Geology, S–Pb isotopes, and 40Ar/39Ar geochronology of the Zhaxikang Sb–Pb–Zn–Ag deposit in Southern Tibet: implications for multiple mineralization events at Zhaxikang (original) (raw)
References
Aikman A, Haarrison TM, Hermann J (2012) Age and thermal history of Eo- and Neohimalayan granitoids, eastern Himalaya. J Asian Earth Sci 51:85–97 Article Google Scholar
Anderson GM, Macqueen RW (1982) Ore deposits models—6. Mississippi Valley-type lead zinc deposits. Geosci Can 9:108–117 Google Scholar
Armijo R, Tapponnier P, Mercier JL, Han TL (1986) Quaternary extension in southern Tibet: field observations and tectonic implications. J Geophys Res 91:13803–13872 Article Google Scholar
Barrett TJ, Anderson GM (1988) The solubility of sphalerite and galena in 1–5 m NaCl solutions to 300°C. Geochim Cosmochim Acta 52:813–820 Article Google Scholar
Beaudoin G (1997) Proterozoic Pb isotope evolution in the belt-Purcell basin: constraints from syngenetic and epigenetic sulfide deposits. Econ Geol 92:343–350 Article Google Scholar
Beaudoin G, Sangster DF (1992) A descriptive model for silver-lead-zinc veins in clastic metasedimentary terrane. Econ Geol 87:1005–1021 Article Google Scholar
Blisniuk PM, Hacker BR, Glodny J, Ratschbacher L, Bi SW, Wu ZH, McWilliams MO, Calvert A (2001) Normal faulting in central Tibet since at least 13.5 Myr ago. Nature 412:628–632 Article Google Scholar
Brookfield ME (1993) The Himalayan passive margin from Precambrian to Cretaceous times. Sediment Geol 84:1–35 Article Google Scholar
Burchfiel BC, Chen Z, Hodges KV, Liu Y, Royden LH, Deng C, Xu J (1992) The South Tibet detachment system, Himalayan orogen: extension contemporaneous with and parallel to shortening in a collisional mountain belt. Geol Soc Am Spec Pap 269:1–41 Google Scholar
Burg JP, Leyreloup A, Girardeau J, Chen G (1987) Structure and metamorphism of a tectonically thickened continental crust: the Yalu Tsangpo suture (Tibet). Philos Trans R Soc Lond A Math Phys Eng Sci A321:67–86 Article Google Scholar
Chemenda AI, Burg JP, Mattauer M (2000) Evolutionary model of the Himalaya Tibet system: Geopoem based on new modelling, geological and geophysical data. Earth Planet Sci Lett 174:397–409 Article Google Scholar
Chu MF, Chung SL, O'Reilly SY, Pearson NJ, Wu FY, Li XH, Liu DY, Ji JQ, Chu CH, Lee HY (2011) India's hidden inputs to Tibetan orogeny revealed by Hf isotopes of Transhimalayan zircons and host rocks. Earth Planet Sci Lett 307:479–486 Article Google Scholar
Deng J, Wang QF (2015) Gold mineralization in China: Metallogenic provinces, deposit types and tectonic framework. Gondwana Res 26:219–274 Google Scholar
Deng J, Wang QF, Li GJ, Santosh M (2014a) Cenozoic tectono-magmatic and metallogenic processes in the Sanjiang region, southwestern China. Earth Sci Rev 138:268–299 Article Google Scholar
Deng J, Wang QF, Li GJ, Li CS, Wang CM (2014b) Tethys tectonic evolution and its bearing on the distribution of important mineral deposits in the Sanjiang region, SW China. Gondwana Res 26:419–437 Article Google Scholar
Deng J, Yuan WM, Carranza EJM, Yang LQ, Wang CM, Yang LY, Hao NN (2014c) Geochronology and thermochronometry of the Jiapigou gold belt, northeastern China: new evidence for multiple episodes of mineralization. J Asian Earth Sci 89:10–27 Article Google Scholar
