Comparative geochemical study of scheelite from the Shizhuyuan and Xianglushan tungsten skarn deposits, South China: Implications for scheelite mineralization
暂无分享,去创建一个
Wei-dong Sun | Zhengfu Zhao | J. Mao | T. Ireland | Shenghua Wu | F. Yao | Yuping Yang
[1] Wei-dong Sun,et al. A new model for porphyry W mineralization in a world-class tungsten metallogenic belt , 2019, Ore Geology Reviews.
[2] A. Williams-Jones,et al. Constraints on the uptake of REE by scheelite in the Baoshan tungsten skarn deposit, South China , 2018 .
[3] J. Mao,et al. Multiple dating and tectonic setting of the Early Cretaceous Xianglushan W deposit, Jiangxi Province, South China , 2017 .
[4] F. Pirajno,et al. Molybdenite Re/Os dating, zircon U–Pb age and geochemistry of granitoids in the Yangchuling porphyry W–Mo deposit (Jiangnan tungsten ore belt), China: implications for petrogenesis, mineralization and geodynamic setting , 2017 .
[5] Wei-dong Sun,et al. Oxygen fugacity and porphyry mineralization: A zircon perspective of Dexing porphyry Cu deposit, China , 2017 .
[6] Bin Chen,et al. Trace elements and Sr-Nd isotopes of scheelite: Implications for the W-Cu-Mo polymetallic mineralization of the Shimensi deposit, South China , 2017 .
[7] K. Kouzmanov,et al. Sulfide Minerals in Hydrothermal Deposits , 2017 .
[8] Shunda Yuan,et al. Mineralogy, fluid inclusion petrography, and stable isotope geochemistry of Pb–Zn–Ag veins at the Shizhuyuan deposit, Hunan Province, southeastern China , 2017, Mineralium Deposita.
[9] Chen Chen,et al. Generation of Late Mesozoic Qianlishan A 2 -type granite in Nanling Range, South China: Implications for Shizhuyuan W-Sn mineralization and tectonic evolution , 2016 .
[10] Hui Zhang,et al. Lanthanide tetrads in normalized rare element patterns of zircon from the Koktokay No. 3 granitic pegmatite, Altay, NW China , 2015 .
[11] M. Novák,et al. Sc- and REE-rich tourmaline replaced by Sc-rich REE-bearing epidote-group mineral from the mixed (NYF+LCT) Kracovice pegmatite (Moldanubian Zone, Czech Republic) , 2015 .
[12] M. Marks,et al. Equilibrium partitioning and subsequent re-distribution of halogens among apatite-biotite-amphibole assemblages from mantle-derived plutonic rocks: Complexities revealed , 2015 .
[13] Wei-dong Sun,et al. Porphyry deposits and oxidized magmas , 2015 .
[14] F. Gaillard,et al. Transport of metals and sulphur in magmas by flotation of sulphide melt on vapour bubbles , 2015 .
[15] Youxue Zhang. Toward a quantitative model for the formation of gravitational magmatic sulfide deposits , 2015 .
[16] Zhiqiang Wang,et al. Origin of the fluorine-rich highly differentiated granites from the Qianlishan composite plutons (South China) and implications for polymetallic mineralization , 2014 .
[17] S. Sparks,et al. Generation of porphyry copper deposits by gas–brine reaction in volcanic arcs , 2014 .
[18] N. Evans,et al. Scheelite elemental and isotopic signatures: Implications for the genesis of skarn-type W-Mo deposits in the Chizhou Area, Anhui Province, Eastern China , 2014 .
[19] D. He,et al. Tectonics of South China continent and its implications , 2013, Science China Earth Sciences.
[20] Shunda Yuan,et al. Geology and molybdenite Re-Os age of the Dahutang granite-related veinlets-disseminated tungsten ore field in the Jiangxin Province, China , 2013 .
[21] Mao Jingwen,et al. Major types and time–space distribution of Mesozoic ore deposits in South China and their geodynamic settings , 2013, Mineralium Deposita.
[22] H. Keppler,et al. The mobility of W and Mo in subduction zone fluids and the Mo–W–Th–U systematics of island arc magmas , 2012 .
