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Liu, Tong, Jiang, Shao-Yong, Cao, Shoulin, Wang, Wei, Su, Hui-Min, Yang, De, Li, Hua, He, Shuyue (2024) Cobalt enrichment and metallogenic mechanism of the Galinge skarn iron deposit in the Eastern Kunlun metallogenic belt, western China. Ore Geology Reviews, 170. 106147 doi:10.1016/j.oregeorev.2024.106147

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Reference Type	Journal (article/letter/editorial)
Title	Cobalt enrichment and metallogenic mechanism of the Galinge skarn iron deposit in the Eastern Kunlun metallogenic belt, western China
Journal	Ore Geology Reviews
Authors	Liu, Tong		Author
	Jiang, Shao-Yong		Author
	Cao, Shoulin		Author
	Wang, Wei		Author
	Su, Hui-Min		Author
	Yang, De		Author
	Li, Hua		Author
	He, Shuyue		Author
Year	2024	Volume	< 170 >
Page(s)	106147
URL	https://www.sciencedirect.com/science/article/pii/S0169136824002804
DOI	doi:10.1016/j.oregeorev.2024.106147Search in ResearchGate
	Generate Citation Formats
Classification	Not set	LoC	Not set
Mindat Ref. ID	17478599	Long-form Identifier	mindat:1:5:17478599:8
GUID	0
Full Reference	Liu, Tong, Jiang, Shao-Yong, Cao, Shoulin, Wang, Wei, Su, Hui-Min, Yang, De, Li, Hua, He, Shuyue (2024) Cobalt enrichment and metallogenic mechanism of the Galinge skarn iron deposit in the Eastern Kunlun metallogenic belt, western China. Ore Geology Reviews, 170. 106147 doi:10.1016/j.oregeorev.2024.106147
Plain Text	Liu, Tong, Jiang, Shao-Yong, Cao, Shoulin, Wang, Wei, Su, Hui-Min, Yang, De, Li, Hua, He, Shuyue (2024) Cobalt enrichment and metallogenic mechanism of the Galinge skarn iron deposit in the Eastern Kunlun metallogenic belt, western China. Ore Geology Reviews, 170. 106147 doi:10.1016/j.oregeorev.2024.106147
In	Link this record to the correct parent record (if possible)
Abstract/Notes	Skarn iron deposits, as representative examples of Co-rich magmatic-hydrothermal deposits, are attracting increasing attention due to rising cobalt demand worldwide. However, the specific Co enrichment mechanisms and metallogenic processes in skarn deposits remain elusive. This study presents high-precision in situ U–Pb geochronological data for garnet from skarns, major and trace element analyses of sulfarsenides and sulfides, and X-ray mapping in the Galinge deposit. The Galinge skarn iron deposit formed at 237.1 ± 0.3 Ma (garnet U–Pb dating), during which time the region was in the post-collisional stage. During this period, the crust was thickened, causing delamination of the lithospheric mantle, which further led to the upwelling of asthenospheric materials and partial melting of the lower crust. As the resultant mixed magma ascended, it reacted with carbonate strata to form skarn deposits. Cobalt shows two occurrence modes in the Galinge deposit: independent cobalt minerals such as skutterudite and cobaltite, and isomorphic substitution of Co with other metals in ore minerals (arsenopyrite, pyrrhotite, sphalerite, pyrite, magnetite, and chalcopyrite). Our results revealed that arsenopyrite is the most cobalt-enriched ore mineral in the Galinge deposit, with an average Co content of 34,077 ppm. Other minerals generally contain insignificant Co contents of less than 500 ppm, including sphalerite (471 ppm) > pyrite (194 ppm) > pyrrhotite (145 ppm) > alabandite (∼100 ppm) > magnetite (7 ppm) > chalcopyrite (2 ppm). In arsenopyrite, cobalt and nickel replace iron in accordance with the inverse correlation between the concentrations of cobalt and nickel (wt%) and that of iron. In pyrite and chalcopyrite, a portion of the isomorphic cobalt substitutes for Fe or Cu. The weak correlation between Co (ppm) and Cu or Fe (wt%) indicates that only isomorphic cobalt is carried out by substituting Fe or Cu. The negative correlation between Co + Fe and Zn or Mn suggests that cobalt and iron replace Zn or Mn in sphalerite and alabandite. No evidence of element substitution was observed in pyrrhotite. Our study highlights that during the early mineralization stage, cobalt in the magmatic-hydrothermal fluids migrated in the form of CoCl42-. Subsequently, under the influence of an increase in pH, CoCl42- reacts with H3AsO30 to form CoAs3 (skutterudite). With the continuous precipitation of arsenides and sulfarsenides, the As/S (reduced) ratio decreased, leading to the CoAs3 (skutterudite) changing to CoAsS (cobaltite).

