Ediacaran, Early Ordovician and early Silurian arcs in the South Tianshan orogen of Kyrgyzstan

[1]  M. Willbold,et al.  Early Silurian tholeiitic-boninitic Mailisu ophiolite, South Tianshan, Kyrgyzstan: a geochemical record of subduction initiation , 2020, International Geology Review.

[2]  S. A. Dufrane,et al.  Detrital zircon U Pb geochronology of middle Paleozoic sandstones from the South Tianshan (Kyrgyzstan): Implications for provenance and tectonic evolution of the Turkestan Ocean , 2019, Gondwana Research.

[3]  K. de Jong,et al.  Deformed continental arc sequences in the South Tianshan: New constraints on the Early Paleozoic accretionary tectonics of the Central Asian Orogenic Belt , 2019, Tectonophysics.

[4]  A. Mikolaichuk,et al.  An early Devonian intra-plate bimodal volcanic suite in the Kyrgyz North Tianshan belt, the central Asian orogenic belt , 2019, Journal of Asian Earth Sciences.

[5]  R. Seltmann,et al.  Early Carboniferous metamorphism of the Neoproterozoic South Tien Shan-Karakum basement: New geochronological results from Baisun and Kyzylkum, Uzbekistan , 2019, Journal of Asian Earth Sciences.

[6]  Jinyou He,et al.  Newly discovered early Neoproterozoic (ca. 900 Ma) andesitic rocks in the northwestern Tarim Craton: Implications for the reconstruction of the Rodinia supercontinent , 2019, Precambrian Research.

[7]  Yu. S. Biske,et al.  Late Carboniferous (Kasimovian) closure of the South Tianshan Ocean: No Triassic subduction , 2019, Journal of Asian Earth Sciences.

[8]  Fengbin Han,et al.  Detrital zircon ages and Hf isotopic compositions of metasedimentary rocks in the Wuqia area of Southwest Tianshan, NW China: implications for the early Paleozoic tectonic evolution of the Tianshan orogenic belt , 2019, International Geology Review.

[9]  Guanghui Wu,et al.  Geochronological and geochemical constraints on Late Cryogenian to Early Ediacaran magmatic rocks on the northern Tarim Craton: implications for tectonic setting and affinity with Gondwana , 2019, International Geology Review.

[10]  He Huang,et al.  Geochemistry and zircon U–Pb geochronology of the oxidaban intrusive complex: Implication for Paleozoic tectonic evolution of the South Tianshan Orogenic Belt, China , 2019, Lithos.

[11]  Tao Wang,et al.  Crustal evolution in the South Tianshan Terrane: Constraints from detrital zircon geochronology and implications for continental growth in the Central Asian Orogenic Belt , 2018, Geological Journal.

[12]  S. Wilde,et al.  Early Permian intrusions of the Alai range: Understanding tectonic settings of Hercynian post-collisional magmatism in the South Tien Shan, Kyrgyzstan , 2018 .

[13]  Guochun Zhao,et al.  Final amalgamation of the Tianshan and Junggar orogenic collage in the southwestern Central Asian Orogenic Belt: Constraints on the closure of the Paleo-Asian Ocean , 2017, Earth-Science Reviews.

[14]  K. Jong,et al.  Accretionary tectonics of back-arc oceanic basins in the South Tianshan: Insights from structural, geochronological, and geochemical studies of the Wuwamen ophiolite mélange , 2018 .

[15]  G. Zhu,et al.  Neoproterozoic rift basins and their control on the development of hydrocarbon source rocks in the Tarim Basin, NW China , 2017 .

[16]  Kuo‐Lung Wang,et al.  No excessive crustal growth in the Central Asian Orogenic Belt: Further evidence from field relationships and isotopic data , 2017 .

[17]  J. Chapman,et al.  Birth, life, and demise of the Andean–syn‐collisional Gissar arc: Late Paleozoic tectono‐magmatic‐metamorphic evolution of the southwestern Tian Shan, Tajikistan , 2017 .

[18]  K. Zhou,et al.  Structural styles and zircon ages of the South Tianshan accretionary complex, Atbashi Ridge, Kyrgyzstan: Insights for the anatomy of ocean plate stratigraphy and accretionary processes , 2017 .

[19]  A. I. Kotov,et al.  Precambrian geology of the Kazakh Uplands and Tien Shan: An overview , 2017 .

[20]  R. Pankhurst,et al.  Geodynamic evolution of the western Tien Shan, Uzbekistan: Insights from U-Pb SHRIMP geochronology and Sr-Nd-Pb-Hf isotope mapping of granitoids , 2017 .

[21]  R. Romer,et al.  A geotraverse across two paleo-subduction zones in Tien Shan, Tajikistan , 2017 .

[22]  J. Khan,et al.  Proterozoic–Mesozoic history of the Central Asian orogenic belt in the Tajik and southwestern Kyrgyz Tian Shan: U-Pb, 40Ar/39Ar, and fission-track geochronology and geochemistry of granitoids , 2017 .

[23]  L. Su,et al.  Chronological constraints on the tectonic evolution of the Chinese Tianshan Orogen through detrital zircons from modern and palaeo-river sands , 2017 .

