Anatomy and genesis of the world’s largest carbonate-hosted Zn-Pb deposit: New insights from ore characteristics, Zn-Pb-C-O isotopes, and trace element constraints of the Huoshaoyun deposit, Karakorum Range, Xinjiang
Qiang Ke, Tao Hong, M. Santosh, Hao Li, Guoliang Zhang, Hang Li, Jianling Wan, Tingbin Fan, Lianhui Dong, Jing Ma, Xing-Wang Xu
Geoscience Frontiers ›› 2024, Vol. 15 ›› Issue (6) : 101885.
Anatomy and genesis of the world’s largest carbonate-hosted Zn-Pb deposit: New insights from ore characteristics, Zn-Pb-C-O isotopes, and trace element constraints of the Huoshaoyun deposit, Karakorum Range, Xinjiang
The Huoshaoyun deposit in the Karakorum area of NW China is the world’s largest zinc-lead carbonate ore deposit. Here we investigate the genesis of the mineralization based on multiproxy investigations. The deposit contains zinc-lead carbonate and sulfide minerals, with smithsonite (Smt), cerussite (Cer), and sulfides accounting for 85%, 10%, and 5% of the total lead and zinc resources, respectively. Three ore-forming stages, involving Smt, Cer, and sulfides ores were summarized. The Smt mineralization is characterized by veined, massive, and stratified Smt forming horizontal sedimentary layered ore and vertical feeder veins similar to the SEDEX-type deposits. The sulfide and Cer veins display typical hydrothermal characteristics and are superimposed on the massive Smt ores. The Smt ores show high Li, Be, Cr, Y, Ba, Nd, Yb, and Zr contents, whereas the Cer veins have extremely high Sr contents (up to 3814–9174 ppm) and low Zr contents (less than 0.01 ppm). Galena and sphalerite show higher Cd concentrations compared to Smt and Cer ores.
Pb-Zn carbonate ores / Geochemistry / Zn-Pb-C-O isotopes / Genesis / Metallogeny
|
A. Audétat, D. Garbe-Schönberg, A. Kronz, T. Pettke, B. Rusk, J.J. Donovan, H.A. Lowers. Characterization of a natural quartz crystal as a reference material for microanalytical determination of Ti, Al, Li, Fe, Mn, Ga and Ge. Geostand. Geoanal. Res., 39 (2) (2015), pp. 171-184
|
|
M. Boni, H.A. Gilg, G. Balassone, J. Schneider, C.R. Allen, F. Moore. Hypogene Zn carbonate ores in the Angouran deposit, NW Iran. Miner. Deposita, 42 (2007), pp. 799-820
|
|
M. Boni, G. Balassone, V. Arseneau, P. Schmidt. The nonsulfide zinc deposit at Accha (Southern Peru): geological and mineralogical characterization. Econ. Geol., 104 (2009), pp. 267-289
|
|
M. Boni, D. Large. Nonsulfide zinc mineralization in Europe: An overview. Econ. Geol., 98 (2003), pp. 715-729
|
|
M. Boni, N. Mondillo. The “calamines” and the “others”: The great family of supergene nonsulfide zinc ores. Ore Geol. Rev., 67 (2015), pp. 208-233
|
|
P.D. Bons, T. Fusswinkel, E. Gomez-Rivas, G. Markl, T. Wagner, B. Walter. Fluid mixing from below in unconformity-related hydrothermal ore deposits. Geology, 42 (12) (2014), pp. 1035-1038
|
|
S. Chen, Y.C. Liu, J.Y. Hu, Z.F. Zhang, Z.H. Hou, F. Huang, H.M. Yu. Zinc isotopic compositions of NIST SRM 683 and whole-rock reference materials. Geostand. Geoanal. Res., 40 (3) (2016), pp. 417-432
|
|
R. Chirico, N. Mondillo, M. Boni, M. Joachimski, M. Ambrosino, Y. Buret, A. Mormone, L.E.N.B Leigh, W.H. Flores, G. Balassone. Genesis of the Florida Canyon nonsulfide Zn ores (Northern Peru): New insights into the supergene mineralizing events of the Bongará District. Econ. Geol., 117 (6) (2022), pp. 1339-1366
|
|
