Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling

Horst R. Marschall; Christian Meyer; Bernd Wunder

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Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling

机译：电气石和流体之间的实验性硼同位素分级分离：通过二次离子质谱的原位分析和瑞利分级分离模型进行确认

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Tourmaline synthesised in an experiment with low boron excess was analysed in situ by secondary ion mass spectrometry. It revealed significant B isotope zona-tion with ~(11)B/~(10)B ratios increasing in the growth direction of the crystals. Trend, magnitude and absolute values strongly support results from high-B-excess isotope fractionation experiments. Furthermore, the closed system B-isotopic evolution of the experimental fluid was modelled by Rayleigh fractionation. The model results are in excellent agreement with the measured B-isotope composition of the run-product fluid. Consequently, low-element-excess experiments are proposed as an ideal approach to determine fluid-solid isotope fractionation factors for systems that are characterised by Rayleigh fractionation.

机译：通过二次离子质谱仪原位分析了低硼过量实验中合成的电气石。它揭示了显着的B同位素区带，在晶体的生长方向上〜（11）B /〜（10）B比增加。趋势，幅度和绝对值有力地支持了高B超同位素分离实验的结果。此外，通过瑞利分馏对实验流体的封闭系统B同位素演化进行了建模。模型结果与测得的副产物流体的B同位素组成非常吻合。因此，提出了低元素过量实验作为确定以瑞利分馏为特征的系统的流固同位素分馏因子的理想方法。

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《Contributions to Mineralogy and Petrology 》 |2009年第5期| 共7页
作者
Horst R. Marschall; Christian Meyer; Bernd Wunder;
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正文语种 eng
中图分类矿物学 ;
关键词
Tourmalinelt; /keywordgt; lt; keywordgt; Experimental geochemistrylt; /keywordgt; lt; keywordgt; Boron isotopeslt; /keywordgt; lt; keywordgt; Fluidlt; /keywordgt; lt; keywordgt; Ionprobe;

机译：电气石/ keyword keyword实验地球化学/ keyword keyword硼同位素/ keyword keyword流体/ keyword keyword离子探针;

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1. Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling [J] . Horst R. Marschall, Christian Meyer, Bernd Wunder Contributions to Mineralogy and Petrology . 2009 ,第5期

机译：电气石和流体之间的实验性硼同位素分级分离：通过二次离子质谱的原位分析和瑞利分级分离模型进行确认
2. Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling [J] . Horst R. Marschall, Christian Meyer, Bernd Wunder Contributions to Mineralogy and Petrology . 2009 ,第5期

机译：电气石和流体之间的实验性硼同位素分级分离：通过二次离子质谱的原位分析和瑞利分级分离模型进行确认
3. Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling [J] . Horst R. Marschall, Christian Meyer, Bernd Wunder, Contributions to Mineralogy and Petrology . 2009 ,第5期

机译：电气石和流体之间的实验性硼同位素分级分离：通过二次离子质谱的原位分析和瑞利分级分离模型进行确认
4. Observation of carbon fractionation in HE debris by large geometry secondary ion mass spectrometry [C] . Todd L. Williamson, David W. Podlesak, Travis J. Tenner, Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter . 2018

机译：大几何二离子质谱法观察他碎屑中的碳分馏
5. The Effect of Tetrahedral Boron in Tourmaline on the Boron Isotope Fractionation Between Tourmaline and Fluid: Improving Tourmaline as a Petrogenetic Indicator =Der Effekt von tetraedrischem Bor in Turmalin auf die Bor-Isotopenfraktionierung zwischen Turm [D] . Kutzschbach, Martin. 2017

机译：电气石四面体硼在硼滨与流体硼同位素分馏中的影响：改善胰蛋白石作为化学性指标= Der Effekt von Tetraedrischem Bor在Turmalin Auf Die Bor-isotopennfraktionierung Zwischen Turm
6. Improved isotopic model based on 15N tracing and Rayleigh‐type isotope fractionation for simulating differential sources of N2O emissions in a clay grassland soil [O] . Antonio Castellano‐Hinojosa, Nadine Loick, Elizabeth Dixon, -1

机译：基于15N示踪和瑞利型同位素分馏的改进同位素模型用于模拟粘土草地土壤中N2O排放的不同来源
7. Re-examination of the boron isotopic composition of tourmaline from the Lavicky granite, Czech Republic, by secondary ion mass spectrometry: back to normal. Critical comment on “Chemical and boron isotopic compositions of tourmaline from the Lavicky leucogranite, Czech Republic” by S.-Y. Jiang et al., Geochemical Journal, 37, 545-556, 2003 [O] . HORST R. MARSCHALL, THOMAS LUDWIG 2006

机译：通过二次离子质谱法从Lavicky Granite，捷克共和国的硼同位素组成重新检查了捷克共和国的硼滨，返回正常。 S.-Y对“来自Lavicky Leucogranite，捷克共和国的Gutmaline的化学和硼同位素组成”的关键评论。江等人，地球化学杂志，37,545-556，2003
8. Analysis of hydrogen isotope ratios by SIMS, and application to determining mineral-fluid isotope fractionation factors [R] . Riciputi, L. R. , Chacko, T. , Cole, D. R. , 1997

机译：sIms分析氢同位素比值及其在确定矿物 - 流体同位素分馏因子中的应用

Experimental boron isotope fractionation between tourmaline and fluid: confirmation from in situ analyses by secondary ion mass spectrometry and from Rayleigh fractionation modelling

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