Method for Determining Water Content in Natural Rhyolitic Melts by Raman Spectroscopy and Electron Microprobe Analysis

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Method for Determining Water Content in Natural Rhyolitic Melts by Raman Spectroscopy and Electron Microprobe Analysis. / Kotov, A. A.; Smirnov, S. Z.; Plechov, P. Yu и др.

в: Petrology, Том 29, № 4, 07.2021, стр. 386-403.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

BibTeX

@article{257e3a8f76fc4e4690b165ecfa76b554,

title = "Method for Determining Water Content in Natural Rhyolitic Melts by Raman Spectroscopy and Electron Microprobe Analysis",

abstract = "The paper presents an original method developed by the authors for determining water content in highly polymerized rhyolite and rhyodacite glasses in melt inclusions. The method involves simultaneous determination of water content by two techniques: electron probe X-ray microanalysis (EPMA) and Raman spectroscopy, which are applied to mutual verify the results. The Raman spectroscopic technique was calibrated using a set of standard reference synthetic glasses of haplogranitic composition (SGS), containing 1.8 to 5.9 wt % water. The calibration was verified using a set of reference natural rhyolite obsidian samples (NRS) with water contents of 4.7 to 9.9 wt %. Two ratios were chosen as the calibrated parameters: (1) the area of the water and hydroxyl bands in the range of 2900–3800 cm–1 to the area of the silicate band vibration (Si–O and Al–O) in the range of 850–1200 cm–1 (Aw/As) and (2) the ratio of the intensities of the water band in the 3550–3560 cm–1 region and the 480 cm–1 band in the silicate vibration region (I3550/I480). As a result, the following calibration equations were acquired: $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 0.8458$$\frac{{{{A}_{w}}}}{{{{A}_{s}}}}$$(σ) ± 0.17 wt % and $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 11.494$$\frac{{{{I}_{{3550}}}}}{{{{I}_{{480}}}}}$$ (σ) ± 0.21 wt %. Comparison of water concentrations in standard glasses determined by Raman spectroscopy using the Aw/As and I3550/I480 ratios and measured by X-ray microprobe analysis, showed a good consistency. Electron probe X-ray microanalysis was used to determine water content in glasses by recalculating the excess oxygen content. The method was tested on unheated glassy melt inclusions in minerals from dacitic and rhyolitic pumice from caldera eruption deposits of Okataina volcanic center, New Zealand; Kurile Lake, Kamchatka Peninsula; Vetrovoy Isthmus; and Lvinaya Past Bay of Iturup Island in the Kuriles Islands. The ability of using different Aw/As or I3550/I480 ratios makes it possible to minimize the effect of the overlaps of host-mineral bands in the low-frequency part of the Raman spectrum of the melt inclusions. We found out that the usage of the I3550/I480 ratio for melt inclusions in pyroxenes produces more reliable results than the use of the Aw/As ratio. At the same time, the Aw/As ratio is better to use for inclusions in quartz and plagioclase. Water content in the inclusions varies from 0.5 to 7.9 wt %. The proposed method can be routinely used for reliable measurements of water content in the glasses of melt inclusions no smaller than 10 μm, at water contents no lower than 0.5 wt %.",

keywords = "caldera eruptions, calibration, hydrous glasses, melt inclusions, Raman spectroscopy, rhyolite melt, water content",

author = "Kotov, {A. A.} and Smirnov, {S. Z.} and Plechov, {P. Yu} and Persikov, {E. S.} and Chertkova, {N. V.} and Maksimovich, {I. A.} and Karmanov, {N. S.} and Buhtiyarov, {P. G.}",

