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| Spectroscopic Characteristics of Yunnan Petroleum-Bearing Quartz
Crystal |
| ZHANG Run-chu1, CHEN Liu-runxuan2, QU Zhi3, SHEN Hong-tao4, LIU Yun-gui1, 5, 6, 7* |
1. Faculty of Gemmology and Materials, Hebei GEO University, Shijiazhuang 050031, China
2. Faculty of Land Resources Engineering, Kunming University of Science and Technology, Kunming 650093, China
3. Qingdao Institute of Measurement Technology, Qingdao 266101, China
4. State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences(Wuhan), Wuhan 430074, China
5. Hebei Key Laboratory of Green Development of Rock and Mineral Materials, Hebei GEO University, Shijiazhuang 050031, China
6. Engineering Research Center for Silicate Solid Waste Resource Utilization of Hebei Province, Shijiazhuang 050031, China
7. Gemstone Testing Center of Hebei GEO University, Shijiazhuang 050031, China
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Abstract Petroleum-bearing quartz crystals are rarely produced in nature.They are primarily produced in Pakistan, Madagascar, and Brazil. Due to liquid organic inclusions, it is highly sought after by the international mineral crystal collection market and researchers.In this study, we investigated the spectroscopic characteristics of petroleum-bearing quartz crystals recently discovered in Kunming Yunnan, which used laser Raman spectroscopy, gas chromatography-mass spectrometry, and photoluminescence spectroscopy. The findings indicated that the Kunming petroleum-bearing quartz crystals contain predominantly inclusions of brown-yellow liquid phase and black solid phase. The inclusions of the black solid phase exhibit yellow fluorescence under long-wave ultraviolet light, while the inclusions of the brown-yellow liquid phase exhibit blue-white fluorescence.TheRaman spectrum indicated that the primary component of the black solid inclusions is asphalt, with typical Raman peak shifts at 1 343, 1 606, 2 954, and 3 214 cm-1. The gas chromatography-mass spectrometry analysis revealed that the inclusions of brown-yellow liquid contain C9H20, C10H22, C12H26, and C13H28. The photoluminescence spectrum revealed that the asphalt of the solid phase exhibits photoluminescence peaks mainly at 512 nm, while the inclusions of the brown-yellow liquid phase exhibit photoluminescence peaks at 418, 441, 471 and, 505 nm. Based on the inclusions analysis, it is inferred that petroleum-bearing quartz crystals formed in hydrothermal crystal deposits of carbonate rock under low-temperature environments. The obtained composition and spectral characteristics are significant for studying the metallogenic geological environment of Kunming petroleum-bearing quartz crystals and exploring petroleum and gas resources in this area.
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Received: 2024-04-23
Accepted: 2024-09-15
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Corresponding Authors:
LIU Yun-gui
E-mail: liuyunguizb@163.com
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[1] XIAO Huang-zheng, SHU Jun, ZHANG Xin-ran(肖煌政, 舒 骏, 张欣然). China Gems(中国宝石),2021, (4): 93.
[2] Levine J R, Samson I M, Hesse R. AAPG Bulletin,1991, 75(1): 139.
[3] Ogihara S. Goldschmidt Abstracts,2016, 2337.
[4] YE Xu, QIU Zhi-li, ZHANG Yue-feng, et al(叶 旭, 丘志力, 张跃峰, 等). Journal of Gems & Gemmology(宝石和宝石学杂志),2019, 21(6): 31.
[5] Bodnar R J. Mineralogical Magazine,1990, 54(375): 295.
[6] Such V, Dobeš P, Skorová I, et al. Marine and Petroleum Geology,2010, 27(1): 285.
[7] Sugiura Y, Tobita N, Tobita T, et al. ACS Omega,2023, 8(24): 21464.
[8] Schreiber U, Mayer C, Schmitz O J, et al. PLoS One,2017, 12(6): e0177570.
[9] ZHANG Nai, TIAN Zuo-ji, LENG Ying-ying, et al(张 鼐, 田作基, 冷莹莹, 等). Scientia Sinica (Terrae)(中国科学:地球科学),2007, 37(7): 900.
[10] SI Shang-hua, YANG Zhe-heng, CHEN You-zhi, et al(斯尚华, 杨哲恒, 陈友智, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2022, 42(3): 783.
[11] Rahl J M, Anderson K M, Brandon M T. Earth and Planetary Science Letters,2005, 240(2): 339.
[12] ZHANG Min, ZHANG Jian-feng, LI Lin-qiang, et al(张 敏, 张建锋, 李林强, 等). World Nuclear Geoscience(世界核地质科学),2007, 24(4): 238.
[13] ZHAO Shu-xia, ZHANG Liang-ju, LIN Jie(赵淑霞,张良钜, 林 杰). Mineral Resources and Geology(矿产与地质),2002, 16(6): 349.
[14] Xiao Xianming. Progress in Natural Science, 1991, 1(3): 240.
[15] YANG Ming-jie, GAO Ming-yang, GAO Dian-fu, et al(杨明杰, 高明阳, 高殿福, 等). Mineralogy and Petrology(矿物岩石). 1998, 18(3): 106.
[16] Kim J, Bott S G, Hoffman D M. Inorganic Chemistry,1998, 37(15): 3835.
[17] ZHANG Jian-xing, SUN Xiu-mei(张建兴, 孙秀梅). Mud Logging Technology(录井技术),1998, 9(1): 23.
[18] GAO Zhi-long, NIU Fei(高志龙,牛 菲). Natural Gas Industry(天然气工业),1997, 17(3): 70.
[19] Burruss R C. Practical Aspects of Fluorescence Microscopy of Petroleum Fluid Inclusions SEPM Short Course Notes,1991, 25: 1.
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