Early Cretaceous bimodal magmatism in the eastern Tethyan Himalayas, Tibet: Indicative of records on precursory continental rifting and initial breakup of eastern Gondwana

[1]  Yue-heng Yang,et al.  Allanite U–Th–Pb geochronology by ion microprobe , 2020 .

[2]  A. Kerr,et al.  Early Cretaceous (~ 140 Ma) aluminous A-type granites in the Tethyan Himalaya, Tibet: Products of crust-mantle interaction during lithospheric extension , 2018 .

[3]  Qing Zhou,et al.  Petrogenesis of mafic and felsic rocks from the Comei large igneous province, South Tibet: Implications for the initial activity of the Kerguelen plume , 2017 .

[4]  B. Storey,et al.  Gondwana Large Igneous Provinces (LIPs): distribution, diversity and significance , 2017, Special Publications.

[5]  S. Planke,et al.  Gondwana Large Igneous Provinces: plate reconstructions, volcanic basins and sill volumes , 2017, Special Publications.

[6]  He Huang,et al.  Petrogenesis of the Bashisuogong bimodal igneous complex in southwest Tianshan Mountains, China: Implications for the Tarim Large Igneous Province , 2016 .

[7]  B. Liu,et al.  Evaluation of late Permian mafic magmatism in the central Tibetan Plateau as a response to plume-subduction interaction , 2016 .

[8]  Jiyong Li,et al.  Origin of the late Early Cretaceous granodiorite and associated dioritic dikes in the Hongqilafu pluton, northwestern Tibetan Plateau: A case for crust-mantle interaction , 2016 .

[9]  Yongbin Hu,et al.  The formation of Qulong adakites and their relationship with porphyry copper deposit: Geochemical constraints , 2015 .

[10]  V. Kamenetsky,et al.  Parental carbonatitic melt of the Koala kimberlite (Canada): Constraints from melt inclusions in olivine and Cr-spinel, and groundmass carbonate , 2013 .

[11]  Z. Hou,et al.  The origin and pre-Cenozoic evolution of the Tibetan Plateau , 2013 .

[12]  R. Müller,et al.  The breakup of East Gondwana: Assimilating constraints from Cretaceous ocean basins around India into a best‐fit tectonic model , 2013 .

[13]  M. Keskin AFC-Modeler: a Microsoft® Excel© workbook program for modelling assimilation combined with fractional crystallization (AFC) process in magmatic systems by using equations of DePaolo (1981) , 2013, Turkish Journal of Earth Sciences.

[14]  C. Scotese,et al.  The longest voyage: Tectonic, magmatic, and paleoclimatic evolution of the Indian plate during its northward flight from Gondwana to Asia , 2013 .

[15]  M. Holness,et al.  Dual origin of Fe–Ti–P gabbros by immiscibility and fractional crystallization of evolved tholeiitic basalts in the Sept Iles layered intrusion , 2012 .

[16]  R. Müller,et al.  Constraining the Jurassic extent of Greater India: Tectonic evolution of the West Australian margin , 2012 .

[17]  T. Grove,et al.  Experiments on liquid immiscibility along tholeiitic liquid lines of descent , 2012, Contributions to Mineralogy and Petrology.

[18]  M. Santosh,et al.  Late Paleozoic post-collisional magmatism in the Eastern Tianshan Belt, Northwest China: New insights from geochemistry, geochronology and petrology of bimodal volcanic rocks , 2011 .

[19]  J. Mao,et al.  Late Mesozoic bimodal volcanic rocks in the Jinniu basin, Middle–Lower Yangtze River Belt (YRB), East China: Age, petrogenesis and tectonic implications , 2011 .

[20]  L. Zeng,et al.  Mid-Eocene high Sr/Y granites in the Northern Himalayan Gneiss Domes: Melting thickened lower continental crust , 2011 .

[21]  Changyong Zhou,et al.  Presence of Permian extension- and arc-type magmatism in southern Tibet: Paleogeographic implications , 2010 .

