Abstract
Junggar basin is an important part of the Central Asian Orogenic Belt (CAOB) which is also one of the key areas of researches about formation and evolution of the CAOB. Recently, a question of whether the Junggar basin has a Precambrian basement is one of the hottest topics. We undertook LA-ICP-MS zircon U–Pb dating from Carboniferous pyroclastic rocks and Mesozoic sedimentary rocks in northern Xinjiang Province, NW China, with the aim of constraining the evolution and features of the basement of the north Junggar basin and adjacent areas. (1) The zircon U–Pb age analysis of the Carboniferous pyroclastic rock samples clustered in the 1447∼1410 Ma and 885∼559 Ma showed that the basement of the north Junggar basin was continental crust that formed 1.4 Ga ago. The zircon U–Pb ages clustered in the 536∼420 Ma, 401∼360 Ma, and 359∼303 Ma indicated a multiple evolution of basement. (2) The zircon trace element analysis of different age groups from the Carboniferous pyroclastic rock samples showed that the basement of the north Junggar basin was continental crust composed of acid rocks and intermediate-basic intrusive rocks, which were mainly the granitoids, syenite, basalt, dolerite, and larvikite. (3) The zircon U–Pb ages and trace element analysis of the Mesozoic sedimentary rock samples clustered in the 3022∼2102 Ma, 1747∼1202 Ma, 996∼915 Ma, 885∼544 Ma, 539∼420 Ma, 419∼356 Ma, and 354∼300 Ma revealed that not only 3.0-Ga continental crust existed in the north Junggar basin and adjacent areas but also multiple crustal material evolution that occurred during the formation of the basement. (4) The evolution of sedimentary cover experienced 299∼250 Ma, 210∼176 Ma, 175∼148 Ma, and 147∼132 Ma with the corresponding peak age of ca. 290, 180, 163, and 140 Ma, respectively, indicated that the sedimentary cover of the northern Junggar basin experienced a complex tectonic evolution from Permian.
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References
Balintoni I, Balica C, Ducea MN, Chen FK, Hann HP, Sabiovschi V (2009) Late Cambrian-Early Ordovician Gondwanan terranes in the Romanian Carpathians: a zircon U-Pb provenance study. Gondwana Research 16(1):119–133
Belousova EA, Griffin WL, O’Reilly SY, Fisher NI (2002) Igneous zircon: trace element composition as an indicator of source rock type. Contrib Mineral Petrol 143:602–622
Brown ER, Gehrels GE (2007) Detrital zircon constraints on terrane ages and affinities and timing of orogenic events in the San Juan Islands and North Cascades, Washington. Can Journal Earth Science 44:1375–1396
Carrolar AR, Liang YH, Graham SA, Xiao XC, Hendrix MS, Chu JC, McKnight CL (1990) Junggar basin, northwest China: trapped Late Paleozoic Ocean. Tectonophysics 186:1–14
Cawood PA, Nemchin AA (2000) Provenance record of a rift basin: U/Pb ages of detrital zircons from the Perth Basin, Western Australia. Sedimentary Geology 134:209–234
Charvet J, Shu LS, Charvet SL (2007) Paleozoic structural and geodynamic evolution of eastern Tian Shan (NW China): welding of the rim and Junggar plates. Episodes 30(3):162–185
Chen B, Jahn BM (2004) Genesis of post-collisional granitoids and basement nature of the Junggar Terrane, NW China: Nd-Sr isotope and trace element evidence. Journal of Asian Earth Sciences 23:691–703
Chen DC, Zhao SM, Deng J (2010) U-Pb dating of Carboniferous sandstone detrital zircon from the North of the Bogda Mountains, Eastern Xinjiang, and its geological significances. Acta Geoscientica Sinica 84(12):1770–1780, In Chinese with English abstract