[24]  Dunyi Liu,et al.  Middle to Late Ordovician arc system in the Kyrgyz Middle Tianshan: From arc-continent collision to subsequent evolution of a Palaeozoic continental margin , 2016 .

[25]  M. Wang,et al.  Bi-directional subduction of the South Tianshan Ocean during the Late Silurian: Magmatic records from both the southern Central Tianshan Block and northern Tarim Craton , 2016 .

[26]  Lei Jiang,et al.  The Ordovician–Silurian tectonic evolution of the northeastern margin of the Tarim block, NW China: Constraints from detrital zircon geochronological records , 2016 .

[27]  P. Eizenhöfer,et al.  Late Paleozoic subduction and collision processes during the amalgamation of the Central Asian Orogenic Belt along the South Tianshan suture zone , 2016 .

[28]  R. Romer,et al.  Middle Paleozoic mafic magmatism and ocean plate stratigraphy of the South Tianshan, Kyrgyzstan , 2016 .

[29]  Zhiqin Xu,et al.  The paleotectonic and paleogeography reconstructions of the Tarim Basin and its adjacent areas (NW China) during the late Early and Middle Paleozoic , 2016 .

[30]  E. Hegner,et al.  Permian age of orogenic thickening and crustal melting in the Garm Block, South Tien Shan, Tajikistan , 2015 .

[31]  N. Qiu,et al.  Precambrian evolution of the Tarim Block and its tectonic affinity to other major continental blocks in China: New clues from U-Pb geochronology and Lu-Hf isotopes of detrital zircons , 2015 .

[32]  He Huang,et al.  Early Paleozoic magmatic record from the northern margin of the Tarim Craton: Further insights on the evolution of the Central Asian Orogenic Belt , 2015 .

[33]  Bo Wang,et al.  Tectono-Stratigraphic framework and Palaeozoic evolution of the Chinese South Tianshan , 2015, Geotectonics.

[34]  P. Eizenhöfer,et al.  Paleozoic accretionary orogenesis in the Paleo‐Asian Ocean: Insights from detrital zircons from Silurian to Carboniferous strata at the northwestern margin of the Tarim Craton , 2015 .

[35]  Wenbin Zhu,et al.  Detrital zircon U-Pb ages and Hf isotopes of Neoproterozoic strata in the Aksu area, northwestern Tarim Craton: Implications for supercontinent reconstruction and crustal evolution , 2014 .

[36]  Jin-Hui Yang,et al.  Detrital and igneous zircon ages for supracrustal rocks of the Kyrgyz Tianshan and palaeogeographic implications , 2014 .

[37]  S. V. Petrov,et al.  Age and petrogenesis of the Neoproterozoic Chon-Ashu alkaline complex, and a new discovery of chalcopyrite mineralization in the eastern Kyrgyz Tien Shan , 2014 .

[38]  S. Wilde,et al.  Neoproterozoic to Paleozoic long‐lived accretionary orogeny in the northern Tarim Craton , 2014 .

[39]  Xi Zhang,et al.  Paleozoic ophiolitic mélanges from the South Tianshan Orogen, NW China: Geological, geochemical and geochronological implications for the geodynamic setting , 2014 .

[40]  Tao Wang,et al.  Reassessment of continental growth during the accretionary history of the Central Asian Orogenic Belt , 2014 .

[41]  Chuan-Lin Zhang,et al.  Tectonic framework and crustal evolution of the Precambrian basement of the Tarim Block in NW China: New geochronological evidence from deep drilling samples , 2013 .

[42]  He Huang,et al.  Early Paleozoic Tectonic Evolution of the South Tianshan Collisional Belt: Evidence from Geochemistry and Zircon U-Pb Geochronology of the Tie’reke Monzonite Pluton, Northwest China , 2013, The Journal of Geology.

[43]  Chuan-Lin Zhang,et al.  Tectonic framework and evolution of the Tarim Block in NW China , 2013 .

[44]  B. Windley,et al.  Paleozoic multiple accretionary and collisional tectonics of the Chinese Tianshan orogenic collage , 2013 .

[45]  S. Graham,et al.  An 800 million-year detrital zircon record of continental amalgamation: Tarim basin, NW China , 2013 .

[46]  Changsong Lin,et al.  Detrital zircon U-Pb geochronology and its provenance implications on Silurian Tarim basin , 2012, Journal of Earth Science.

[47]  Wenbin Zhu,et al.  Early Pan-African magmatism in the Tarim Craton: Insights from zircon U–Pb–Lu–Hf isotope and geochemistry of granitoids in the Korla area, NW China , 2012 .

[48]  Wenbin Zhu,et al.  The Paleozoic northern margin of the Tarim Craton; passive or active? , 2012 .

[49]  Dunyi Liu,et al.  Zircon and muscovite ages, geochemistry, and Nd–Hf isotopes for the Aktyuz metamorphic terrane: Evidence for an Early Ordovician collisional belt in the northern Tianshan of Kyrgyzstan , 2012 .

