A synthetic standard for the analysis of carbon isotopes of carbon in silicates, and the observation of a significant water-associated matrix effect

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Christopher H. House
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引用次数: 5

Abstract

Due to the biogeochemical fractionation of isotopes, organic material can be heterogeneous at the microscale. Because this heterogentiy preserves in the rock record, the microscale measurement of carbon isotopes is an important frontier of geobiology. Such analyses via secondary ion mass spectrometry (SIMS) have been, however, held back by the lack of an appropriate homogeneous synthetic standard that can be shared between laboratories. Such a standard would need to yield a carbon signal intensity within the same instrument dynamic range as that found for typical rocks, exhibit minimal matrix effects under typical SIMS conditions, and be widely available. In this work, five possible standards were tested with repeated δ13C ion microprobe measurements against the PPRG #215-1 Precambrian chert that has been used as a working standard for these types of analyses by several laboratories.

Results showed that silica powder, pressed, and bonded with Ceramacast 905 produced a useful synthetic standard. The material produced has a secondary ion carbon yield of only about 15× that of the PPRG #215-1 organic-rich chert. Finally, the material, once dried sufficiently, did not demonstrate an observable matrix effect when the carbon isotopes were measured. Another similar material (silica nanopowder, pressed, and bonded with Aremco-Bond 526N) appears to have retained its hydration after a substantial effect to dry it. The isotopes measurements of this more hydrated material showed a significant matrix effect that was diminished by intense pre-sputtering. The results indicate water can affect SIMS carbon isotopic measurements, and an intense beam reduces the effect. A hydrated standard might be useful to monitor the effect.

A suitable artificial standard for SIMS isotopic measurements of organic material in rocks has been found, and it will allow an acute growth in both the quantity and quality of studies of ancient carbon at the microscale. Also, this work has revealed a novel water-associated matrix effect for carbon isotopes. This newly revealed matrix effect is important because it might have misled previous research. The effect could lead to increased observed heterogeneity of partially hydrated samples and/or produced systematic differences between natural targets and the standards used.

Abstract Image

一种合成标准,用于分析硅酸盐中碳的碳同位素,并观察到显著的水相关基质效应
由于同位素的生物地球化学分馏,有机物质在微观尺度上可能是不均匀的。由于这种非均质性在岩石记录中得以保存,因此碳同位素的微尺度测量是地球生物学的一个重要前沿。然而,由于缺乏可在实验室之间共享的适当的均匀合成标准,这种通过二次离子质谱法(SIMS)进行的分析一直受到阻碍。这样的标准需要产生与典型岩石相同的仪器动态范围内的碳信号强度,在典型的SIMS条件下表现出最小的矩阵效应,并且可以广泛使用。在这项工作中,用δ13C离子探针对pprg# 215-1前寒武纪燧石进行了重复测量,测试了五种可能的标准,pprg# 215-1前寒武纪燧石已被几个实验室用作这些类型分析的工作标准。结果表明,二氧化硅粉经压制后与陶粒905结合,形成了一种有用的合成标准。该材料的二次离子碳产率仅为pprg# 215-1富有机质燧石的15倍左右。最后,该材料一旦充分干燥,在测量碳同位素时没有表现出可观察到的基质效应。另一种类似的材料(二氧化硅纳米粉,经过压制,与Aremco-Bond 526N结合)似乎在经过实质性的干燥作用后仍保持了水合作用。这种水化程度更高的材料的同位素测量结果显示出明显的基质效应,这种效应被强烈的预溅射所减弱。结果表明,水可以影响SIMS的碳同位素测量,而强光束可以降低这种影响。一个水合标准可能对监测效果有用。对于岩石中有机物的SIMS同位素测量,已经找到了一个合适的人工标准,它将使古代碳在微观尺度上的研究在数量和质量上都有一个急剧的增长。此外,这项工作还揭示了碳同位素的一种新的水相关基质效应。这个新发现的矩阵效应很重要,因为它可能误导了以前的研究。这种效应可能导致部分水化样品的非均质性增加和/或在天然目标物和所用标准物之间产生系统差异。
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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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