Deng J, Wang QF, Li GJ (2017) Tectonic evolution, superimposed orogeny, and composite metallogenic system in China. Gondwana Res. doi.org/10.1016/j.gr.2017.02.005
Duan JL, Tang JX, Lin B (2016) Zinc and lead isotope signatures of the Zhaxikang Pb-ZnPb–Zn deposit, South Tibet: implications for the source of the ore-forming metals. Ore Geol Rev 78:58–68 Article Google Scholar
Edwards MA, Harrison TM (1997) When did the roof collapse? Late Miocene north–south extension in the high Himalaya revealed by Th–Pb monazite dating of the Khula Kangri granite. Geology 25:543–546 Article Google Scholar
Fleck RJ, Criss RE, Eaton GF, Cleland RW, Wavra CS, Bond WD (2002) Age and origin of base and precious metal veins of the Coeur d’Alene mining district, Idaho. Econ Geol 97:23–42 Article Google Scholar
Gariéepy C, Allèegre CJ, Xu RH (1985) The Pb-isotope geochemistry of granitoids from the Himalaya-Tibet collision zone: implications for crustal evolution. Earth Planet Sci Lett 74:220–234 Article Google Scholar
Godin L, Grujic D, Law RD, Searle MP (2006) Channel flow, ductile extrusion and exhumation in continental collision zones: an introduction. Geol Soc Lond Spec Publ Lond 268:1–23 Article Google Scholar
Goldfarb RJ, Taylora RD, Collins GS, Goryachev NA, Orlandini OF (2014) Phanerozoic continental growth and gold metallogeny of Asia. Gondwana Res 25:48–102 Article Google Scholar
Gützmer J (2005) Paleoproterozoic carbonate-hosted Pering Zn-Pb deposit, South Africa: I. Styles of brecciation and mineralization. Mineral Deposita 40:664–685 Article Google Scholar
Hitzman MW, Redmond PB, Beaty DW (2002) The carbonate-hosted Lisheen Zn-Pb-ag deposit, county Tipperary, Ireland. Econ Geol 97:1627–1655 Article Google Scholar
HMCL (2012) Ore resource report of the Zhaxikang Sb–Pb–Zn–ag deposit, southern Tibet (internal report): Huayu mining corporation, Tibet (In Chinese) Google Scholar
Hodges KV (2000) Tectonics of the Himalaya and southern Tibet from two perspectives. Geol Soc Am Bull 112:324–350 Article Google Scholar
Hoefs J (2009) Isotope fractionation processes of selected elements. Stable isotope geochemistry. Springer, Berlin, pp 35–92 Google Scholar
Hofstra AH, Cline JS (2000) Characteristics and models for Carlin-type gold deposits. Rev Econ Geol 13:163–220 Google Scholar
Hou ZQ, Zhang HR (2015) Geodynamics and metallogeny of the eastern Tethyan metallogenic domain. Ore Geol Rev 70:346–384 Article Google Scholar
Hou ZQ, Zheng YC, Zeng LS, Gao LE, Huang KX, Li W, Li QY, Liang W, Sun QZ (2012) Eocene–Oligocene granitoids of southern Tibet: constraints on crustal anatexis and tectonic evolution of the Himalayan orogeny. Earth Planet Sci Lett 349:38–52 Article Google Scholar
Jiang SH, Nie FJ, Hu P, Liu Y, Lai XR (2007) Geochemical characteristics of the mafic dyke swarms in South Tibet. Acta Geol Sin 81:60–71 (In Chinese with English abstract) Google Scholar
Koppers AAP (2002) ArArCALC–software for 40Ar/39Ar age calculations. Comput Geosci 28:605–619 Article Google Scholar
Leach DL, Hofstra AH, Church SE, Snee LW, Vaughn RB, Zartman RE (1998) Evidence for Proterozoic and late Cretaceous-early tertiary ore-forming events in the Coeur d’Alene district, Idaho and Montana. Econ Geol 93:347–359 Article Google Scholar
