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Origin of ore-forming fluid in the Piaotang tungsten deposit in Jiangxi Province: Evidence from helium and argon isotopes

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  • Geology
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Chinese Science Bulletin

Abstract

The Piaotang tungsten deposit in Jiangxi Province is one of the most important tungsten deposits in the South China Tungsten Metallogenic Province. In this study, we selected wolframite and chalcopyrite from the main mineralizing stage of the Piaotang tungsten deposit, and analyzed the helium and argon isotopic compositions in fluid inclusions of these minerals. The results show a 3He/4He ratios of 0.17 to 0.86 R/Ra, which fall within the range between continental crust (0.01–0.05 R/Ra) and air-saturated water (1 R/Ra), but are significantly lower than those of the normal mantle (6–9 R/Ra). Their 40Ar/36Ar ratios are between 354.5 and 590.7, which are slightly higher than the air-saturated water (295.5). Along with the other geochemical observation such as the lithium enrichments in the ore bodies and the ore-related granites, we suggest that the ore-forming fluid in the Piaotang tungsten deposit was mainly derived from crustal fluid. It may have mixed with some amounts of air-saturated water, but there was no considerable involvement of mantle-derived fluid.

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References

  1. Simmons S F, Sawkins F J, Schlutter D J. Mantle derived helium in two Peruvian hydrothermal ore deposits. Nature, 1987, 329: 429–432

    Article  Google Scholar 

  2. Stuart F M, Turner G. The abundance and isotopic composition of the noble gases in ancient fluids. Chem Geol, 1992, 101: 97–109

    Google Scholar 

  3. Stuart F M, Turner G, Duckworth R C, et a1. Helium isotopes as tracers of trapped hydrothermal fluids in ocean floor sulfides. Geology, 1994, 22: 823–826

    Article  Google Scholar 

  4. Stuart F M, Burnard P G, Taylor R P, et al. Resolving mantle and crustal contributions to ancient hydrothermal fluids: He-Ar isotopes in fluid inclusions from Dae Hwa W-Mo mineralization, S. Korea. Geochim Cosmochim Acta, 1995, 59: 4663–4673

    Article  Google Scholar 

  5. Hu R Z, Bi X W, Turner G, et a1. Research on the composition of He isotope in Machangqing copper deposit, Yunnan Province (in Chinese). Chinese Sci Bull (Chinese Ver), 1997, 42: 1542–1545

    Google Scholar 

  6. Hu R Z, Bi X W, Turner G, et a1. He-Ar isotopic system of ore-forming fluids in pyrite in Machangqing deposit (in Chinese). Sci China Ser D-Earth Sci (Chinese Ver), 1997, 27: 503–508

    Google Scholar 

  7. Hu R Z, Zhong H, Ye Z J, et a1. Helium and argon isotope system in fluid inclusions in Jinding super large lead-zinc deposit (in Chinese). Sci China Ser D-Earth Sci (Chinese Ver), 1998, 28: 208–213

    Google Scholar 

  8. Hu R Z, Bi X W, Turner G, et a1. He-Ar isotopic system of ore-forming fluids in Ailaoshan gold ore belt (in Chinese). Sci China Ser D-Earth Sci (Chinese Ver), 1999, 29: 321–330

    Google Scholar 

  9. Burnard P G, Hu R, Turner G, et al. Mantle, crustal and atmospheric noble gases in Ailaoshan gold deposits, Yunnan Province, China. Geochim Cosmochim Acta, 1999, 63: 1595–1604

    Article  Google Scholar 

  10. Sun X M, Norman D I, Sun K, et a1. N2-Ar-He systematics and source of ore-forming fluid in Changkeng Au-Ag deposit, central Guangdong, China. Sci China Ser D-Earth Sci, 1999, 42: 474–481

    Article  Google Scholar 

  11. Kendrick M A, Burgess R, Pattrick R A D, et al. Fluid inclusion noble gas and halogen evidence on the origin of Cu-porphyry mineralizing fluids. Geochim Cosmochim Acta, 2001, 65: 2651–2668

    Article  Google Scholar 

  12. Kendrick M A, Burgess R, Leach D, et al. Hydrothermal fluid origins in Mississippi valley-type ore districts; combined noble gas (He, Ar, Kr) and halogen (Cl, Br, I) analysis of fluid inclusions from the Illinois-Kentucky fluorspar district, Viburnum Trend and Tri-State districts, Midcontinent United States. Econ Geol, 2002, 97: 453–469

