| Инд. авторы: | Nevolko P.A., Pham T.D., Tran T.H., Tran T.A., Ngo T.P., Fominykh P.A. |
| Заглавие: | Intrusion-related Lang Vai gold-antimony district (Northeastern Vietnam): Geology, mineralogy, geochemistry and Ar-40/Ar-39 age |
| Библ. ссылка: | Nevolko P.A., Pham T.D., Tran T.H., Tran T.A., Ngo T.P., Fominykh P.A. Intrusion-related Lang Vai gold-antimony district (Northeastern Vietnam): Geology, mineralogy, geochemistry and Ar-40/Ar-39 age // Ore Geology Reviews. - 2018. - Vol.96. - P.218-235. - ISSN 0169-1368. |
| Идентиф-ры: | DOI: 10.1016/j.oregeorev.2018.04.017; РИНЦ: 35521220; SCOPUS: 2-s2.0-85046681876; WoS: 000434004700013; |
| Реферат: | eng: The Lo Gam domain is one of the most important areas for metallogenic studies in northeastern Vietnam. The Lo Gam domain comprises numerous Pb-Zn deposits and occurrences, which account for > 80% of the Pb and Zn resources in Vietnam. Furthermore, within the Lo Gam domain, there are several gold, antimony, and base metal deposits. The largest of these are the Lang Vai, Khoun Puc, and Lung Luong deposits, which are included in the Lang Vai ore district. Each of the deposits includes several ore zones and ore bodies with peculiar mineral compositions and geochemical features. The geological and structural settings show that the Khoun Puc, Lang Vai, and Lung Luong deposits represent a uniform ore system. The metal zoning in the Lang Vai district occurs laterally away from a granitic intrusion. A general paragenetic sequence for the three deposits may be represented by the following mineral associations (from early to late): (i) arsenopyrite, pyrite, native gold, sphalerite; (ii) Bi-rich Pb-Sb sulfosalts; (iii) Bi-poor Pb-Sb sulfosalts; (iv) Sb sulfosalts; (v) Sb-rich minerals, native antimony; and (vi) Pb-rich Sb sulfosalts (as a distal mineral association). Among the different types of mineralizations, there is exists a transient mineralization that is characterized by a complex mineral composition. Bi-bearing minerals have been found only in the Khoun Puc deposit, which is located near a granite stock, whereas Bi mineralization is absent away from the deposit. The general outward sequence of zoning is from Au-As-Bi to Au-As-(Sb) to Sb-(Au-As) to Pb-Sb at the periphery. The ages of mineralization at the Lang Vai and Lung Luong deposits have been estimated to be ca. 240 Ma and ca. 236 Ma, respectively, and are slightly younger than the earlier reported ages (ca. 254-245 Ma) of the Phia Bioc granite complex, indicating a possible genetic relationship between the mineralization and the intrusions. The geological characteristics, metal zoning patterns and new geochronological data suggest that the gold-antimony ores in the Lang Vai district are genetically related to the nearby granitic intrusions. |
| Ключевые слова: | REGION; SYSTEMS; GRANITOIDS; CONSTRAINTS; GEOCHRONOLOGY; SW CHINA; SOUTH CHINA BLOCK; Lo Gam domain; Northeastern Vietnam; Intrusion-related gold deposit; Ar-40/Ar-39 dating; Metal zoning; DEPOSITS; Geology of deposit; |
| Издано: | 2018 |
| Физ. хар-ка: | с.218-235 |
| Цитирование: | 1. Ali, J.R., Thompson, G.M., Song, X.Y., Wang, Y., Emeishan basalts (SW China) and the «end-Guadalupian» crisis: magnetobiostratigraphic constraints. J. Geol. Soc. London 159 (2002), 21–29. 2. Anh, T.T., Gas'kov, I.V., Hoa, T.T., Nevol'ko, P.A., Dung, P.T., Can, P.N., Complex deposits in the Lo Gam structure, northeastern Vietnam: mineralogy, geochemistry, and formation conditions. Russ. Geol. Geophys. 53 (2012), 623–635. 3. Bierlein, F.P., McKnight, S., Possible intrusion-related gold systems in the western Lachlan Orogen, southeast Australia. Econ. Geol. 100 (2005), 385–398. 4. Chen, Z., Lin, W., Faure, M., Lepvrier, C., Vuong, N.V., Tich, V.V., Geochronology and isotope analysis of the Late Paleozoic to Mesozoic granitoids from northeastern Vietnam and implications for the evolution of the South China block. J. Asian Earth Sci. 86 (2014), 131–150. 