Revisiting the boundary between the Central Asian Orogenic Belt and North China Craton in Alxa area, China: insights from zircon U-Pb ages and Hf isotopes of Phanerozoic granitoids

[1]  B. Windley,et al.  Rollback, scissor-like closure of the Mongol-Okhotsk Ocean and formation of an orocline: magmatic migration based on a large archive of age data , 2021, National science review.

[2]  Yan Chen,et al.  The Carboniferous-Permian tectonic setting for the southernmost Central Asian Orogenic Belt: Constraint from magmatic and sedimentary records in the Alxa area, NW China , 2021 .

[3]  Jin Zhang,et al.  Juvenile hafnium isotopic compositions recording a late Carboniferous−Early Triassic retreating subduction in the southern Central Asian Orogenic Belt: A case study from the southern Alxa , 2021, GSA Bulletin.

[4]  Jizhong Wu,et al.  Permian to Triassic tectonic evolution of the Alxa Tectonic Belt, NW China: Constraints from petrogenesis and geochronology of felsic intrusions , 2021 .

[5]  D. Hu,et al.  Cenozoic multi-phase deformation in the Qilian Shan and out-of-sequence development of the northern Tibetan Plateau , 2020, Tectonophysics.

[6]  B. Windley,et al.  Accretionary processes and metallogenesis of the Central Asian Orogenic Belt: Advances and perspectives , 2020, Science China Earth Sciences.

[7]  Bo Zhang,et al.  The interplay between climate and tectonics during the upward and outward growth of the Qilian Shan orogenic wedge, northern Tibetan Plateau , 2018, Earth-Science Reviews.

[8]  W. Xiao,et al.  Late Carboniferous–early Permian arc magmatism in the south‐western Alxa Tectonic Belt (NW China): Constraints on the late Palaeozoic subduction history of the Palaeo‐Asian Ocean , 2018, Geological Journal.

[9]  R. Klemd,et al.  The origin and crustal evolution of microcontinents in the Beishan orogen of the southern Central Asian Orogenic Belt , 2018, Earth-Science Reviews.

[10]  W. Xiao,et al.  A new ophiolitic mélange containing boninitic blocks in Alxa region: Implications for Permian subduction events in southern CAOB , 2018, Geoscience Frontiers.

[11]  W. Xiao,et al.  Tectono-thermal evolution of the southwestern Alxa Tectonic Belt, NW China: constrained by apatite U-Pb and fission track thermochronology , 2018 .

[12]  B. Windley,et al.  Late Paleozoic to early Triassic multiple roll-back and oroclinal bending of the Mongolia collage in Central Asia , 2017, Earth-Science Reviews.

[13]  W. Xiao,et al.  New chronological constrains on the tectonic affinity of the Alxa Block, NW China , 2017 .

[14]  Wangchun Xu,et al.  Lithospheric delamination in post-collisional setting: Evidence from intrusive magmatism from the North Qilian orogen to southern margin of the Alxa block, NW China , 2017 .

[15]  Tao Wang,et al.  Phanerozoic granitoids in the central and eastern parts of Central Asia and their tectonic significance , 2017 .

[16]  Long Li,et al.  Mesoproterozoic (∼1.4 Ga) A-type gneissic granites in the Xilinhot terrane, NE China: First evidence for the break-up of Columbia in the eastern CAOB , 2017 .

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

[18]  Peizhen Zhang,et al.  Progressive northward growth of the northern Qilian Shan-Hexi Corridor (northeastern Tibet) during the Cenozoic , 2017 .

[19]  P. Eizenhöfer,et al.  Geochronology and geochemistry of Permian to Early Triassic granitoids in the Alxa Terrane: Constraints on the final closure of the Paleo-Asian Ocean , 2017 .

[20]  Wei-dong Sun,et al.  The genesis of early Carboniferous adakitic rocks at the southern margin of the Alxa Block, North China , 2017 .

[21]  P. Eizenhöfer,et al.  Timing of the final closure of the Paleo-Asian Ocean in the Alxa Terrane: constraints from geochronology and geochemistry of Late Carboniferous to Permian gabbros and diorites , 2017 .

[22]  Tao Wang,et al.  Nd isotopic variation of Paleozoic-Mesozoic granitoids from the Da Hinggan Mountains and adjacent areas, NE Asia: Implications for the architecture and growth of continental crust , 2017 .

