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Nan, Guizhou, Xu, Jing, Liu, Wenyuan, Chen, Suyu, Cen, Zhihui, Jiang, Jichen (2023) Enrichment of Se-Te-Au in the Jilongshan Au-Cu Skarn Deposit, Hubei Province: Insight from Pyrite Texture and Composition. Minerals, 13 (12) doi:10.3390/min13121516

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Reference TypeJournal (article/letter/editorial)
TitleEnrichment of Se-Te-Au in the Jilongshan Au-Cu Skarn Deposit, Hubei Province: Insight from Pyrite Texture and Composition
JournalMinerals
AuthorsNan, GuizhouAuthor
Xu, JingAuthor
Liu, WenyuanAuthor
Chen, SuyuAuthor
Cen, ZhihuiAuthor
Jiang, JichenAuthor
Year2023Volume<   13   >
Issue<   12   >
URL
DOIdoi:10.3390/min13121516Search in ResearchGate
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Mindat Ref. ID16961908Long-form Identifiermindat:1:5:16961908:6
GUID0
Full ReferenceNan, Guizhou, Xu, Jing, Liu, Wenyuan, Chen, Suyu, Cen, Zhihui, Jiang, Jichen (2023) Enrichment of Se-Te-Au in the Jilongshan Au-Cu Skarn Deposit, Hubei Province: Insight from Pyrite Texture and Composition. Minerals, 13 (12) doi:10.3390/min13121516
Plain TextNan, Guizhou, Xu, Jing, Liu, Wenyuan, Chen, Suyu, Cen, Zhihui, Jiang, Jichen (2023) Enrichment of Se-Te-Au in the Jilongshan Au-Cu Skarn Deposit, Hubei Province: Insight from Pyrite Texture and Composition. Minerals, 13 (12) doi:10.3390/min13121516
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Abstract/NotesSelenium and Te are two important critical metals, which are often produced as by-products in Au-Cu deposits related to magmatic–hydrothermal systems, such as porphyry and skarn deposits. The Jilongshan Au-Cu deposit is a typical skarn deposit located in the middle and lower parts of the Yangtze River metallogenic belt. Previous studies show that it has valuable Se and Te resources, but their occurrence, particularly the relationship between the texture and composition of pyrite, and the enrichment mechanism of Se, Te, and Au remain unclear. Here, the textures and the major and trace elements of the Jilongshan pyrites were studied by using an optical microscope, EMPA, and LA-ICP-MS to reveal the occurrence of Se, Te, and Au in pyrite, as well as their genetic links with the pyrite mineralogical signature. The results show that there are three types of ores in the Jilongshan deposit, including granite porphyry-hosted, skarn-hosted, and carbonate-hosted ores. All of these ores contain major amounts of pyrite, which can be divided into four different generations. The first generation of pyrite (Py1) belongs to sedimentary genesis with a typical framboid texture and its Co/ Ni ratios are less than 1, whereas Py2, Py3, and Py4 belong to hydrothermal genesis and their Co/ Ni ratios are between 1.0 and 30.2. Selenium concentrations in Py2 and Py3 are relatively high (median, 138 ppm and 344 ppm, respectively), which are mainly present as isomorphism and a small amount as selenite in pyrite. Compared with granite porphyry-hosted and skarn-hosted ores, pyrite from carbonate-hosted ores has the highest Se concentrations. The latest generation of pyrite (Py4) contains the highest concentrations of Te (average, 140 ppm) and Au (average, 12 ppm) among the hydrothermal pyrites. Therefore, the precipitation of Se mainly occurs in pyrite during the early high-temperature stage, whereas higher concentrations of Te and Au are mainly enriched in pyrite during the late stage with low temperatures.

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LocalityCitation Details
Jilongshan Au-Cu deposit, Fengshan ore field, Yangxin Co., Huangshi, Hubei, China

Mineral Occurrences

LocalityMineral(s)
Jilongshan Au-Cu deposit, Fengshan ore field, Yangxin Co., Huangshi, Hubei, Chinaⓘ Actinolite, ⓘ Amphibole Supergroup, ⓘ Andalusite, ⓘ Anhydrite, ⓘ Biotite, ⓘ Bornite, ⓘ Breccia, ⓘ Calcite, ⓘ Chalcopyrite, ⓘ Chlorite Group, ⓘ Coloradoite, ⓘ Covellite, ⓘ Diorite, ⓘ Electrum, ⓘ Fluorite, ⓘ Galena, ⓘ Garnet Group, ⓘ Granodiorite, ⓘ Gypsum, ⓘ Hematite, ⓘ Hessite, ⓘ K Feldspar, ⓘ Limestone, ⓘ Limonite, ⓘ Magnetite, ⓘ Marble, ⓘ Matildite, ⓘ Native Gold, ⓘ Orpiment, ⓘ Plagioclase, ⓘ Porphyry, ⓘ Pyrite, ⓘ Pyroxene Group, ⓘ Pyrrhotite, ⓘ Quartz, ⓘ Realgar, ⓘ Skarn, ⓘ Sphalerite, ⓘ Tetrahedrite Subgroup

