Research of Macroscopic and Microcosmic Fabric Characteristics in Geological Samples Based on Variety of Spectroscopy Technology: A Case Study in Jinshan Ag-Au Deposit of Southern Qinzhou-Hangzhou Metallogenic Belt, China
GAO Le1, 3, SU Zhi-hua2*, LI Hong-zhong3*, YU Peng-peng1, 3 , NIU Jia1, 3, LU Yu-tong1, 3, XU Shu-teng1, 3
1. School of Earth Science and Geological Engineering/National Supercomputer Center in Guangzhou, Sun Yat-sen University, Guangzhou 510275, China
2. School of Resource & Environmental Management, Guizhou University of Finance and Economics, Guiyang 550025, China
3. Guangdong Provincial Key Laboratory of Mineral Resource Exploration & Geological Processes, Guangzhou 510275, China
Abstract:The complexity of geological processes created the macroscopic and microcosmic characteristics of geological samples with inhomogenous features. These features can be revealed effective through spectroscopy analysis technology. This study took the ore and surrounding rock samples from Jinshan Ag-Au deposit of southern Qinzhou-Hangzhou metallogenic belt while carrying out macroscopic geochemical characteristic and microcosmic characteristics analysis based on the X-ray fluorescence spectroscopy, plasma mass spectrometry and Raman spectrum. The results showed that the main elements of ore and surrounding rock had great differences while the distribution patterns of trace element and rare earth element were similar. It reflected that the trace elements and rare earth elements showed high geochemical stability in the process of mineralization. Raman spectral characteristics of quarts showed that the peak at 507 cm-1 did exist in ore samples, but disappeared in surrounding rock samples. It indicated that the ore and surrounding rock went through different temperature and pressure in the ore-forming process, and the peak could be used as the signs of whether exists mineralization. Comparison with the Raman shift next to 463 cm-1 for quartz between ore and surrounding rocks, the FWHM and integral strength of fitting peak denote that the quartz in ore samples have better crystal degree than that of quartz in country rocks . These quartz microstructure changes should be subjected to the late hydrothermal activity. The quartz in the surrounding rock is influenced by the late hydrothermal, part of the ore-forming fluid may be from surrounding rock, and the ore-forming fluid has multiple phase, the crystallization degree of mineral was in different stages, causing different FWHM.
Key words:X-ray fluorenscence spectroscopy; Plasma mass spectrometry; Raman spectrum; Jinshan Ag-Au deposit; Qinzhou-Hangzhou metallogenic belt
高 乐,苏志华,李红中,虞鹏鹏,牛 佳,卢宇彤,徐述腾. 基于多种光谱学分析技术的地质样品宏微观组构特征研究——以钦杭成矿带南段金山银金矿床岩石样品为例[J]. 光谱学与光谱分析, 2017, 37(06): 1879-1884.
GAO Le, SU Zhi-hua, LI Hong-zhong, YU Peng-peng , NIU Jia, LU Yu-tong, XU Shu-teng. Research of Macroscopic and Microcosmic Fabric Characteristics in Geological Samples Based on Variety of Spectroscopy Technology: A Case Study in Jinshan Ag-Au Deposit of Southern Qinzhou-Hangzhou Metallogenic Belt, China. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(06): 1879-1884.
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