Coleman RG (1989) Continental growth of northwest China. Tectonics 8:613–635
Crofu F, Hanchar JM, Hoskin PW, O’Kinny P (2003) Atlas of zircon textures. Reviews in Mineralogy and Geochemistry 53:469–495
Gao ZJ, Chen JB, Lu SN, Peng CW, Qin ZY (1993) The Precambrian geology in northern Xingjiang(No.6). Geology Publishing House, Beijing, pp 1–181, In Chinese with English abstract
Geng HY, Sun M, Yuan C, Xiao WJ, Zhao GC, Zhang LF, Wong K, Wu FY (2009) Geochemical, Sr–Nd and zircon U–Pb–Hf isotopic studies of Late Carboniferous magmatism in the West Junggar, Xinjiang: implications for ridge subduction? Chemical Geology 266:364–389
Griffin WL, Powell WJ, Pearson NJ, O'Reilly SY (2008) GLITTER: data reduction software for laser ablation ICP-MS. In: Sylvester P (ed) Laser ablation-ICP-MS in the Earth sciences. Mineralogical Association of Canada Short Course Series 40:204–207
Gu PY, Li YJ, Zhang B, Tong LL, Wang JN (2009) LA-ICP-MS Zircon U-Pb Dating of Gabbro in the Darbutophiolite, Western Junggar, China. Acta Petrologica Silica 25(6):1364–1372
Han BF, Ji JQ, Song B, Chen LH, Zhang L (2006) Late Paleozoic vertical growth of continental crust around the Junggar basin, Xinjiang, China (Part I): timing of post-collisional plutonism. Acta Petrologica Sinica 22:1077–1086
He GQ, Li MS (2001) Significance of Paleostructure and Paleogeography of Ordovician-Silurian rock associations in northern Xinjiang, China. Acta Scientiarum Naturalium Universitatis Pekinensis 37(1):99–110, In Chinese with English abstract
Hu AQ, Zhang ZG, Liu JY, Peng JH, Zhang JB, Zhao DJ, Yang SZ, Zhou W (1986) U-Pb age and evolution of precambrian metamorphic rocks of Middle Tianshan uplift zone, eastern Tianshan, China. Geochimica 15(1):23–35, In Chinese with English abstract
Hu AQ, Wang ZG, Tu GZ (1997) Geological evolution and Diagenic and Metallogenetic regularity in northern Xinjiang. Science Press, Beijing, pp 9–105, In Chinese with English abstract
Hu AQ, Wei JG (2003) A review of ages of basement rocks from Junggar basin in XinJiang, China—based on studies of geochronology. XinJiang Geology 21(4):398–406, In Chinese with English abstract
Hu AQ, Zhang GX, Chen YB (2006) Isotope geochronology and geochemistry for major geological events of continental crustal evolution of Xinjiang, China. Geology Publishing House, Beijing, pp 1–445, In Chinese with English abstract
Hu AQ, Zhang GX, Chen YB, Zhang QF (2001) A model of division of the continental crust basement and the time scales of the major geological events in the Xijiang—based on the studies of isotopic geochronology and geochemistry. XinJiang Geology 19(1):12–19, In Chinese with English abstract
Hu AQ, Zhang GX, Zhang QF, Li TD, Zhang JB (2002) A review on ages of Precambrian metamorphic rocks from Altai orogen in Xinjiang, NW China. Chinese Journal of geology 37(2):129–142 (In Chinese with English abstract)
Jahn BM, Wu FY, Chen B (2000) Granitoids of the Central Asian Orogenic Belt and continental growth in the Phanerozoic. Transactions of the Royal Society of Edinburgh: Earth Sciences 91:181–193
Jin CW, Xu YS (1997) Petrology and genesis of the Bieluagaxi granitoids in Tuoli, Xinjiang, China. Acta Petrologica Sinica 13(4):329–537
Kinny PD, Wijbrans JR, Froude DO, Williams IS, Compston W (1990) Age constraints on the geological evolution of the Narryer Gneiss Complex, Western Australia. Australia Journal of Earth Sciences 37:51–69
Kirkland CL, Strachan RA, Prave AR (2008) Detrital zircon signature of the Moine Super group, Scotland: vontrasts and comparisons with other Neoproterozoic successions within the circum-North Atlantic region. Precambrian Research 163:332–350
