A modified genetic model for the Huangshandong magmatic sulfide deposit in the Central Asian Orogenic Belt, Xinjiang, western China
详细信息 查看全文
- 作者:Ya-Jing Mao ; Ke-Zhang Qin ; Chusi Li ; Dong-Mei Tang
- 关键词:Magmatic sulfide deposit ; Nickel ; Copper ; Platinum group elements ; Mafic–ultramafic rocks ; Huangshandong ; Central Asian Orogenic Belt ; China
- 刊名:Mineralium Deposita
- 出版年:2015
- 出版时间:January 2015
- 年:2015
- 卷:50
- 期:1
- 页码:65-82
- 全文大小:2,964 KB
- 参考文献:1. Anders E, Grevesse N (1989) Abundances of the elements: meteoritic and solar. Geochim Cosmochim Acta 53:197-14 CrossRef
2. Asimow PD, Ghiorso MS (1998) Algorithmic modifications extending MELTS to calculate subsolidus phase relations. Am Mineral 83:1127-132
3. Barnes S-J, Lightfoot P (2005) Formation of magmatic nickel-sulfide ore deposits and processes affecting their copper and platinum-group element contents. In: Hedenquist JW, Thompson JFH, Goldfarb RJ, Richards JP (eds) Economic geology 100th anniversary volume. pp 179-13
4. Barnes S-J, Maier W (1999) The fractionation of Ni, Cu and the noble metals in silicate and sulphide liquids. Geol Assoc Can Short Course Notes 13:69-06
5. Barnes SJ, Roeder PL (2001) The range of spinel compositions in terrestrial mafic and ultramafic rocks. J Petrol 42:2279-302 CrossRef
6. Boudreau A, Djon L, Tchalikian A, Corkery J (2014) The effect of variable Greenschist alteration on the offset zone of the Lac Des Iles Pd Deposit, Ontario, Canada. Part I. Miner Deposita. doi:10.1007/s00126-014-0510-y
7. Branquet Y, Gumiaux C, Sizaret S, Barbanson L, Wang B, Cluzel D, Li GR, Delaunay A (2012) Synkinematic mafic/ultramafic sheeted intrusions: emplacement mechanism and strain restoration of the Permian Huangshan Ni–Cu ore belt (Eastern Tianshan, NW China). J Asian Earth Sci 56:240-57 CrossRef
8. Campbell IH, Naldrett AJ (1979) The influence of silicate: sulfide ratios on the geochemistry of magmatic sulfides. Econ Geol 74:1503-506 CrossRef
9. Chen XJ, Shu LS, Santosh M (2011) Late Paleozoic post-collisional magmatism in the Eastern Tianshan Belt, Northwest China: new insights from geochemistry, geochronology and petrology of bimodal volcanic rocks. Lithos 127:581-98 CrossRef
10. Deng Y-F, Song X-Y, Chen L-M, Zhou T, Pirajno F, Yuan F, Xie W, Zhang D (2014) Geochemistry of the Huangshandong Ni–Cu deposit in northwestern China: implications for the formation of magmatic sulfide mineralization in orogenic belts. Ore Geol Rev 56:181-98 CrossRef
11. Fan W, Zhang C, Wang Y, Guo F, Peng T (2008) Geochronology and geochemistry of Permian basalts in western Guangxi Province, Southwest China: evidence for plume-lithosphere interaction. Lithos 102:218-36 CrossRef
12. Gao J-F, Zhou M-F (2013) Generation and evolution of siliceous high magnesium basaltic magmas in the formation of the Permian Huangshandong intrusion (Xinjiang, NW China). Lithos 162:128-39 CrossRef
13. Gao J-F, Zhou M-F, Lightfoot PC, Wang CY, Qi L, Sun M (2013) Sulfide saturation and magma emplacement in the formation of the Permian Huangshandong Ni–Cu sulfide deposit, Xinjiang, Northwestern China. Econ Geol 108:1833-848 CrossRef
14. Ghiorso MS, Sack RO (1995) Chemical mass transfer in magmatic processes IV. A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid–solid equilibria in magmatic systems at elevated temperatures and pressures. Contrib Mineral Petr 119:197-12 CrossRef
15. Ghiorso MS, Hirschmann MM, Reiner PW, Kress VC (2002) The pMELTS: a revision of MELTS for improved calculation of phase relations and major element partitioning related to partial melting of the mantle to 3 GPa. Geochem, Geophys, Geosys 3:1-5 CrossRef
16. Han BF, Ji JQ, Song B, Chen LH, Li Z (2004) SHRIMP zircon U–Pb ages of Kalatongke No. 1 and Huangshandong Cu–Ni-bearing mafic–ultramafic complexes, North Xinjiang, and geological implications. Chin Sci Bull 49:2424-429- 刊物类别:Earth and Environmental Science
- 刊物主题:Earth sciences
Geology
Mineral Resources
Mineralogy- 出版者:Springer Berlin / Heidelberg
- ISSN:1432-1866
文摘
The Huangshandong Ni–Cu deposit is the largest magmatic sulfide deposit discovered to date in the Central Asian Orogenic Belt in northern Xinjiang, western China. The host intrusion is a 274-Ma composite mafic–ultramafic intrusion consisting of four separate intrusive units: a large layered gabbroic sequence (phase I), a sheet-like ultramafic body (phase II), a dyke-like gabbronorite body (phase III), and an irregular ultramafic unit (phase IV). Important sulfide mineralization is present in the last three intrusive units, predominantly as disseminated and net-textured sulfides (pyrrhotite, pentlandite, and chalcopyrite). The Huangshandong mafic–ultramafic intrusive rocks are characterized by arc-like geochemical signatures such as low Ca content in olivine and negative Nb–Ta anomalies in whole rocks. This, together with a post-subduction setting for the East Tianshan in the Permian, suggests that the source mantle was modified previously by slab-derived fluids in the Carboniferous. The mantle-derived magma was ponded in a staging chamber in the lower part of the newly formed arc crust. The first batch of magma to arrive at Huangshandong was most fractionated and depleted in Ni, crystallizing Fe-rich and Ni-depleted olivine (Fo67, 81-4). The third batch of magma was also highly fractionated and depleted in Ni, crystallizing Fe-rich and Ni-depleted olivine (Fo72, ~600?ppm Ni). The final batch of magma became more primitive again, crystallizing the most primitive olivine (Fo81-6). The occurrence of rounded sulfide inclusions in olivine primocrysts in the Huangshandong ultramafic rocks indicates that immiscible sulfide liquid droplets were present during olivine crystallization. The Ni tenors of disseminated sulfide ores in the gabbronorite dyke vary mainly between 5 and 8?wt%, which are too high to have been produced by the parental magma of the dyke. The Ni, Cu, and platinum-group elements (PGE) tenors of disseminated sulfide ores in the dyke (phase III) and the ultramafic sheet (phase II) are remarkably similar. These observations, together with the sequence of magma emplacement, suggest that the sulfide liquids entrapped in the magma of the dyke formed at depth by a previous pulse of more primitive magma. The estimated parental magma for the most primitive lherzolites in the Huangshandong intrusion contains 10?wt% MgO. Modeling shows that sulfide saturation in the parental magma of the Huangshandong lherzolites could have resulted from fractional crystallization. Significant PGE depletions relative to Ni and Cu in the disseminated sulfide ores of the Huangshandong deposit may be due to sulfide retention in the source mantle.