[23]  P. Eizenhöfer,et al.  Early Paleozoic subduction processes of the Paleo-Asian Ocean: Insights from geochronology and geochemistry of Paleozoic plutons in the Alxa Terrane , 2016 .

[24]  Jianrong Tang,et al.  Late Paleozoic tectonics of the Solonker Zone in the Wuliji area, Inner Mongolia, China: Insights from stratigraphic sequence, chronology, and sandstone geochemistry , 2016 .

[25]  Sheng‐yao Yu,et al.  Origin of the Alxa Block, western China: New evidence from zircon U–Pb geochronology and Hf isotopes of the Longshoushan Complex , 2016 .

[26]  Hongfei Zhang,et al.  Origin of high Sr/Y-type granitic magmatism in the southwestern of the Alxa Block, Northwest China , 2016 .

[27]  Tao Wang,et al.  Multiple Mixing and Hybridization from Magma Source to Final Emplacement in the Permian Yamatu pluton, the Northern Alxa Block, China , 2016 .

[28]  D. Wyman,et al.  Phanerozoic amalgamation of the Alxa Block and North China Craton: Evidence from Paleozoic granitoids, U-Pb geochronology and Sr-Nd-Pb-Hf-O isotope geochemistry , 2016 .

[29]  Yan Chen,et al.  Age and petrogenesis of late Paleozoic granites from the northernmost Alxa region, northwest China, and implications for the tectonic evolution of the region , 2016, International Journal of Earth Sciences.

[30]  Li-Xin Sun,et al.  Mesoproterozoic continental arc magmatism and crustal growth in the eastern Central Tianshan Arc Terrane of the southern Central Asian Orogenic Belt: Geochronological and geochemical evidence , 2015 .

[31]  Tao Wang,et al.  Tracking deep crust by zircon xenocrysts within igneous rocks from the northern Alxa, China: Constraints on the southern boundary of the Central Asian Orogenic Belt , 2015 .

[32]  D. Wyman,et al.  Overlapping Sr–Nd–Hf–O isotopic compositions in Permian mafic enclaves and host granitoids in Alxa Block, NW China: Evidence for crust–mantle interaction and implications for the generation of silicic igneous provinces , 2015 .

[33]  C. Yuan,et al.  A Tale of Amalgamation of Three Permo-Triassic Collage Systems in Central Asia: Oroclines, Sutures, and Terminal Accretion , 2015 .

[34]  Tao Wang,et al.  Timing and evolution of Jurassic–Cretaceous granitoid magmatisms in the Mongol–Okhotsk belt and adjacent areas, NE Asia: Implications for transition from contractional crustal thickening to extensional thinning and geodynamic settings , 2015 .

[35]  Tao Wang,et al.  Timing, petrogenesis and tectonic setting of the Late Paleozoic gabbro–granodiorite–granite intrusions in the Shalazhashan of northern Alxa: Constraints on the southernmost boundary of the Central Asian Orogenic Belt , 2014 .

[36]  M. Ren,et al.  Petrography and zircon U–Pb isotopic study of the Bayanwulashan Complex: Constrains on the Paleoproterozoic evolution of the Alxa Block, westernmost North China Craton , 2014 .

[37]  Qiang Wang,et al.  An Early Permian (ca. 280 Ma) silicic igneous province in the Alxa Block, NW China: A magmatic flare-up triggered by a mantle-plume? , 2014 .

[38]  Qingpeng Meng,et al.  Late Paleozoic subduction system in the northern margin of the Alxa block, Altaids: Geochronological and geochemical evidences from ophiolites , 2014 .

[39]  Qiang Wang,et al.  Neoproterozoic S-type granites in the Alxa Block, westernmost North China and tectonic implications: In situ zircon U-Pb-Hf-O isotopic and geochemical constraints , 2014, American Journal of Science.

[40]  G. Lei,et al.  Geochemistry and LA-ICP-MS zircon U-Pb age of Late Carboniferous Shalazhashan pluton on the northern margin of the Alxa Block, Inner Mongolia and their implica-tions , 2014 .

[41]  Xu Dong-zhu Characteristics, zircon dating and tectonic significance of the gabbros along the north-central segments of the Alxa Block, Inner Mongolia , 2014 .