Leach DL, Sangster DF, Kelley KD, Large RR, Garven G, Allen CR, Gützmer J, Walters S (2005) Sediment-hosted lead-zinc deposits: a global perspective. Econ Geol 29:561–608 100th anniversary volume Google Scholar
Leloup PH, Mahéo G, Arnaud N, Kali E, Boutonnet E, Liu DY, Liu XH, Li HB (2010) The South Tibet detachment shear zone in the Dinggye area time constraints on extrusion models of the Himalayas. Earth Planet Sci Lett 292:1–16 Article Google Scholar
Li GQ, Gu XX, Cheng WB, Zhang YM, Zhang Y, Dai HZ, Lu PR, Zhang XG, Xia BB (2014) The analysis of metallogenic material sources of the Zhaxikang antimony (sulfur salts) polymetallic deposits in southern Tibet: concurrent discussion on the differences of the ore sources of major miner-al deposits in north Himalayan metallogenic belt. Earth Sci Front 21:90–104 (In Chinese with English abstract) Google Scholar
Liang W, Hou ZQ, Yang ZS, Li ZQ, Huang KX, Zhang S, Li W, Zheng YC (2013) Remobilization and overprinting in the Zhaxikang Pb–Zn–ag–Sb polymetal ore deposit, southern Tibet: implications for its metallogenesis. Acta Petrol Sin 29:3828–3842 Google Scholar
Liang W, Yang ZS, Zheng YC (2015) The Zhaxikang Pb-ZnPb–Zn deposit: Ar-Ar age of sericite and its metallogenic significance. Acta Geol Sin 89:560–568 (In Chinese with English abstract) Google Scholar
Lin B, Tang JX, Zheng WB, Leng QF, Yang C, Tang XQ, Hang Y, Wang YY, Tan JY (2014) Petrochemical features, zircon U–Pb dating and Hf isotopic composition of the rhyolite in Zhaxikang deposit, southern Xizang (Tibet). Geol Rev 60:178–189 (In Chinese with English abstract)
Liu G, Einsele G (1994) Sedimentary history of the Tethyan basin in the Tibetan Himalayas. Geol Rundsch 82:32–61 Article Google Scholar
Liu Y, Chen Z, Yang Z, Sun X, Zhu Z, Zhang Q (2015) Mineralogical and geochemical studies of brecciated ores in the Dalucao REE deposit, Sichuan Province, southwestern China. Ore Geol Rev 70:613–636 Article Google Scholar
Meng XJ, Yang ZS, Qi XX, Hou ZQ, Li ZQ (2008) Silicon-oxygen-hydrogen isotopic compositions of Zhaxikang antimony polymetallic deposit in southern Tibet and its responses to the ore-controlling structure. Acta Petrol Sin 24:1649–1655 Google Scholar
Mitsuishi M, Wallis SR, Aoya M, Lee J, Wang Y (2012) E–W extension at 19 ma in the kung co area, S. Tibet: evidence for contemporaneous E–W and N–S extension in the Himalayan orogeny. Earth Planet Sci Lett 325:10–20 Article Google Scholar
Ohmoto H, Rye RO (1979) Isotopes of sulfur and carbon. In: Barnes HL (ed) Geochemistry of hydrothermal ore deposits. Wiley, New York, pp 509–567 Google Scholar
Pan G, Ding J, Yao D (2004) Geological map of Qinghai–Xizang (Tibet) plateau and adjacent areas (1:1500000): Chengdu Institute of Geology and Mineral Resources, China Geological Survey. Chengdu Cartographic Publishing House Chengdu, China, pp 1–48 Google Scholar
Plumlee GS, Leach DL, Hofstra AH, Landis GP, Rowan EL, Viets JG (1994) Chemical reaction path modeling of ore deposition in Mississippi Valley type Pb-Zn deposits of the Ozark region, U.S. Midcontinen. Econ Geol 89:1361–1383 Article Google Scholar
Qiu HN, Wijbrans J, Brouwer F, Yun JB, Zhao LH, Xu YG (2010) Amphibolite facies retrograde metamorphism of the Zhujiachong eclogite, SE Dabieshan: 40Ar/39Ar age constraints from argon extraction using UV-laser microprobe, in vacuo crushing and stepwise heating. J Metamorph Geol 28:477–487 Article Google Scholar
