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Assessing the effects of embedding resins on carbonate stable and clumped isotope analyses
Guo, J.; Zong, X.; de Winter, N.J.; Goudsmit-Harzevoort, B.; Peterse, F; Ziegler, M. (2023). Assessing the effects of embedding resins on carbonate stable and clumped isotope analyses. Rapid Comm. Mass Spectrom. 37(17): e9597. https://dx.doi.org/10.1002/rcm.9597
Bijhorende data:
In: Rapid Communications in Mass Spectrometry. Wiley: London. ISSN 0951-4198; e-ISSN 1097-0231
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Auteurs | | Top |
- Guo, J.
- Zong, X.
- de Winter, N.J.
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- Goudsmit-Harzevoort, B.
- Peterse, F
- Ziegler, M.
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Abstract |
Rationale Embedding resins are widely used to fix carbonates for high‐precision sample preparation and high‐resolution sampling. However, these embedding materials are difficult to remove after sample preparation and are known to affect the accuracy of carbonate stable isotope analyses. Nevertheless, their impact on clumped isotope analysis, which is particularly sensitive to contamination artifacts, has so far not been tested. The observation that running resin‐containing samples decreased the reproducibility of clumped isotope values for internal laboratory carbonate standards and increased the external standard deviation (SD 0.061–0.088‰) compared to the long‐term observations (0.034‰), prompted us to set up an experiment to test the influence of resin addition on instrument performance. Methods Here we analyzed the stable and clumped isotope composition of a pure calcium carbonate standard (ETH‐4) mixed with three types of embedding resins in 2:1 and 1:1 proportions. Our aim was to assess how resin addition affects isotope analyses. Results We found that none of the stable isotopic values were significantly different. The δ ¹³ C values were −10.22 ± 0.07‰ (mean ± SD) for pure ETH‐4, while the δ ¹³ C values of ETH‐4 mixed with embedding resins in 2:1 and 1:1 proportions were −10.21 ± 0.06‰ and −10.18 ± 0.06‰, respectively ( p > 0.05). The δ ¹⁸ O values were −18.82 ± 0.11‰ for pure ETH‐4 versus −18.81 ± 0.09‰ and −18.82 ± 0.08‰ for 2:1 and 1:1 ETH‐4:resin mixtures, respectively ( p > 0.05). Given the large uncertainty in our results, we did not find significant differences between different mixtures in the carbonate clumped isotope values (Δ 47 ), with 0.458 ± 0.107‰, 0.464 ± 0.086‰, and 0.417 ± 0.089‰ in pure ETH‐4 and ETH‐4 with 2:1 and 1:1 resin mixtures, respectively ( p > 0.05). However, a resin‐related bias in the results might be masked by the large uncertainty. The measured ETH‐4 values in our study are similar to the InterCarb values (δ ¹³ C = −10.20‰, δ ¹⁸ O = −18.81‰, Δ 47 = 0.450‰, InterCarb‐Carbon Dioxide Equilibrium Scale). However, the external SD of Δ 47 in sessions measuring ETH‐4 with resins is higher than in sessions without deliberate resin addition for the same measuring period. Conclusions We find that the potential contamination from the resin addition leads to a larger variability for Δ 47 values in sessions measuring ETH‐4 including resins. We therefore recommend purification of embedded samples using a contamination trap with Porapak prior to analysis, if possible, or avoiding resins during sample preparation and workup, as well as monitoring the measurement quality during and after sessions with samples containing embedding resins. |
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