressure vessel at temperatures ranging from 1260 to 1075 °C. Orthopyroxene was the liquidus phase at both investigated pressures. The H 2O content in quenched glasses was quantified by Raman spectroscopy. The following equation describes the liquidus depression for orthopyroxene at 200 MPa: ΔT dry liq=26.02(±1.84)⋅C H2O 0.933(±0.050), where ΔT dry liq is the difference between the anhydrous liquidus temperature (in °C) and the liquidus at a specific melt water concentration C H2O(inwt%).A linear equation can describe the liquidus depression curve at 500 MPa:ΔT dry liq=25.72(±0.20)⋅C H2O.The experimental data set shows that the orthopyroxene liquidus depression is independent of absolute melt H 2O concentration at constant pressure. Thermodynamic and petrological models predict a more pronounced nonlinear behavior and generally overestimate the role of H 2O in the depression of the orthopyroxene liquidus at H 2O contents below 5 wt%, while partly underestimating it at higher H 2O contents. Comparing our data set with experimental results from the literature for a high-Mg basaltic andesite and different boninites confirms the validity of our orthopyroxene liquidus parameterization for a wider range of melt compositions. A comparison with previous experimental data obtained for olivine and plagioclase shows that the effect of H 2O on the depression of the liquidus temperature of orthopyroxene is slightly lower than for olivine, while the plagioclase liquidus temperature is depressed more significantly in the presence of H 2O. Our experimental data can be used to predict liquidus temperatures for hydrous melts in which orthopyroxene is the liquidus phase. Moreover, the empirical parameterization can be incorporated into petrological models to improve the modeling of crystallization paths in hydrous magmas.",
keywords = "H O, IODP Expedition 352, Izu-Bonin-Mariana forearc, Orthopyroxene, Raman spectroscopy, crystallization, high-Mg andesite, liquidus depression",
author = "Lennart Koch and Almeev, {Renat R.} and Linsler, {Stefan A.} and Felix Marxer and Fran{\c c}ois Holtz",
note = "Publisher Copyright: {\textcopyright} 2025 Mineralogical Society of America.",
year = "2025",
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doi = "10.2138/am-2024-9593",
language = "English",
volume = "110",
pages = "2007–2016",
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issn = "0003-004X",
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TY - JOUR

T1 - The effect of H2O on the crystallization of orthopyroxene in a high-Mg andesitic melt

AU - Koch, Lennart

AU - Almeev, Renat R.

AU - Linsler, Stefan A.

AU - Marxer, Felix

AU - Holtz, François

N1 - Publisher Copyright: © 2025 Mineralogical Society of America.

PY - 2025/12

Y1 - 2025/12

N2 - Near-liquidus crystallization experiments were performed on a high-Mg andesite from the Izu-Bonin-Mariana forearc to study the effect of H 2O on the orthopyroxene crystallization temperature. Experiments were conducted at 200 and 500 MPa in an internally heated pressure vessel at temperatures ranging from 1260 to 1075 °C. Orthopyroxene was the liquidus phase at both investigated pressures. The H 2O content in quenched glasses was quantified by Raman spectroscopy. The following equation describes the liquidus depression for orthopyroxene at 200 MPa: ΔT dry liq=26.02(±1.84)⋅C H2O 0.933(±0.050), where ΔT dry liq is the difference between the anhydrous liquidus temperature (in °C) and the liquidus at a specific melt water concentration C H2O(inwt%).A linear equation can describe the liquidus depression curve at 500 MPa:ΔT dry liq=25.72(±0.20)⋅C H2O.The experimental data set shows that the orthopyroxene liquidus depression is independent of absolute melt H 2O concentration at constant pressure. Thermodynamic and petrological models predict a more pronounced nonlinear behavior and generally overestimate the role of H 2O in the depression of the orthopyroxene liquidus at H 2O contents below 5 wt%, while partly underestimating it at higher H 2O contents. Comparing our data set with experimental results from the literature for a high-Mg basaltic andesite and different boninites confirms the validity of our orthopyroxene liquidus parameterization for a wider range of melt compositions. A comparison with previous experimental data obtained for olivine and plagioclase shows that the effect of H 2O on the depression of the liquidus temperature of orthopyroxene is slightly lower than for olivine, while the plagioclase liquidus temperature is depressed more significantly in the presence of H 2O. Our experimental data can be used to predict liquidus temperatures for hydrous melts in which orthopyroxene is the liquidus phase. Moreover, the empirical parameterization can be incorporated into petrological models to improve the modeling of crystallization paths in hydrous magmas.

AB - Near-liquidus crystallization experiments were performed on a high-Mg andesite from the Izu-Bonin-Mariana forearc to study the effect of H 2O on the orthopyroxene crystallization temperature. Experiments were conducted at 200 and 500 MPa in an internally heated pressure vessel at temperatures ranging from 1260 to 1075 °C. Orthopyroxene was the liquidus phase at both investigated pressures. The H 2O content in quenched glasses was quantified by Raman spectroscopy. The following equation describes the liquidus depression for orthopyroxene at 200 MPa: ΔT dry liq=26.02(±1.84)⋅C H2O 0.933(±0.050), where ΔT dry liq is the difference between the anhydrous liquidus temperature (in °C) and the liquidus at a specific melt water concentration C H2O(inwt%).A linear equation can describe the liquidus depression curve at 500 MPa:ΔT dry liq=25.72(±0.20)⋅C H2O.The experimental data set shows that the orthopyroxene liquidus depression is independent of absolute melt H 2O concentration at constant pressure. Thermodynamic and petrological models predict a more pronounced nonlinear behavior and generally overestimate the role of H 2O in the depression of the orthopyroxene liquidus at H 2O contents below 5 wt%, while partly underestimating it at higher H 2O contents. Comparing our data set with experimental results from the literature for a high-Mg basaltic andesite and different boninites confirms the validity of our orthopyroxene liquidus parameterization for a wider range of melt compositions. A comparison with previous experimental data obtained for olivine and plagioclase shows that the effect of H 2O on the depression of the liquidus temperature of orthopyroxene is slightly lower than for olivine, while the plagioclase liquidus temperature is depressed more significantly in the presence of H 2O. Our experimental data can be used to predict liquidus temperatures for hydrous melts in which orthopyroxene is the liquidus phase. Moreover, the empirical parameterization can be incorporated into petrological models to improve the modeling of crystallization paths in hydrous magmas.

KW - H O

KW - IODP Expedition 352

KW - Izu-Bonin-Mariana forearc

KW - Orthopyroxene

KW - Raman spectroscopy

KW - crystallization

KW - high-Mg andesite

KW - liquidus depression

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U2 - 10.2138/am-2024-9593

DO - 10.2138/am-2024-9593

M3 - Article

VL - 110

SP - 2007

EP - 2016

JO - American mineralogist

JF - American mineralogist

SN - 0003-004X

IS - 12

ER -

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