Issue 2, 2018

High-precision 41K/39K measurements by MC-ICP-MS indicate terrestrial variability of δ41K

Abstract

Potassium is a major component in continental crust, the fourth-most abundant cation in seawater, and a key element in biological processes. Until recently, difficulties with existing analytical techniques hindered our ability to identify natural isotopic variability of potassium isotopes in terrestrial materials. However, measurement precision has greatly improved, and a range of K isotopic compositions has now been demonstrated in natural samples. In this study, we present a new technique for high-precision measurement of K isotopic ratios using high-resolution, cold plasma multi-collector mass spectrometry. We apply this technique to demonstrate natural variability in the ratio of 41K to 39K in a diverse group of geological and biological samples, including silicate and evaporite minerals, seawater, and plant and animal tissues. The total range in 41K/39K ratios is ca. 2.6‰, with a long-term external reproducibility of 0.17‰ (2σ, N = 108). Seawater and seawater-derived evaporite minerals are systematically enriched in 41K compared to silicate minerals by ca. 0.6‰, a result consistent with recent findings. Although our average bulk-silicate Earth value (−0.54‰) is indistinguishable from previously published values, we find systematic δ41K variability in some high-temperature sample suites, particularly those with evidence for the presence of fluids. The δ41K values of biological samples span a range of ca. 1.2‰ between terrestrial mammals, plants, and marine organisms. Implications of terrestrial K isotope variability for the atomic weight of K and K-based geochronology are discussed. Our results indicate that high-precision measurements of stable K isotopes, made using commercially available mass spectrometers, can provide unique insights into the chemistry of potassium in geological and biological systems.

Graphical abstract: High-precision 41K/39K measurements by MC-ICP-MS indicate terrestrial variability of δ41K

Supplementary files

Article information

Article type
Paper
Submitted
26 Jul 2017
Accepted
01 Nov 2017
First published
02 Nov 2017

J. Anal. At. Spectrom., 2018,33, 175-186

High-precision 41K/39K measurements by MC-ICP-MS indicate terrestrial variability of δ41K

L. E. Morgan, D. P. Santiago Ramos, B. Davidheiser-Kroll, J. Faithfull, N. S. Lloyd, R. M. Ellam and J. A. Higgins, J. Anal. At. Spectrom., 2018, 33, 175 DOI: 10.1039/C7JA00257B

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