PROGRESSIVE FORMATION OF HALLOYSITE FROM THE HYDROTHERMAL ALTERATION OF BIOTITE AND THE FORMATION MECHANISMS OF ANATASE IN ALTERED VOLCANIC ROCKS FROM LIMNOS ISLAND, NORTHEAST AEGEAN SEA, GREECE

Dimitrios Papoulis; Panagiota Tsous-Katagas; Angelos G. Kalampounias; Basilios Tsikouras

首页> 外文期刊>Clays and clay minerals >PROGRESSIVE FORMATION OF HALLOYSITE FROM THE HYDROTHERMAL ALTERATION OF BIOTITE AND THE FORMATION MECHANISMS OF ANATASE IN ALTERED VOLCANIC ROCKS FROM LIMNOS ISLAND, NORTHEAST AEGEAN SEA, GREECE

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PROGRESSIVE FORMATION OF HALLOYSITE FROM THE HYDROTHERMAL ALTERATION OF BIOTITE AND THE FORMATION MECHANISMS OF ANATASE IN ALTERED VOLCANIC ROCKS FROM LIMNOS ISLAND, NORTHEAST AEGEAN SEA, GREECE

机译：希腊东北利姆摩斯岛火山岩蚀变火山岩中水云母的水热交替渐进形成钙铝石和锐钛矿的形成机理

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Occurrences of halloysite-rich material in altered volcanic rocks, principally trachyandesites, dacites, and tuffs, extend over an area of ~1 km~2 in the southwestern part of Limnos, Island, northeast Aegean Sea, Greece. The present study was designed to investigate the alteration processes which acted on the biotite in these volcanic rocks, to describe in detail the mechanism of formation of the halloysite, and to specify the mechanisms of formation of anatase during the alteration processes. Samples were examined using polarized-light microscopy, X-ray powder diffraction, scanning electron microscopy, scanning electron microscopy-energy dispersive spectroscopy, and Fourier-transform-Raman techniques. The extensive alteration of the parent rocks, triggered by the circulation of hydrothermal fluids through faults and fractures, resulted in the alteration of biotite to halloysite. Six stages of alteration were recognized. Nanoparticles of halloysite were initially formed on the mica layers, which progressively grew through short-tubular to well formed tubular halloysite, with increasing alteration. In the most altered samples, laths and interconnected laths with the composition (Al_(3.96)Fe_(0,04))Si_4O_(10)(OH)_8, were the dominant halloysite morphologies. Anatase was encountered as an alteration product of both ilmenite and biotite. Ilmenite was altered to anatase and Fe oxides. The altered ilmenite crystals constrained most of the newly formed anatase within the space occupied previously by ilmenite, leading to the formation of skeletal anatase. The layered structure of the micas was the main factor governing the morphology of newly formed anatase developed outside ilmenite margins in the form of layers parallel to those of mica. An unusual ring-like structure of anatase was thought to be the result of the uncommon alteration of inner parts of mica folia to tubular halloysite oriented perpendicular to the mica layers. The detachment of the halloysite tubes by circulating hydrothermal fluids was considered to be the reason for the creation of holes which were subsequently surrounded by the anatase ring forms.

机译：在希腊爱琴海东北部利姆诺斯岛西南部约1 km〜2范围内，发生变化的火山岩中富含埃洛石的物质（主要是杂山锰铁矿，dacits和凝灰岩）发生。本研究旨在调查作用于这些火山岩中黑云母的蚀变过程，详细描述埃洛石的形成机理，并详细说明蚀变过程中锐钛矿的形成机理。使用偏光显微镜，X射线粉末衍射，扫描电子显微镜，扫描电子显微镜-能量色散光谱和傅里叶变换拉曼技术检查样品。母液岩石的广泛变化是由热液通过断层和裂缝的循环引发的，从而使黑云母转变为埃洛石。认识到六个阶段的变更。埃洛石的纳米颗粒最初形成在云母层上，并随着变化的增加从短管逐渐生长到形成良好的管状埃洛石。在变化最大的样品中，组成为（Al_（3.96）Fe_（0,04））Si_4O_（10）（OH）_8的板条和相互连接的板条是主要的埃洛石形态。遇到锐钛矿是钛铁矿和黑云母的变种产物。钛铁矿变为锐钛矿和氧化铁。改变的钛铁矿晶体将钛矿先前占据的空间内的大多数新形成的锐钛矿约束，导致骨骼锐钛矿的形成。云母的层状结构是决定在钛铁矿边缘以外以与云母平行的层状出现的新形成的锐钛矿形态的主要因素。人们认为，一种不寻常的锐钛矿状环状结构是由于云母叶内部很少改变为垂直于云母层的管状埃洛石的结果。循环水热流体使埃洛石管的分离被认为是产生孔的原因，这些孔随后被锐钛矿环形式包围。

