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Xue, Hanwen; Wang, Keyong; Sun, Qingfei; Chen, Junchi; Wang, Xue; Li, Haoming (2025) Ore Genesis of the Huanggang Iron-Tin-Polymetallic Deposit, Inner Mongolia: Constraints from Fluid Inclusions, H–O–C Isotopes, and U-Pb Dating of Garnet and Zircon. Minerals, 15 (5). doi:10.3390/min15050518

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Reference TypeJournal (article/letter/editorial)
TitleOre Genesis of the Huanggang Iron-Tin-Polymetallic Deposit, Inner Mongolia: Constraints from Fluid Inclusions, H–O–C Isotopes, and U-Pb Dating of Garnet and Zircon
JournalMinerals
AuthorsXue, HanwenAuthor
Wang, KeyongAuthor
Sun, QingfeiAuthor
Chen, JunchiAuthor
Wang, XueAuthor
Li, HaomingAuthor
Year2025Volume<   15   >
Issue<   5   >
URL
DOIdoi:10.3390/min15050518Search in ResearchGate
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Mindat Ref. ID18414116Long-form Identifiermindat:1:5:18414116:6
GUID0
Full ReferenceXue, Hanwen; Wang, Keyong; Sun, Qingfei; Chen, Junchi; Wang, Xue; Li, Haoming (2025) Ore Genesis of the Huanggang Iron-Tin-Polymetallic Deposit, Inner Mongolia: Constraints from Fluid Inclusions, H–O–C Isotopes, and U-Pb Dating of Garnet and Zircon. Minerals, 15 (5). doi:10.3390/min15050518
Plain TextXue, Hanwen; Wang, Keyong; Sun, Qingfei; Chen, Junchi; Wang, Xue; Li, Haoming (2025) Ore Genesis of the Huanggang Iron-Tin-Polymetallic Deposit, Inner Mongolia: Constraints from Fluid Inclusions, H–O–C Isotopes, and U-Pb Dating of Garnet and Zircon. Minerals, 15 (5). doi:10.3390/min15050518
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Abstract/NotesThe Huanggang iron-tin deposit, located in the southern Greater Khingan Range, is one of the largest Fe-Sn deposits in Northern China (NE China). Iron-tin mineralization occurs mainly in the contact zone between granitoid intrusions and the marble of the Huanggang and Dashizhai formations. Six mineralization stages are identified: (I) anhydrous skarn, (II) hydrous skarn, (III) cassiterite-quartz-calcite, (IV) pyrite-arsenopyrite-quartz-fluorite, (V) polymetallic sulfides-quartz, and (VI) carbonate ones. Fluid inclusions (FIs) analysis reveals that Stage I garnet and Stage II–III quartz host liquid-rich (VL-type), vapor-rich two-phase (LV-type), and halite-bearing three-phase (SL-type) inclusions. Stage IV quartz and fluorite, along with Stage V quartz, are dominated by VL- and LV-type inclusions, while Stage VI calcite contains exclusively VL-type inclusions. The FIs in Stages I to VI homogenized at 392–513, 317–429, 272–418, 224–347, 201–281, and 163–213 °C, with corresponding salinities of 3.05–56.44, 2.56–47.77, 2.89–45.85, 1.39–12.42, 0.87–10.62, and 4.48–8.54 wt% NaCl equiv., respectively. The H–O–C isotopes data imply that fluids of the anhydrous skarn stage (δD = −101.2 to −91.4‰, δ18OH2O = 5.0 to 6.0‰) were of magmatic origin, the fluids of hydrous skarn and oxide stages (δD = −106.3 to −104.7‰, δ18OH2O = 4.3 to 4.9‰) were characterized by fluid mixing with minor meteoric water, while the fluids of sulfide stages (δD = −117.4 to −108.6‰, δ18OH2O = −3.4 to 0.3‰, δ13CV-PDB= −12.2 to −10.9‰, and δ18OV-SMOW = −2.2 to −0.7‰) were characterized by mixing of significant amount of meteoric water. The ore-forming fluids evolved from a high-temperature, high-salinity NaCl−H2O boiling system to a low-temperature, low-salinity NaCl−H2O mixing system. The garnet U-Pb dating constrains the formation of skarn to 132.1 ± 4.7 Ma (MSWD = 0.64), which aligns, within analytical uncertainty, with the weighted-mean U−Pb age of zircon grains in ore-related K-feldspar granite (132.6 ± 0.9 Ma; MSWD = 1.5). On the basis of these findings, the Huanggang deposit, formed in the Early Cretaceous, is a typical skarn-type system, in which ore precipitation was principally controlled by fluid boiling and mixing.

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LocalityCitation Details
Huanggang Fe-Sn deposit, Hexigten Banner (Keshiketeng Co.), Chifeng City (Ulanhad League; Chifeng Prefecture), Inner Mongolia, China

Mineral Occurrences

LocalityMineral(s)
Huanggang Fe-Sn deposit, Hexigten Banner (Keshiketeng Co.), Chifeng City (Ulanhad League; Chifeng Prefecture), Inner Mongolia, China Actinolite, Alkali Feldspar, Andesite, Arsenopyrite, Basalt, Biotite, Calcite, Calcium Amphibole Subgroup, Cassiterite, Chalcopyrite, Chlorite Group, Diopside, Diorite, Epidote, Feldspar Group, Fluorite, Galena, Garnet Group, Granite, Granitoid, Hematite, Hornblende, Hornfels, K Feldspar, Limestone, Magnetite, Marble, Microcline, Molybdenite, Orthoclase, Perthite, Plagioclase, Porphyroid, Porphyry, Pyrite, Pyrrhotite, Quartz, Sandstone, Scheelite, Skarn, Slate, Sphalerite, Spilite, Tetrahedrite Subgroup, Tuff, Vesuvianite

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