Resolution of inter-laboratory discrepancies in Mo isotope data: an intercalibration
Resolution of inter-laboratory discrepancies in Mo isotope data: an intercalibration
The molybdenum (Mo) stable isotope system has been applied to a variety of geochemical and environmental problems. In the absence of a universally accepted zero-delta reference material, different groups report their data relative to their adopted in-house standards. Rigorous comparison of results generated in different laboratories using different analytical approaches is only possible if the in-house standards are of identical Mo isotope composition. To determine potential isotopic differences among various standards, the ?98Mo (98Mo/95Mo) values of ten Mo standard solutions were measured as part of this study. For six of these solutions, four laboratories carried out an intercalibration. In contrast to previous results, ?98Mo of various in-house standards were found to differ by up to 0.37‰. Renormalisation of our new and published Mo-isotope data available for seawater taken from various sites and the USGS rock reference material SDO-1 relative to NIST-SRM-3134, provides a much better agreement among reported ?98Mo values for these samples. Relative to NIST-SRM-3134, the ?98Mo of SDO-1 is 0.80 ± 0.14‰ (2s), while oxic, open-ocean seawater is characterised by an average ?98Mo of 2.09 ± 0.10‰ (2s). This intercalibration provides a solid platform for comparing and amending existing ?98Mo values. In addition, we recommend that future Mo isotope studies adopt NIST-SRM-3134 as a universal zero-delta reference material.
724-735
Goldberg, Tatiana
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Gordon, Gwyneth
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Izon, Gareth
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Archer, Corey
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Pearce, Christopher R.
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McManus, James
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Anbar, Ariel D.
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Rehkämper, Mark
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1 May 2013
Goldberg, Tatiana
ad936baa-34f4-4d19-a53e-52c95ffdea4a
Gordon, Gwyneth
c482c67f-b5b0-466b-9603-389087e40573
Izon, Gareth
ee8a7e6e-d0af-46ca-b348-0f892d2886be
Archer, Corey
df45dced-b5fc-4f2d-ba90-e047cdcc1dc1
Pearce, Christopher R.
c83b6228-0b64-4f5a-a8ad-e5cd33a11de3
McManus, James
290f1cf8-47c8-40d6-ab79-1acfe6c71ad7
Anbar, Ariel D.
2c204cf4-eb85-43e7-a5c3-1002b9aea1dc
Rehkämper, Mark
08591eef-a2d5-48de-9fc6-b5c0cf54f6e5
Goldberg, Tatiana, Gordon, Gwyneth, Izon, Gareth, Archer, Corey, Pearce, Christopher R., McManus, James, Anbar, Ariel D. and Rehkämper, Mark
(2013)
Resolution of inter-laboratory discrepancies in Mo isotope data: an intercalibration.
Journal of Analytical Atomic Spectrometry, 28 (5), .
(doi:10.1039/C3JA30375F).
Abstract
The molybdenum (Mo) stable isotope system has been applied to a variety of geochemical and environmental problems. In the absence of a universally accepted zero-delta reference material, different groups report their data relative to their adopted in-house standards. Rigorous comparison of results generated in different laboratories using different analytical approaches is only possible if the in-house standards are of identical Mo isotope composition. To determine potential isotopic differences among various standards, the ?98Mo (98Mo/95Mo) values of ten Mo standard solutions were measured as part of this study. For six of these solutions, four laboratories carried out an intercalibration. In contrast to previous results, ?98Mo of various in-house standards were found to differ by up to 0.37‰. Renormalisation of our new and published Mo-isotope data available for seawater taken from various sites and the USGS rock reference material SDO-1 relative to NIST-SRM-3134, provides a much better agreement among reported ?98Mo values for these samples. Relative to NIST-SRM-3134, the ?98Mo of SDO-1 is 0.80 ± 0.14‰ (2s), while oxic, open-ocean seawater is characterised by an average ?98Mo of 2.09 ± 0.10‰ (2s). This intercalibration provides a solid platform for comparing and amending existing ?98Mo values. In addition, we recommend that future Mo isotope studies adopt NIST-SRM-3134 as a universal zero-delta reference material.
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Published date: 1 May 2013
Organisations:
Geochemistry
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Local EPrints ID: 353301
URI: http://eprints.soton.ac.uk/id/eprint/353301
ISSN: 0267-9477
PURE UUID: b1b1d64d-b4b2-4b89-9586-45d48f931ae1
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Date deposited: 04 Jun 2013 14:22
Last modified: 14 Mar 2024 14:04
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Author:
Tatiana Goldberg
Author:
Gwyneth Gordon
Author:
Gareth Izon
Author:
Corey Archer
Author:
Christopher R. Pearce
Author:
James McManus
Author:
Ariel D. Anbar
Author:
Mark Rehkämper
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