[42]  Zhang We The Discovery of the Carboniferous Adakite and its Tectonic Implications in AlxaYouqi , 2014 .

[43]  B. Windley,et al.  Field geology, geochronology and geochemistry of mafic–ultramafic rocks from Alxa, China: Implications for Late Permian accretionary tectonics in the southern Altaids , 2013 .

[44]  Jin Zhang,et al.  Kinematics and geochronology of multistage ductile deformation along the eastern Alxa block, NW China: New constraints on the relationship between the North China Plate and the Alxa block , 2013 .

[45]  Sheng‐yao Yu,et al.  Neoarchean–Paleoproterozoic multiple tectonothermal events in the western Alxa block, North China Craton and their geological implication: Evidence from zircon U–Pb ages and Hf isotopic composition , 2013 .

[46]  J. Charvet,et al.  Middle Paleozoic convergent orogenic belts in western Inner Mongolia (China): framework, kinematics, geochronology and implications for tectonic evolution of the Central Asian Orogenic Belt , 2013 .

[47]  Chen We SUBDUCTION-RELATED EARLY PERMIAN GRANODIORITE IN JINCHANGSHAN OF ALASHAN,INNER MONGOLIA:EVIDENCES FROM ZIRCON U-Pb GEOCHRONOLOGY AND GEOCHEMISTRY , 2013 .

[48]  Z. Wen,et al.  Time constraints for the closing of the Paleo-Asian Ocean in the Northern Alxa Region: Evidence from Wuliji granites , 2013 .

[49]  Dunyi Liu,et al.  Mesoproterozoic (Grenville-age) terranes in the Kyrgyz North Tianshan: Zircon ages and Nd–Hf isotopic constraints on the origin and evolution of basement blocks in the southern Central Asian Orogen , 2013 .

[50]  Peter A. Cawood,et al.  Amalgamation of the North China Craton: Key issues and discussion , 2012 .

[51]  Sheng‐yao Yu,et al.  Ca. 2.5 Ga TTG rocks in the western Alxa Block and their implications , 2012 .

[52]  Xian‐Hua Li,et al.  Paleoproterozoic evolution of the eastern Alxa Block, westernmost North China: Evidence from in situ zircon U–Pb dating and Hf–O isotopes , 2012 .

[53]  Geng Yuan Early Permian magmatic events in the Alxa metamorphic basement:Evidence from geochronology , 2012 .

[54]  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 .

[55]  S. Wilde,et al.  Geochronology of the Phanerozoic granitoids in northeastern China , 2011 .

[56]  Z. Jian-xin The origin of Longshoushan Group and associated rocks in the southern part of the Alxa block: constraint from LA-ICP-MS U-Pb zircon dating , 2011 .

[57]  W. Xiao,et al.  Geochronology and geochemistry of Early Permian mafic–ultramafic complexes in the Beishan area, Xinjiang, NW China: Implications for late Paleozoic tectonic evolution of the southern Altaids , 2010 .

[58]  A. Yin Cenozoic tectonic evolution of Asia: A preliminary synthesis , 2010 .

[59]  Zhou Yin-zhang A preliminary study of granitoids in western Inner Mongolia , 2010 .

[60]  Geng Yuan Late-Paleoproterozoic tectonothermal events of the metamorphic basement in Alxa area:Evidence from geochronology , 2010 .

[61]  Geng Yuan-sheng Early Neoproterozoic granite events in Alax area of Inner Mongolia and their geological significance:evidence from geochronology , 2010 .

[62]  Dunyi Liu,et al.  Precambrian crystalline basement in southern Mongolia as revealed by SHRIMP zircon dating , 2009 .

[63]  Wu Tairan,et al.  Tectonic Units and Their Fundamental Characteristics on the Northern Margin of the Alxa Block1 , 2009 .

[64]  C. Yuan,et al.  End-Permian to mid-Triassic termination of the accretionary processes of the southern Altaids: implications for the geodynamic evolution, Phanerozoic continental growth, and metallogeny of Central Asia , 2009 .

[65]  Min Sun,et al.  Middle Cambrian to Permian subduction-related accretionary orogenesis of Northern Xinjiang, NW China: Implications for the tectonic evolution of central Asia , 2008 .

