Unlocking the Single-Crystal Record of Heavy Stable Isotopes
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1.
California Institute of Technology
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2.
University of Arizona
Abstract
Stable isotopes provide deep insights into processes across a wide range of scales, from micron- to cosmic-size systems. Here, we review how continued advances in mass-spectrometry have enabled the analysis of ever-smaller samples and brought the field of heavy stable isotope geochemistry to its next frontier: the single-crystal scale. Accessing this record can be as enlightening as it is challenging. Drawing on novel systematics at different stages of development (from well-established to nascent), we discuss how the isotopes of heavy elements, such as magnesium, iron, zirconium, or uranium, can be used at the single-crystal and subcrystal scales to reconstruct magma thermal histories, crystal growth timescales, or, possibly, magma redox conditions.
Additional Information
© 2021 Mineralogical Society of America. First online: 04 Mar 2022. This work was supported by NSF-EAR grants 1824002 (to FLHT), 2131632 and 2131643 (to MIM), and a Packard Fellowship and Caltech start-up funds to FLHT. We thank reviewers M. Andersen, B. Bourdon, J. Davies, and J.-F. Wotzlaw, as well as editors R. Harrison and J. Rosso for constructive reviews that helped improve the manuscript.Additional details
Identifiers
- Eprint ID
- 114579
- DOI
- 10.2138/gselements.17.6.389
- Resolver ID
- CaltechAUTHORS:20220504-63694600
Funding
- NSF
- EAR-1824002
- NSF
- EAR-2131632
- NSF
- EAR-2131643
- David and Lucile Packard Foundation
- Caltech
Dates
- Created
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2022-05-04Created from EPrint's datestamp field
- Updated
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2022-05-04Created from EPrint's last_modified field