Formation of Sn-rich granitic magma: a case study of the highly evolved Kafang granite in the Gejiu tin polymetallic ore district, South China

[1]  A. Menzies,et al.  The upper Oligocene San Rafael intrusive complex (Eastern Cordillera, southeast Peru), host of the largest-known high-grade tin deposit , 2021 .

[2]  A. Williams-Jones,et al.  The role of phyllosilicate partial melting in segregating tungsten and tin deposits in W-Sn metallogenic provinces , 2021, Geology.

[3]  R. Sillitoe,et al.  Copper-rich tin deposits , 2021, Mineralium Deposita.

[4]  Shunda Yuan,et al.  Magmatic-hydrothermal tin deposits form in response to efficient tin extraction upon magma degassing , 2021, Geochimica et Cosmochimica Acta.

[5]  R. Goldfarb,et al.  Recognition of a Middle–Late Jurassic arc-related porphyry copper belt along the southeast China coast: Geological characteristics and metallogenic implications , 2021, Geology.

[6]  R. Romer,et al.  External fluids cause alteration and metal redistribution in the granite-hosted Tangziwa Sn Cu deposit, Gejiu district, China , 2020 .

[7]  Wei Zhang,et al.  The effect of magma differentiation and degassing on ore metal enrichment during the formation of the world-class Zhuxi W-Cu skarn deposit: Evidence from U-Pb ages, Hf isotopes and trace elements of zircon, and whole-rock geochemistry , 2020 .

[8]  M. Fiorentini,et al.  New Magmatic Oxybarometer Using Trace Elements in Zircon , 2020 .

[9]  B. Lehmann Formation of tin ore deposits: A reassessment , 2020 .

[10]  Peter A. Cawood,et al.  Building Southeast China in the late Mesozoic: Insights from alternating episodes of shortening and extension along the Lianhuashan fault zone , 2020 .

[11]  Jun Deng,et al.  Biotite in highly evolved granites from the Shimensi W–Cu–Mo polymetallic ore deposit, China: Insights into magma source and evolution , 2019 .

[12]  Long Ren,et al.  Genesis of the Dachang Sn-polymetallic and Baoshan Cu ore deposits, and formation of a Cretaceous Sn-Cu ore belt from southwest China to western Myanmar , 2019, Ore Geology Reviews.

[13]  R. Seltmann,et al.  Characterization of the zircon Ce anomaly for estimation of oxidation state of magmas: a revised Ce/Ce* method , 2019, Mineralogy and Petrology.

[14]  R. Romer,et al.  Protolith-Related Thermal Controls on the Decoupling of Sn and W in Sn-W Metallogenic Provinces: Insights from the Nanling Region, China , 2019, Economic Geology.

[15]  Zhiqiang Wang,et al.  Accessory mineral chemistry as a monitor of petrogenetic and metallogenetic processes: A comparative study of zircon and apatite from Wushan Cu- and Zhuxiling W(Mo)-mineralization-related granitoids , 2019, Ore Geology Reviews.

[16]  Chun-Chieh Hsu,et al.  A 6000-km-long Neo-Tethyan arc system with coherent magmatic flare-ups and lulls in South Asia , 2019, Geology.

[17]  F. Finger,et al.  Application of Ti-in-zircon thermometry to granite studies: problems and possible solutions , 2019, Contributions to Mineralogy and Petrology.

[18]  A. Kemp,et al.  Controls on cassiterite (SnO2) crystallization: Evidence from cathodoluminescence, trace-element chemistry, and geochronology at the Gejiu Tin District , 2019, American Mineralogist.

[19]  Jun Deng,et al.  Source of copper in the giant Shimensi W-Cu-Mo polymetallic deposit, South China: Constraints from chalcopyrite geochemistry and oxygen fugacity of ore-related granites , 2018, Ore Geology Reviews.

[20]  Q. Yang,et al.  An evaluation of precision and accuracy of SIMS oxygen isotope analysis , 2018, Solid Earth Sciences.

[21]  R. Romer,et al.  Tin in granitic melts: The role of melting temperature and protolith composition , 2018, Lithos.

[22]  T. Zhao,et al.  Magmatic-hydrothermal evolution of the Donggou porphyry Mo deposit at the southern margin of the North China Craton: Evidence from chemistry of biotite , 2018 .

[23]  Rongqing Zhang,et al.  The formation of the Late Cretaceous Xishan Sn-W deposit, South China: Geochronological and geochemical perspectives , 2017 .

[24]  J. Mao,et al.  Geochemistry, Sr–Nd–Pb–Hf isotopes systematics and geochronological constrains on petrogenesis of the Xishan A-type granite and associated W–Sn mineralization in Guangdong Province, South China , 2017 .