[23] W. Fan,et al. Mesozoic large scale magmatism and mineralization in South China: Preface , 2012 .
[24] Zongfeng Yang. Combining Quantitative Textural and Geochemical Studies to Understand the Solidification Processes of a Granite Porphyry: Shanggusi, East Qinling, China , 2012 .
[25] Mlr Key,et al. Fluid inclusion study of Pb-Zn deposits in Chaishan-Shexingping area of Dongpo,Hunan Province , 2012 .
[26] F. Pirajno,et al. Mesozoic metallogeny in East China and corresponding geodynamic settings — An introduction to the special issue , 2011 .
[27] W. Fan,et al. Mesozoic large magmatic events and mineralization in SE China: oblique subduction of the Pacific plate , 2011 .
[28] Z. Bao,et al. A peculiar composite M- and W-type REE tetrad effect: Evidence from the Shuiquangou alkaline syenite complex, Hebei Province, China , 2010 .
[29] Jeremy P. Richards,et al. Postsubduction porphyry Cu-Au and epithermal Au deposits: Products of remelting of subduction-modified lithosphere , 2009 .
[30] I. Chou,et al. The structure and stability of aqueous rare-earth elements in hydrothermal fluids: New results on neodymium(III) aqua and chloroaqua complexes in aqueous solutions to 500 °C and 520 MPa , 2009 .
[31] Zhang Yueqiao. Early Paleozoic orogenic belt in the eastern segment of South China , 2008 .
[32] Chen Yu-chuan,et al. Spatial-Temporal Distribution of Mesozoic Ore Deposits in South China and Their Metallogenic Settings , 2008 .
[33] WU Sheng-hua. Discovery and significance of scheelite orebodies in the Zhaishang gold deposit,southern Gansu , 2008 .
[34] X. Lei. Early Yanshanian NE Trending Sn/W-Bearing A-Type Granites in the Western-Middle Part of the Nanling Mts Region , 2008 .
[35] R. Moretti,et al. REE in skarn systems: A LA-ICP-MS study of garnets from the Crown Jewel gold deposit , 2008 .
[36] C. Yuan,et al. U-Pb zircon, geochemical and Sr-Nd-Hf isotopic constraints on age and origin of Jurassic I- and A-type granites from central Guangdong, SE China: A major igneous event in response to foundering of a subducted flat-slab? , 2007 .
[37] Mao Jing. Large-scale tungsten-tin mineralization in the Nanling region,South China:Metallogenic ages and corresponding geodynamic processes. , 2007 .
[38] Lours RclMslur,et al. REE fractionation between scheelite and apatite in hydrothermal conditions , 2007 .
[39] J. J. Pepmn. Structural and chemical variations in pyroxenes , 2007 .
[40] A. Du,et al. Precise molybdenite Re–Os and mica Ar–Ar dating of the Mesozoic Yaogangxian tungsten deposit, central Nanling district, South China , 2006 .
[41] K. Zhao,et al. Petrogenesis of Late Jurassic Qianlishan granites and mafic dykes, Southeast China: implications for a back-arc extension setting , 2006, Geological Magazine.
[42] Shu Liangshu. Principal Geological Features of Nanling Tectonic Belt, South China , 2006 .
[43] T. Pettke,et al. Magmatic-to-hydrothermal crystallization in the W–Sn mineralized Mole Granite (NSW, Australia): Part II: Evolving zircon and thorite trace element chemistry , 2005 .
[44] D. Henry,et al. The Ti-saturation surface for low-to-medium pressure metapelitic biotites: Implications for geothermometry and Ti-substitution mechanisms , 2005 .
[45] Zhong Yu-fang,et al. SHRIMP U-Pb Zircon Geochronology of the Jiuling Granitic Complex Batholith in Jiangxi Province , 2005 .
[46] Jianjun Lu,et al. Trace and rare-earth element geochemistry in tourmaline and cassiterite from the Yunlong tin deposit, Yunnan, China: implication for migmatitic-hydrothermal fluid evolution and ore genesis , 2004 .