[22]  Ping Guan,et al.  The Tarim picrite–basalt–rhyolite suite, a Permian flood basalt from northwest China with contrasting rhyolites produced by fractional crystallization and anatexis , 2010 .

[23]  W. Griffin,et al.  Provenance of Lower Cretaceous Wölong Volcaniclastics in the Tibetan Tethyan Himalaya: implications for the final breakup of Eastern Gondwana , 2010 .

[24]  Fu-Yuan Wu,et al.  Geochemical investigation of Early Cretaceous igneous rocks along an east–west traverse throughout the central Lhasa Terrane, Tibet , 2009 .

[25]  Yue-heng Yang,et al.  The 132 Ma Comei-Bunbury large igneous province: Remnants identified in present-day southeastern Tibet and southwestern Australia , 2009 .

[26]  Shan Gao,et al.  In situ analysis of major and trace elements of anhydrous minerals by LA-ICP-MS without applying an internal standard , 2008 .

[27]  Sun‐Lin Chung,et al.  Whole-rock elemental and zircon Hf isotopic geochemistry of mafic and ultramafic rocks from the Early Cretaceous Comei large igneous province in SE Tibet: constraints on mantle source characteristics and petrogenesis , 2008 .

[28]  Y. Liu,et al.  850-790 Ma bimodal volcanic and intrusive rocks in northern Zhejiang, South China: A major episode of continental rift magmatism during the breakup of Rodinia , 2008 .

[29]  D. Günther,et al.  Simultaneous determinations of U–Pb age, Hf isotopes and trace element compositions of zircon by excimer laser-ablation quadrupole and multiple-collector ICP-MS , 2008 .

[30]  G. Dong,et al.  Petrogenesis of the earliest Early Cretaceous mafic rocks from the Cona area of the eastern Tethyan Himalaya in south Tibet: Interaction between the incubating Kerguelen plume and the eastern Greater India lithosphere? , 2008 .

[31]  Xinghe Yu,et al.  Permian bimodal dyke of Tarim Basin, NW China: Geochemical characteristics and tectonic implications , 2007 .

[32]  Peter A. Cawood,et al.  Early Palaeozoic orogenesis along the Indian margin of Gondwana: Tectonic response to Gondwana assembly , 2007 .

[33]  G. Pan,et al.  Petrogenesis of volcanic rocks in the Sangxiu Formation, central segment of Tethyan Himalaya: A probable example of plume–lithosphere interaction , 2007 .

[34]  Zhuyin Chu,et al.  Shrimp U-Pb zircon geochronology, geochemistry, and Nd-Sr isotopic study of contrasting granites in the Emeishan large igneous province, SW China , 2007 .

[35]  S. Wilde,et al.  A hybrid origin for the Qianshan A-type granite, northeast China: Geochemical and Sr–Nd–Hf isotopic evidence , 2006 .

[36]  An Yin,et al.  Cenozoic tectonic evolution of the Himalayan orogen as constrained by along-strike variation of structural geometry, exhumation history, and foreland sedimentation , 2006 .

[37]  Xian‐Hua Li,et al.  Neoproterozoic bimodal magmatism in the Cathaysia Block of South China and its tectonic significance , 2005 .

[38]  R. Korsch,et al.  TEMORA 1: a new zircon standard for Phanerozoic U–Pb geochronology , 2003 .

[39]  Y. Liu,et al.  U-Pb zircon geochronology, geochemistry and Nd isotopic study of Neoproterozoic bimodal volcanic rocks in the Kangdian Rift of South China : Implications for the initial rifting of Rodinia , 2002 .

[40]  Xu Yi MANTLE PLUMES, LARGE IGNEOUS PROVINCES AND THEIR GEOLOGIC CONSEQUENCES , 2002 .

[41]  An Yin,et al.  Geologic Evolution of the Himalayan-Tibetan Orogen , 2000 .

[42]  W. Griffin,et al.  The Hf isotope composition of cratonic mantle: LAM-MC-ICPMS analysis of zircon megacrysts in kimberlites , 2000 .

[43]  Xian‐Hua Li,et al.  The breakup of Rodinia: did it start with a mantle plume beneath South China? , 1999 .

