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碳酸盐混合样品中方解石和白云石δC分析的优化方案。

Refined protocol for δ C analysis of calcite and dolomite in carbonate mixture samples.

作者信息

Du Yong, Song Huyue

机构信息

State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Wuhan, China.

出版信息

Rapid Commun Mass Spectrom. 2020 May 30;34(10):e8743. doi: 10.1002/rcm.8743.

DOI:10.1002/rcm.8743
PMID:32017281
Abstract

RATIONALE

The carbon isotope composition of carbonates is widely used in petrology and paleoenvironments as a proxy for carbon sources and environmental parameters during mineral formation or late diagenesis. However, most carbonate minerals in nature are complicated mixtures (i.e., coexisting calcite and dolomite). Precise separation of individual signals in mixed carbonate minerals is essential to obtain information regarding these indexes because of the diverse isotopic behavior of different minerals.

METHODS

The conditions for pretreating calcite-dolomite mixtures to determine each of their δ C values were optimized with a series of experiments varying the purging and reaction conditions using an isotope ratio mass spectrometer equipped with an online GasBench II interface. Sequential phosphoric acid reactions of pure calcite and dolomite were performed to measure the characteristics of single minerals under different temperatures and reaction times. Artificial mixtures with varied proportions of calcite and dolomite were used to verify the precision of the proposed method.

RESULTS

The optimized pretreatment conditions for δ C analysis of calcite in the mixture involved purging the sample bottle using helium and then reacting it with 99% H PO for 100 min in a cold water bath at 2°C. The optimized pretreatment conditions for δ C analysis of dolomite in the mixture involved purging the sample bottle using helium gas after δ C measurement and reacting it with H PO on a heating plate for 10 h at 45°C.

CONCLUSIONS

This study introduced a workflow with ultimate precision for the selective δ C measurements of calcite-dolomite mixtures combining a GasBench II with a continuous flow isotope ratio mass spectrometer.

摘要

原理

碳酸盐的碳同位素组成在岩石学和古环境研究中被广泛用作矿物形成或晚期成岩作用期间碳源和环境参数的替代指标。然而,自然界中的大多数碳酸盐矿物都是复杂的混合物(即方解石和白云石共存)。由于不同矿物的同位素行为不同,精确分离混合碳酸盐矿物中的各个信号对于获取这些指标的信息至关重要。

方法

使用配备在线GasBench II接口的同位素比率质谱仪,通过一系列改变吹扫和反应条件的实验,优化了预处理方解石 - 白云石混合物以确定其各自δC值的条件。对纯方解石和白云石进行连续磷酸反应,以测量不同温度和反应时间下单一矿物的特性。使用不同比例方解石和白云石的人工混合物来验证所提出方法的精度。

结果

混合物中方解石δC分析的优化预处理条件包括用氦气吹扫样品瓶,然后在2°C的冷水浴中与99% H₃PO₄反应100分钟。混合物中白云石δC分析的优化预处理条件包括在δC测量后用氦气吹扫样品瓶,并在45°C的加热板上与H₃PO₄反应10小时。

结论

本研究介绍了一种将GasBench II与连续流同位素比率质谱仪相结合,用于选择性测量方解石 - 白云石混合物δC的具有极高精度的工作流程。

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引用本文的文献

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