[66]  Q. Zhang,et al.  Time scale of an early to mid-Paleozoic orogenic cycle of the long-lived Central Asian Orogenic Belt, Inner Mongolia of China: Implications for continental growth , 2008 .

[67]  Zhang Zhong-shan Geotectonic Framework and Metallogenic System in the South Margin of North China Paleocontinent , 2008 .

[68]  Zhou Hongying,et al.  Palaeoproterozoic Khondalite Belt in the western North China Craton: New evidence from SHRIMP dating and Hf isotope composition of zircons from metamorphic rocks in the Bayan Ul-Helan Mountains area , 2007 .

[69]  Dunyi Liu,et al.  SHRIMP U-Pb geochronology of the detrital zircons from the Longshoushan Group and its tectonic significance , 2007 .

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

[71]  Li Hui-min The U-Pb Isotopic Dating Age of Single Zircon from Biotite Plagioclase Gneiss in the Qinggele Area,Alashan,Western Inner Mongolia , 2007 .

[72]  Wu Chun-ming Chronology of the Precambrian metamorphic series in the Alxa area, Inner Mongolia , 2007 .

[73]  J. Li Permian geodynamic setting of Northeast China and adjacent regions: closure of the Paleo-Asian Ocean and subduction of the Paleo-Pacific Plate , 2006 .

[74]  Wu Chun-ming Redefinition of the Alxa Group-complex (Precambrian metamorphic basement) in the Alxa area, Inner Mongolia , 2006 .

[75]  A. M. Larin,et al.  Isotope provinces, mechanisms of generation and sources of the continental crust in the Central Asian mobile belt: geological and isotopic evidence , 2004 .

[76]  Bin Chen,et al.  Genesis of post-collisional granitoids and basement nature of the Junggar Terrane, NW China: Nd–Sr isotope and trace element evidence , 2004 .

[77]  Dunyi Liu,et al.  Sources of Phanerozoic granitoids in the transect Bayanhongor–Ulaan Baatar, Mongolia: geochemical and Nd isotopic evidence, and implications for Phanerozoic crustal growth , 2004 .

[78]  B. Windley,et al.  Accretion leading to collision and the Permian Solonker suture, Inner Mongolia, China: Termination of the central Asian orogenic belt , 2003 .

[79]  S. Wilde,et al.  A-type granites in northeastern China: age and geochemical constraints on their petrogenesis , 2002 .

[80]  G. Gehrels,et al.  Geochronological evidence for existence of South Mongolian microcontinent—A zircon U-Pb age of grantoid gneisses from the Yagan-Onch Hayrhan metamorphic core complex , 2001 .

[81]  Guoxin Zhang,et al.  Crustal evolution and Phanerozoic crustal growth in northern Xinjiang: Nd isotopic evidence. Part I. Isotopic characterization of basement rocks , 2000 .

[82]  Bin Chen,et al.  Two contrasting paleozoic magmatic belts in northern Inner Mongolia, China: petrogenesis and tectonic implications , 2000 .

[83]  S. Wilde,et al.  Phanerozoic crustal growth: U–Pb and Sr–Nd isotopic evidence from the granites in northeastern China , 2000 .

[84]  Bin Chen,et al.  Massive granitoid generation in Central Asia: Nd isotope evidence and implication for continental growth in the Phanerozoic , 2000 .

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

[86]  Zhang-Yuan Chen,et al.  On Palaeozoic Tectonics in the Alxa Region, Inner Mongolia, China , 1998 .

[87]  Yuan-lin Sun,et al.  Depleted-mantle source for the Ulungur River A-type granites from North Xinjiang, China: geochemistry and Nd–Sr isotopic evidence, and implications for Phanerozoic crustal growth , 1997 .

[88]  B. Natal’in,et al.  TURKIC-TYPE OROGENY AND ITS ROLE IN THE MAKING OF THE CONTINENTAL CRUST , 1996 .

[89]  A. Şengör,et al.  Evolution of the Altaid tectonic collage and Palaeozoic crustal growth in Eurasia , 1993, Nature.

[90]  S. Goldstein,et al.  Use and abuse of crust-formation ages , 1987 .

[91]  S. Jacobsen,et al.  Nd and Sr isotopic variations of Early Paleozoic oceans , 1987 .