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He, Lei, Liang, Ting, Wang, Denghong, Zhang, Jianxin, Liu, Bosheng (2024) Skarn Formation and Zn–Cu Mineralization in the Dachang Sn Polymetallic Ore Field, Guangxi: Insights from Skarn Rock Assemblage and Geochemistry. Minerals, 14 (2) doi:10.3390/min14020193

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Reference TypeJournal (article/letter/editorial)
TitleSkarn Formation and Zn–Cu Mineralization in the Dachang Sn Polymetallic Ore Field, Guangxi: Insights from Skarn Rock Assemblage and Geochemistry
JournalMinerals
AuthorsHe, LeiAuthor
Liang, TingAuthor
Wang, DenghongAuthor
Zhang, JianxinAuthor
Liu, BoshengAuthor
Year2024Volume<   14   >
Issue<   2   >
URL
DOIdoi:10.3390/min14020193Search in ResearchGate
Classification
Not set		LoC
Not set
Mindat Ref. ID17155498Long-form Identifiermindat:1:5:17155498:6
GUIDc2600807-af1e-478a-9bbf-fed5242edcef
Full ReferenceHe, Lei, Liang, Ting, Wang, Denghong, Zhang, Jianxin, Liu, Bosheng (2024) Skarn Formation and Zn–Cu Mineralization in the Dachang Sn Polymetallic Ore Field, Guangxi: Insights from Skarn Rock Assemblage and Geochemistry. Minerals, 14 (2) doi:10.3390/min14020193
Plain TextHe, Lei, Liang, Ting, Wang, Denghong, Zhang, Jianxin, Liu, Bosheng (2024) Skarn Formation and Zn–Cu Mineralization in the Dachang Sn Polymetallic Ore Field, Guangxi: Insights from Skarn Rock Assemblage and Geochemistry. Minerals, 14 (2) doi:10.3390/min14020193
InLink this record to the correct parent record (if possible)
Abstract/NotesThe Dachang is a world-class, super-giant Sn polymetallic ore field mainly composed of Zn–Cu ore bodies proximal to the granitic pluton and Sn polymetallic ore bodies distal to the granitic pluton. In this study, we used petrographic studies and major and trace element geochemistry with calc-silicates from the Zn–Cu ore bodies to constrain the physicochemical conditions of hydrothermal fluids during skarn rock formation and the evolution of ore-forming elements. Two skarn stages were identified based on petrographic observations: Prograde skarn rocks (Stage I), containing garnet, vesuvianite, pyroxene, wollastonite, and retrograde skarn rocks (Stage II), containing axinite, actinolite, epidote, and chlorite. The retrograde skarn rocks are closely associated with mineralization. The geochemical results show that the garnets in the Dachang ore field belong to the grossular–andradite solid solution, in which the early generation of garnet is mainly composed of grossular (average Gro72And25), while the later generation of garnet is mainly composed of andradite (average Gro39And59); the vesuvianites are Al-rich vesuvianites; the pyroxenes form a diopside–hedenbergite solid solution with a composition of Di3–86Hd14–96; the axinites are mainly composed of ferroaxinite; and the actinolites are Fe-actinolite. The mineral assemblage of the skarn rocks indicates that the ore-forming fluid was in a relatively reduced state in the early prograde skarn stage. As the ore-forming fluid evolved, the oxygen fugacity of the ore-forming fluid increased. During the final skarn stage, the ore-forming fluid changed from a relatively oxidized state to a reduced state. The skarn rocks have evolved from early Al-rich to late Fe-rich characteristics, indicating that the early ore-forming fluid was mainly magmatic exsolution fluid, which may mainly reflect the characteristics of magmatic fluids, and the late Fe-rich characteristics of the skarn rocks may indicate that the late hydrothermal fluid was strongly influenced by country rocks. Trace element analyses showed that the Sn content decreased from the prograde skarn stage to the retrograde skarn stage, indicating that Sn mineralization was not achieved by activating and extracting Sn from prograde skarn rocks by hydrothermal fluids. The significant enrichment of Sn in the magmatic hydrothermal fluid is a necessary condition for Sn mineralization. There are various volatile-rich minerals such as axinite, vesuvianite, fluorite, and tourmaline in the Dachang ore field, indicating that the ore-forming fluid contained extensive volatiles B and F, which may be the fundamental reason for the large-scale mineralization of the Dachang ore field.

