Early Paleoproterozoic (ca. 2.36 Ga) post-collisional granitoids in Yunnan, SW China: Implications for linkage between Yangtze and Laurentia in the Columbia supercontinent

[1]  Mei-Fu Zhou,et al.  Enhanced terrestrial input into Paleoproterozoic to Mesoproterozoic carbonates in the southwestern South China Block during the fragmentation of the Columbia supercontinent , 2018, Precambrian Research.

[2]  Zhimin Zhu,et al.  Late Palaeoproterozoic Hekou Group in Sichuan, Southwest China: geochronological framework and tectonic implications , 2018 .

[3]  Peter A. Cawood,et al.  Reconstructing South China in Phanerozoic and Precambrian supercontinents , 2017, Earth-Science Reviews.

[4]  Mei-Fu Zhou,et al.  Depositional age, provenance characteristics and tectonic setting of the Meso- and Neoproterozoic sequences in SE Yangtze Block, China: Implications on Proterozoic supercontinent reconstructions , 2017 .

[5]  Yunpeng Dong,et al.  Zircon U–Pb chronology, Hf isotope analysis and whole-rock geochemistry for the Neoarchean-Paleoproterozoic Yudongzi complex, northwestern margin of the Yangtze craton, China , 2017 .

[6]  He Huang,et al.  Oldest volcanic-hosted submarine iron ores in South China: Evidence from zircon U–Pb geochronology and geochemistry of the Paleoproterozoic Dahongshan iron deposit , 2017 .

[7]  Wenxiang Zhang,et al.  Petrogenesis of the Huashanguan A-type granite complex and its implications for the early evolution of the Yangtze Block , 2017 .

[8]  Peter A. Cawood,et al.  Zircon U–Pb age and Hf isotope evidence for an Eoarchaean crustal remnant and episodic crustal reworking in response to supercontinent cycles in NW India , 2017, Journal of the Geological Society.

[9]  Mei-Fu Zhou,et al.  Neoproterozoic granitoids from the Phan Si Pan belt, Northwest Vietnam: Implication for the tectonic linkage between Northwest Vietnam and the Yangtze Block , 2017 .

[10]  Guangfu Xing,et al.  Geochemical and zircon U–Pb–Hf–O isotopic evidence for a coherent Paleoproterozoic basement beneath the Yangtze Block, South China , 2016 .

[11]  Peter A. Cawood,et al.  Tarim and North China cratons linked to northern Gondwana through switching accretionary tectonics and collisional orogenesis , 2016 .

[12]  Peter A. Cawood,et al.  Paleoproterozoic magmatic and metamorphic events link Yangtze to northwest Laurentia in the Nuna supercontinent , 2016 .

[13]  Yihe Li,et al.  Petrogenesis and tectonic implications of Paleoproterozoic metapelitic rocks in the Archean Kongling Complex from the northern Yangtze Craton, South China , 2015 .

[14]  Shan Gao,et al.  Episodic Paleoarchean-Paleoproterozoic (3.3-2.0 Ga) granitoid magmatism in Yangtze Craton, South China: Implications for late Archean tectonics , 2015 .

[15]  S. Reddy,et al.  Metallogeny and its link to orogenic style during the Nuna supercontinent cycle , 2015, Special Publications.

[16]  Hao Liu,et al.  Paleoproterozoic I-type granites and their implications for the Yangtze block position in the Columbia supercontinent: Evidence from the Lengshui Complex, South China , 2015 .

[17]  Jun Deng,et al.  Geology, geochronology, and geochemistry of the Yinachang Fe–Cu–Au–REE deposit of the Kangdian region of SW China: Evidence for a Paleo–Mesoproterozoic tectono-magmatic event and associated IOCG systems in the western Yangtze Block , 2015 .

[18]  Jianzhou Yang,et al.  The 2.65 Ga A-type granite in the northeastern Yangtze craton: Petrogenesis and geological implications , 2015 .