Ramos FC, Rosenberg PE (2012) Age and origin of quartz-carbonate veins associated with the Coeur d’Alene mining district, Idaho and western Montana: insights from isotopes and rare-earth elements. Econ Geol 107:1321–1339 Article Google Scholar
Replumaz A, Negredo AM, Villaseñor A, Guillot S (2010) Indian continental subduction and slab break-off during tertiary collision. Terra Nova 22:290–296 Google Scholar
Richards JP, Wilkinson D, Ullrich T (2006) Geology of the sari Gunay epithermal gold deposit, northwest Iran. Econ Geol 101:1455–1496 Article Google Scholar
Rosenberg PE, Larson PB (2000) Isotope geochemistry of ankerite bearing veins associated with the Coeur d’Alene mining district, Idaho. Econ Geol 95:1689–1699 Google Scholar
Searle MP (1986) Structural evolution and sequence of thrusting in the high Himalayan, Tibetan Tethyan and Indus suture zones of Zanskar and Ladakh, western Himalaya. J Struct Geol 8:923–936 Article Google Scholar
Searle MP, Godin L (2003) The south Tibetan detachment system and the Manaslu leucogranite: a structural reinterpretation and restoration of the Annapurna–Manaslu Himalaya, Nepal. J Geol 111:505–523 Article Google Scholar
Stacey JS, Kramers JD (1975) Approximation of terrestrial lead isotope evolution by a 2-stage model. Earth Planet Sci Lett 26:207–221 Article Google Scholar
Sun X, Zheng YY, Wang CM, Zhao ZY, Geng XB (2016) Identifying geochemical anomalies associated with Sb–au–Pb–Zn–ag mineralization in north Himalaya, southern Tibet. Ore Geol Rev 73:1–12 Article Google Scholar
Sverjensky DA (1981) The origin of a Mississippi Valley-type deposit in the viburnum trend, southeast Missouri. Econ Geol 76:1848–1872 Article Google Scholar
Taylor M, Yin A, Ryerson FJ, Kapp P, Ding L (2003) Conjugate strike–slip faulting along the Bangong–Nujiang suture zone accommodates coeval east–west extension and north–south shortening in the interior of the Tibetan plateau. Tectonics 22:1–21 Google Scholar
Tibet Institute of Geologic Survey (2003) Mineral resource survey and assessment report of Jiangzi–Longzi gold–antimony–polymetal belt, Tibet, China: (internal report), In Chinese
Tonarini S, Villa I, Oberli F, Meier M, Spencer DA, Pognante U, Ramsay JG (1993) Eocene age of eclogite metamorphism in the Pakistan Himalaya: implications for India–Eurasia collision. Terra Nova 5:13–20 Article Google Scholar
Treloar PJ, O'Brien PJ, Parrish RR, Khan MA (2003) Exhumation of early tertiary, coesite-bearing eclogites from the Pakistan Himalaya. J Geol Soc 160:67–376 Article Google Scholar
Vaughan DJ, Craig JR (1997) Sulfide mineral stabilities, morphologies, and intergrowth textures. In: Barnes HL (ed) Geochemistry of hydrothermal ore deposits—third edition. John Wiley, New York, pp 367–434 Google Scholar
Vidal PH, Cocherie A, Le Fort P (1982) Geochemical investigations of the origin of the Manaslu leucogranite (Himalaya, Nepal). Geochim Cosmochim Acta 46:2279–2292 Article Google Scholar
Vielreicher NM, Groves DI, Snee LW, Fletcher IR, McNaughton NJ (2010) Broad synchroneity of three gold mineralization styles in the Kalgoorlie gold field: SHRIMP, U–Pb, and 40Ar/39Ar geochronological evidence. Econ Geol 105:187–227 Article Google Scholar