5. Cheng, Y., Mao, J., Chang, Z., Pirajno, F., The origin of the world class tin-polymetallic deposits in the Gejiu district, SW China: constraints from metal zoning characteristics and 40Ar–39Ar geochronology. Ore Geol. Rev. 53 (2013), 50–62. 6. DGMV (Department of Geology and Mineral Resources of Vietnam, Hanoi), 2000a. Geological Map of Bao Lac (F-48-X): 1:200,000 scale. 7. DGMV, 2000b. Geological Map of Chinh Si-Long Tan (F-48-XI & F48-XVII): 1:200,000 Scale. 8. DGMV, 2000c. Geological Map of Lang Son (F-48-XXIII): 1:200,000 Scale. 9. DGMV, 2000d. Geological Map of Bac Quang (F-48-XV): 1:200,000 Scale. 10. DGMV, 2000e. Geological Map of Bac Kan (F-48-XVI): 1:200,000 Scale. 11. DGMV, 2001. Geological Map of Tuyen Quang (F-48-XXII): 1:200,000 Scale. 12. Faure, M., Lepvrier, C., Nguyen, V.V., Vu, T.V., Lin, W., Chen, Z., The South China block-Indochina collision: where, when, and how?. J. Asian Earth Sci. 79 (2014), 260–274. 13. Fleck, R.J., Sutter, J.F., Elliot, D.H., Interpretation of discordant 40Ar/39Ar age spectra of Mesozoic tholeiites from Antarctica. Geochim. Cosmochim. Acta 41 (1977), 15–32. 14. Goldfarb, R.J., Taylor, R.D., Collins, G.S., Goryachev, N.A., Orlandini, O.F., Phanerozoic continental growth and gold metallogeny of Asia. Gondwana Res. 25:1 (2014), 48–102. 15. Groves, D.I., Goldfarb, R.J., Gebre-Mariam, M., Hagemann, S.G., Robert, F., Orogenic gold deposits: a proposed classification in the context of their crustal distribution and relationship to other gold deposit types. Ore Geol. Rev. 13 (1998), 7–27. 16. Hai, T.T., Tu, L., Farmer, M., Stemler, J.U., The structural controls on mineralization at the Nui Phao polymetallic (W-F-Cu-Au-Bi) deposit, North Vietnam. Geological Association of Canada/Mineralogical Association of Canada Annual Meeting. Abstracts, 28, 2003, 64. 17. Hart, C.J.R., Baker, T., Burke, M.J., New exploration concepts for country-rock-hosted intrusion-related gold systems: tintina Gold Belt in Yukon. In The Tintina Gold Belt: concepts, Exploration, and Discoveries. British Columbia Yukon Chamber Mines Spec. 2 (2000), 145–171. 18. Hart C.J.R., 2005. Classifying, Distinguishing and Exploring for Intrusion‐Related Gold Systems. Canadian Institute of Mining – Geological Society “The Gangue” Issue 87, 1-9. 19. Hart, C.J.R., Goldfarb, R.J., Distinguishing intrusion-related from orogenic gold systems. 2005, Proceedings of Scientific Conference on Minerals, New Zealand, 125–133. 20. Hart, C.J.R., Reduced intrusion-related gold systems. Goodfellow, W.D., (eds.) Mineral deposits of Canada: A Synthesis of Major Deposit Types, District Metallogeny, the Evolution of Geological Provinces, and Exploration Methods: Geological Association of Canada, 2007, Mineral Deposits Division, Special Publication No., 95–112. 21. Hedenquist, J.W., Lowenstern, J.B., The role of magmas in the formation of hydrothermal ore deposits. Nature V.370 (1994), 519–527. 22. Hoa, T.T., 2007. Within-plate magmatism of Northern Vietnam and its metallogeny. Dissertation, VS Sobolev Institute of Geology and Mineralogy SB RAS, Novosibirsk (in Russian). 23. Hoa, T.T., Izokh, A.E., Polyakov, G.V., Borisenko, A.S., Anh, T.T., Balykin, P.A., Phuong, N.T., Rudnev, S.N., Van, V.V., Nien, B.A., Permo-Triassic magmatism and metallogeny of Northern Vietnam in relation to the Emeishan plume. Russ. Geol. Geophys. 49 (2008), 480–491. 24. Ishihara, S., Anh, T.T., Watanabe, Y., Hoa, T.T., Chemical characteristics of lead-zinc ores from North Vietnam, with a special attention to the In contents. Bull. Geol. Surv. Japan 61:9/10 (2010), 307–323. 25. Ishihara, S., Orihashi, Y., Zircon U-Pb age of the Triassic granitoids at Nui Phao, northern Viet Nam. Bull. Geol. Surv. Japan 65 (2014), 17–22. 26. Khoa H.V., 1998. The features of antimony mineralization at the Na Hang area, Tuyen Quang province. Hanoi, p. 51 (in vietnamese). 27. Khoa, H.V., On the type of antimony – polymetals mineralization in the Nang Kha area, Na Hang, Tuyen Quang Province. (in vietnamese with English abstract) J. Geol. Seria A 255 (1999), 26–33. 