    Article  Google Scholar 

  13. Kendrick M A, Burgess R, Pattrick R A D, et al. Hydrothermal fluid origins in a fluorite-rich Mississippi valley-type district: combined noble gas (He, Ar, Kr) and halogen (Cl, Br, I) analysis of fluid inclusions from the South Pennine ore field, United Kingdom. Econ Geol, 2002, 97: 435–451

    Article  Google Scholar 

  14. Zhao K D, Jiang S Y, Xiao H Q, et al. Origin of ore-forming fluids of the Dachang Sn-polymetallic ore deposit: Evidence from helium isotopes. Chinese Sci Bull, 2002, 47: 1041–1045

    Google Scholar 

  15. Ballentine C J, Burgess R, Marty B. Tracing fluid origin, transport and interaction in the crust. Rev Mineral Geochem, 2002, 47: 539–614

    Article  Google Scholar 

  16. Mao J W, Li Y Q, Goldfarb R J, et al. Fluid inclusion and noble gas studies of the Dongping gold deposit, Hebei Province, China: a mantle connection for mineralization? Econ Geol, 2003, 98: 517–534

    Article  Google Scholar 

  17. Hu R Z, Burnard P G, Bi X W, et al. Helium and argon isotope geochemistry of alkaline intrusion-associated gold and copper deposits along the Red River — Jinshajiang fault belt, S W China. Chem Geol, 2004, 203: 305–317

    Article  Google Scholar 

  18. Burnard P G, Polva D A. Importance of mantle derived fluids during granite associated hydrothermal circulation: He and Ar isotopes of ore minerals from Panasqueira. Geochim Cosmochim Acta, 2004, 68: 1607–1615

    Article  Google Scholar 

  19. Sun X M, Wang M, Xue T, et al. He-Ar isotopic systematics of fluid inclusions in pyrites from PGE-polymetallic deposits in Lower Cambrian black rock series, South China. Acta Geol Sin, 2004, 78: 471–475

    Google Scholar 

  20. Sun X M, Xiong D X, Wang S W, et al. Noble gases isotopic composition of fluid inclusions in scheelites collected from Daping goldmine, Yunnan Province, China, and its application for ore genesis(in Chinese). Acta Petrol Sin, 2006, 22: 0725–0732

    Google Scholar 

  21. Li X F, Mao J W, Wang C Z, et al. The Daduhe gold field at the eastern margin of the Tibetan Plateau: He, Ar, S, O, and H isotopic data and their metallogenic implications. Ore Geol Rev, 2007, 30: 244–256

    Article  Google Scholar 

  22. Nicole A S, Samuel N, Karsten M H. Neon and helium isotopes as tracers of mantle reservoirs and mantle dynamics. Earth Planet Sci Lett, 2007, 258: 334–344

    Article  Google Scholar 

  23. Zhao K D, Jiang S Y, Ni P, et al. Sulfur, lead and helium isotopic compositions of sulfide minerals from the Dachang Sn-polymetallic ore district in south China: implication for ore genesis. Mineral Petrol, 2007, 89: 251–273.

    Article  Google Scholar 

  24. Sun X M, Xue T, He G W, et al. Noble gas isotopic compositions of cobalt-rich ferromanganese crusts from the western Pacific ocean and their geological implications. Acta Geol Sin, 2007, 81: 90–98

    Google Scholar 

  25. Zhang L G, Zhuang L C, Qian Y Q, et al. Stable isotope geochemistry of granites and tungsten-tin deposits in Xihuashan-Piaotang area, Jiangxi Province (in Chinese). In: Proceedings of Symposium on Tungsten Geology. Beijing: Geological Publishing House, 1984. 325–338

    Google Scholar 

  26. Mu Z G, Huang F S, Chen C Y, et al. Oxygen, hydrogen and carbon isotope studies of Piaotang and Xihuashan quartz vein-type tungsten deposits, Jiangxi Province (in Chinese). In: Proceedings of Symposium on Tungsten Geology (Chinese edition). Beijing: Geological Publishing House, 1984. 153–168

    Google Scholar 

  27. Jiang Y H, Jiang S Y, Ling H F. Mantle-derived fluids and uranium mineralization (in Chinese). Earth Sci Front, 2004, 11: 528–538

    Google Scholar 

  28. Jiang Y H, Ling H F, Jiang S Y, et al. Trace element and Sr-Nd isotope geochemistry of fluorite from the Xiangshan uranium deposit, S E China. Econ Geol, 2006, 101: 1613–1622

    Article  Google Scholar 

  29. Hu R Z, Bi X W, Peng J T, et al. Some problems concerning relationship between Mesozoic-Cenozoic lithospheric extension and uranium metallogenesis in South China (in Chinese). Mineral Deposits, 2007, 26: 139–152

