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The feasibility of using a pyrite standard to calibrate the sulfur isotope ratio of marcasite during SIMS analysis

The feasibility of using a pyrite standard to calibrate the sulfur isotope ratio of marcasite... Marcasite (FeS2, orthorhombic) is a dimorph of pyrite (FeS2, isometric), which has been reported in many kinds of ore deposits and sedimentary rocks. The sulfur isotopic composition of marcasite could be used to track ore-forming fluid source(s) and ocean acidification events in deep time. However, matrix-matched standards for marcasite are scarce, and in practice a pyrite standard is commonly used to calibrate the sulfur isotope ratios of marcasite. But the feasibility of this calibration regime needs to be carefully evaluated. In this contribution, we investigated this topic by analyzing a natural marcasite (NJUMc-1) with a newly installed Cameca IMS 1300-HR3. The sulfur isotopic composition of NJUMc-1 varies significantly (from 35 to 17). A total of 135 spots were applied on NJUMc-1 marcasite (4 outliers were rejected), and when the analyzing spot number reaches 70, the average 34S of marcasite becomes invariant, indicating that the number of grains we analyzed is large enough to represent the whole sample. The results of NJUMc-1 are calibrated using the pyrite standard UWPy-1. In this calibration regime, the average 34S value of NJUMc-1 is 25.21 0.78 (2 SE), which agrees well with the result determined using gas source isotope ratio mass spectrometry (25.63 0.24, 2 SE, n = 2). This consistency indicates that it is feasible to calibrate the sulfur isotopic ratios of marcasite with a pyrite standard and a new marcasite standard is not a prerequisite for sulfur isotope determination of marcasite using SIMS. Besides, this study shows that instrumental mass fractionation (IMF) could be precisely determined for samples with obvious heterogeneity (e.g., HTS4-3 and NJUMc-1), and by inference, the isotopic composition of unknowns could be precisely determined with an inferior secondary standard with obvious heterogeneity, as long as enough grains were analyzed. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Analytical Atomic Spectroscopy Royal Society of Chemistry

The feasibility of using a pyrite standard to calibrate the sulfur isotope ratio of marcasite during SIMS analysis

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Publisher
Royal Society of Chemistry
Copyright
This journal is © The Royal Society of Chemistry
ISSN
0267-9477
eISSN
1364-5544
DOI
10.1039/d3ja00009e
Publisher site
See Article on Publisher Site

Abstract

Marcasite (FeS2, orthorhombic) is a dimorph of pyrite (FeS2, isometric), which has been reported in many kinds of ore deposits and sedimentary rocks. The sulfur isotopic composition of marcasite could be used to track ore-forming fluid source(s) and ocean acidification events in deep time. However, matrix-matched standards for marcasite are scarce, and in practice a pyrite standard is commonly used to calibrate the sulfur isotope ratios of marcasite. But the feasibility of this calibration regime needs to be carefully evaluated. In this contribution, we investigated this topic by analyzing a natural marcasite (NJUMc-1) with a newly installed Cameca IMS 1300-HR3. The sulfur isotopic composition of NJUMc-1 varies significantly (from 35 to 17). A total of 135 spots were applied on NJUMc-1 marcasite (4 outliers were rejected), and when the analyzing spot number reaches 70, the average 34S of marcasite becomes invariant, indicating that the number of grains we analyzed is large enough to represent the whole sample. The results of NJUMc-1 are calibrated using the pyrite standard UWPy-1. In this calibration regime, the average 34S value of NJUMc-1 is 25.21 0.78 (2 SE), which agrees well with the result determined using gas source isotope ratio mass spectrometry (25.63 0.24, 2 SE, n = 2). This consistency indicates that it is feasible to calibrate the sulfur isotopic ratios of marcasite with a pyrite standard and a new marcasite standard is not a prerequisite for sulfur isotope determination of marcasite using SIMS. Besides, this study shows that instrumental mass fractionation (IMF) could be precisely determined for samples with obvious heterogeneity (e.g., HTS4-3 and NJUMc-1), and by inference, the isotopic composition of unknowns could be precisely determined with an inferior secondary standard with obvious heterogeneity, as long as enough grains were analyzed.

Journal

Journal of Analytical Atomic SpectroscopyRoyal Society of Chemistry

Published: Mar 21, 2023

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