Kwon ST, Tilton GR, Coleman RG (1989) Isotopic studies bearing on the tectonics of the West Junggar region, Xinjiang, China. Tectonics 8:719–727
Li JY (1995) Main characteristics and emplacement processes of the East Junggar Ophiolites, Xinjiang, China. Acta Petrologica Sinica 11:73–84
Li JY, Xiao XC, Chen W (2000) Late Ordovician continental basement of the eastern Junggar basin in Xinjiang, NW China: evidence from the Laojunmiao metamorphic complex on the northeast basin margin. Regional Geology of China 19:297–302
Li JY, Xiao XC, Tang YQ, Zhao M, Zhu BQ, Feng YM (1990) Main characteristics of late Paleozoic plate tectonics in the southern part of East Junggar, Xinjiang. Geologica1 Review 35:305–316, In Chinese with English abstract
Li JY, Yang TN, Li YP, Zhu ZX (2009) Geological features of the Karamaili Faulting Belt, Eastern Junggar Region, Xinjiang, China and its constraints on the reconstruction of Late Paleozoic Ocean continental framework of the central Asian region. Geological Bulletin of China 28(12):1817–1826
Li YP, Li JY, Sun GH, Zhu ZX, Yang ZQ (2007) Basement of Junggar basin: evidence from detrital zircons in sandstone of previous Devonian Kalamaili Formation. Acta Petrologica Sinica 23(7):1577–1590
Liu XM, Gao S, Diwu CR, Yuan HL, Hu ZC (2007) Simultaneous in-situ determination of U-Pb age and trace elements in zircon by LA-ICP-MS in 20 μm spot size. Chinese Science Bulletin 52(9):1257–1264
Long XP, Sun M, Yuan C, Xiao WJ, Chen HL, Zhao YJ, Cai KD, Li JL (2006) Genesis of carboniferous volcanic rocks in the Eastern Junggar: constraints on the closure of the Junggar Ocean. Acta Petrological Sinica 22:31–40
Long XP, Yuan C, Sun M, Safonova I, Xiao WJ, Wang YJ (2011) Geochemistry and U–Pb detrital zircon dating of Paleozoic graywackes in East Junggar, NW China: insights into subduction–accretion processes in the southern Central Asian Orogenic Belt. Gondwana Research 21(2–3):637–653
Lu YM, Zhao J, Chen X, Zhang D (2007) The relationship between ductile-brittle shear zones and mineralization of gold deposits in Shuangquan area, eastern Juggar. XinJiang Geology 25(2):164–168, In Chinese with English abstract
Ludwig, KR (2003). ISOPLOT 3.0: a geochronological toolkit for Microsoft Excel. Berkeley Geochronology Center Spec Publ, Berkeley, p 1–71
Ma ZJ, Qu GS, Chen XF (2008) The deep-shallow structures and oil-gas distribution in Junggar basin. Xinjiang Petroleum Geology 29(4):411–414
Maas R, Kinny PD, Williams IS, Froude DO, Compston W (1992) The Earth’s oldest known crust: a geochronological and geochemical study of 3900–4200 Ma old detrital zircons from Mt. Narryer and Jack Hills, Western Australia. Geochimicaet Cosmochimica Acta 56:1281–1300
Mao XN, Chen G, Ding C, Li ZH, Yang F (2012) Geochemical characteristics and geological environment significance of the late carboniferous epoch volcanic rocks in Luliang Area in Junggar basin. Journal of Northwest University (Natural Science Edition) 42(1):88–94, in Chinese with English abstract
Rainbird RH, Hamilton MA, Young GM (2001) Detrital zircon geochronology and provenance of the Torridonian, NW Scotland. Journal of the Geological Society, London 158:15–27
Stevenson RK, Patchett PJ (1990) Implications for the evolution of continental crust from Hf isotope systematics of Archean detrital zircons. Geochimica et Cosmochimica Acta 54:1683–1697