[47] A. Stefánsson,et al. Magmatic vapor contraction and the transport of gold from the porphyry environment to epithermal ore deposits , 2004 .
[48] Y. Liu,et al. Precise Sm–Nd and U–Pb isotopic dating of the supergiant Shizhuyuan polymetallic deposit and its host granite, SE China , 2004, Geological Magazine.
[49] T. Meisel,et al. Boron metasomatism and behaviour of rare earth elements during formation of tourmaline rocks in the eastern Arunta Inlier, central Australia , 2004 .
[50] Youxue Zhang,et al. Solubility of H2O in rhyolitic melts at low pressures and a new empirical model for mixed H2O–CO2 solubility in rhyolitic melts , 2005 .
[51] Huaqi Li,et al. Mineralization and Fluid Inclusion Study of the Shizhuyuan W-Sn-Bi-Mo-F Skarn Deposit, Hunan Province, China , 2003 .
[52] H. Satoh,et al. Formation of Anhydrous and Hydrous Skarn in Cu-Au Ore Deposits by Magmatic Fluids , 2003 .
[53] T. Monecke,et al. Tetrad effect in rare earth element distribution patterns: a method of quantification with application to rock and mineral samples from granite-related rare metal deposits , 2002 .
[54] Youxue Zhang,et al. Bubble growth in rhyolitic melt , 2000 .
[55] R. Fournier. Hydrothermal processes related to movement of fluid from plastic into brittle rock in the magmatic-epithermal environment , 1999 .
[56] I. Campbell,et al. Rare earth element systematics in scheelite from hydrothermal gold deposits in the Kalgoorlie-Norseman region, Western Australia , 1999 .
[57] W. Irber. Quantification of the lanthanide tetrad effect and its correlation with K/Rb, Eu/Eu*, Sr/Eu, Y/Ho, and Zr/Hf of evolving peraluminous granite suites , 1999 .
[58] S. Guggenheim,et al. Nomenclature of the Micas , 1998, Mineralogical Magazine.
[59] A. Pun,et al. Unequilibrated eucrites and the equilibrated Juvinas eucrite: Pyroxene REE systematics and major, minor, and trace element zoning , 1996 .
[60] A. Pun,et al. Ion microprobe investigation of exsolved pyroxenes in cumulate encrites: Determination of selected trace-element partition coefficients , 1995 .
[61] L. Raimbault. GEOLOGY AND GEOCHEMISTRY OF THE QIANLISHAN GRANITE STOCK AND ITS RELATIONSHIP TO POLYMETALLIC TUNGSTEN MINERALIZATION , 1995 .
[62] J. Lowenstern,et al. The role of magmas in the formation of hydrothermal ore deposits , 1994, Nature.
[63] I. Plimer. Strata-bound scheelite in meta-evaporites, Broken Hill, Australia , 1994 .
[64] S. Wood. Experimental determination of the solubility of WO3(s) and the thermodynamic properties of H2WO4(aq) in the range 300–600°C at 1 kbar: Calculation of scheelite solubility , 1992 .
[65] G. Mahood,et al. Evidence for ascent of differentiated liquids in a silicic magma chamber found in a granitic pluton , 1992, Earth and Environmental Science Transactions of the Royal Society of Edinburgh.
[66] M. Bau. Rare-earth element mobility during hydrothermal and metamorphic fluid-rock interaction and the significance of the oxidation state of europium , 1991 .
[67] H. Keppler,et al. Partitioning of Cu, Sn, Mo, W, U, and Th between melt and aqueous fluid in the systems haplogranite-H2O−HCl and haplogranite-H2O−HF , 1991 .
[68] S. Saxena,et al. Thermodynamic properties of andradite and application to skarn with coexisting andradite and hedenbergite , 1991 .
[69] He Qiguang,et al. REE geochemical characteristics of tungsten minerals as a discriminant indicator of genetic types of ore deposits , 1990 .
[70] H. Ohmoto,et al. An evaluation of the solubility of sulfide sulfur in silicate melts from experimental data and natural samples , 1990 .
[71] T. A. Kwak. W-Sn skarn deposits and related metamorphic skarns and granitoids , 1987 .