Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method

Matthew J. M. Phillips; Stephen F. Foley; Olivier Alard

doi:10.1016/j.chemgeo.2022.121236

Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method

Matthew J. M. Phillips^*, Stephen F. Foley, Olivier Alard

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Germanium has, until recently, found limited interest in igneous and metamorphic rock studies due to analytical limitations, specifically low concentrations and many interferences. However, Ge and Ge/Si ratios have shown potential to distinguish between magma sources based on preferential substitution of Ge for Si in hydrous minerals such as amphibole, mica, and garnet. Here, we present a novel LA-ICP-MS/MS method that employs N₂O as a reaction gas to analyse Ge as an oxide. We compare this method to previously used techniques (LA-ICP-MS and “H₂” mode LA-ICP-MS), and find improvements in sensitivity and a reduction of interferences when measuring Ge as GeO. Application of this novel method to the Bilibin and Inagli alkaline intrusive complexes (Aldan Shield, Siberia) shows that Ge/Si ratios are lower in amphibole and mica, and higher in clinopyroxene in these alkaline rocks compared to similar minerals in basaltic and intermediate compositions. The differences are attributed to the mineral chemistry and further show the potential for the use of Ge/Si as a tracer

Original language	English
Article number	121236
Pages (from-to)	1-13
Number of pages	13
Journal	Chemical Geology
Volume	616
Early online date	28 Nov 2022
DOIs	https://doi.org/10.1016/j.chemgeo.2022.121236
Publication status	Published - 20 Jan 2023

Keywords

Germanium
Ge/Si
LA-ICP-MS/MS
Alkaline intrusions
Aldan Shield
Bilibin Massif
Inagli Massif

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10.1016/j.chemgeo.2022.121236

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title = "Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method",

abstract = "Germanium has, until recently, found limited interest in igneous and metamorphic rock studies due to analytical limitations, specifically low concentrations and many interferences. However, Ge and Ge/Si ratios have shown potential to distinguish between magma sources based on preferential substitution of Ge for Si in hydrous minerals such as amphibole, mica, and garnet. Here, we present a novel LA-ICP-MS/MS method that employs N2O as a reaction gas to analyse Ge as an oxide. We compare this method to previously used techniques (LA-ICP-MS and “H2” mode LA-ICP-MS), and find improvements in sensitivity and a reduction of interferences when measuring Ge as GeO. Application of this novel method to the Bilibin and Inagli alkaline intrusive complexes (Aldan Shield, Siberia) shows that Ge/Si ratios are lower in amphibole and mica, and higher in clinopyroxene in these alkaline rocks compared to similar minerals in basaltic and intermediate compositions. The differences are attributed to the mineral chemistry and further show the potential for the use of Ge/Si as a tracer",

keywords = "Germanium, Ge/Si, LA-ICP-MS/MS, Alkaline intrusions, Aldan Shield, Bilibin Massif, Inagli Massif",

author = "Phillips, {Matthew J. M.} and Foley, {Stephen F.} and Olivier Alard",

year = "2023",

month = jan,

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doi = "10.1016/j.chemgeo.2022.121236",

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T1 - Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method

AU - Phillips, Matthew J. M.

AU - Foley, Stephen F.

AU - Alard, Olivier

PY - 2023/1/20

Y1 - 2023/1/20

N2 - Germanium has, until recently, found limited interest in igneous and metamorphic rock studies due to analytical limitations, specifically low concentrations and many interferences. However, Ge and Ge/Si ratios have shown potential to distinguish between magma sources based on preferential substitution of Ge for Si in hydrous minerals such as amphibole, mica, and garnet. Here, we present a novel LA-ICP-MS/MS method that employs N2O as a reaction gas to analyse Ge as an oxide. We compare this method to previously used techniques (LA-ICP-MS and “H2” mode LA-ICP-MS), and find improvements in sensitivity and a reduction of interferences when measuring Ge as GeO. Application of this novel method to the Bilibin and Inagli alkaline intrusive complexes (Aldan Shield, Siberia) shows that Ge/Si ratios are lower in amphibole and mica, and higher in clinopyroxene in these alkaline rocks compared to similar minerals in basaltic and intermediate compositions. The differences are attributed to the mineral chemistry and further show the potential for the use of Ge/Si as a tracer

AB - Germanium has, until recently, found limited interest in igneous and metamorphic rock studies due to analytical limitations, specifically low concentrations and many interferences. However, Ge and Ge/Si ratios have shown potential to distinguish between magma sources based on preferential substitution of Ge for Si in hydrous minerals such as amphibole, mica, and garnet. Here, we present a novel LA-ICP-MS/MS method that employs N2O as a reaction gas to analyse Ge as an oxide. We compare this method to previously used techniques (LA-ICP-MS and “H2” mode LA-ICP-MS), and find improvements in sensitivity and a reduction of interferences when measuring Ge as GeO. Application of this novel method to the Bilibin and Inagli alkaline intrusive complexes (Aldan Shield, Siberia) shows that Ge/Si ratios are lower in amphibole and mica, and higher in clinopyroxene in these alkaline rocks compared to similar minerals in basaltic and intermediate compositions. The differences are attributed to the mineral chemistry and further show the potential for the use of Ge/Si as a tracer

KW - Germanium

KW - Ge/Si

KW - LA-ICP-MS/MS

KW - Alkaline intrusions

KW - Aldan Shield

KW - Bilibin Massif

KW - Inagli Massif

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DO - 10.1016/j.chemgeo.2022.121236

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JO - Chemical Geology

JF - Chemical Geology

M1 - 121236

ER -

Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method

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Keywords

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Petit spot Exploring the Pacific Plate at the outer rise from volcanoes- Lava Mantle xenoliths and a comprehensive understanding of hydrothermal activity

ARC_Laureate: Deep earth cycles of carbon, water and nitrogen

ARC_Laureate: Deep earth cycles of carbon, water and nitrogen

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Application of Ge/Si ratios to ultramafic alkaline rocks using a novel LA-ICP- MS/MS method

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Projects

Petit spot Exploring the Pacific Plate at the outer rise from volcanoes- Lava Mantle xenoliths and a comprehensive understanding of hydrothermal activity

ARC_Laureate: Deep earth cycles of carbon, water and nitrogen

ARC_Laureate: Deep earth cycles of carbon, water and nitrogen

Cite this