Optimizing Zr-doped MC-ICP-MS sample-standard bracketing to simultaneously determine 87Sr/86Sr and δ88Sr for high sample-throughput

Carina Gerritzen; Steven Goderis; Hannah James; Christophe Snoeck

doi:10.1016/j.sab.2024.106955

Optimizing Zr-doped MC-ICP-MS sample-standard bracketing to simultaneously determine 87Sr/86Sr and δ88Sr for high sample-throughput

Carina Gerritzen, Steven Goderis, Hannah James, Christophe Snoeck

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

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Abstract

In recent years, the increasing demand for extensive strontium (Sr) datasets across various scientific fields has prompted the development of fast, precise, and reliable protocols. These protocols aim to achieve high sample-throughput without compromising data quality. A novel method termed the zirconium (Zr) doped sample-standard bracketing (SSB) has been recently introduced for isotope measurements using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). This method allows for simultaneous acquisition of 87Sr/86Sr and δ88Sr data without the need for sample spiking. However, the reliability of this method in handling large datasets and ensuring long-term reproducibility requires additional documentation. A comprehensive examination of the reliability of Sr isotope data over two years involves the implementation of systematic tests on reference materials from the National Institute of standards and technology (NIST) with the standard reference material (SRM) numbers: 1400, 1515, 987, 2910b, 1486, as well as a Hawaiian volcano observatory basalt (BHVO-1). The results of this study lead to the definition of a set of quality control parameters. The developed protocol applies various controls to ensure precise matching of Sr and Zr concentrations for both the samples and the bracketing standard (NIST SRM 987), along with the identification of instrumental biases. The outlined quality control ensures the reproducibility of the results (87Sr/86Sr = 0.710247 ± 0.000026, 2SD, n = 557; and δ88Sr = 0.001 ± 0.053 ‰, 2SD, n = 537 for NIST SRM 987), proving invaluable for archaeological, geological, and ecological studies requiring the fast acquisition of extensive datasets (n > 100) to create isotopic baselines.

Original language	English
Article number	106955
Pages (from-to)	1-11
Number of pages	11
Journal	Spectrochimica Acta Part B: Atomic Spectroscopy
Volume	217
Issue number	106955
DOIs	https://doi.org/10.1016/j.sab.2024.106955
Publication status	Published - Jul 2024

Bibliographical note

Funding Information:
The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Christophe Snoeck reports financial support was provided by European Research Council. Steven Goderis reports financial support was provided by Research Foundation Flanders. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.The authors thank Elisavet Stamataki for her help with statistical analysis. We would like to thank James McCloskey for his help in data processing. Additionally, we thank Martyna Kope\u0107 and all the members of the Brussels Bioarchaeology lab for their contribution. We thank our funding sources: ERC Starting Grant LUMIERE (Landscape Use and Mobility In EuRope \u2013 Bridging the gap between cremation and inhumation), funded by European Union's Horizon 2020 research and innovation programme under grant agreement number 948913, as well as the Research Foundation Flanders (FWO), for the FWO-ARRS Weave project CRIME (G0A9721N), and the strategic research fund of the Vrije Universiteit Brussels. Finally, we thank the two anonymous reviewers for their suggestions, and Dr. Maxwell M. Thiemens for proofreading.

Funding Information:
The authors thank Elisavet Stamataki for her help with statistical analysis. We would like to thank James McCloskey for his help in data processing. Additionally, we thank Martyna Kope\u0107 and all the members of the Brussels Bioarchaeology lab for their contribution. We thank our funding sources: ERC Starting Grant LUMIERE (Landscape Use and Mobility In EuRope \u2013 Bridging the gap between cremation and inhumation) , funded by European Union's Horizon 2020 research and innovation programme under grant agreement number 948913 , as well as the Research Foundation Flanders (FWO) , for the FWO-ARRS Weave project CRIME (G0A9721N), and the strategic research fund of the Vrije Universiteit Brussels . Finally, we thank the two anonymous reviewers for their suggestions, and Dr. Maxwell M. Thiemens for proofreading.

Publisher Copyright:
© 2024 The Authors

Keywords

Strontium isotopes
MC-ICP-MS
Zr-doping
SRM NIST

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10.1016/j.sab.2024.106955Licence: CC BY

112023709Final published version, 2.08 MBLicence: CC BY

Cite this

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title = "Optimizing Zr-doped MC-ICP-MS sample-standard bracketing to simultaneously determine 87Sr/86Sr and δ88Sr for high sample-throughput",

abstract = "In recent years, the increasing demand for extensive strontium (Sr) datasets across various scientific fields has prompted the development of fast, precise, and reliable protocols. These protocols aim to achieve high sample-throughput without compromising data quality. A novel method termed the zirconium (Zr) doped sample-standard bracketing (SSB) has been recently introduced for isotope measurements using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). This method allows for simultaneous acquisition of 87Sr/86Sr and δ88Sr data without the need for sample spiking. However, the reliability of this method in handling large datasets and ensuring long-term reproducibility requires additional documentation. A comprehensive examination of the reliability of Sr isotope data over two years involves the implementation of systematic tests on reference materials from the National Institute of standards and technology (NIST) with the standard reference material (SRM) numbers: 1400, 1515, 987, 2910b, 1486, as well as a Hawaiian volcano observatory basalt (BHVO-1). The results of this study lead to the definition of a set of quality control parameters. The developed protocol applies various controls to ensure precise matching of Sr and Zr concentrations for both the samples and the bracketing standard (NIST SRM 987), along with the identification of instrumental biases. The outlined quality control ensures the reproducibility of the results (87Sr/86Sr = 0.710247 ± 0.000026, 2SD, n = 557; and δ88Sr = 0.001 ± 0.053 ‰, 2SD, n = 537 for NIST SRM 987), proving invaluable for archaeological, geological, and ecological studies requiring the fast acquisition of extensive datasets (n > 100) to create isotopic baselines.",