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来源
《Clays and clay minerals》 |2009年第5期|566-577|共12页
作者
Dimitrios Papoulis; Panagiota Tsous-Katagas; Angelos G. Kalampounias; Basilios Tsikouras;
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作者单位

Department of Geology, Section of Earth Materials, University of Patras, GR-26504 Patras, Greece;

Department of Geology, Section of Earth Materials, University of Patras, GR-26504 Patras, Greece;

Department of Chemical Engineering, University of Patras, P.O. Box 1414, GR-26504 Patras, Greece Institute of Chemical Engineering and High Temperature Chemical Processes (FORTH/ICE-HT), GR-26504 Patras, Greece;

Department of Geology, Section of Earth Materials, University of Patras, GR-26504 Patras, Greece;

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正文语种 eng
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关键词
anatase; biotite; greece; halloysite; hydrothermal alteration; limnos; SEM.;

机译：锐钛矿黑云母希腊;埃洛石热液蚀变;林诺斯岛扫描电镜;

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1. Geochemistry of halloysite-7A formation from plagioclase in trachyandesite rocks from Limnos Island, Greece [J] . D. PAPOULIS, S. KOMARNENI, D. PANAGIOTARAS Clay Minerals . 2014,第1期

机译：希腊Limnos岛砂绿岩中斜长石中斜长石形成的埃洛石7A的地球化学
2. ILLITE-SMECTITE MIXED-LAYER MINERALS IN THE HYDROTHERMAL ALTERATION OF VOLCANIC ROCKS: Ⅱ. ONE-DIMENSIONAL HRTEM STRUCTURE IMAGES AND FORMATION MECHANISMS [J] . Takashi Murakami, Atsuyuki Inoue, Bruno Lanson, Clays and clay minerals . 2005,第5期

机译：火山岩水热蚀变中的伊利石-蒙脱石混合层矿物：Ⅱ。一维HRTEM结构图像和形成机理
3. Formation Of Alteration Zones And Kaolin Genesis, Limnos Island, Northeastaegean Sea, Greece [J] . D. PAPOULIS, P. TSOLIS-KATAGAS Clay Minerals . 2008,第4期

机译：蚀变区的形成和高岭土成因，希腊东北爱琴海利姆诺斯岛
4. PROGRESSIVE STAGES OF HYDROTHERMAL ALTERATION OF PLAGIOCLASE TO HALLOYSITE FROM LIMNOS ISLAND, GREECE [C] . D. Papoulis, S. Komarneni, D. Panagiotaras Trilateral Meeting on Clays . 2010

机译：希腊利尼斯岛普罗氏蛋白酶水热改变对Halloysite的渐进阶段
5. Element mobility and secondary mineral formation during the early stages of alteration in rocks from the Tecuamburro Volcanic Complex, southeast Guatemala. [D] . Wade, Jennifer Anne. 2002

机译：危地马拉东南部Tecuamburro火山综合体中岩石蚀变早期的元素迁移率和次生矿物形成。
6. ILLITE-SMECTITE MIXED-LAYER MINERALS IN HYDROTHERMAL ALTERATION OF VOLCANIC ROCKS: II. ONE-DIMENSIONAL HRTEM STRUCTURE IMAGES AND FORMATION MECHANISMS [O] . Takashi Murakami, Atsuyuki Inoue, Bruno Lanson, 2007

机译：火山岩水热蚀变中的ILLITE-smECTITE混合层矿物：II。一维HRTEm结构图像和形成机制

PROGRESSIVE FORMATION OF HALLOYSITE FROM THE HYDROTHERMAL ALTERATION OF BIOTITE AND THE FORMATION MECHANISMS OF ANATASE IN ALTERED VOLCANIC ROCKS FROM LIMNOS ISLAND, NORTHEAST AEGEAN SEA, GREECE

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