S.X. Chu. Preliminary study on regional metallogenic background and metallogenic regularity of West Kunlun and its adjacent area. PhD thesis, China University of Geosciences (in Chinese) (2008)
|
|
T.B. Coplen, C. Kendall, J. Hopple. Comparison of stable isotope reference samples. Nature, 302 (5905) (1983), pp. 236-238
|
|
W. Dansgaard. Stable isotopes in precipitation. Tellus, 16 (1964), pp. 436-468
|
|
A.C de León, A.K. Schmitt. Reconciling Li and O diffusion in zircon with protracted magmatic crystal residence. Contrib. Mineral. Petrol., 174 (2019), pp. 1-17
|
|
D.G. Ding, D.X. Wang, W.X. Liu, S.Q. Sun. The Orogenic Belt and Basin of West Kunlun. Geological Publishing House, Beijing (in Chinese) (1996)
|
|
L.H. Dong, D.Z. Zhuang, J. Feng, L.C. Zhang. The stratabound lead-zinc deposits of Xinjiang. Xinjiang Geol., 25 (4) (2007), pp. 339-344
|
|
L.H. Dong, J. Feng, D.Q. Liu, Y.L. Tang, C. Qu, K.Z. Wang, Z.F. Yang. Research for classification of metallogenic unit of Xinjiang. Xinjiang Geol., 28 (1) (2010), pp. 1-15
|
|
L.H. Dong, X.W. Xu, T.B. Fan, C. Qu, H. Li, J.L. Wan, H.T. An, G. Zhou, J.H. Li, G. Chen, C. Liu. Discovery of the Huoshaoyun super-large exhalative-sedimentary carbonate Pb-Zn deposit in the western Kunlun area and its great significance for regional metallogeny. Xinjiang Geol., 33 (1) (2015), pp. 41-50
|
|
P. Emsbo. Geologic criteria for the assessment of sedimentary exhalative (Sedex) Zn-Pb-Ag deposits. U.S. Geol. Surv. Open File Rep., 21 (2009), p. 1209
|
|
Franklin, J.M., Gibson, H.L., Jonasson, I.R., Galley, A.G., 2005. Volcanogenic massive sulfide deposits. 100th Anniversary Volume of Economic Geology, 523-560.
|
|
A.G. Galley, M. Hannington, I. Jonasson. Volcanogenic massive sulphide deposits. Mineral Deposits Division, Special Publication, 5 (2007), pp. 141-161
|
|
Y.B. Gao, K. Li, J.X. Teng, X.M. Zhao, X.J. Zhao, Z.Q. Yan, M.S. Jin, H.B. Zhao, X.T. Li. Mineralogy, geochemistry and genesis of giant Huoshaoyun Zn-Pb deposit in Karakorum area, Xinjiang, China. Northwestern Geology, 52 (4) (2019), pp. 152-169
|
|
Y.B. Gao, X.M. Zhao, X.J. Zhao, J.X. Teng, Z.Q. Yan, M.S. Jin, H.B. Zhao. Mineralogy, geochemistry and genesis of Duobaoshan Zn-Pb deposit, in Karakorum, Xinjiang. Northwestern Geology, 53 (1) (2020), pp. 122-137
|
|
H.A. Gilg, M. Boni, R. Hochleitner, U. Struck. Stable isotope geochemistry of carbonate minerals in supergene oxidation zones of Zn-Pb deposits. Ore Geol. Rev., 33 (2) (2008), pp. 117-133
|
|
W.D. Goodfellow, J.W. Lydon. Sedimentary-exhalative (SEDEX) deposits. Geological Association of Canada. Mineral Deposits Division, Special Publication, 5 (2007), pp. 163-183
|
|
M. Guillong, D.L. Meier, M.M. Allan, C.A. Heinrich, B.W.D. Yardley. SILLS: A Matlab-based program for the reduction of laser ablation ICP-MS data of homogeneous materials and inclusions. Sylvester (Ed.), Laser Ablation ICP-MS in the Earth Sciences. Current Practices and Outstanding Issues, 40, Mineralogical Association of Canada Short Course, Vancouver (2008), pp. 328-333
|
|
M.D. Hannington. Volcanogenic Massive Sulfide Deposits. In: Holland, H.D., Turekian, K.K. (Eds.), Treatise on Geochemistry. Elsevier (2014), pp. 463-488
|
|
S.A. Harkins, M.S. Appold, B.K. Nelson, A.M. Brewer, I.M. Groves. Lead isotope constraints on the origin of nonsulfide zinc and sulfide zinc-lead deposits in the Flinders Ranges, South Australia. Econ. Geol., 103 (2008), pp. 353-364