[19]  Kuo‐Lung Wang,et al.  Zircon U–Pb ages and Hf isotopic compositions of alkaline silicic magmatic rocks in the Phan Si Pan-Tu Le region, northern Vietnam: Identification of a displaced western extension of the Emeishan Large Igneous Province , 2015 .

[20]  Mei Zhou,et al.  Proterozoic Fe-Cu metallogeny and supercontinental cycles of the southwestern Yangtze Block, southern China and northern Vietnam , 2014 .

[21]  D. Davis,et al.  Geochronology and geochemistry of igneous rocks from the Kongling terrane: Implications for Mesoarchean to Paleoproterozoic crustal evolution of the Yangtze Block , 2014 .

[22]  Jianzhou Yang,et al.  Petrogenesis of Neoarchean TTG rocks in the Yangtze Craton and its implication for the formation of Archean TTGs , 2014 .

[23]  Mei-Fu Zhou,et al.  Late Paleoproterozoic to Mesoproterozoic rift successions in SW China: Implication for the Yangtze Block–North Australia–Northwest Laurentia connection in the Columbia supercontinent , 2014 .

[24]  S. Elming,et al.  Mesoproterozoic paleogeography Supercontinent and beyond , 2014 .

[25]  Mei-Fu Zhou,et al.  Provenance and tectonic setting of the Paleo- to Mesoproterozoic Dongchuan Group in the southwestern Yangtze Block, South China: Implication for the breakup of the supercontinent Columbia , 2014 .

[26]  D. Davis,et al.  2.1–1.85 Ga tectonic events in the Yangtze Block, South China: Petrological and geochronological evidence from the Kongling Complex and implications for the reconstruction of supercontinent Columbia , 2013 .

[27]  Jian Wang,et al.  The evolution of the Central Yangtze Block during early Neoarchean time: Evidence from geochronology and geochemistry , 2013 .

[28]  Mei-Fu Zhou,et al.  Late Paleoproterozoic sedimentary and mafic rocks in the Hekou area, SW China: Implication for the reconstruction of the Yangtze Block in Columbia , 2013 .

[29]  R. Berman,et al.  The Arrowsmith orogeny: Geochronological and thermobarometric constraints on its extent and tectonic setting in the Rae craton, with implications for pre-Nuna supercontinent reconstruction , 2013 .

[30]  L. Heaman,et al.  New depositional age constraints for the Murmac Bay group of the southern Rae craton, Canada , 2013 .

[31]  Xiaochun Liu,et al.  A ∼2.5 Ga magmatic event at the northern margin of the Yangtze craton: Evidence from U-Pb dating and Hf isotope analysis of zircons from the Douling Complex in the South Qinling orogen , 2013 .

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

[33]  Chuan-Lin Zhang,et al.  U-Pb zircon age and Hf isotope compositions of Mesoproterozoic sedimentary strata on the western margin of the Yangtze massif , 2013, Science China Earth Sciences.

[34]  Shan Gao,et al.  2.6–2.7 Ga crustal growth in Yangtze craton, South China , 2013 .

[35]  D. Wyman,et al.  Crustal Melting and Flow beneath Northern Tibet: Evidence from Mid-Miocene to Quaternary Strongly Peraluminous Rhyolites in the Southern Kunlun Range , 2012 .

[36]  Peter A. Cawood,et al.  Precambrian geology of China , 2012 .

[37]  Shan Gao,et al.  Improved in situ Hf isotope ratio analysis of zircon using newly designed X skimmer cone and jet sample cone in combination with the addition of nitrogen by laser ablation multiple collector ICP-MS , 2012 .

[38]  Hong-lin Yuan,et al.  Geochemistry, zircon U–Pb age and Hf isotope compositions of Paleoproterozoic aluminous A-type granites from the Kongling terrain, Yangtze Block: Constraints on petrogenesis and geologic implications , 2012 .

[39]  Hong-lin Yuan,et al.  Geochemistry and zircon U–Pb geochronology of Paleoproterozoic arc related granitoid in the Northwestern Yangtze Block and its geological implications , 2012 .