28. Kiem, D.D., Luyen, P. V., 1991. Geology of tin deposits in Vietnam.Hanoi, p. 117 (in Vietnamese). 29. Kušnír, I., Mineral resources of Vietnam. Acta Montan. Slovaca 5 (2000), 165–172. 30. Lang, J.R., Baker, T., Hart, C.J.R., Mortensen, J.K., An exploration model for intrusion related gold systems. Econ. Geol. Newsletter 40 (2000), 1–15. 31. Lang, J.R., Baker, T., Intrusion-related gold systems: the present level of understanding. Miner. Deposita 36 (2001), 477–489. 32. Lepvrier, C., Faure, M., Voung, N.V., Tich, V.V., Lin, W., Thang, T.T., Phuong, T.H., North-directed Triassic nappes in Northeastern Vietnam (East Bac Bo). J. Asian Earth Sci. 41 (2011), 56–68. 33. Nie, F.J., Jiang, S.H., Liu, Y., Intrusion-related gold deposits of North China craton, People's Republic of China. Resour. Geol. 54:3 (2004), 299–324. 34. Pirajno, F., Hydrothermal Processes and Mineral Systems. 2009, Springer, 1250. 35. Richards, J.P., Dang, T., Dudka, S.F., Wong, M.L., The Nui Phao tungsten-fluorite-copper-gold-bismuth deposit, Northern Vietnam: an opportunity for sustainable development. Explor. Mining Geol. 12 (2003), 61–70. 36. Roger, F., Maluski, H., Lepvrier, C., Vu, V.T., Paquette, J.L., LA-ICPMS zircons U/Pb dating of Permo-Triassic and Cretaceous magmatisms in Northern Vietnam-Geodynamical implication. J. Asian Earth Sci. 48 (2012), 72–82. 37. Sillitoe, R.H., Gold-rich porphyry copper deposits: geological model and exploration implications. Min. Depos. Model. Geol. Assoc. Canada, Special Paper 40 (1993), 465–478. 38. Sillitoe, R.H., Intrusion-related gold deposits. Gold metallogeny and exploration. Glasgow: Blackie Son ltd, 1991, 165–209. 39. Sillitoe, R.H., Characteristics and controls of the largest porphyry copper gold and epithermal gold deposits in the circum Pacific region. Aust. J. Earth Sci. 44 (1997), 373–388. 40. Sillitoe, R.H., Thompson, J.F.H., Intrusion-related vein gold deposits: types, tectono-magmatic settings, and difficulties of distinction from orogenic gold deposits. Resour. Geol. 48 (1998), 237–250. 41. Shellnutt, J.G., Denyszyn, S.W., Mundil, R., Precise age determination of mafic and felsic intrusive rocks from the Permian Emeishan large igneous province (SW China). Gondwana Res. 22 (2012), 118–126. 42. Steiger, R.H., Jager, E., Subcommission on geochronology: convention on the use of decay constants in geo- and cosmochronology. Earth Planet. Sci. Lett. 36 (1977), 359–362. 43. Stuwe, K., Barr, T.D., On uplift and convergence exhumation during. Tectonics 17 (1998), 80–88. 44. Thompson, J.F.H., Newberry, R.J., Gold deposits related to reduced granitic intrusions. Rev. Econ. Geol. 13 (2000), 377–400. 45. Thompson, J.F.H., Sillitoe, R.H., Baker, T., Lang, J.R., Mortensen, J.K., Intrusion-related gold deposits associated with tungsten-tin provinces. Miner Deposita 34 (1999), 197–217. 46. Travin, A.V., Yudin, D.S., Vladimirov, A.G., Khromykh, S.V., Volkova, N.I., Mekhonoshin, A.S., Kolotilina, T.B., Thermochronology of the Chernorud granulite zone, Ol'khon Region. Western Baikal area. Geochem. Int. 47:11 (2009), 1107–1124. 47. Tran, T. Hoa, Polyakov, G.V., Tran, T.A., Borisenko, A.S., Izokh, A.E., Balykin, P.A., Ngo, T. Phuong, Pham, T. Dung, Intraplate Magmatism and Metallogeny of North Vietnam. 2016, Springer International Publishing house, Switzerland, Modern Approaches in Solid Earth Sciences, 372p. 48. Tri V.T. (ed.), 2000. Mineral resources of Viet Nam. Dept. of Geology and Minerals of Viet Nam Publication Hanoi, 214 p. (in Vietnamese). 49. Tri, T.V., Khuc, V. (Eds.), 2011.Geology and Earth Resources of Vietnam. General Dept. of Geology, and Minerals of Vietnam, Hanoi, Publishing House for Science and Technology, 645 p. 50. Zheng, L., Yang, Z., Tong, Y., Yuan, W., Magnetostratigraphic constraints on two stage eruptions of the Emeishan continental flood basalts. Geochem. Geophys. Geosyst. 11 (2010), 1–19. |