|
|
M.W. Hitzman, N.A. Reynolds, D.F. Sangster, C.R. Allen, C.E. Carman. Classification, genesis, and exploration guides for nonsulfide zinc deposits. Econ. Geol., 98 (2003), pp. 685-714
|
|
Z.Q. Hou, H.R. Zhang. Geodynamics and metallogeny of the eastern Tethyan metallogenic domain. Ore Geol. Rev., 70 (2015), pp. 346-384
|
|
W. Jia, D. Wang, Y. Li, X. Yu, M. Dai, G. Yan. Integrated geology, mineralogy, element and C-O-S-Pb isotopes characteristics elucidate ore genesis of the world-class Huoshaoyun Zn-Pb deposit in Karakorum area, Xinjiang, Northwest China. Ore Geol. Rev., 160 (2023), Article 105576
|
|
K.P. Jochum, U. Weis, B. Stoll, D. Kuzmin, Q. Yang, I. Raczek, D.E. Jacob, A. Stracke, K. Birbaum, D.A. Frick, D. Günther, J. Enzweiler. Determination of reference values for NIST SRM 610–617 glasses following ISO guidelines. Geostand. Geoanal. Res., 35 (4) (2011), pp. 397-429
|
|
T.P. Jones, W.G. Chaloner. Fossil charcoal, its recognition and palaeoatmospheric significance. Palaeogeogr. Palaeoclimatol. Palaeoecol., 97 (1991), pp. 39-50
|
|
A. Kampschulte, H. Strauss. The sulfur isotopic evolution of Phanerozoic seawater based on the analysis of structurally substituted sulfate in carbonates. Chem. Geol., 204 (2004), pp. 255-286
|
|
K.D. Kelley, J.J. Wilkinson, J.B. Chapman, H.L. Crowther, D.J. Weiss. Zinc isotopes in sphalerite from base metal deposits in the Red Dog district, northern Alaska. Econ. Geol., 104 (6) (2009), pp. 767-773
|
|
D.L. Leach, D.C. Bradley, D. Huston, S.A. Pisarevsky, R.D. Taylor, S.J. Gardoll. Sediment-hosted lead-zinc deposits in Earth history. Econ. Geol., 105 (2010), pp. 593-625
|
|
Leach, D.L., Sangster, D.F., Kelley, K.D., Large, R.R., Garven, G., Allen, C.R., Gatzmer, J., Wallters, S., 2005. Sediment-hosted lead-zink deposit: A global perspective. Economic Geology 100th Anniversary Volume, 561-607.
|
|
D.L. Leach, Y.C. Song, Z.Q. Hou. The world-class JinDing Zn-Pb deposit: ore formation in an evaporite dome, Lanping basin, Yunnan, China. Miner. Deposita, 52 (2016), pp. 1-16
|
|
D.L. Leach, Y. Song. Sediment-hosted zinc-lead and copper deposits in China. Soc. Econ. Geol., Spec. Publ., 22 (2019), pp. 325-409
|
|
R.S. Li, W.H. Ji, Y.C. Yang, P.S. Yu, Z.M. Zhao, S.J. Chen, Y. Meng, X.P. Pan, B.D. Shi, W.J. Zhang, X. Li, C.Y. Luo. Geology of Kunlun Mountains and its adjacent region. Geological Publishing House, Beijing (2008)
|
|
X.H. Li, Y. Liu, X.L. Tu, G.Q. Hu, W. Zeng. Precise determination of chemical compositions in silicate rocks using ICP-AES and ICP-MS: A comparative study of sample digestion technique s of alkali fusion and acid dissolution. Geochimica, 31 (2002), pp. 289-294
|
|
H. Li, X.W. Xu, G. Borg, H. Albert Gilg, L.H. Dong, T.B. Fan, G. Zhou, R.L. Liu, T. Hong, Q. Ke, C. Wu, G. Zhang, H. Li. Geology and Geochemistry of the giant Huoshaoyun zinc-lead deposit, Karakorum Range, northwestern Tibet. Ore Geol. Rev., 106 (2019), pp. 251-272
|
|
H. Li, Q. Ke, H. Li, T. Hong, T.S. Zhao, X.W. Xu. Discovery of 102 Ma gabbro in the Tianshuihai area of Karakorum terrane, and its constraints on regional Mesozoic tectonic evolution. Acta Petrol. Sin., 36 (4) (2020), pp. 1041-1058
|
|
Li, H., 2018. Formation mechanism of the giant Huoshaoyun zinc-lead carbonate deposit, Karakorum Range. PhD thesis, University of Chinese Academy of Sciences (in Chinese with English abstract).
