Isolation of quartz for cosmogenic in situ 14C analysis

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS

Geochronology Pub Date : 2019-06-27 DOI:10.5194/gchron-1-43-2019

K. Nichols, B. Goehring

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引用次数: 14

Abstract

Abstract. Froth flotation is a commonly used procedure for separating feldspars and micas from quartz for the preparation of quartz mineral separates to carry out cosmogenic nuclide analysis. Whilst extracting carbon from quartz we observed in situ carbon-14 (14C) concentrations which were anomalously high and in excess of theoretical geological maximum concentrations. Further etching of sample material reduced carbon yields and 14C concentrations, yet the latter remained unrealistically high. When quartz from the original whole rock sample was isolated in our laboratory, we observed even lower carbon yields and geologically plausible in situ 14C concentrations. After ruling out unlikely geological scenarios and systematic measurement issues, we decided to investigate the quartz isolation procedure as a potential source of 14C contamination. We hypothesised that laurylamine (dodecylamine), an organic compound used as part of the froth flotation procedure, elevates 14C concentrations if residual laurylamine is present. We demonstrate that laurylamine has a 14C modern carbon source and thus has the potential to influence in situ 14C measurements if present in minute but measurable quantities. Furthermore, we show that insufficient sample etching results in contaminant 14C persisting through the step heating of quartz that is subsequently collected with the in situ component released at 1100 ∘C. We demonstrate that froth flotation contaminates in situ 14C measurements. We provide guidelines for the preparation of quartz based on methods developed in our laboratory and demonstrate that all froth-flotation-derived carbon and 14C is removed when applied. We recommend that the procedures presented be used at a minimum when using froth flotation to isolate quartz for in situ 14C measurements.

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石英的分离用于宇宙成因原位14C分析

摘要泡沫浮选是从石英中分离长石和云母，制备用于宇宙核素分析的石英矿物分离物的常用方法。在从石英中提取碳时，我们观察到原位碳-14 (14C)浓度异常高，超过了理论地质最高浓度。进一步蚀刻样品材料降低了碳产量和14C浓度，但后者仍然高得不切实际。当从原始的整个岩石样本中分离出石英时，我们观察到更低的碳产量和地质上合理的原位14C浓度。在排除了不可能的地质情况和系统测量问题后，我们决定调查石英分离过程作为14c污染的潜在来源。我们假设，作为泡沫浮选过程一部分的有机化合物，如果存在残留的十二烷基胺，则十二烷基胺(十二烷基胺)会提高14c浓度。我们证明十二胺具有14C现代碳源，因此如果以微小但可测量的数量存在，则有可能影响原位14C测量。此外，我们还表明，样品腐蚀不充分会导致污染物14C在石英的阶梯加热中持续存在，然后在1100°C下释放原位组分收集污染物。我们证明了泡沫浮选污染在情境14c测量。我们提供了基于我们实验室开发的方法制备石英的指导方针，并证明所有泡沫浮选衍生的碳和14C在应用时都被去除。我们建议在使用泡沫浮选分离石英进行原位14C测量时至少使用上述程序。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geochronology Earth and Planetary Sciences-Paleontology

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

19 weeks