    Google Scholar 

  30. Xu K Q, Cheng H. Tectonic environment for the formation of tungsten deposits in China (in Chinese). Contrib Geol Mineral Res Resour, 1987, 2: 1–7

    Google Scholar 

  31. Xu K Q, Hu S X, Sun M Z, et al. Regional factors controlling the formation of tungsten deposits in South China (in Chinese). In: Proceedings of Symposium on Tungsten Geology (Chinese edition). Beijing: Geological Publishing House, 1984. 245–249

    Google Scholar 

  32. Xu K Q, Sun N, Wang D Z, et al. Genesis and metallogenesis of granites of South China (in Chinese). In: Granite and Related of Metallogenesis (collected papers of international symposium). Nanjing: Jiangsu Science and Technology Press, 1984. 1–20

    Google Scholar 

  33. Liu Z Q. Theoretical Prediction of the Metallogenic of Vein Type Tungsten Deposit (in Chinese). Beijing: Science Press, 1980. 43

    Google Scholar 

  34. Shan F. The geological characteristics of tungsten-tin deposits of a quartz-veinlets-zone type (in Chinese). Acta Geol Sini, 1976, 1: 1–16

    Google Scholar 

  35. Hua R M, Zhang W L, Yao J M, et al. The rock body of Dajishan - Piaotang-Huangshaping. In: Xu K Q, Tu G Z, eds. The Genesis of Granites and Lithosphere Dynamic Evolution in Nanling Region in late Mesozoice (in Chinese). Beijing: Science Press, 2007. 446–449

    Google Scholar 

  36. Li H Q, Liu J Q, Wei L. Fluid Inclusion Chronology of Hydrothermal Deposit (in Chinese). Beijing: Geological Publishing House, 1993. 50–54

    Google Scholar 

  37. Liu Y J, Li Z L, Xie S Q, et al. Preliminary experimental study on the geochemistry of tungsten in Southeasten China (in Chinese). In: Proceedings of Symposium on Tungsten Geology. Beijing: Geological Publishing House, 1984. 127–140

    Google Scholar 

  38. Gu J Y. Morphological zoning of the vein-type tungsten deposits in south China (in Chinese). In: Proceedings of Symposium on Tungsten Geology. Beijing: Geological Publishing House, 1984. 35–45

    Google Scholar 

  39. Trull T W, Kurz M D, Jenkins W J. Diffusion of cosmogenic 3He in olivine and quartz: implications for surface exposure dating. Earth Planet Sci Lett, 1991, 103: 241–256

    Article  Google Scholar 

  40. Qiu H N. 40Ar/39Ar dating of the quartz samples from two mineral deposits in western Yunnan (SW China) by crush in vacuum. Chem Geol, 1996, 127: 2l1–222

    Google Scholar 

  41. Turner G, Stuart F. Helium/heat ratios and deposition temperatures of sulfides from the ocean floor. Nature, 1992, 357: 581–583

    Article  Google Scholar 

  42. Dunai T J, Baur H. Helium, neon, argon systematic of the European subcontinental mantle: implications for its geochemical evolution. Geochim Cosmochim Acta, 1995, 59: 2767–2783

    Article  Google Scholar 

  43. Matsumoto T, Honda M, Mcdougall I, et al. Nobel gas in anhydrous lherzolites from the newer Volcanics, southeastern Australia: a MORB-like reservoir in the subcontinental mantle. Geochim Cosmochim Acta, 1998, 62: 2521–2533

    Article  Google Scholar 

  44. Matsumoto T, Honda M, Mcdougall I, et al. Noble gases in pyroxenites and metasomatised peridotites from the newer volcanics, Southeastern Australia: implications for mantle metasomatism. Chem Geol, 2000, 168: 49–73

    Article  Google Scholar 

  45. Xu S, Liu C Q. The helium isotope compositions of the mantle xenoliths and their significance in the mantle geochemical evolution (in Chinese). Chinese Sci Bull (Chinese Ver), 1997, 42: 1190–1198

    Google Scholar 

  46. Li Y H, Li J C, Song H B, et al. Helium isotope studies of the mantle xenoliths and megacrysts from the Cenozoic basalts in eastern China (in Chinese). Sci China Ser D-Earth Sci (Chinese Ver), 2001, 31: 641–647

    Google Scholar 

  47. Xu S, Liu C Q. Noble gas abundances and isotopic compositions in mantle-derived xenoliths, NE China. Chinese Sci Bull, 2002, 47: 755–760