|
|
J.W. Lydon. Volcanogenic massive sulphide deposits—Part 1. A descriptive model. Geosci. Can., 11 (1984), pp. 195-202
|
|
N. Mondillo, M. Boni, G. Balassone, M. Joachimski, A. Mormone. The Jabali nonsulfide Zn-Pb-Ag deposit, western Yemen. Ore Geol. Rev., 61 (2014), pp. 248-267
|
|
N. Mondillo, J.J. Wilkinson, M. Boni, D.J. Weiss, R. Mathur. A global assessment of Zn isotope fractionation in secondary Zn minerals from sulfide and non-sulfide ore deposits and model for fractionation control. Chem. Geol., 500 (2018), pp. 182-193
|
|
Y. Matsuhisa. 18O/16O ratios of NBS-28 and some silicate reference samples. Geochem. J., 8 (2) (1974), pp. 103-107
|
|
N. Mondillo, M. Accardo, M. Boni, A. Boyce, R. Herrington, M. Rumsey, C. Wilkinson. New insights into the genesis of willemite (Zn2SiO4) from zinc nonsulfide deposits, through trace elements and oxygen isotope geochemistry. Ore Geol. Rev., 118 (2020), Article 103307
|
|
Morgan, L.A., 2012. Geophysical characteristics of volcanogenic massive sulfide deposits in volcanogenic massive sulfide occurrence model. U.S. Geological Survey Scientific Investigations Report 2010-5070 -C 7, 16 pp.
|
|
G.T. Pan, J. Ding, D.S. Yao. Geological map of Tibetan Plateau and adjacent areas, scale 1:1500000. Chengdu Map Publishing House, Chengdu (in Chinese) (2004)
|
|
G.T. Pan, L.Q. Wang, R.S. Li, S.H. Yuan, W.H. Ji, F.G. Yin, W.P. Zhang, B.D. Wang. Tectonic evolution of the Qinghai-Tibet plateau. J. Asian Earth Sci., 53 (2012), pp. 3-14
|
|
W.H. Peck, C.A. Rathkopf, R.D. Mathur, P.D. Matt. Stable isotope (C, O, S, and Zn) geochemistry of marble-hosted exhalative zinc deposits in the Central Metasedimentary Belt, Grenville Province, Canada: Insights into ore deposition and tectonic setting. Ore Geol. Rev., 148 (2022), Article 105057
|
|
T. Pettke, F. Oberli, A. Audétat, M. Guillong, A.C. Simon, J.J. Hanley, L.M. Klemm. Recent developments in element concentration and isotope ratio analysis of individual fluid inclusions by laser ablation single and multiple collector ICP-MS. Ore Geol. Rev., 44 (2012), pp. 10-38
|
|
G.B. Qiao, H.D. Zhang, Y.Z. Wu, M.S. Jin, W. Du, X.J. Zhao, D.H. Chen. Petrogenesis of the Dahongliutan monzogranite in western Kunlun: constraints from SHRIMP zircon U-Pb geochronology and geochemical characteristics. Acta Geol. Sin., 07 (2015), pp. 1180-1194
|
|
L. Robb. Introduction to Ore-forming Processes. Blackwell, Malden (2005), p. 373
|
|
R.A. Sainty. Shallow-water stratigraphy at the Mount Chalmers volcanic-hosted massive sulfide deposit, Queensland, Australia. Econ. Geol., 87 (1992), pp. 812-824
|
|
M. Santosh, D.I. Groves. Global metallogeny in relation to secular evolution of the Earth and supercontinent cycles. Gondwana Res., 107 (2022), pp. 395-422
|
|
A.C. Scott. Charcoal recognition, taphonomy and uses in palaeoenvironmental analysis. Palaeogeogr. Palaeoclimatol. Palaeoecol., 291 (2010), pp. 11-39
|
|
Y.C. Song, Z.Q. Hou, Y.C. Liu, R.H. Zhang. Mississippi Valley-Type (MVT) Pb-Zn deposits in the Tethyan domain: a review. Geol. China, 44 (4) (2017), pp. 664-689
|
|
M.S. Spurlin, A. Yin, B.K. Horton, J. Zhou, J. Wang. Structural evolution of the Yushu-Nangqian region and its relationship to syncollisional igneous activity, east-central Tibet. Geol. Soc. Am. Bull., 117 (9–10) (2005), pp. 1293-1317
|
|
J.L. Tang, H. Li, K.B. Tan, Q. Ke, L.H. Dong, X.W. Xu. Ore-bearing strata of lead-zinc deposits in the Linjitang Basin of Karakorum in a marine sedimentary environment: Constraints from trace elements in limestone and sulfur isotope of gypsum in Jurassic. Geol. Explor., 56 (6) (2020), pp. 1134-1142
|
|
F. Tornos, J.M. Peter, R. Allen, C. Conde. Controls on the siting and style of volcanogenic massive sulphide deposits. Ore Geol. Rev., 68 (2015), pp. 142-163
|
|
A. Vho, P. Lanari, D. Rubatto. An internally-consistent database for oxygen isotope fractionation between minerals. J. Petrol., 60 (11) (2019), pp. 2101-2129
|
|
Wan, J.L., Li, S.W., 2011. Summary report of resource potential evaluation in Bilongtan Area, Hotan Region, Xinjiang. The 8th Geological Brigade of Xinjiang Bureau of Geology and Mineral Resources, 1-41 pp (in Chinese).
