在不同流体盐度、压力和温度条件下进行的鳞片岩中氯和溴分配交换实验:通过鳞片岩中的 Cl/Br 比率追踪地壳流体源的意义

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Johannes Hammerli, David M. Jenkins, David P. Collins
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引用次数: 0

摘要

保存在含卤矿物中的卤素比率(Cl/Br)对于确定与结晶岩相互作用的流体来源非常有用,因为不同类型的流体具有不同的卤素比率。在这项研究中,我们进行了在不同流体盐度(盐的摩尔分数从 0.20 到 0.66 摩尔)(NaCl + NaBr)下处理的闪锌矿和盐水之间的氯和溴分配交换实验。实验涉及两种不同的天然皂石,它们在盐水和少量方解石的存在下,在密封的铂金胶囊中以 0.32 至 1.52 GPa 和 600 °C 至 1000 °C 的温度进行处理,持续时间为 12 至 120 小时。新形皂石在最初的皂石上以过度生长的形式出现,或者在某些情况下完全重结晶,看不到任何残留的皂石。实验表明,钙钛矿的 Ca/Na 比率取决于处理温度、流体盐度和压力。相比之下,新形鳞片岩和流体之间的 Cl/Br 分布系数并不取决于温度、矿物成分或流体的总盐度。不过,Cl/Br 分配系数明显取决于压力。本研究和以前的工作通过实验确定的分配系数范围从 1 atm 到 1.5 GPa,因此可以利用鳞片岩中的 Cl/Br 比率来描述整个地壳中流体的卤素比率。流体的摩尔 Cl/Br 比率可通过以下方法从测量到的鳞片岩摩尔 Cl/Br 比率中确定:Cl/Brfluid = Cl/Brscapolite x ( - 1.473 × P + 1.119 × P2 - 0.299 × P3 + 1.103)-1,其中 P 为 0.0001-1.5 GPa 范围内的压力,单位为 GPa。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exchange experiments for chlorine and bromine partitioning in scapolite at variable fluid salinities, pressures, and temperatures: implications for tracing crustal fluid sources via Cl/Br ratios in scapolite

Halogen ratios (Cl/Br) preserved in halogen-bearing minerals can be very useful to identify the sources of fluids interacting with crystalline rocks, as different fluid types have distinct halogen ratios. In this study we conduct exchange experiments for chlorine and bromine partitioning between scapolite and brine treated at variable fluid salinities ranging from 0.20 to 0.66 mol fraction of salt (NaCl + NaBr). Experiments involved two different natural scapolites, which were treated in the presence of brine and minor calcite in sealed platinum capsules at 0.32 to 1.52 GPa and 600 °C to 1000 °C for durations of 12–120 h. Neomorphic scapolite appeared as overgrowths on the initial scapolite, or, in some cases, fully recrystallized with no relict scapolite visible. The experiments show that the Ca/Na ratio of scapolite depends on the treatment temperature, the fluid salinity, and pressure. In contrast, the Cl/Br distribution coefficients between neomorphic scapolite and fluids do not depend on the temperature, composition of the mineral or the total salinity of the fluid. The Cl/Br distribution coefficient is, however, markedly pressure-dependent. The experimentally-determined partitioning coefficients of this study and previous work, ranging from 1 atm to 1.5 GPa, enable the use of Cl/Br ratios in scapolite to characterize the halogen ratio of fluids throughout the entire crust. The molar Cl/Br ratio of a fluid can be determined from the measured molar Cl/Br of scapolite via: Cl/Brfluid = Cl/Brscapolite x ( – 1.473 × P + 1.119 × P2 – 0.299 × P3 + 1.103)−1, where P is pressure in GPa, over the range of 0.0001–1.5 GPa.

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来源期刊
Contributions to Mineralogy and Petrology
Contributions to Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
6.50
自引率
5.70%
发文量
94
审稿时长
1.7 months
期刊介绍: Contributions to Mineralogy and Petrology is an international journal that accepts high quality research papers in the fields of igneous and metamorphic petrology, geochemistry and mineralogy. Topics of interest include: major element, trace element and isotope geochemistry, geochronology, experimental petrology, igneous and metamorphic petrology, mineralogy, major and trace element mineral chemistry and thermodynamic modeling of petrologic and geochemical processes.
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