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Late Palaeozoic tectonic evolution of the eastern Palaeo-Asian Ocean: new evidence from the early Permian arc magmatic suites in the Kulun region

Published online by Cambridge University Press:  20 July 2022

Yan Jing Open the ORCID record for Yan Jing [Opens in a new window] ,
Wen-chun Ge ,
Hao Yang Open the ORCID record for Hao Yang [Opens in a new window] ,
Yu Dong ,
Zheng Ji ,
Jun-hui Bi ,
Hong-ying Zhou  and
Dehe Xing
Yan Jing
Affiliation:
College of Earth Sciences, Jilin University, Changchun130061, China Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Land and Resources of China, Changchun130026, China
Wen-chun Ge*
Affiliation:
College of Earth Sciences, Jilin University, Changchun130061, China Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Land and Resources of China, Changchun130026, China
Hao Yang
Affiliation:
College of Earth Sciences, Jilin University, Changchun130061, China Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Land and Resources of China, Changchun130026, China
Yu Dong
Affiliation:
College of Earth Sciences, Jilin University, Changchun130061, China Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Land and Resources of China, Changchun130026, China
Zheng Ji
Affiliation:
College of Earth Sciences, Jilin University, Changchun130061, China Key Laboratory of Mineral Resources Evaluation in Northeast Asia, Ministry of Land and Resources of China, Changchun130026, China
Jun-hui Bi
Affiliation:
Tianjin Centre of the China Geological Survey, Tianjin300170, China
Hong-ying Zhou
Affiliation:
Tianjin Centre of the China Geological Survey, Tianjin300170, China
Dehe Xing
Affiliation:
Shenyang Centre of the China Geological Survey, Shenyang110034, China
*
Author for correspondence: Wen-chun Ge, Email: gewenchun@jlu.edu.cn
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Abstract

Late Palaeozoic igneous rock associations in response to subduction, accretion, and final closure of the eastern Palaeo-Asian Ocean play a significant role in understanding the geodynamic evolution of the southeastern Central Asian Orogenic Belt. Previous studies have identified a Permian arc magmatic belt associated with the southward-dipping subduction of the eastern Palaeo-Asian Ocean along the Solonker–Changchun suture zone. The genetic mechanism and associated geodynamic settings are of great importance in deciphering the evolution of the eastern Palaeo-Asian Ocean. This paper presents zircon U–Pb–Hf isotope and whole-rock geochemical analyses for a suite of magmatic rocks including the early Permian diorite porphyrites (ca. 281.0 Ma), andesites (ca. 276 Ma) and rhyolites (ca. 275 Ma) in the Kulun region. The diorite porphyrites and andesites have high SiO2 and total alkali contents, and low MgO contents and Mg no. values, with enrichments in large ion lithophile elements and depletions in high-field-strength elements. These geochemical characteristics, together with low-Sr and high-Yb contents, a weak concave-upward shape of middle rare earth elements and negative Eu anomalies, suggest that these intermediate igneous rocks were generated by partial melting of amphibolitic lower crust at a crustal depth of 30–40 km. The rhyolites have heterogeneous isotopic compositions, with ϵHf(t) values and TDM2 ages of –20.8 to +0.5 and 3578∼1494 Ma, implying that they were likely derived from partial melting of a mixed source dominated by recycled ancient crust with minor juvenile crustal materials. The rhyolites show potassic affinity with relatively high K2O and very low Na2O, which was attributed to liquid immiscibility of felsic magma and subsequent limited fractional crystallization of plagioclase. The regional igneous associations, metamorphic events, and coeval sedimentary rocks along the Solonker–Changchun suture zone indicate that the early Permian igneous rocks were formed in an active continental arc environment in response to southward subduction of the eastern Palaeo-Asian Ocean.

Keywords

Central Asian Orogenic BeltKulun regionearly Permianfelsic magmatic suitessouthward subductionPalaeo-Asian Ocean
Type
Original Article
Information
Geological Magazine , Volume 159 , Issue 9 , September 2022 , pp. 1513 - 1528
Copyright
© The Author(s), 2022. Published by Cambridge University Press

