Li, Liang, Sun, Fengyue, Liu, Huiwen, Tan, Shucheng, Yu, Lu, Wang, Fei, Shen, Dali, Wang, Xueping, Wang, Yonggang (2020) Mineral Chemistry, S-Pb-O Isotopes, and S/Se Ratios of the Niubiziliang Ni-(Cu) Sulfide Deposit in North Qaidam Orogenic Belt, NW China: Constraints on the Parental Magma Composition, Evolution, and Sulfur Saturation Mechanism. Minerals, 10 (10) 837 doi:10.3390/min10100837

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	Lv (2007) Acta Petrol. Sin. Temporal-spatial distribution and geodynamic setting of magmatic Ni-Cu-(PGE) sulfide deposits in China 23, 2561
	Lightfoot, P. C., Hawkesworth, C. J., Hergt, J., Naldrett, A. J., Gorbachev, N. S., Fedorenko, V. A., Doherty, W. (1993) Remobilisation of the continental lithosphere by a mantle plume: major-, trace-element, and Sr-, Nd-, and Pb-isotope evidence from picritic and tholeiitic lavas of the Noril'sk District, Siberian Trap, Russia. Contributions to Mineralogy and Petrology, 114 (2) 171-188 doi:10.1007/bf00307754
	Naldrett, A. J. (1999) World-class Ni-Cu-PGE deposits: key factors in their genesis. Mineralium Deposita, 34 (3) 227-240 doi:10.1007/s001260050200
	Li, C. (2000) Melting Reactions of Gneissic Inclusions with Enclosing Magma at Voisey's Bay, Labrador, Canada: Implications with Respect to Ore Genesis. Economic Geology, 95 (4) 801-814 doi:10.2113/95.4.801
	Lehmann, J., Arndt, N., Windley, B., Zhou, M.-F., Wang, C. Y., Harris, C. (2007) Field Relationships and Geochemical Constraints on the Emplacement of the Jinchuan Intrusion and its Ni-Cu-PGE Sulfide Deposit, Gansu, China. Economic Geology, 102 (1) 75-94 doi:10.2113/gsecongeo.102.1.75
	Wu, Fu-yuan, Wilde, Simon A., Zhang, Guang-liang, Sun, De-you (2004) Geochronology and petrogenesis of the post-orogenic Cu–Ni sulfide-bearing mafic–ultramafic complexes in Jilin Province, NE China. Journal of Asian Earth Sciences, 23 (5) 781-797 doi:10.1016/s1367-9120(03)00114-7
	Tang (2012) Northwest. Geol. The new exploration of magmatic mineralization: Small intrusion mineralization and geological prospecting breakthrough 45, 1
	Li (2011) Rev. Econ. Geol. The giant Jinchuan Ni-Cu-(PGE) deposit: Tectonic setting, magma evolution, ore genesis and exploration implications 17, 163
	Iacono-Marziano, Giada, Ferraina, Clément, Gaillard, Fabrice, Di Carlo, Ida, Arndt, Nicholas T. (2017) Assimilation of sulfate and carbonaceous rocks: Experimental study, thermodynamic modeling and application to the Noril’sk-Talnakh region (Russia) Ore Geology Reviews, 90. 399-413 doi:10.1016/j.oregeorev.2017.04.027
	Li, C., Naldrett, A. J. (1993) Sulfide capacity of magma; a quantitative model and its application to the formation of sulfide ores at Sudbury, Ontario. Economic Geology, 88 (5) 1253-1260 doi:10.2113/gsecongeo.88.5.1253
	Zhao (2012) Northwest. Geol. The copper-nickle mine features of Niubiziliang in north-west margin of Chaidamu Basin, and discoverable significance 45, 202
	Zhao (2012) J. Earth Sci. Environ. Geological feature and genesis of Niubiziliang Cu-Ni sulphide deposit in the northern margin of Qaidam Block 34, 12
	Ling (2014) Acta Petrol. Sin. Petrogenesis and mineralization of Niubiziliang mafic-ultramafic intrusion in the northern margin of Qaidam Block, NW China 30, 1628
	Ling (2014) Geol. Explor. Platinum-group elements and Re-Os isotopic characters of the Niubiziliang Ni-Cu deposit in the northern margin of the Qaidam Block, Northwest China 50, 138