See Also

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Jiang, Jichen; Xu, Jing; Xie, Guiqing; Liu, Wenyuan; Cen, Zhihui; Chen, Suyu; Nan, Guizhou (2025) Occurrence and distribution of Se and Te in the Jilongshan Au-Cu skarn deposit from the Middle-Lower Yangtze River metallogenic belt, China. Ore Geology Reviews, 176. doi:10.1016/j.oregeorev.2024.106439
Jiang, Jichen, Xu, Jing, Xie, Guiqing, Liu, Wenyuan, Cen, Zhihui, Chen, Suyu, Nan, Guizhou (2025) Occurrence and distribution of Se and Te in the Jilongshan Au-Cu skarn deposit from the Middle-Lower Yangtze River metallogenic belt, China. Ore Geology Reviews, 176. 106439 doi:10.1016/j.oregeorev.2024.106439
Samake, Bakaramoko, Xu, Yao-Ming, Jiang, Shao-Yong (2018) Oxygen fugacity, temperature and pressure estimation from mineral chemistry of the granodiorite porphyry from the Jilongshan Au-Cu deposit and the Baiguoshu prospecting area in SE Hubei Province: A guide for mineral exploration. Journal of Geochemical Exploration, 184. 136-149 doi:10.1016/j.gexplo.2017.10.016
Jian Wang, Guiqing Xie, Zhangfa Yu, Qiaoqiao Zhu, Wei Li, and Qingyu Yang (2014): Geological and skarn mineral characteristics of the Jilongshan skarn Au deposit in southeastern Hubei Province. Acta Petrologica et Mineralogica 33(1), 149-162 (in Chinese with English abstract).
Wang, Jing, , , Zhang, Xin-xin, Chen, Ai-fang, Wang, Bo, Zhao, Qi-bin, Liu, Guan-nan, Xiao, Xiao, Cao, Jin-nan, , , , , , (2022) Source analysis and risk evaluation of heavy metal in the sediment of polymetallic mining area: Taking the skarn type Cu-Fe-Au deposit of TonglĂŒshan as an example, Hubei Province, China. China Geology, 5. 1-13 doi:10.31035/cg2022052
Jia, Bao Jian, Li, Sheng Rong, Pang, A Juan, Yang, Cheng Dong, Yan, Yu Tong (2012) Lead Isotope Geochemistry of the Jilongshan Skarn-Host Au-Cu Deposit, Hubei Province, China. Advanced Materials Research, 468. 1952-1956 doi:10.4028/www.scientific.net/amr.468-471.1952
Li, Yi, Ke-Zhang Qin, Guo-Xue Song, Yu Fan, Fang-Yue Wang, and Le Wang. (2023) "The Genetic Link between Iron-Oxide–Apatite and Porphyry Cu–Au Mineralization: Insight from the Biotite–Pyroxene–Zircon Study of the Nihe Fe Deposit and the Shaxi Cu–Au Deposit in the Lower Yangtze Valley, SE China" Minerals 13, no. 3: 451. https://doi.org/10.3390/min13030451
Li, Yi, Qin, Ke-Zhang, Song, Guo-Xue, Fan, Yu, Wang, Fang-Yue, Wang, Le (2023) The Genetic Link between Iron-Oxide–Apatite and Porphyry Cu–Au Mineralization: Insight from the Biotite–Pyroxene–Zircon Study of the Nihe Fe Deposit and the Shaxi Cu–Au Deposit in the Lower Yangtze Valley, SE China. Minerals, 13 (3) 451 doi:10.3390/min13030451
Xu, Jing, Ciobanu, Cristiana Liana, Cook, Nigel John, Gao, Shen, Zhao, Taiping, Jiang, Jichen (2024) Constraints on Ore Genesis from Trace Ore Mineralogy: A New Occurrence of Kupčíkite and Paděraite from the Zhibula Cu Skarn Deposit, Southern Tibet. Minerals, 14 (5) doi:10.3390/min14050474
Tolstykh, Nadezhda, Shapovalova, Maria, Podlipsky, Maksim (2023) Au-Ag-Se-Te-S Mineralization in the Maletoyvayam High-Sulfidation Epithermal Deposit, Kamchatka Peninsula. Minerals, 13 (3) 420 doi:10.3390/min13030420
Jishun Liu, Guang Ma, Guanglong Shu (2005): Discovery of cryptoexplosive breccia type Cu (-Au) orebodies in Tonglushan skarn-type Cu-Fe deposit of Hubei Province and ore-searching vista. Mineral Deposits 24(5), 527-536 (in Chinese with English abstract).
 
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