    Article  Google Scholar 

  48. Xu S J, Fang Z, Matsumoto T, et al. He and Ar isotopes in mantle megacryst minerals from Nushan and Yingfengling in Southeast China (in Chinese). Chinese Sci Bull (Chinese Ver), 2003, 48: 1087–1091

    Article  Google Scholar 

  49. Tang H Y, Zheng J P, Yu C M. Mantle fluids and noble gas isotopic compositions of peddofitic olivines in Cenozoic basalts from eastern North China (in Chinese). Acta Petrol Sin, 2007, 23: 1531–1542

    Google Scholar 

  50. Tang H Y, Zheng J P, Cheng H H, et al. Helium and argon isotopes of the Tertiary basic igneous rocks from Shandong Peninsula and implications for the magma origin. Sci China Ser D-Earth Sci, 2007, 50: 1021–1032

    Article  Google Scholar 

  51. Hua R M, Chen P R, Zhang W L, et al. Metallogenic systems related to Mesozoic and Cenozoic granitoids in South China (in Chinese). Sci China Ser D-Earth Sci (Chinese Ver), 2003, 33: 335–343

    Google Scholar 

  52. Mao J W, Xie G Q, Li X F, et al. Mesozoic large scale mineralization and multiple lithospheric extension in South China (in Chinese). Earth Sci Front, 2004, 11: 45–55

    Google Scholar 

  53. Hua R M, Zhang W L, Chen P R, et al. Comparison in the characteristics, origin, and related metallogeny between granites in Dajishan and Piaotang, Southern Jiangxi, China (in Chinese). Geol J Chin Univ, 2003, 9: 609–619

    Google Scholar 

  54. Liu J Q, Chang H L. Thermobarogeochemical study on some Yanshanian granitic intrusions and related vein-type tungsten deposits in the Nanling region. In: 1st Yichang Institute of Geology and Mineral Resource-Research Reports of the Geology and Mineral Resources of Nanling (in Chinese). Wuhan: Wuhan College of Geology Press, 1987. 164–165

    Google Scholar 

  55. Wang X D, Ni P, Jiang S Y, et al. Fluid inclusion study on the Piaotang tungsten deposit, southern Jiangxi Province, China (in Chinese). Acta Petrol Sin, 2008, 24: 2163–2170

    Google Scholar 

  56. Li X F, Mao J W, Wang D H, et al. Helium and argon isotope systematics in fluid inclusion of the gold deposits along the Dadu River, Sichuan province, southwestern China (in Chinese). Acta Geol Sin, 2004, 78: 203–210

    Google Scholar 

  57. Wang Y T, Mao J W, Ye A W, et al. Isotope geochemical characteristics of auriferous quartz veins from medium and great depths of Xiaoqinling area, central China and their significance (in Chinese). Mineral Deposits, 2005, 24: 270–279

    Google Scholar 

  58. Zhang L C, Shen Y C, Li H M, et al. Helium and argon isotopic compositions of fluid inclusions and tracing to the source of oreforming fluids for Jiaodong gold deposits (in Chinese). Acta Petrol Sin, 2002, 18: 559–565

    Google Scholar 

  59. Yang F Q, Mao J W, Wang Y T, et al. Chronology and geochemical characteristics of helium, argon, carbon and oxygen isotope in fluid inclusion of the Sawayaerdun gold deposit, Xinjiang, Northwestern China and their significance (in Chinese). Geol Rev, 2006, 52: 341–351

    Google Scholar 

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Authors and Affiliations

  1. State Key Laboratory for Mineral Deposits Research, Nanjing University, Nanjing, 210093, China

    XuDong Wang, Pei Ni, ShaoYong Jiang, KuiDong Zhao & TianGang Wang

  2. Institute of Geo-Fluids, Nanjing University, Nanjing, 210093, China

    XuDong Wang, Pei Ni & TianGang Wang

  3. School of Earth Sciences and Engineering, Nanjing University, Nanjing, 210093, China

    XuDong Wang, Pei Ni, ShaoYong Jiang, KuiDong Zhao & TianGang Wang

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  1. XuDong Wang
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  2. Pei Ni
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  3. ShaoYong Jiang
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  4. KuiDong Zhao
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  5. TianGang Wang
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Correspondence to Pei Ni.

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This work was supported by the National Natural Science Foundation of China (Grant No. 40221301).

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Wang, X., Ni, P., Jiang, S. et al. Origin of ore-forming fluid in the Piaotang tungsten deposit in Jiangxi Province: Evidence from helium and argon isotopes. Chin. Sci. Bull. 55, 628–634 (2010). https://doi.org/10.1007/s11434-009-0416-8

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