	Qian (2015) Geol. China Zircon U-Pb geochronology of Niubiziliang mafic-ultramafic intrusion on the northwest margin of Qaidam Basin, Qinghai 42, 482
	Yu, Lu, Sun, Fengyue, Li, Liang, Li, Bile, Peng, Bo, Xu, Chenghan, Li, Ruihua, Wang, Fei, Shen, Dali (2019) Geochronology, geochemistry, and Sr–Nd–Hf isotopic compositions of mafic–ultramafic intrusions in the Niubiziliang Ni–(Cu) sulfide deposit, North Qaidam Orogenic Belt, NW China: Implications for magmatic source, geodynamic setting, and petrogenesis. Lithos, 326. 158-173 doi:10.1016/j.lithos.2018.12.027
	Ni (2008) J. Guilin Univ. Technol. Structural features of the Altun Mountain and its fault systems during Mesozoic and Cenozoic 28, 295
	Wang (2017) Glob. Geol. Zircon U-Pb geochronology and geochemistry of Niubiziliang granodiorite in northern margin of Qaidam Basin 36, 93
	Li (2017) Acta Geol. Sin. U-Pb dating, geochemistry, and Hf isotopic compositions of diorite from the Niubiziliang Ni-(Cu) deposit in Qinghai Province 91, 2273
	Sun (2019)
	Jiang (2016) Glob. Geol. Geochronology, geochemistry and Hf isotope of monzogranite in Niubiziliang of Qinghai 19, 153
	()
	Dick, Henry J. B., Bullen, Thomas (1984) Chromian spinel as a petrogenetic indicator in abyssal and alpine-type peridotites and spatially associated lavas. Contributions to Mineralogy and Petrology, 86 (1) 54-76 doi:10.1007/bf00373711
	()
	Lv (2012) Acta Petrol. Sin. Mineral chemistry of ore-bearing ultramafic rocks from the Hongqiling No. 1 and 7 intrusions in Jilin University: Constraints on the magmatic processes and the metallogenesis of Ni-Cu sulfide deposits 28, 319
	Chen (2009) Acta Petrol. Sin. Correlation between Ni and MgO contents of olivine in Segment I of the Jinchuan intrusion, NW China, and its geological implication 25, 3369
	Morimoto, N., Fabries, J., Ferguson, A. K., Ginzburg, I. V., Ross, M., Seifert, F. A., Zussman, J., Aoki, K., Gottardi, G. (1988) Nomenclature of Pyroxenes. Mineralogical Magazine, 52 (367) 535-550 doi:10.1180/minmag.1988.052.367.15
	Qiu (1996) Volcanol. Miner. Resour. Petrogenesis and Cpx mineral chemistry of Cenozoic basalts from Zhejiang and Fujian of Eastern China 17, 16
	Parsons, I. (2010) Feldspars defined and described: a pair of posters published by the Mineralogical Society. Sources and supporting information. Mineralogical Magazine, 74 (3) 529-551 doi:10.1180/minmag.2010.074.3.529
	Leake (1997) Int. Conf. Form. Concept Anal. Nomenclature of amphiboles: Report of the subcommittee on amphiboles of the international mineralogical association commission on new minerals and mineral names 4390, 181
	Jiang (1984) Miner. Petrol. On chemical characteristics of calcic amphiboles from igneous rocks and their petrogenesis significance 3, 1
	Not Yet Imported: Earth Science Frontiers - journal-article : 10.1016/S1872-5791(07)60041-4 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 18894
	Zartman, R.E., Doe, B.R. (1981) Plumbotectonics—the model. Tectonophysics, 75 (1) 135-162 doi:10.1016/0040-1951(81)90213-4
	Smith, Jennifer W., Holwell, David A., McDonald, Iain, Boyce, Adrian J. (2016) The application of S isotopes and S/Se ratios in determining ore-forming processes of magmatic Ni–Cu–PGE sulfide deposits: A cautionary case study from the northern Bushveld Complex. Ore Geology Reviews, 73. 148-174 doi:10.1016/j.oregeorev.2015.10.022