[25]  Fu-guan Wu,et al.  Highly fractionated granites: Recognition and research , 2017, Science China Earth Sciences.

[26]  P. Liu,et al.  Geodynamic setting of Late Cretaceous Sn–W mineralization in southeastern Yunnan and northeastern Vietnam , 2016 .

[27]  Yong‐Fei Zheng,et al.  Distinction between S-type and peraluminous I-type granites: Zircon versus whole-rock geochemistry , 2016 .

[28]  Yongjun Lu,et al.  Zircon Compositions as a Pathfinder for Porphyry Cu ± Mo ± Au Deposits , 2016 .

[29]  P. Shen,et al.  Oxidation Condition and Metal Fertility of Granitic Magmas: Zircon Trace-Element Data from Porphyry Cu Deposits in the Central Asian Orogenic Belt , 2015 .

[30]  Jingquan Zhu,et al.  Zircon U–Pb ages and Hf–O isotopes, and whole-rock Sr–Nd isotopes of the Bozhushan granite, Yunnan province, SW China: Constraints on petrogenesis and tectonic setting , 2015 .

[31]  Wei-dong Sun,et al.  Porphyry deposits and oxidized magmas , 2015 .

[32]  Yong‐Fei Zheng,et al.  The source of Mesozoic granitoids in South China: Integrated geochemical constraints from the Taoshan batholith in the Nanling Range , 2015 .

[33]  J. Richards,et al.  Increasing Magmatic Oxidation State from Paleocene to Miocene in the Eastern Gangdese Belt, Tibet: Implication for Collision-Related Porphyry Cu-Mo +/- Au Mineralization , 2014 .

[34]  Qingfei Wang,et al.  Tethys tectonic evolution and its bearing on the distribution of important mineral deposits in the Sanjiang region, SW China , 2014 .

[35]  C. Chelle-Michou,et al.  Zircon petrochronology reveals the temporal link between porphyry systems and the magmatic evolution of their hidden plutonic roots (the Eocene Coroccohuayco deposit, Peru) , 2014 .

[36]  Wei-dong Sun,et al.  Shapinggou: the largest Climax-type porphyry Mo deposit in China , 2014 .

[37]  R. Rudnick,et al.  Composition of the Continental Crust , 2014 .

[38]  S. Barnes,et al.  Partition coefficients of chalcophile elements between sulfide and silicate melts and the early crystallization history of sulfide liquid : LA-ICP-MS analysis of MORB sulfide droplets , 2013 .

[39]  F. Pirajno,et al.  The origin of the world class tin-polymetallic deposits in the Gejiu district, SW China: Constraints from metal zoning characteristics and 40Ar–39Ar geochronology , 2013 .

[40]  C. Spandler,et al.  Petrogenesis and geodynamic implications of the Gejiu igneous complex in the western Cathaysia block, South China , 2013 .

[41]  Yong‐Fei Zheng,et al.  Formation and evolution of Precambrian continental lithosphere in South China , 2013 .

[42]  M. Santosh,et al.  Geochronology and magmatic oxygen fugacity of the Tongcun molybdenum deposit, northwest Zhejiang, SE China , 2013, Mineralium Deposita.

[43]  J. Mortensen,et al.  Magmatic petrogenesis and the evolution of (F:Cl:OH) fluid composition in barren and tungsten skarn-associated plutons using apatite and biotite compositions: Case studies from the northern Canadian Cordillera , 2013 .

[44]  Mao Jingwen,et al.  Major types and time–space distribution of Mesozoic ore deposits in South China and their geodynamic settings , 2013, Mineralium Deposita.

[45]  J. Mao,et al.  Geology and genesis of Kafang Cu–Sn deposit, Gejiu district, SW China , 2012 .

[46]  J. Mao,et al.  Mineralization process of the Kafang tin-copper deposit in the Gejiu district,Yunnan Province:Constraints from fluid inclusion , 2012 .

[47]  J. Hellstrom,et al.  Iolite: Freeware for the visualisation and processing of mass spectrometric data , 2011 .

[48]  J. Blichert‐Toft,et al.  Synthetic zircon doped with hafnium and rare earth elements: A reference material for in situ hafnium isotope analysis , 2011 .

[49]  Michel Faure,et al.  Geochronological and geochemical features of the Cathaysia block (South China): New evidence for the Neoproterozoic breakup of Rodinia , 2011 .

[50]  Mao Jingwen,et al.  Age and geochemistry of granites in Gejiu area, Yunnan province, SW China: Constraints on their petrogenesis and tectonic setting , 2010 .