Wagner T, Boyce AJ (2001) Sulphur isotope characteristics of recrystallization, remobilization and reaction processes: a case study from the Ramsbeck Pb–Zn deposit, Germany. Mineral Deposita 36:670–679 Article Google Scholar
Wagner T, Cook NJ (1998) Sphalerite remobilization during multistage hydrothermal mineralization events-examples from siderite-Pb–Zn-cu-Sb veins, Rheinisches Schiefergebirge, Germany. Mineral Petrol 63:223–241 Article Google Scholar
Wagner T, Cook NJ (2000) Late-Variscan antimony mineralisation in the Rheinisches Schiefergebirge, NW Germany: evidence for stibnite precipitation by drastic cooling of high-temperature fluid systems. Mineral Deposita 35:206–222 Article Google Scholar
Wagner T, Schneider J (2002) Lead isotope systematics of vein-type antimony mineralization, Rheinisches Schiefergebirge, Germany: a case history of complex reaction and remobilization processes. Mineral Deposita 37:185–197 Article Google Scholar
Wang D, Sun X, Zheng YY, Wu S, Xia SL, Chang HF, Yu M (2017) Two pulses of mineralization and genesis of the Zhaxikang Sb–Pb–Zn–ag deposit in southern Tibet: constraints from Fe–Zn isotopes. Ore Geol Rev 84:347–363 Article Google Scholar
Werdon MB, Layer PW, Newberry RJ (2004) 40Ar/39Ar dating of Zn-Pb-ag mineralization in the northern brooks range, Alaska. Econ Geol 99:1323–1343 Article Google Scholar
Willems H, Zhou Z, Zhang B, Grafe KU (1996) Stratigraphy of the upper Cretaceous and lower tertiary strata in the tethyan Himalayas of Tibet (Tingri area, China). Geol Rundsch 85:723–754 Article Google Scholar
Wood SA, Crerar DA, Borcsik MP (1987) Solubility of the assemblage pyrite-pyrrhotite-magnetite-sphalerite-galena-gold-stibnite-bismuthinite-argentite-molybdenite in H2O-NaCl-CO2 solutions from 200° to 350°C. Econ Geol 82:1864–1887 Article Google Scholar
Wu ZH, Ye PS, Wu ZH, Zhao Z (2014) LA-ICP-MS zircon U-Pb ages of tectonic-thermal events in the Yalaxiangbo dome of Tethys Himalayan belt. Geol Bull China 33:595–611 (In Chinese with English abstract)
Xie YL, Li LM, Wang BG, Li GM, Liu HF, Li YX, Dong SL, Zhou JJ (2017) Genesis of the Zhaxikang epithermal Pb-ZnPb–Zn-Sb deposit in southern Tibet, China: evidence for a magmatic link. Ore Geol Rev 80:891–909 Article Google Scholar
Yang ZS, Hou ZQ, Meng XJ, Liu YC, Fei HC, Tian SH, Li ZQ, Gao W (2009) Post-collisional Sb and au mineralization related to the south Tibetan detachment system, Himalayan orogeny. Ore Geol Rev 36:194–212 Article Google Scholar
Yin A (2006) Cenozoic tectonic evolution of the Himalayan orogen as constrained by along–strike variation of structural geometry, exhumation history, and foreland sedimentation. Earth Sci Rev 76:1–131 Article Google Scholar
Yin A, Dubey CS, Kelty TK, Webb AAG, Harrison TM, Chou CY, Célérier J (2010) Geologic correlation of the Himalayan orogen and Indian craton: Part 2. Structural geology, geochronology, and tectonic evolution of the Eastern Himalaya. Geol Soc Am Bull 122:360–395
Yin A, Harrison TM (2000) Geologic evolution of the Himalayan–Tibetan orogeny. Annu Rev Earth Planet Sci 28:211–280 Article Google Scholar
Zartman RE, Doe BR (1981) Pumbotectonics-the model. Tectonophysics 75:135–162 Article Google Scholar
Zartman RE, Stacey JS (1971) Lead isotopes and mineralization ages in belt Supergroup rocks, northwestern Montana and northern Idaho. Econ Geol 66:849–860 Article Google Scholar