keywords = "Strontium isotopes, MC-ICP-MS, Zr-doping, SRM NIST",

author = "Carina Gerritzen and Steven Goderis and Hannah James and Christophe Snoeck",

note = "Funding Information: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Christophe Snoeck reports financial support was provided by European Research Council. Steven Goderis reports financial support was provided by Research Foundation Flanders. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.The authors thank Elisavet Stamataki for her help with statistical analysis. We would like to thank James McCloskey for his help in data processing. Additionally, we thank Martyna Kope\u0107 and all the members of the Brussels Bioarchaeology lab for their contribution. We thank our funding sources: ERC Starting Grant LUMIERE (Landscape Use and Mobility In EuRope \u2013 Bridging the gap between cremation and inhumation), funded by European Union's Horizon 2020 research and innovation programme under grant agreement number 948913, as well as the Research Foundation Flanders (FWO), for the FWO-ARRS Weave project CRIME (G0A9721N), and the strategic research fund of the Vrije Universiteit Brussels. Finally, we thank the two anonymous reviewers for their suggestions, and Dr. Maxwell M. Thiemens for proofreading. Funding Information: The authors thank Elisavet Stamataki for her help with statistical analysis. We would like to thank James McCloskey for his help in data processing. Additionally, we thank Martyna Kope\u0107 and all the members of the Brussels Bioarchaeology lab for their contribution. We thank our funding sources: ERC Starting Grant LUMIERE (Landscape Use and Mobility In EuRope \u2013 Bridging the gap between cremation and inhumation) , funded by European Union's Horizon 2020 research and innovation programme under grant agreement number 948913 , as well as the Research Foundation Flanders (FWO) , for the FWO-ARRS Weave project CRIME (G0A9721N), and the strategic research fund of the Vrije Universiteit Brussels . Finally, we thank the two anonymous reviewers for their suggestions, and Dr. Maxwell M. Thiemens for proofreading. Publisher Copyright: {\textcopyright} 2024 The Authors",

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doi = "10.1016/j.sab.2024.106955",

language = "English",

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AB - In recent years, the increasing demand for extensive strontium (Sr) datasets across various scientific fields has prompted the development of fast, precise, and reliable protocols. These protocols aim to achieve high sample-throughput without compromising data quality. A novel method termed the zirconium (Zr) doped sample-standard bracketing (SSB) has been recently introduced for isotope measurements using multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). This method allows for simultaneous acquisition of 87Sr/86Sr and δ88Sr data without the need for sample spiking. However, the reliability of this method in handling large datasets and ensuring long-term reproducibility requires additional documentation. A comprehensive examination of the reliability of Sr isotope data over two years involves the implementation of systematic tests on reference materials from the National Institute of standards and technology (NIST) with the standard reference material (SRM) numbers: 1400, 1515, 987, 2910b, 1486, as well as a Hawaiian volcano observatory basalt (BHVO-1). The results of this study lead to the definition of a set of quality control parameters. The developed protocol applies various controls to ensure precise matching of Sr and Zr concentrations for both the samples and the bracketing standard (NIST SRM 987), along with the identification of instrumental biases. The outlined quality control ensures the reproducibility of the results (87Sr/86Sr = 0.710247 ± 0.000026, 2SD, n = 557; and δ88Sr = 0.001 ± 0.053 ‰, 2SD, n = 537 for NIST SRM 987), proving invaluable for archaeological, geological, and ecological studies requiring the fast acquisition of extensive datasets (n > 100) to create isotopic baselines.

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Optimizing Zr-doped MC-ICP-MS sample-standard bracketing to simultaneously determine 87Sr/86Sr and δ88Sr for high sample-throughput

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

EU632: Landscape Use and Mobility In EuRopE - Bridging the gap between cremation and inhumation

FWOAL1005: CRIME – CRemation or Inhumation of ancient populations? A Multidisciplinary question at the European level

FWOAL929: Variability in depositional processes throughout a 260,000-year lake- sediment archive from Lake Challa (equatorial East Africa) – a paleoclimate reconstruction based on multi-proxy provenance analysis of the terrigenous fraction

BB-LAB Sr SRM Data 2022 - 2023

Cite this

Optimizing Zr-doped MC-ICP-MS sample-standard bracketing to simultaneously determine 87Sr/86Sr and δ88Sr for high sample-throughput

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Projects

EU632: Landscape Use and Mobility In EuRopE - Bridging the gap between cremation and inhumation

FWOAL1005: CRIME – CRemation or Inhumation of ancient populations? A Multidisciplinary question at the European level

FWOAL929: Variability in depositional processes throughout a 260,000-year lake- sediment archive from Lake Challa (equatorial East Africa) – a paleoclimate reconstruction based on multi-proxy provenance analysis of the terrigenous fraction

Datasets

BB-LAB Sr SRM Data 2022 - 2023

Cite this