note = "Funding Information: This study was carried out under government-financed research project for the Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences, and supported by the Russian Foundation for Basic Research, project nos. 18-05-00819 and 19-05-00101a. Funding Information: The authors thank M.V. Khlestov and V.A. Danilovskaya for help with EPMA analyses. Prof. V.S. Kamenetsky (University of Tasmania, Australia) is thanked for providing the authors with samples of quartz from pumice from the Okataina Volcanic Center, New Zealand. We are grateful to T.A. Shishkina (Vernadsky Institute of Geochemistry and Analytical Chemistry of Russian Academy of Sciences) and V.O. Yapaskurt (Moscow State University) for constructive criticism and suggestions that led us to improve the text of the manuscript and the presentation of the results. Publisher Copyright: {\textcopyright} 2021, Pleiades Publishing, Ltd. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = jul,

doi = "10.1134/S0869591121040044",

language = "English",

volume = "29",

pages = "386--403",

journal = "Petrology",

issn = "0869-5911",

publisher = "Springer Science + Business Media",

number = "4",

}

RIS

TY - JOUR

T1 - Method for Determining Water Content in Natural Rhyolitic Melts by Raman Spectroscopy and Electron Microprobe Analysis

AU - Kotov, A. A.

AU - Smirnov, S. Z.

AU - Plechov, P. Yu

AU - Persikov, E. S.

AU - Chertkova, N. V.

AU - Maksimovich, I. A.

AU - Karmanov, N. S.

AU - Buhtiyarov, P. G.

N1 - Funding Information: This study was carried out under government-financed research project for the Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences, and supported by the Russian Foundation for Basic Research, project nos. 18-05-00819 and 19-05-00101a. Funding Information: The authors thank M.V. Khlestov and V.A. Danilovskaya for help with EPMA analyses. Prof. V.S. Kamenetsky (University of Tasmania, Australia) is thanked for providing the authors with samples of quartz from pumice from the Okataina Volcanic Center, New Zealand. We are grateful to T.A. Shishkina (Vernadsky Institute of Geochemistry and Analytical Chemistry of Russian Academy of Sciences) and V.O. Yapaskurt (Moscow State University) for constructive criticism and suggestions that led us to improve the text of the manuscript and the presentation of the results. Publisher Copyright: © 2021, Pleiades Publishing, Ltd. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/7

Y1 - 2021/7

N2 - The paper presents an original method developed by the authors for determining water content in highly polymerized rhyolite and rhyodacite glasses in melt inclusions. The method involves simultaneous determination of water content by two techniques: electron probe X-ray microanalysis (EPMA) and Raman spectroscopy, which are applied to mutual verify the results. The Raman spectroscopic technique was calibrated using a set of standard reference synthetic glasses of haplogranitic composition (SGS), containing 1.8 to 5.9 wt % water. The calibration was verified using a set of reference natural rhyolite obsidian samples (NRS) with water contents of 4.7 to 9.9 wt %. Two ratios were chosen as the calibrated parameters: (1) the area of the water and hydroxyl bands in the range of 2900–3800 cm–1 to the area of the silicate band vibration (Si–O and Al–O) in the range of 850–1200 cm–1 (Aw/As) and (2) the ratio of the intensities of the water band in the 3550–3560 cm–1 region and the 480 cm–1 band in the silicate vibration region (I3550/I480). As a result, the following calibration equations were acquired: $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 0.8458$$\frac{{{{A}_{w}}}}{{{{A}_{s}}}}$$(σ) ± 0.17 wt % and $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 11.494$$\frac{{{{I}_{{3550}}}}}{{{{I}_{{480}}}}}$$ (σ) ± 0.21 wt %. Comparison of water concentrations in standard glasses determined by Raman spectroscopy using the Aw/As and I3550/I480 ratios and measured by X-ray microprobe analysis, showed a good consistency. Electron probe X-ray microanalysis was used to determine water content in glasses by recalculating the excess oxygen content. The method was tested on unheated glassy melt inclusions in minerals from dacitic and rhyolitic pumice from caldera eruption deposits of Okataina volcanic center, New Zealand; Kurile Lake, Kamchatka Peninsula; Vetrovoy Isthmus; and Lvinaya Past Bay of Iturup Island in the Kuriles Islands. The ability of using different Aw/As or I3550/I480 ratios makes it possible to minimize the effect of the overlaps of host-mineral bands in the low-frequency part of the Raman spectrum of the melt inclusions. We found out that the usage of the I3550/I480 ratio for melt inclusions in pyroxenes produces more reliable results than the use of the Aw/As ratio. At the same time, the Aw/As ratio is better to use for inclusions in quartz and plagioclase. Water content in the inclusions varies from 0.5 to 7.9 wt %. The proposed method can be routinely used for reliable measurements of water content in the glasses of melt inclusions no smaller than 10 μm, at water contents no lower than 0.5 wt %.