[44]  E. Garzanti Stratigraphy and sedimentary history of the Nepal Tethys Himalaya passive margin , 1999 .

[45]  E. Garzanti,et al.  First report of Lower Permian basalts in South Tibet: tholeiitic magmatism during break-up and incipient opening of Neotethys , 1999 .

[46]  S. Bryan,et al.  Early Cretaceous volcano-sedimentary successions along the eastern Australian continental margin: Implications for the break-up of eastern Gondwana , 1997 .

[47]  R. Duncan,et al.  The timing and duration of the Karoo igneous event, southern Gondwana , 1997 .

[48]  F. Albarède,et al.  The Lu-Hf isotope geochemistry of chondrites and the evolution of the mantle-crust system , 1997 .

[49]  R. Duncan,et al.  Petrogenesis of the Bunbury Basalt, Western Australia: interaction between the Kerguelen plume and Gondwana lithosphere? , 1996 .

[50]  J. Encarnación,et al.  Synchronous emplacement of Ferrar and Karoo dolerites and the early breakup of Gondwana , 1996 .

[51]  B. Storey The role of mantle plumes in continental breakup: case histories from Gondwanaland , 1995, Nature.

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

[53]  M. Gibling,et al.  Early Cretaceous strata of the Nepal Himalayas: conjugate margins and rift volcanism during Gondwanan breakup , 1994, Journal of the Geological Society.

[54]  G. Einsele,et al.  Sedimentary history of the Tethyan basin in the Tibetan Himalayas , 1994 .

[55]  G. Eby Chemical subdivision of the A-type granitoids:Petrogenetic and tectonic implications , 1992 .

[56]  C. Scotese Jurassic and cretaceous plate tectonic reconstructions , 1991 .

[57]  D. Draper Late cenozoic bimodal magmatism in the northern Basin and Range Province of southeastern Oregon , 1991 .

[58]  G. Eby The A-type granitoids: A review of their occurrence and chemical characteristics and speculations on their petrogenesis , 1990 .

[59]  M. Richards,et al.  Flood Basalts and Hot-Spot Tracks: Plume Heads and Tails , 1989, Science.

[60]  R. White,et al.  Magmatism at rift zones: The generation of volcanic continental margins and flood basalts , 1989 .

[61]  P. Piccoli,et al.  Tectonic discrimination of granitoids , 1989 .

[62]  D. L. Schmidt,et al.  The timing of uplift, volcanism, and rifting peripheral to the Red Sea: A case for passive rifting? , 1989 .

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

[64]  P. Rabinowitz,et al.  Reconstruction of Madagascar and Africa: evidence from the Davie Fracture Zone and Western Somali Basin , 1987 .

[65]  J. Whalen,et al.  A-type granites: geochemical characteristics, discrimination and petrogenesis , 1987 .

[66]  D. DePaolo Trace element and isotopic effects of combined wallrock assimilation and fractional crystallization , 1981 .

[67]  D. Wood,et al.  A RE-APPRAISAL OF THE USE OF TRACE ELEMENTS TO CLASSIFY AND DISCRIMINATE BETWEEN MAGMA SERIES ERUPTED IN DIFFERENT TECTONIC SETTINGS , 1979 .

[68]  Robert W. Nesbitt,et al.  Geochemical characteristics of mid-ocean ridge basalts , 1979 .

[69]  M. Loiselle,et al.  Characteristics and origin of anorogenic granites , 1979 .

[70]  D. Green,et al.  Integrated Models of Basalt Petrogenesis: A Study of Quartz Tholeiites to Olivine Melilitites from South Eastern Australia Utilizing Geochemical and Experimental Petrological Data , 1978 .

[71]  A. Şengör,et al.  Relative timing of rifting and volcanism on earth and its tectonic implications , 1978 .

[72]  J. G. Arth,et al.  Generation of trondhjemitic-tonalitic liquids and Archean bimodal trondhjemite-basalt suites , 1976 .

[73]  A. Streckeisen To each plutonic rock its proper name , 1976 .

[74]  R. Daly The Geology of Ascension Island , 1925 .