	Roeder, P. L., Emslie, R. F. (1970) Olivine-liquid equilibrium. Contributions to Mineralogy and Petrology, 29 (4) 275-289 doi:10.1007/bf00371276
	Ross, J. R., Travis, G. A. (1981) The nickel sulfide deposits of Western Australia in global perspective. Economic Geology, 76 (6) 1291-1329 doi:10.2113/gsecongeo.76.6.1291
	Zhang (2003) J. Jilin Univ. (Earth Sci. Ed.) A method for identifying primary magma—Examples from picrite and alkali basalts 33, 130
	Chen (2009) Acta Geol. Sin. Parental magma composition of the Jinchuan intrusion, Gansu Province and MELTS thermodynamic modelling of fractional crystallization 83, 1302
	Li, Chusi, Zhang, Zhaowei, Li, Wenyuan, Wang, Yalei, Sun, Tao, Ripley, Edward M. (2015) Geochronology, petrology and Hf–S isotope geochemistry of the newly-discovered Xiarihamu magmatic Ni–Cu sulfide deposit in the Qinghai–Tibet plateau, western China. Lithos, 216. 224-240 doi:10.1016/j.lithos.2015.01.003
	Tao (2002) Acta Petrol. Sin. Inversion of primary magma composition for Jinbaoshan ultramafic intrusion, Yunnan 18, 70
	Sato, Hiroaki (1977) Nickel content of basaltic magmas: identification of primary magmas and a measure of the degree of olivine fractionation. Lithos, 10 (2) 113-120 doi:10.1016/0024-4937(77)90037-8
	Qiu (1986) , 140
	Simkin, Tom, Smith, J. V. (1970) Minor-Element Distribution in Olivine. The Journal of Geology, 78 (3) 304-325 doi:10.1086/627519
	Putirka, K. D. (2008, January 1st) Thermometers and Barometers for Volcanic Systems. Reviews in Mineralogy and Geochemistry Vol. 69. Mineralogical Society of America p.61-120. doi:10.2138/rmg.2008.69.3
	Mercier, Jean -Claude C., Benoit, Vincent, Girardeau, Jacques (1984) Equilibrium state of diopside-bearing harzburgites from ophiolites: Geobarometric and geodynamic implications. Contributions to Mineralogy and Petrology, 85 (4) 391-403 doi:10.1007/bf01150295
	Papike (1974) Geol. Soc. Am. Abstr. Programs Amphiboles and pyroxenes: Characterization of other than quadrilateral components and estimates of ferric iron from microprobe data 6, 1053
	Bagiński, B., Dzierżanowski, P., Macdonald, R., Upton, B. G. J. (2009) Complex relationships among coexisting pyroxenes: the Palaeogene Eskdalemuir dyke, Scotland. Mineralogical Magazine, 73 (6) 929-942 doi:10.1180/minmag.2009.073.6.929
	Ridolfi, Filippo, Renzulli, Alberto, Puerini, Matteo (2010) Stability and chemical equilibrium of amphibole in calc-alkaline magmas: an overview, new thermobarometric formulations and application to subduction-related volcanoes. Contributions to Mineralogy and Petrology, 160 (1) 45-66 doi:10.1007/s00410-009-0465-7
	FREY, F. A., GREEN, D. H., ROY, S. D. (1978) Integrated Models of Basalt Petrogenesis: A Study of Quartz Tholeiites to Olivine Melilitites from South Eastern Australia Utilizing Geochemical and Experimental Petrological Data. Journal of Petrology, 19 (3) 463-513 doi:10.1093/petrology/19.3.463
	Green, D. H. (1975) Genesis of Archean Peridotitic Magmas and Constraints on Archean Geothermal Gradients and Tectonics. Geology, 3 (1) 15 doi:10.1130/0091-7613(1975)3<15:goapma>2.0.co;2
	SPATH, A. (2001) Plume-Lithosphere Interaction and the Origin of Continental Rift-related Alkaline Volcanism--the Chyulu Hills Volcanic Province, Southern Kenya. Journal of Petrology, 42 (4) 765-787 doi:10.1093/petrology/42.4.765