AB - The paper presents an original method developed by the authors for determining water content in highly polymerized rhyolite and rhyodacite glasses in melt inclusions. The method involves simultaneous determination of water content by two techniques: electron probe X-ray microanalysis (EPMA) and Raman spectroscopy, which are applied to mutual verify the results. The Raman spectroscopic technique was calibrated using a set of standard reference synthetic glasses of haplogranitic composition (SGS), containing 1.8 to 5.9 wt % water. The calibration was verified using a set of reference natural rhyolite obsidian samples (NRS) with water contents of 4.7 to 9.9 wt %. Two ratios were chosen as the calibrated parameters: (1) the area of the water and hydroxyl bands in the range of 2900–3800 cm–1 to the area of the silicate band vibration (Si–O and Al–O) in the range of 850–1200 cm–1 (Aw/As) and (2) the ratio of the intensities of the water band in the 3550–3560 cm–1 region and the 480 cm–1 band in the silicate vibration region (I3550/I480). As a result, the following calibration equations were acquired: $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 0.8458$$\frac{{{{A}_{w}}}}{{{{A}_{s}}}}$$(σ) ± 0.17 wt % and $${{C}_{{{{{\text{H}}}_{{\text{2}}}}{\text{O}}}}}$$ = 11.494$$\frac{{{{I}_{{3550}}}}}{{{{I}_{{480}}}}}$$ (σ) ± 0.21 wt %. Comparison of water concentrations in standard glasses determined by Raman spectroscopy using the Aw/As and I3550/I480 ratios and measured by X-ray microprobe analysis, showed a good consistency. Electron probe X-ray microanalysis was used to determine water content in glasses by recalculating the excess oxygen content. The method was tested on unheated glassy melt inclusions in minerals from dacitic and rhyolitic pumice from caldera eruption deposits of Okataina volcanic center, New Zealand; Kurile Lake, Kamchatka Peninsula; Vetrovoy Isthmus; and Lvinaya Past Bay of Iturup Island in the Kuriles Islands. The ability of using different Aw/As or I3550/I480 ratios makes it possible to minimize the effect of the overlaps of host-mineral bands in the low-frequency part of the Raman spectrum of the melt inclusions. We found out that the usage of the I3550/I480 ratio for melt inclusions in pyroxenes produces more reliable results than the use of the Aw/As ratio. At the same time, the Aw/As ratio is better to use for inclusions in quartz and plagioclase. Water content in the inclusions varies from 0.5 to 7.9 wt %. The proposed method can be routinely used for reliable measurements of water content in the glasses of melt inclusions no smaller than 10 μm, at water contents no lower than 0.5 wt %.

KW - caldera eruptions

KW - calibration

KW - hydrous glasses

KW - melt inclusions

KW - Raman spectroscopy

KW - rhyolite melt

KW - water content

UR - http://www.scopus.com/inward/record.url?scp=85111686439&partnerID=8YFLogxK

U2 - 10.1134/S0869591121040044

DO - 10.1134/S0869591121040044

M3 - Article

AN - SCOPUS:85111686439

VL - 29

SP - 386

EP - 403

JO - Petrology

JF - Petrology

SN - 0869-5911

IS - 4

ER -

ID: 29234848