Stewart JH, Gehrels GE, Barth AP, Link PK, Christie BN, Wrucke CT (2001) Detrital zircon provenance of Mesoproterozoic to Cambrian arenites in the western United States and northwestern Mexico. Geological Society of America Bulletin 113:1343–1356
Su YP, Zheng JP, Griffin WL, Tang HY, O’REILLY SY, Lin XY (2010) Zircon U-Pb and Hf isotopes of volcanic rocks from the Batamayineishan Formation in the eastern Junggar basin. Chinese Science Bulletin 55:4150–4161
Sun GH, Li JY, Zhu ZX, Li YP, Yang ZQ (2007) Detrital zircon SHRIM P U–Pb dating of Carboniferous sandstone from the southern foot of the Harlik Mountains, eastern Xinjiang, and its geological implications. Geology in China 34:778–789, in Chinese with English abstract
Surpless KD, Graham SA, Covault JA, Wooden JL (2006) Does the Great Valley Group contain Jurassic strata? Reevaluation of the age and early evolution of a classic foreland basin. Geology 34:21–24
Wang FZ, Yang MZ, Zheng JP (2002) Petrochemical characteristics and tectonic settings of the basement volcanic rocks from the Luliang area of Junggar basin. Acta Petrologica Sinica 18:9–16
Wang YJ, Liu HJ, Zhou JP, Qu HJ (2011) LA-ICP-MS U-Pb dating of detrital zircons from the marine volcanic sedimentary rock in the Northern Kamste, Eastern Junggar and its geological significance. Geoscience 25(6):1047–1058, in Chinese with English abstract
Wu FL, Yao ZG (2011) Application of U-Pb dating in the study on the provenance analysis of detrital zircons in the southern margin of Junggar basin, China. Journal of Xi’an Shi you University (Natural Science Edition) 26(3):6–13, In Chinese with English abstract
Xiao XC, Tang YQ, Feng YM, Zhu BQ, Li JY, Zhao M (1991) Tectonic evolution of the northern XinJiang and its adjacent regions. Geological Publishing House, Beijing, pp 1–169
Xiao WJ, Han CM, Yuan C, Sun M, Lin SF, Chen HL, Li ZL, Li JL, Sun S (2008) Middle Cambrian to Permian subduction-related accretionary orogenesis of northern Xinjiang, NW China: implications for the tectonic evolution of central Asia. Journal of Asian Earth Sciences 32:102–117
Xiao WJ, Windley BF, Badarch G, Sun S, Li J, Qin KZ, Wang ZH (2004a) Palaeozoic accretionary and convergent tectonics of the southern Altaids: implications for the lateral growth of Central Asia. Journal of the Geological Society, London 161:339–342
Xiao WJ, Windley BF, Yan QR, Qin KZ, Chen HL, Yuan C, Sun M, Li JL, Sun S (2006) SHRIMP zircon age of the Aermantai ophiolite in the North Xinjiang, China and its tectonic implications. Acta Geologica Sinica 80:32–36
Xiao WJ, Zhang LC, Qin KZ, Sun S, Li JL (2004b) Paleozoic accretionary and collisional tectonics of the Eastern Tianshan (China): implications for the continental growth of central Asia. American Journal of Science 304:370–395
Xiao Y, Zhang HF, Shi JA, Su BX, Sakyi PA, Lu XC, Hu Y, Zhang Z (2011) Late Paleozoic magmatic record of East Junggar, NW China and its significance: Implication from zircon U-Pb dating and Hf isotope. Gondwana Research 12(8):1–11
Xu XW, Li XH, Jiang N, Li QL, Qu X, Yang YH, Zhou G, Dong LH (2015) Basement nature and origin of the Junggar terrane: New zircon U–Pb–Hf isotope evidence from Paleozoic rocks and their enclaves. Gondwana Research 28(1):288–310
Xu X, Chen C, Ding TF, Liu XY, Li HQ (2008) Discovery of Lisa Basalt Northwestern edge of Junggar basin and it’s geological significance. Xinjiang Geology 26(1):9–16, In Chinese with English abstract
Xu X, He GQ, Li HQ, Ding TF, Liu XY, Mei SW (2006) Basiccharacteristics of the Karamayophioliticmelange, Xinjiang and its zircon SHRIMP dating. Geology in China 33:470–475, In Chinese with English abstract