	Ni (1991) Geol. Sci. Technol. Inf. Several recently proposed geothermometers 10, 7
	DePaolo, Donald J. (1981) Trace element and isotopic effects of combined wallrock assimilation and fractional crystallization. Earth and Planetary Science Letters, 53 (2) 189-202 doi:10.1016/0012-821x(81)90153-9
	Peng, Bo, Sun, Fengyue, Li, Bile, Wang, Guan, Li, Shijin, Zhao, Tuofei, Li, Liang, Zhi, Yubo (2016) The geochemistry and geochronology of the Xiarihamu II mafic–ultramafic complex, Eastern Kunlun, Qinghai Province, China: Implications for the genesis of magmatic Ni–Cu sulfide deposits. Ore Geology Reviews, 73. 13-28 doi:10.1016/j.oregeorev.2015.10.014
	Mir, Akhtar R., Alvi, Shabber H., Balaram, V. (2011) Geochemistry of the mafic dykes in parts of the Singhbhum granitoid complex: petrogenesis and tectonic setting. Arabian Journal of Geosciences, 4 (5) 933-943 doi:10.1007/s12517-010-0121-6
	Peck (1990) Can. Mineral. Insights into the behaviour of precious metals in primitive, S-undersaturated magmas: Evidence from the Heazlewood River Complex, Tasmania 28, 553
	Queffurus, Matthias, Barnes, Sarah-Jane (2015) A review of sulfur to selenium ratios in magmatic nickel–copper and platinum-group element deposits. Ore Geology Reviews, 69. 301-324 doi:10.1016/j.oregeorev.2015.02.019
	Eckstrand (1986) Volume 11, 1
	Yamamoto, M. (1976) Relationship between Se/S and sulfur isotope ratios of hydrothermal sulfide minerals. Mineralium Deposita, 11 (2) doi:10.1007/bf00204481
	Foster, Jeffrey G., Lambert, David D., Frick, Louise R., Maas, Roland (1996) Re–Os isotopic evidence for genesis of Archaean nickel ores from uncontaminated komatiites. Nature, 382 (6593). 703-706 doi:10.1038/382703a0
	Yang (2005) Sci. China (Ser. D) Re-Os (ICP-MS) dating of the mass ores in Jinchuan Cu-Ni-Pt deposit 35, 241
	Mao (2002) Miner. Depos. Re-Os dating of Cu-Ni sulfide ores from Huangshandong deposit in Xinjiang and Its geodynamic significance 21, 323
	Hart, Stanley R., Davis, Karleen E. (1978) Nickel partitioning between olivine and silicate melt. Earth and Planetary Science Letters, 40 (2) 203-219 doi:10.1016/0012-821x(78)90091-2
	Shima, H., Naldrett, A. J. (1975) Solubility of sulfur in an ultramafic melt and the relevance of the system Fe-S-O. Economic Geology, 70 (5) 960-967 doi:10.2113/gsecongeo.70.5.960
	Wendlandt (1982) Am. Mineral. Sulfide saturation of basalt and andesite melts at high pressures and temperatures 67, 877
	Mavrogenes, John A, O’Neill, Hugh St.C (1999) The relative effects of pressure, temperature and oxygen fugacity on the solubility of sulfide in mafic magmas. Geochimica et Cosmochimica Acta, 63 (7) 1173-1180 doi:10.1016/s0016-7037(98)00289-0
	Maier (1998) S. Afr. J. Geol. Exploration for magmatic Ni-Cu-PGE sulphide deposits: A review of recent advances in the use of geochemical tools, and their application to some South African ores 101, 237
	LAMBERT, D. D., WALKER, R. J., MORGAN, J. W., SHIREY, S. B., CARLSON, R. W., ZIENTEK, M. L., LIPIN, B. R., KOSKI, M. S., COOPER, R. L. (1994) Re--Os and Sm--Nd Isotope Geochemistry of the Stillwater Complex, Montana: Implications for the Petrogenesis of the J-M Reef. Journal of Petrology, 35 (6) 1717-1753 doi:10.1093/petrology/35.6.1717

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