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LocalityCitation Details
Dachang Sn-polymetallic ore field, Nandan County, Hechi, Guangxi, China
Lamo-Longxianggai Cu-Zn deposit (Lame-Longxianggai Cu-Zn deposit), Dachang Sn-polymetallic ore field, Nandan County, Hechi, Guangxi, China
Tongkeng-Changpo Mine, Dachang Sn-polymetallic ore field, Nandan County, Hechi, Guangxi, China

Mineral Occurrences

LocalityMineral(s)
Dachang Sn-polymetallic ore field, Nandan County, Hechi, Guangxi, China Actinolite, Aegirine, Agglomerate, Almandine, Amphibole Supergroup, Andradite, Arsenopyrite, Axinite Group, Calcite, Chlorite Group, Clinopyroxene Subgroup, Diopside, Enstatite, Epidote, Ferrosilite, Garnet Group, Granules, Grossular, Hedenbergite, Hornfels, Johannsenite, Limestone, Marlstone, Pyrope, Pyroxene Group, Skarn, Spessartine, Sphalerite, Vesuvianite, Wollastonite
Tongkeng-Changpo Mine, Dachang Sn-polymetallic ore field, Nandan County, Hechi, Guangxi, China Actinolite, Arsenopyrite, Axinite Group, Calcite, Chalcopyrite, Chlorite Group, Epidote, Fluorite, Garnet Group, Hornfels, Marble, Marl, Mudstone, Pyrite, Pyroxene Group, Pyrrhotite, Quartz, Skarn, Sphalerite, Tourmaline, Vesuvianite, Wollastonite

See Also

These are possibly similar items as determined by title/reference text matching only.

He, Lei, Liang, Ting, Wang, Denghong, Zhao, Zheng, Liu, Bosheng, Gao, Jinggang, Cen, Jubiao (2023) Geochemical Characteristics of Garnet from Zinc–Copper Ore Bodies in the Changpo–Tongkeng Deposit and Its Geological Significance. Minerals, 13 (7) doi:10.3390/min13070937
Li, Zhuang, Tan, Hao, Zhao, Feng, Xiang, Zuopeng, Wu, Han, Zhang, Peng (2023) Sphalerite and Pyrite Geochemistry from the Pusangguo Co-Rich Cu–Zn–Pb Skarn Deposit, Tibet: Implications for Element Occurrence and Mineralization. Minerals, 13 (9) doi:10.3390/min13091165
Xu, Jingwei, Zhao, Xiaoyu, Deng, Mingguo, Li, Wenchang, Su, Yan (2024) Genesis of Pb–Zn Mineralization in the Pulang Cu Polymetallic Deposit in Yunnan Province, China: Insights from Analyses of Geology, Fluid Inclusions and C–H–O–S Isotopes. Minerals, 14 (2) doi:10.3390/min14020176
Minghai Cai, Ting Liang, and Decheng Wu (2005): Geological characteristics and ore-forming time of the Kangma deposit in the Dachang tin-polymetallic ore field, Guangxi. Acta Geologica Sinica 79(2), 262-268.
Bi, Ran, Wang, Fangyue, Zhang, Wenqi (2023) Whole Rock, Mineral Chemistry during Skarn Mineralization-Case Study from Tongshan Cu-Mo Skarn Profile. Applied Sciences, 13 (14) MDPI AG. 8118 doi:10.3390/app13148118
Denghong Wang, Huaqin Li, Yuchuan Chen, Wenjun Qu, Ting Liang, Lijuan Ying, Keli Wei, and Menghong Liu (2005): Discovery of high-REE calcites in the Dachang superlarge tin-polymetallic ore deposit, Nandan, n-orthwestern Guangxi. Geological Bulletin of China 24(2), 176-180 (in Chinese with English abstract).
Xie, J., Tang, D., Qian, L., Wang, Y., & Sun, W. (2020) Geochemistry of sulfide minerals from skarn Cu (Au) deposits in the Fenghuangshan ore field, Tongling, eastern China: Insights into ore-forming process. Ore Geology Reviews, 103537.
Peng, Z., Watanabe, M., Hoshino, K., and Shibata, Y. (1999): Ore mineralogy of tin-polymetallic (Sn-Sb-Fe-Pb-Zn-Cu-Ag) ores in the Dachang tin field, Guangxi, China and their implications for the ore genesis. Neues Jahrbuch für Mineralogie, Abhandlungen 175(2), 125-151.
Wu, Jing, Li, Zhi, Zhu, Minjie, Huang, Wenting, Liao, Juan, Zhang, Jian, Liang, Huaying (2022) Genesis of the Beixiang Sb-Pb-Zn-Sn Deposit and Polymetallic Enrichment of the Danchi Sn-Polymetallic Ore Belt in Guangxi, SW China. Minerals, 12 (11) 1349 doi:10.3390/min12111349
Xiao Fan (2009): Geological Features,Ore-formation and Mineralization Zonation of the Hailong-Cuomolong Skarn type Sn-polymetallic Deposit in Batang, Sichuan. Acta Geologica Sichuan 30(s2), 112-123.
Xusun, Ye, Yunxiu, Yan (1988) A preliminary discussion on the geochemical role of country-rock media in cassiterite-polymetallic sulphide mineralization, Dachang ore field, Guangxi, China. Chinese Journal of Geochemistry, 7 (1) 19-28 doi:10.1007/bf02840427
 
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