[40]  Zhou Bangguo SHRIMP U-Pb Age and Its Significance of Zircons in Welded Tuff of Wangchang Formation in Dongchuan Area, Yunnan Province,SW China , 2012 .

[41]  Mei-Fu Zhou,et al.  Fe–Cu deposits in the Kangdian region, SW China: a Proterozoic IOCG (iron-oxide–copper–gold) metallogenic province , 2011 .

[42]  Hong-lin Yuan,et al.  Age and growth of the Archean Kongling terrain, South China, with emphasis on 3.3 ga granitoid gneisses , 2008, American Journal of Science.

[43]  W. Griffin,et al.  Early crustal evolution in the western Yangtze Block: Evidence from U–Pb and Lu–Hf isotopes on detrital zircons from sedimentary rocks , 2010 .

[44]  Jin-Hui Yang,et al.  Late Paleoproterozoic to early Mesoproterozoic Dongchuan Group in Yunnan, SW China: Implications for tectonic evolution of the Yangtze Block , 2010 .

[45]  L. Yongsheng,et al.  Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MS , 2010 .

[46]  Juan Xu,et al.  Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MS , 2010 .

[47]  Shan Gao,et al.  Continental and Oceanic Crust Recycling-induced Melt^Peridotite Interactions in the Trans-North China Orogen: U^Pb Dating, Hf Isotopes and Trace Elements in Zircons from Mantle Xenoliths , 2010 .

[48]  Shang Gao,et al.  Zircon U–Pb age, trace element and Hf isotope composition of Kongling terrane in the Yangtze Craton: refining the timing of Palaeoproterozoic high‐grade metamorphism , 2009 .

[49]  C. M. Gray,et al.  Isotopic evidence for rapid continental growth in an extensional accretionary orogen: The Tasmanides, eastern Australia , 2009 .

[50]  Yue-heng Yang,et al.  Detrital zircon U-Pb geochronological and Lu-Hf isotopic constraints on the Precambrian magmatic and crustal evolution of the western Yangtze Block, SW China , 2009 .

[51]  J. Wang,et al.  Paleoproterozoic mafic dyke from Kongling terrain in the Yangtze Craton and its implication , 2009 .

[52]  Jianping Zheng,et al.  Zircon U-Pb age and Hf isotope of Quanyishang A-type granite in Yichang: signification for the Yangtze continental cratonization in Paleoproterozoic , 2009 .

[53]  Wang Li-quan SHRIMP U-Pb dating and its stratigraphic significance of tuff zircons from Heishan Formation of Kunyang Group,Dongchuan area,Yunnan Province,China , 2009 .

[54]  Zheng‐Xiang Li,et al.  The oldest known rocks in south–western China: SHRIMP U–Pb magmatic crystallisation age and detrital provenance analysis of the Paleoproterozoic Dahongshan Group , 2008 .

[55]  Shan Gao,et al.  Zircon U–Pb age and trace element evidence for Paleoproterozoic granulite-facies metamorphism and Archean crustal rocks in the Dabie Orogen , 2008 .

[56]  L. Heaman,et al.  Circa 2.3‐Ga Magmatism of the Arrowsmith Orogeny, Uranium City Region, Western Churchill Craton, Canada , 2007, The Journal of Geology.

[57]  Zhou Xi-wen Age of Crystalline Basement in Western Margin of Yangtze Terrane , 2007 .

[58]  Shan Gao,et al.  Zircon U-Pb age and Hf-O isotope evidence for Paleoproterozoic metamorphic event in South China , 2006 .

[59]  Shan Gao,et al.  Zircon U–Pb age and Hf isotope evidence for 3.8 Ga crustal remnant and episodic reworking of Archean crust in South China , 2006 .

[60]  W. Griffin,et al.  Widespread Archean basement beneath the Yangtze craton , 2006 .

[61]  W. Collins,et al.  A hybrid origin for Lachlan S-type granites: the Murrumbidgee Batholith example , 2004 .

[62]  San-zhong Li,et al.  A Paleo-Mesoproterozoic supercontinent: assembly, growth and breakup , 2004 .