Zeng LS, Gao LE, Xie KJ, Zeng JL (2011) Mid-Eocene high Sr/Y granites in the northern Himalayan gneiss domes: melting thickened lower continental crust. Earth Planet Sci Lett 303:251–266 Article Google Scholar
Zhai W, Sun XM, Yi JZ, Zhang X, Mo R, Zhou F, Wei HX, Zeng Q (2014) Geology, geochemistry, and genesis of orogenic gold–antimony mineralization in the Himalayan Orogen, South Tibet, China. Ore Geol Rev 58:68–90 Article Google Scholar
Zhang SK (2013) Geology and geochemistry characteristics of Zhaxikang antimony polymetallic deposits, southern Tibet. Unpublished Master Thesis, China University of Geoscience, Beijing (In Chinese with English abstract)
Zhang JJ, Guo LL, Zhang B (2007) Structure and kinematics of the Yalashangbo dome in the northern Himalayan dome belt, China. Chin J Geol 42:16–30 (In Chinese with English abstract) Google Scholar
Zhang XH, Shi GR, Gong YM (2008) Middle Jurassic trace fossils from the Ridang formation in Sajia County, South Tibet, and their palaeoenvironmental significance. Facies 54:45–60 Article Google Scholar
Zhang JF, Zheng YY, Zhang GY, Gao SB, Ye XR, Zhang Z, Liu MY, Li JQ (2010) Genesis of Zhaxikang Pb–Zn–Sb–ag deposit in northern Himalaya: constraints from multi-isotope geochemistry. Earth Sci J Chin A Univ Geosci 35:1000–1010 (In Chinese with English abstract) Google Scholar
Zhang GY, Zheng YY, Zhang JF, Zhang SK, Fan ZH (2011) Ore-control structural and geochronologic constrain in Shalagang antimony deposit in southern Tibet, China. Acta Petrol Sin 27:2143–2149 Article Google Scholar
Zhang JJ, Santosh M, Wang XX, Guo L, Yang XY, Zhang B (2012) Tectonics of the northern Himalaya since the India–Asia collision. Gondwana Res 21:939–960 Article Google Scholar
Zheng YY, Liu MY, Sun X, Yuan EH, Tian LM, Zheng HT, Zhang GY, Zhang LH (2012) Type, discovery process and significance of Zhaxikang antimony polymetallic ore deposit, Tibet. Earth Sci J China Univ Geosci 37:1003–1014 (In Chinese with English abstract) Google Scholar
Zheng YY, Sun X, Tian LM, Zheng HT, Yu M, Yang WT, Zhou TC, Geng XB (2014) Mineralization, deposit type and metallogenic age of the gold antimony polymetallic belt in the eastern part of north Himalayan. Geotecton Metallog 38:108–118 (In Chinese with English abstract) Google Scholar
Zhu DC, Pan GT, Mo XX, Wang LQ, Liao ZL, Jiang XS, Geng QR (2005) SHRIMP U–Pb zircon dating for the dacite of the Sangxiu formation in the central segment of Tethyan Himalaya and its implications. China Sci Bull 50:563–568 (In Chinese with English abstract) Article Google Scholar
Zhu DC, Mo XX, Pan GT, Zhao ZD, Dong GC, Shi YR, Liao ZL, Wang LQ, Zhou CY (2008) Petrogenesis of the earliest early Cretaceous mafic rocks from the Cona area of the eastern Tethyan Himalaya in south Tibet: interaction between the incubating Kerguelen plume and the eastern greater India lithosphere. Lithos 100:147–173 Article Google Scholar
Zhu DC, Chung SL, Mo XX, Zhao ZD, Niu YL, Song B, Yang YH (2009) The 132 ma Comei-Bunbury large igneous province: remnants identified in present-day southeastern Tibet and southwestern Australia. Geology 37:583–586 Article Google Scholar
Zhu DC, Wang Q, Zhao ZD, Chung SL, Cawood PA, Niu YL, Liu SA, Wu FY, Mo XX (2015) Magmatic record of India–Asia collision. Sci Rep 5:14289. doi:10.1038/srep14289 Article Google Scholar