Application of Near-Infrared Spectroscopy for the identification of rock mineralogy from Kos Island, Aegean Sea, Greece

M. Kokkaliari, I. Iliopoulos
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引用次数: 2

Abstract

Near-Infrared spectroscopy (NIR) is a useful tool for direct and on-site identification of rock mineralogy in spite of the difficulties arising in spectral evaluation, due to limited availability of spectral libraries at the time. Especially in the field, a functional methodology for the identification and evaluation if possible, of the geologic materials, is of interest to many researchers. However, several different parameters (such as grain size, color, mineralogy, texture, water content etc.) can affect the spectroscopic properties of the samples resulting in spectral variability. The subject of the present work focuses in various lithotypes (monzodiorite, diorite, altered diorite, actinolite schist, cataclasite, slate) from Kos Island, Aegean Sea, in Greece, all bearing hydrous minerals in various amounts. The evaluation of the results obtained from NIR spectroscopy offered important qualitative information about the mineralogy of the lithotypes examined. The important asset of the method is that no sample preparation was necessary. From the reflectance spectra, the NIR-active minerals that were identified include chlorite, micas, amphiboles and epidotes. Petrographic and mineralogic analyses were also employed in order to confirm the NIR results and provide more detailed information about the mineralogy of the samples, the grain size and the orientation of the minerals. Correlation of wavelength positions at ~1400 nm with loss on ignition (LOI) values led us to relate the various lithotypes in terms of their petrological affinities. NIR spectroscopy was proved to be a useful tool, especially for the mineralogic identification of rocks underwent low- to medium grade metamorphism, from greenschist to amphibolite facies.
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近红外光谱在希腊爱琴海科斯岛岩石矿物学鉴定中的应用
近红外光谱(NIR)是直接和现场鉴定岩石矿物学的有用工具,尽管由于当时光谱库的可用性有限,光谱评估存在困难。特别是在野外,如果可能的话,识别和评价地质材料的功能方法是许多研究人员感兴趣的。然而,几个不同的参数(如粒度、颜色、矿物学、质地、含水量等)会影响样品的光谱特性,从而导致光谱变异性。本工作的主题集中在希腊爱琴海科斯岛的各种岩石类型(二辉长岩、闪长岩、蚀变闪长岩、放射石片岩、碎裂岩、板岩),它们都含有不同数量的含水矿物。对近红外光谱所得结果的评价提供了有关所检查的岩型矿物学的重要定性信息。该方法的重要优点是不需要样品制备。从反射光谱上确定了绿泥石、云母、角闪石和绿帘石等nir活性矿物。岩石学和矿物学分析也用于确认近红外结果,并提供有关样品矿物学,粒度和矿物取向的更详细信息。在~1400 nm处的波长位置与着火损失(LOI)值的相关性使我们根据岩石学亲和关系将各种岩性联系起来。近红外光谱被证明是一种有用的工具,特别是对于经历了低至中等变质作用的岩石(从绿片岩到角闪岩相)的矿物学鉴定。
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