Crystallisation of trapped carbonate–silicate melts terminating at the carbonated solidus ledge: a record of carbon immobilisation mechanism in the lithospheric mantle

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Contributions to Mineralogy and Petrology Pub Date : 2024-03-19 DOI:10.1007/s00410-024-02108-1
Jakub Haifler, Jana Kotková, Renata Čopjaková
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Abstract

Orogenic peridotites in the crystalline basement of the northwestern Bohemian Massif contain multiphase solid inclusions (MSI), which are interpreted to be crystallisation products of trapped former carbonate–silicate melts metasomatizing their host rocks. We applied conventional thermobarometry and forward thermodynamic modelling to constrain the P–T evolution ranging from the peak metamorphic conditions of the investigated harzburgite and lherzolite, through entrapment of the melts in the outer parts of garnets, to the (re)-equilibration of the MSI assemblages. The peak conditions of c. 1100 °C/4.5–5.5 GPa are recorded by garnet cores and large pyroxene porphyroclasts. The melt entrapment, during which garnet outer parts grew, was associated with influx of the metasomatizing liquids and probably took place during the early stage of the exhumation. Thermodynamic model of amphibole-free MSI assemblage comprising kinoshitalite/Ba-rich phlogopite (approximated by phlogopite in the model), dolomite, magnesite, clinopyroxene, orthopyroxene, garnet and chromite provided robust estimate of P and T of its (re)-equilibration, c. 900–1000 °C, 1.8–2.2 GPa. Furthermore, the lack of olivine reflects co-existence of COH fluid with high X(CO2) = CO2/(CO2 + H2O) ≥ 0.6. Models employing identical P–T–X(CO2) parameters successfully reproduced the other two amphibole-bearing assemblages observed. The modelled stability fields show perfect alignment with a characteristic isobaric segment of the solidus curve of carbonated peridotite. This co-incidence implies that the (re)-equilibration corresponds to the termination of the melt crystallisation once the near-isothermal exhumation path intersected the solidus. Decreased solubility of silicates at the carbonated peridotite “solidus ledge”, inferred from the published experimental data, as well as concentric textures of some MSI indicates sequential crystallisation from the early silicates to late dolomite. The carbonated “solidus ledge” is a relatively narrow boundary in the lithospheric mantle capable of an abrupt immobilisation of fluxing or transported carbonated melts. The investigated rocks are estimated to store approximately 0.02 kg C/m3 (or 6 ppm C) occurring as carbonates in the MSI.

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碳酸盐-硅酸盐熔体在碳化固结壁架终止时的结晶:岩石圈地幔碳固定机制的记录
波希米亚山丘西北部结晶基底中的造山运动橄榄岩含有多相固体包裹体(MSI),据解释,这些包裹体是被困的前碳酸盐-硅酸盐熔体在其宿主岩石变质过程中的结晶产物。我们采用了传统的热压测量法和前向热力学建模方法来确定 P-T 演变的范围,从所研究的哈兹堡岩和蛭石的峰值变质条件,到石榴石外部的熔体夹带,再到 MSI 组合的(再)平衡。石榴石核心和大型辉石斑块记录了约 1100 °C/4.5-5.5 GPa 的峰值条件。在石榴石外围生长的熔体夹带过程中,与元烃化液体的涌入有关,可能发生在出露的早期阶段。不含闪石的MSI集合体的热力学模型由kinoshitalite/Ba-rich phlogopite(在模型中近似为闪长岩)、白云石、菱镁矿、鳞辉石、正长石、石榴石和铬铁矿组成,提供了对其(再)平衡的P和T(约900-1000 °C,1.8-2.2 GPa)的可靠估计。此外,橄榄石的缺乏反映出 COH 流体与高 X(CO2) = CO2/(CO2 + H2O) ≥ 0.6 的 COH 流体共存。采用相同的 P-T-X(CO2) 参数建立的模型成功地再现了所观察到的另外两种含闪石的集合体。模拟的稳定场与碳酸盐橄榄岩固结曲线的特征等压段完全吻合。这种巧合意味着,一旦近等温的剥蚀路径与固结线相交,(再)平衡就相当于熔体结晶的终止。根据已公布的实验数据推断,碳酸盐化橄榄岩 "固结帷幕 "处硅酸盐的溶解度降低,以及一些MSI的同心纹理,表明了从早期硅酸盐到晚期白云岩的顺序结晶。碳酸盐化的 "固结壁垒 "是岩石圈地幔中一个相对狭窄的边界,能够使流动或迁移的碳酸盐化熔体突然固定下来。据估计,所调查的岩石储存了约 0.02 千克碳/立方米(或 6ppm C),以碳酸盐的形式出现在 MSI 中。
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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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