[51]  M. Wilke,et al.  Sulfur K-edge XANES analysis of natural and synthetic basaltic glasses: Implications for S speciation and S content as function of oxygen fugacity , 2010 .

[52]  R. Sillitoe Porphyry Copper Systems , 2010 .

[53]  Xian‐Hua Li,et al.  Role of mantle-derived magma in genesis of early Yanshanian granites in the Nanling Range, South China: in situ zircon Hf-O isotopic constraints , 2009 .

[54]  P. Jugo Sulfur content at sulfide saturation in oxidized magmas , 2009 .

[55]  I. Buick,et al.  The trace element compositions of S-type granites: evidence for disequilibrium melting and accessory phase entrainment in the source , 2009 .

[56]  J. Blichert‐Toft The Hf isotopic composition of zircon reference material 91500 , 2008 .

[57]  Chaofeng Li,et al.  Precise isotopic measurements of sub-nanogram Nd of standard reference material by thermal ionization mass spectrometry using the NdO+ technique , 2007 .

[58]  E. Watson,et al.  New thermodynamic models and revised calibrations for the Ti-in-zircon and Zr-in-rutile thermometers , 2007 .

[59]  Rong-xin Wu,et al.  Reworking of juvenile crust: Element and isotope evidence from Neoproterozoic granodiorite in South China , 2006 .

[60]  M. B. Ohoud,et al.  Discrimination between primary magmatic biotites, reequilibrated biotites and neoformed biotites , 2005 .

[61]  Long Li,et al.  Zircon U-Pb and oxygen isotope evidence for a large-scale 18O depletion event in igneous rocks during the Neoproterozoic , 2004 .

[62]  S. Wilde,et al.  Highly fractionated I-type granites in NE China (II): isotopic geochemistry and implications for crustal growth in the Phanerozoic , 2003 .

[63]  D. Kontak,et al.  Genesis of the Giant, Bonanza San Rafael Lode Tin Deposit, Peru: Origin and Significance of Pervasive Alteration , 2002 .

[64]  I. Campbell,et al.  Relative oxidation states of magmas inferred from Ce(IV)/Ce(III) in zircon: application to porphyry copper deposits of northern Chile , 2002 .

[65]  Xian‐Hua Li,et al.  Grenvillian continental collision in South China: new SHRIMP U-Pb zircon results and implications for the configuration of Rodinia , 2002 .

[66]  Yixian Wang,et al.  Highly evolved juvenile granites with tetrad REE patterns: the Woduhe and Baerzhe granites from the Great Xing'an Mountains in NE China , 2001 .

[67]  X. M. Zhou,et al.  Origin of Late Mesozoic igneous rocks in Southeastern China: implications for lithosphere subduction and underplating of mafic magmas , 2000 .

[68]  S. Guggenheim,et al.  Nomenclature of the Micas , 1998, Mineralogical Magazine.

[69]  B. Jahn,et al.  Crustal evolution of southeastern China: Nd and Sr isotopic evidence , 1998 .

[70]  R. Linnen,et al.  The combined effects of fO2 and melt composition on SnO2 solubility and tin diffusivity in haplogranitic melts , 1996 .

[71]  L. Changshi,et al.  Sm-Nd isotopic study of basement metamorphic rocks in South China and its constraint on material sources of granites , 1993 .

[72]  P. Candela Controls on ore metal ratios in granite-related ore systems: an experimental and computational approach , 1992, Earth and Environmental Science Transactions of the Royal Society of Edinburgh.

[73]  Harmanto,et al.  Large-scale tin depletion in the Tanjungpandan tin granite, Belitung Island, Indonesia , 1990 .

[74]  B. Lehmann,et al.  Metallogeny of tin in central Thailand: A genetic concept , 1989 .

[75]  W. McDonough,et al.  Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes , 1989, Geological Society, London, Special Publications.

[76]  D. Dingwell,et al.  The effect of fluorine on viscosities in the system Na2O-Al2O3-SiO2: implications for phonolites, trachytes and rhyolites , 1985 .

[77]  J. Munoz F-OH and Cl-OH exchange in micas with applications to hydrothermal ore deposits , 1984 .

[78]  D. Manning The effect of fluorine on liquidus phase relationships in the system Qz-Ab-Or with excess water at 1 kb , 1981 .

[79]  S. Ishihara The granitoid series and mineralization , 1981 .

[80]  S. Ishihara The Magnetite-series and Ilmenite-series Granitic Rocks , 1977 .

[81]  P. Hans,et al.  Stability of biotite: experiment, theory, and application , 1965 .