{"title":"石英未饱和流体中斜长石置换过程中通过空间非耦合溶解沉淀产生孔隙度","authors":"Astin Nurdiana, Atsushi Okamoto, Masaoki Uno, Noriyoshi Tsuchiya","doi":"10.1007/s00410-023-02088-8","DOIUrl":null,"url":null,"abstract":"<div><p>The replacement of feldspars is commonly characterized by pseudomorphism and reaction-induced pore generation. However, the effects of compositions of feldspars and fluids on porosity generation during alteration are still poorly understood. In this study, we conducted a series of hydrothermal experiments on plagioclase replacement by 2 M KCl or NaCl aqueous solutions at 600 °C and 150 MPa for 1–8 days, using plagioclase with different compositions (anorthite, An<sub>96</sub>Ab<sub>4</sub>; labradorite, An<sub>66</sub>Ab<sub>33</sub>Or<sub>1</sub>; albite, An<sub>1</sub>Ab<sub>99</sub>) with or without quartz. Albite replacement by K-feldspar was not affected by the presence of quartz, whereas anorthite was unaltered in the quartz-absent fluid. The replacement of labradorite by KCl(aq) showed different results: in the presence of quartz, labradorite was altered by K-feldspar, whereas in the absence of quartz, alteration proceeded significantly with the generation of large pores hosted by secondary anorthite coupled with euhedral K-feldspar overgrowth. Such textural relationship and oxygen isotope-labeled experiments reveal that silica-deficient fluid enhances the uncoupled dissolution reprecipitation process. The Si and Al ions in the reacted aqueous solution diffused outside the labradorite grains and encountered K<sup>+</sup>-rich solutions to grow K-feldspar. The experiments with polycrystalline rocks composed of amphibole + labradorite using 2 M KCl aqueous solution indicated the replacement of labradorite grains by anorthite and K-feldspar overgrowth, as found in single-crystal experiments. Our results indicate that the silica concentration in the fluids has different influences on the saturation indices of albite, anorthite, and K-feldspars in saline fluids, which significantly affect the replacement textures and porosity generation in crustal rocks.</p></div>","PeriodicalId":526,"journal":{"name":"Contributions to Mineralogy and Petrology","volume":"179 1","pages":""},"PeriodicalIF":3.5000,"publicationDate":"2024-01-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://link.springer.com/content/pdf/10.1007/s00410-023-02088-8.pdf","citationCount":"0","resultStr":"{\"title\":\"Porosity generation via spatially uncoupled dissolution precipitation during plagioclase replacement in quartz undersaturated fluids\",\"authors\":\"Astin Nurdiana, Atsushi Okamoto, Masaoki Uno, Noriyoshi Tsuchiya\",\"doi\":\"10.1007/s00410-023-02088-8\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The replacement of feldspars is commonly characterized by pseudomorphism and reaction-induced pore generation. However, the effects of compositions of feldspars and fluids on porosity generation during alteration are still poorly understood. In this study, we conducted a series of hydrothermal experiments on plagioclase replacement by 2 M KCl or NaCl aqueous solutions at 600 °C and 150 MPa for 1–8 days, using plagioclase with different compositions (anorthite, An<sub>96</sub>Ab<sub>4</sub>; labradorite, An<sub>66</sub>Ab<sub>33</sub>Or<sub>1</sub>; albite, An<sub>1</sub>Ab<sub>99</sub>) with or without quartz. Albite replacement by K-feldspar was not affected by the presence of quartz, whereas anorthite was unaltered in the quartz-absent fluid. The replacement of labradorite by KCl(aq) showed different results: in the presence of quartz, labradorite was altered by K-feldspar, whereas in the absence of quartz, alteration proceeded significantly with the generation of large pores hosted by secondary anorthite coupled with euhedral K-feldspar overgrowth. Such textural relationship and oxygen isotope-labeled experiments reveal that silica-deficient fluid enhances the uncoupled dissolution reprecipitation process. The Si and Al ions in the reacted aqueous solution diffused outside the labradorite grains and encountered K<sup>+</sup>-rich solutions to grow K-feldspar. The experiments with polycrystalline rocks composed of amphibole + labradorite using 2 M KCl aqueous solution indicated the replacement of labradorite grains by anorthite and K-feldspar overgrowth, as found in single-crystal experiments. 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引用次数: 0
摘要
长石的置换通常以假形态和反应引起的孔隙生成为特征。然而,人们对长石和流体成分在蚀变过程中对孔隙生成的影响仍知之甚少。在本研究中,我们使用不同成分的斜长石(阳起石,An96Ab4;拉长石,An66Ab33Or1;白云石,An1Ab99)与石英或不含石英的2 M KCl或NaCl水溶液在600 °C和150兆帕下进行了一系列为期1-8天的热液置换实验。K长石对白云石的置换作用不受石英存在的影响,而阳起石在无石英的流体中没有变化。KCl(aq)对拉长石的置换则显示出不同的结果:在有石英存在的情况下,拉长石被钾长石改变,而在无石英存在的情况下,改变显著进行,生成了由次生正长石承载的大孔隙,同时太方体钾长石过度生长。这种纹理关系和氧同位素标记实验表明,缺硅流体会增强非耦合溶解再沉淀过程。反应水溶液中的硅和铝离子扩散到拉长石晶粒之外,遇到富含K+的溶液,从而长出钾长石。使用 2 M KCl 水溶液对闪石+拉长石组成的多晶体岩石进行的实验表明,拉长石晶粒被阳起石和 K 长石过度生长所取代,这与单晶体实验中发现的情况相同。我们的研究结果表明,流体中的二氧化硅浓度对盐类流体中白云石、阳起石和K长石的饱和指数有不同的影响,从而对地壳岩石中的置换质地和孔隙度生成产生重大影响。
Porosity generation via spatially uncoupled dissolution precipitation during plagioclase replacement in quartz undersaturated fluids
The replacement of feldspars is commonly characterized by pseudomorphism and reaction-induced pore generation. However, the effects of compositions of feldspars and fluids on porosity generation during alteration are still poorly understood. In this study, we conducted a series of hydrothermal experiments on plagioclase replacement by 2 M KCl or NaCl aqueous solutions at 600 °C and 150 MPa for 1–8 days, using plagioclase with different compositions (anorthite, An96Ab4; labradorite, An66Ab33Or1; albite, An1Ab99) with or without quartz. Albite replacement by K-feldspar was not affected by the presence of quartz, whereas anorthite was unaltered in the quartz-absent fluid. The replacement of labradorite by KCl(aq) showed different results: in the presence of quartz, labradorite was altered by K-feldspar, whereas in the absence of quartz, alteration proceeded significantly with the generation of large pores hosted by secondary anorthite coupled with euhedral K-feldspar overgrowth. Such textural relationship and oxygen isotope-labeled experiments reveal that silica-deficient fluid enhances the uncoupled dissolution reprecipitation process. The Si and Al ions in the reacted aqueous solution diffused outside the labradorite grains and encountered K+-rich solutions to grow K-feldspar. The experiments with polycrystalline rocks composed of amphibole + labradorite using 2 M KCl aqueous solution indicated the replacement of labradorite grains by anorthite and K-feldspar overgrowth, as found in single-crystal experiments. Our results indicate that the silica concentration in the fluids has different influences on the saturation indices of albite, anorthite, and K-feldspars in saline fluids, which significantly affect the replacement textures and porosity generation in crustal rocks.
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.