|
|
X.P. Wei, H. Wang, J. Hu, S.L. Mu, Z.W. Qiu, Q.H. Yan, P. Li. Geochemistry and geochronology of the Dahongliutan two-mica granite pluton in western Kunlun orogen. Geotectonic Implications, 46 (01) (2017), pp. 66-80
|
|
J.J. Wilkinson. Sediment-Hosted Zinc-Lead Mineralization: Processes and Perspectives. H.D. Holland, K.K. Turekian (Eds.), Treatise on Geochemistry (second ed.), Elsevier, Oxford (2014), pp. 219-249
|
|
Z.Y. Wu, Y.C. Song, Z.Q. Hou, Y.C. Liu, L.L. Zhuang. The world-class Huoshaoyun nonsulfide zinc-lead deposit, Xinjiang, NW China: Formation by supergene oxidization of a Mississippi Valley-Type Deposit. Earth Sci., 44 (06) (2018), pp. 1987-1997
|
|
X.W. Xu, S.G. Peter, G.H. Liang, B.L. Zhang. Elastic stress transmission and transformation (ESTT) by confined liquid: A new mechanics for fracture in elastic lithosphere of the earth. Tectonophysics, 672–673 (2016), pp. 129-138
|
|
X.W. Xu, M.G. Zhai, T. Hong, Y.C. Ma, J.H. Guo. Migration-circulation processes and enrichment-mineralization mechanism of lithium-beryllium elements in the continental crust. Acta Petrol. Sin., 39 (3) (2023), pp. 639-658
|
|
Y.H. Yang, X.C. Zhang, S.A. Liu, T. Zhou, H.F. Fan, H.M. Yu, W.H. Cheng, F. Huang. Calibrating NIST SRM 683 as a new international reference standard for Zn isotopes. J. Anal. At. Spectrom, 33 (10) (2018), pp. 1777-1783
|
|
H.R. Zhang, Q.Q. Hou, Z.M. Yang. Metallogenesis and geodynamics of Tethyan metallogenic domain: A review. Miner. Depos., 29 (1) (2010), pp. 113-121
|
|
B.W. Zhang, C. Su, H.Q. Feng, W.L. Ren. Geochronology, geochemistry and tectonic background of the Huangyanggou diorite porphyrite, Tianshuihai, West Kunlun. J. Jilin Univ. (Earth Sci. Ed.), 52 (5) (2022), pp. 1575-1593
|
|
Y.F. Zheng. Oxygen isotope fractionation in carbonate and sulfate minerals. Geochem. J., 33 (2) (1999), pp. 109-126
|
|
N.W. Zhou, B.X. Chen, Z.F. Deng, M.S. Sang, Q.J. Bai. Discovery and significance of Early Jurassic bimodal volcanic rocks in Huoshaoyun, Karakorum. Geoscience, 33 (5) (2019), pp. 990-1002
|
|
J. Zhou, Y. Ren. Geochemical quantitative prediction of lead-zinc resources in Chalukou-Tianshuihai area of West Kunlun Mountains, Xinjiang. Geophys. Geochem. Exploration, 38 (2014), pp. 220-226
|
|
R.A. Zierenberg, W.A. Shanks, W.E. Seyfried, R.A. Koski, D. Striclde. Mineralization, alteration, and hydrothermal metamorphism of the ophiolite-host Teurner Albright sulfide deposit, southwestern Oregon. J. Geophys. Res., 93 (B5) (1988), pp. 4657-4674
|
|
A. Zindler, S. Hart. Chemical geodynamics. Annu. Rev. Earth Planet. Sci., 14 (1) (1986), pp. 493-571
|
/
| 〈 |
|
〉 |
AI Summary