[63]  Yong‐Fei Zheng,et al.  Genesis of zircon and its constraints on interpretation of U-Pb age , 2004 .

[64]  B. Xia,et al.  Zircon SHRIMP dating of sodium alkaline rocks from Maomaogou area of Huili County in Panxi, SW China and its geological implications , 2004 .

[65]  T. N. Nam,et al.  2.9, 2.36, and 1.96 Ga zircons in orthogneiss south of the Red River shear zone in Viet Nam: evidence from SHRIMP U–Pb dating and tectonothermal implications , 2003 .

[66]  J. Clemens S-type granitic magmas—petrogenetic issues, models and evidence , 2003 .

[67]  K. Ludwig User's Manual for Isoplot 3.00 - A Geochronological Toolkit for Microsoft Excel , 2003 .

[68]  R. Rudnick,et al.  3.01 – Composition of the Continental Crust , 2003 .

[69]  Peter A. Cawood,et al.  Review of global 2.1-1.8 Ga orogens: implications for a pre-Rodinia supercontinent , 2002 .

[70]  M. Atherton,et al.  Slab breakoff: a model for Caledonian, Late Granite syn-collisional magmatism in the orthotectonic (metamorphic) zone of Scotland and Donegal, Ireland , 2002 .

[71]  Mei-Fu Zhou,et al.  SHRIMP U-Pb zircon geochronological and geochemical evidence for Neoproterozoic arc-magmatism along the western margin of the Yangtze Block, South China. , 2002 .

[72]  M. Santosh,et al.  Configuration of Columbia, a Mesoproterozoic Supercontinent , 2002 .

[73]  M. Brown,et al.  Crustal melting and granite magmatism: key issues , 2001 .

[74]  Pei-Ling Wang,et al.  First evidence for Archean continental crust in northern Vietnam and its implications for crustal and tectonic evolution in Southeast Asia , 2001 .

[75]  Zhang Zongqing On the Age of Metamorphic Rocks of the Yudongzi Group and the Archean Crystalline Basement of the Qinling Orogen , 2001 .

[76]  E. Hegner,et al.  High-potassium, calc-alkaline I-type plutonism in the European Variscides: northern Vosges (France) and northern Schwarzwald (Germany) , 2000 .

[77]  C. Fielding,et al.  Granite genesis and basin formation in an extensional setting: The magmatic history of the Northernmost New England Orogen* , 1998 .

[78]  P. Sylvester Post-collisional strongly peraluminous granites , 1998 .

[79]  K. Hodges,et al.  Shisha Pangma Leucogranite, South Tibetan Himalaya: Field Relations, Geochemistry, Age, Origin, and Emplacement , 1997, The Journal of Geology.

[80]  M. Roberts,et al.  Variscan granitoids of central Europe: their typology, potential sources and tectonothermal relations , 1997 .

[81]  J. Pearce Sources and settings of granitic rocks , 1996 .

[82]  H. Meyer,et al.  Early miocene post-collisional calc-alkaline magmatism along the easternmost segment of the periadriatic fault system (Slovenia and Croatia) , 1995 .

[83]  E. Middlemost Naming materials in the magma/igneous rock system , 1994 .

[84]  B. Chappell,et al.  I- and S-type granites in the Lachlan Fold Belt , 1992, Earth and Environmental Science Transactions of the Royal Society of Edinburgh.

[85]  Zhu Bingquan,et al.  Geochronology of the Dahongshan Group , 1991 .

[86]  P. Rickwood Boundary lines within petrologic diagrams which use oxides of major and minor elements , 1989 .

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

[88]  R. W. Le Maitre,et al.  A Chemical Classification of Volcanic Rocks Based on the Total Alkali-Silica Diagram , 1986 .

[89]  A. Tindle,et al.  Geochemical characteristics of collision-zone magmatism , 1986, Geological Society, London, Special Publications.

[90]  A. Tindle,et al.  Trace Element Discrimination Diagrams for the Tectonic Interpretation of Granitic Rocks , 1984 .