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Locality	Citation Details
Galinge Fe deposit, Golmud City (Ge'ermu Co.), Haixi Mongol and Tibetan Autonomous Prefecture, Qinghai, China

Mineral Occurrences

Locality	Mineral(s)
Galinge Fe deposit, Golmud City (Ge'ermu Co.), Haixi Mongol and Tibetan Autonomous Prefecture, Qinghai, China	ⓘ Alabandite, ⓘ Andesite, ⓘ Arsenopyrite, ⓘ Breccia, ⓘ Calcite, ⓘ Chalcopyrite, ⓘ Cobaltite, ⓘ Dacite, ⓘ Diopside, ⓘ Diorite, ⓘ Epidote, ⓘ Galena, ⓘ Garnet Group, ⓘ Granite, ⓘ Granodiorite, ⓘ Magnetite, ⓘ Native Bismuth, ⓘ Native Gold, ⓘ Porphyrite, ⓘ Pyrite, ⓘ Pyrrhotite, ⓘ Quartz, ⓘ Serpentinite, ⓘ Skarn, ⓘ Skutterudite, ⓘ Sphalerite

👁 Image	Liu, Tong; Jiang, Shao-Yong; Cao, Shoulin; Wang, Wei; Su, Hui-Min; Yang, De; Li, Hua; He, Shuyue (2024) Cobalt enrichment and metallogenic mechanism of the Galinge skarn iron deposit in the Eastern Kunlun metallogenic belt, western China. Ore Geology Reviews, 170. 106147 doi:10.1016/j.oregeorev.2024.106147
👁 Image	Liu, Tong; Jiang, Shao-Yong; Wang, Wei; Su, Hui-Min; Zhang, Xing-Kai; Zhang, Yong; He, Shuyue (2025) Cobalt occurrence and enrichment of the Kendekeke cobalt-rich Fe skarn deposit in the East Kunlun orogenic belt, western China. Ore Geology Reviews, 184. 106763 doi:10.1016/j.oregeorev.2025.106763
👁 Image	Che, Yu-Ying, Su, Hui-Min, Liu, Tong, Li, Hua, He, Shu-Yue (2024) The occurrence and enrichment of cobalt in skarn Pb-Zn deposits: A case study of the Niukutou Co-rich deposit, East Kunlun metallogenic belt, western China. Ore Geology Reviews, 172. 106210 doi:10.1016/j.oregeorev.2024.106210
👁 Image	Che, Yu-Ying; Su, Hui-Min; Liu, Tong; Li, Hua; He, Shu-Yue (2024) The occurrence and enrichment of cobalt in skarn Pb-Zn deposits: A case study of the Niukutou Co-rich deposit, East Kunlun metallogenic belt, western China. Ore Geology Reviews, 172. doi:10.1016/j.oregeorev.2024.106210
👁 Image	Wang, Wei, Jiang, Shao-Yong, Chen, Zhan-Peng, Su, Hui-Min, Li, Hua, He, Shuyue (2024) The origin and mineralization processes of the Dulenggou copper-cobalt deposit in the East Kunlun orogenic belt, western China. Ore Geology Reviews, 171. 106186 doi:10.1016/j.oregeorev.2024.106186
👁 Image	Wang, Wei; Jiang, Shao-Yong; Chen, Zhan-Peng; Su, Hui-Min; Li, Hua; He, Shuyue (2024) The origin and mineralization processes of the Dulenggou copper-cobalt deposit in the East Kunlun orogenic belt, western China. Ore Geology Reviews, 171. 106186 doi:10.1016/j.oregeorev.2024.106186
👁 Image	Su, Hui-Min; Che, Yu-Ying; Liu, Tong; Li, Hua; Liu, Li; Jin, Tao; He, Shuyue (2024) Multiple generations of garnet and their genetic significance in the Niukutou cobalt-rich Pb-Zn-(Fe) skarn deposit, East Kunlun orogenic belt, western China. Ore Geology Reviews, 174. doi:10.1016/j.oregeorev.2024.106308
👁 Image	Liu, Tong; Jiang, Shao-Yong; Wang, Wei; Su, Hui-Min (2025) Fluid evolution of the Yemaquan Fe-polymetallic deposit in the East Kunlun metallogenic belt, western China: Insights from garnet geochronology and geochemistry. Lithos, 508. doi:10.1016/j.lithos.2025.108119
👁 Image	Cao, Ming-Yu; Jiang, Shao-Yong; Su, Hui-min; Liu, Tao (2021) Indosinian magmatic–hydrothermal metallogenic event in the North Wuyi area, southeastern China: An example from the Chenfang skarn deposit in Jiangxi Province. Ore Geology Reviews, 138. doi:10.1016/j.oregeorev.2021.104386
👁 Image	Zhang, Xing-Kai, Jiang, Shao-Yong, Su, Hui-Min, Wang, Wei, Xia, Qinglin, Liu, Yunpeng, Li, Shien (2025) Geochemistry of cassiterite and skarn minerals as indicators for formation mechanism and fluid evolution of the newly discovered Jinshui skarn tin deposit in the East Kunlun orogenic belt, NW China. Ore Geology Reviews, 106541 doi:10.1016/j.oregeorev.2025.106541
👁 Image	Zhang, Xing-Kai; Jiang, Shao-Yong; Su, Hui-Min; Wang, Wei; Xia, Qinglin; Liu, Yunpeng; Li, Shien (2025) Geochemistry of cassiterite and skarn minerals as indicators for formation mechanism and fluid evolution of the newly discovered Jinshui skarn tin deposit in the East Kunlun orogenic belt, NW China. Ore Geology Reviews, 179. doi:10.1016/j.oregeorev.2025.106541

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