[50]  Zhaojie Guo,et al.  Late Carboniferous collision between the Tarim and Kazakhstan-Yili terranes in the western segment of the South Tian Shan Orogen, Central Asia, and implications for the Northern Xinjiang, western China , 2011 .

[51]  R. Seltmann,et al.  Hercynian post-collisional magmatism in the context of Paleozoic magmatic evolution of the Tien Shan orogenic belt , 2011 .

[52]  R. Klemd,et al.  Changes in dip of subducted slabs at depth: Petrological and geochronological evidence from HP-UHP rocks (Tianshan, NW-China) , 2011 .

[53]  Q. Qian,et al.  Geochemical and geochronological studies of granitoid rocks from the Western Tianshan Orogen: Implications for continental growth in the southwestern Central Asian Orogenic Belt , 2011 .

[54]  J. Charvet,et al.  Paleozoic tectonics of the southern Chinese Tianshan: Insights from structural, chronological and geochemical studies of the Heiyingshan ophiolitic mélange (NW China) , 2011 .

[55]  H. Deng Chronology, geochemistry and tectonic setting of granites at the core of Tugerming anticline,Tarim Basin: Indications of Paleozoic extensional and compressional cycle at the northern margin of Tarim continental block , 2011 .

[56]  Dong Lian Zircon LA-ICP-MS U-Pb age of I type granitoids from Qiaohuote copper deposit in Central Tianshan of Xinjiang and its geological implications , 2011 .

[57]  B. Windley,et al.  Mineral ages and P-T conditions of Late Paleozoic high-pressure eclogite and provenance of mélange sediments from Atbashi in the south Tianshan orogen of Kyrgyzstan , 2010, American Journal of Science.

[58]  Yang Wang,et al.  Geochemical and SHRIMP U–Pb age constraints on the origin of the Qingbulake mafic–ultramafic complex in the West Tianshan Mountains, Xinjiang, northwest China , 2010 .

[59]  M. G. Leonov,et al.  Underthrusting of Tarim beneath the Tien Shan and deep structure of their junction zone: Main results of seismic experiment along MANAS Profile Kashgar-Song-Köl , 2010 .

[60]  Reimar Seltmann,et al.  Paleozoic Tian-Shan as a transitional region between the Rheic and Urals-Turkestan oceans , 2010 .

[61]  K. Jiang THE SIGNIFICANCE OF THE SINIAN POST-COLLISION PERALUMINOUS GRANITES AROUND SOUTH MARGIN OF THE SOUTHWEST TIANSHAN , 2010 .

[62]  Dunyi Liu,et al.  SHRIMP zircon U-Pb age constraints on Neoproterozoic Quruqtagh diamictites in NW China , 2009 .

[63]  Dunyi Liu,et al.  Tectonic evolution of the South Tianshan orogen and adjacent regions, NW China: geochemical and age constraints of granitoid rocks , 2009 .

[64]  Wenbin Zhu,et al.  SHRIMP U–Pb zircon geochronology of Neoproterozoic Korla mafic dykes in the northern Tarim Block, NW China: implications for the long-lasting breakup process of Rodinia , 2008, Journal of the Geological Society.

[65]  V. Burtman Nappes of the southern Tien Shan , 2008 .

[66]  J. Pearce Geochemical fingerprinting of oceanic basalts with applications to ophiolite classification and the search for Archean oceanic crust , 2008 .

[67]  Brian F. Windley,et al.  Tectonic models for accretion of the Central Asian Orogenic Belt , 2007, Journal of the Geological Society.

[68]  W. Ke,et al.  Zircon SHRIMP dating of Silurian and Devonian granitic intrusions in the southern Yili block,Xinjiang and preliminary discussion on their tectonic setting , 2006 .

[69]  G. Shi,et al.  Late Paleozoic depositional history of the Tarim basin, northwest China: An integration of biostratigraphic and lithostratigraphic constraints , 2003 .

[70]  Calvin G. Barnes,et al.  A Geochemical Classification for Granitic Rocks , 2001 .

[71]  N. Volkova,et al.  Geochemical discrimination of metabasalt rocks of the Fan Karategin transitional blueschist/greenschist belt, South Tianshan, Tajikistan: seamount volcanism and accretionary tectonics , 1999 .

[72]  B. Hardarson,et al.  Thermal and chemical structure of the Iceland plume , 1997 .

[73]  Calvin F. Miller,et al.  Zircon zonation patterns as revealed by cathodoluminescence and backscattered electron images: Implications for interpretation of complex crustal histories , 1993 .

[74]  L. Zonenshain,et al.  Geology of the USSR : a plate-tectonic synthesis , 1990 .

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

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

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

[78]  P. Hamilton,et al.  A Nd isotope investigation of sediments related to crustal development in the British Isles , 1983 .

[79]  F. Barker Trondhjemite: Definition, Environment and Hypotheses of Origin , 1979 .

[80]  N. Nakamura Determination of REE, Ba, Fe, Mg, Na and K in carbonaceous and ordinary chondrites , 1974 .

[81]  T. Irvine,et al.  A Guide to the Chemical Classification of the Common Volcanic Rocks , 1971 .