Yang F (2012) The basement property and evolution of the northern Junggar basin by in-situ analysis of zircon U-Pb chronology and trace element. Xi’an Northwest University, Master Thesis 1–100 (in Chinese with English abstract)
Yang GX, Li YJ, Wu HE, Zhong X, Yang BK, Yan CX, Yan J (2011) Geochronological and geochemical constrains on petrogenesis of the Huangyangshan A-type granite from the East Junggar, Xinjiang, NW China. Journal of Asian Earth Sciences 40:722–736
Yang JH, Wu FY, Shao JA, Wild SA, Xie LW, Liu XM (2006) Constraints on the timing of uplift of the Yanshan Fold and Thrust Belt, North China. Earth and Planetary Science Letters 246:336–352
Yuan C, Xiao WJ, Chen HL, Li JL, Sun M (2006) Zhaheba Potassic Basalt, Eastern Junggar (NW China): geochemical characteristics and tectonic implications. Acta Geologica Sinica 80(2):254–263, in Chinese with English abstract
Zhang C, Zhai MG, Allen MB, Saunders AD, Wang GR, Huang X (1993) Implications of Paleozoic ophiolites from Western Junggar, NW China, for the tectonics of central Asia. Journal of the Geological Society, London 150:551–561
Zhang JS, Hong DW, Wang T (2004) Geophysical researches on the basement properties of the Junggar basin. Acta Geoscientica Sinica 25(4):473–478, In Chinese with English abstract
Zhang YY, Guo ZJ (2010) New constraints on formation ages of ophiolites in northern Junggar and comparative study on their connection. Acta Petrologica Sinica 26(2):421–430
Zheng JP, Wang FZ, Cheng ZM, Wu XZ, Zhang YJ (2000) Nature and evolution of amalgamated basement of Junggar Basin, northwestern China: Sr-Nd isotope evidences of basement igneous rock. Earth Science 25(2):179–185
Zheng JP, Sun M, Zhao GC, Robinson PT, Wang FZ (2007) Elemental and Sr–Nd–Pb isotopic geochemistry of Late Paleozoic volcanic rocks beneath the Junggar basin, NW China: implications for the formation and evolution of the basin basement. Journal of Asian Earth Sciences 29:778–794
Zhou G, Zhang ZC, He Y, Wang X, Li JG, He YK, Zheng KP, Luo SB (2006) SHRIMP Zircon U-Pb dating of gneisses in the Mayin Obo Fault belt, northern Xinjiang, and its significance. Geology in China 33(6):1209–1216, In Chinese with English abstract
Acknowledgments
This work was jointly supported by the Scientific Research Foundation for the Returned Overseas Chinese Scholars, Ministry of Education of China (Grant No. 2011–1568). We appreciate the discussions and suggestions from Prof. Y P Dong and Prof. D W Zhou at Northwest University and express our thanks to Prof. X M Liu and C R Diwu at Northwest University for their support and assistance in sample measurement and analysis. We are also grateful for valuable comments and beneficial suggestions from the journal reviewers and anonymous evaluation experts.
Authors’ contributions
G. Chen and F. Yang conceived the idea and wrote the manuscript. Professor G. Chen designed and performed the research as the doctoral supervisor of Dr. F. Yang, who analyzed the data of this paper. The overall contribution of G. Chen and F. Yang to the study is equal.
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Fu Yang and Gang Chen contributed equally to this work.
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Yang, F., Chen, G. The basement property and evolution of the northern Junggar basin—evidence from zircon U–Pb chronology and trace element. Arab J Geosci 9, 353 (2016). https://doi.org/10.1007/s12517-016-2367-0
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DOI: https://doi.org/10.1007/s12517-016-2367-0