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References

Ajaji, T, Weis, D, Giret, A and Bouabdellah, M (1998) Coeval potassic and sodic calc-alkaline series in the post-collisional Hercynian Tanncherfi intrusive complex, northeastern Morocco: geochemical, isotopic and geochronological evidence. Lithos 45, 371–93.CrossRefGoogle Scholar
Annen, C, Blundy, JD and Sparks, RSJ (2006) The genesis of intermediate and silicic magmas in deep crustal hot zones. Journal of Petrology 47, 505–39.CrossRefGoogle Scholar
Badarch, G, Cunningham, WD and Windley, BF (2002) A new terrane subdivision for Mongolia: implications for the Phanerozoic crustal growth of Central Asia. Journal of Asian Earth Sciences 21, 87110.CrossRefGoogle Scholar
Bao, ZW, Chen, SH and Zhang, ZT (1994) A study on REE and Sm–Nd isotopes of Hegenshan ophiolite, Inner Mongolia. Geochemica 23, 339–49 (in Chinese with English abstract).Google Scholar
Cantagrel, JM, Didier, J and Gourgaud, A (1984) Magma mixing: origin of intermediate rocks and “enclaves” from volcanism to plutonism. Physics of the Earth and Planetary Interiors 35, 6376.CrossRefGoogle Scholar
Cao, HH, Xu, WL, Pei, FP, Wang, ZW, Wang, F and Wang, ZJ (2013) Zircon U–Pb geochronology and petrogenesis of the Late Paleozoic–Early Mesozoic intrusive rocks in the eastern segment of the northern margin of the North China Block. Lithos 170–171, 191207.CrossRefGoogle Scholar
Cao, HH, Xu, WL, Pei, FP and Zhang, XZ (2011) Permian tectonic evolution in Southwestern Khanka Massif: evidence from zircon U–Pb chronology, Hf isotope and geochemistry of gabbro and diorite. Acta Geologica Sinica (English Edition) 85, 1390–402.Google Scholar
Cawood, PA, Wang, Y, Xu, Y and Zhao, G (2013) Locating South China in Rodinia and Gondwana: a fragment of greater India lithosphere? Geology 41, 903–6.CrossRefGoogle Scholar
Chai, H, Ma, YF, Santosh, M, Hao, SL, Luo, TW, Fan, DQ, Gao, B, Zong, LB, Mao, H and Wang, QF (2020) Late Carboniferous to Early Permian oceanic subduction in central Inner Mongolia and its correlation with the tectonic evolution of the southeastern Central Asian Orogenic Belt. Gondwana Research 84, 245–59.CrossRefGoogle Scholar
Chen, SS, Shi, RD, Fan, WM, Zou, HB, Liu, DL, Huang, QS, Gong, XH, Yi, GD and Wu, K (2016) Middle Triassic ultrapotassic rhyolites from the Tanggula Pass, southern Qiangtang, China: a previously unrecognized stage of silicic magmatism. Lithos 264, 258–76.CrossRefGoogle Scholar
Deng, JF, Liu, C, Feng, YF, Xiao, QH, Su, SG, Zhao, GC, Kong, WQ and Cao, WY (2010) High magnesian andesitic/dioritic rocks (HMA) and magnesian andesitic/dioritic rocks (MA): two igneous rock types related to oceanic subduction. Geology in China 37, 1112–18 (in Chinese with English abstract).Google Scholar
Deng, SH, Wan, CB and Yang, JG (2009) Discovery of a Late Permian Angara-Cathaysia mixed flora from Acheng of Heilongjiang, China, with discussions on the closure of the Paleoasian Ocean. Science in China (Series D: Earth Sciences) 52, 1746–55.CrossRefGoogle Scholar
Ding, HX, Zhang, ZM, Dong, X, Yan, R, Lin, YH and Jiang, HY (2015) Cambrian ultrapotassic rhyolites from the Lhasa terrane, south Tibet: evidence for Andean-type magmatism along the northern active margin of Gondwana. Gondwana Research 27, 1616–29.CrossRefGoogle Scholar
Dong, Y, Ge, WC, Yang, H, Ji, Z, He, Y, Zhao, D and Xu, WL (2018) Convergence history of the Jiamusi and Songnen-Zhangguangcai Range massifs: insights from detrital zircon U–Pb geochronology of the Yilan Heilongjiang Complex, NE China. Gondwana Research 56, 5168.CrossRefGoogle Scholar
Eizenhöfer, PR and Zhao, GC (2018) Solonker Suture in East Asia and its bearing on the final closure of the eastern segment of the Palaeo-Asian Ocean. Earth-Science Reviews 186, 153–72.CrossRefGoogle Scholar
Eizenhöfer, PR, Zhao, GC, Zhang, J and Sun, M (2014) Final closure of the Paleo-Asian Ocean along the Solonker Suture Zone: constraints from geochronological and geochemical data of Permian volcanic and sedimentary rocks. Tectonics 33, 441–63.CrossRefGoogle Scholar
Ennis, DJ, Dunbar, NW, Campbell, AR and Chapin, CE (2000) The effects of K-metasomatism on the mineralogy and geochemistry of silicic ignimbrites near Socorro, New Mexico. Chemical Geology 167, 285312.CrossRefGoogle Scholar
Foley, SF, Venturelli, G, Green, DH and Toscani, L (1987) The ultrapotassic rocks: characteristics, classification, and constraints for petrogenetic models. Earth-Science Reviews 24, 81134.CrossRefGoogle Scholar
Ge, WC, Wu, FY, Zhou, CY and Zhang, JH (2005) Zircon U–Pb ages and its significance of the Mesozoic granites in the Wulanhaote region, central Da Hinggan Mountain. Acta Petrologica Sinica 21, 749–62 (in Chinese with English abstract).Google Scholar
Gibson, SA, Kirkpatrick, RJ, Emmermann, R, Schmincke, H-U, Pritchard, G, Oakley, PJ, Thorpe, RS and Marriner, GF (1982) The trace element composition of lavas and dikes from a 3-km vertical section through a lava pile in eastern Iceland. Journal of Geophysical Research: Solid Earth 87, 6532–46.CrossRefGoogle Scholar
Gorton, MP and Schandl, ES (2000) From continents to island arcs: a geochemical index of tectonic setting for arc-related and within-plate felsic to intermediate volcanic rocks. The Canadian Mineralogist 38, 1065–73.CrossRefGoogle Scholar
Guo, F, Li, HX, Fan, WM, Li, JY, Zhao, L and Huang, MW (2016) Variable sediment flux in generation of Permian subduction-related mafic intrusions from the Yanbian region, NE China. Lithos 261, 195215.CrossRefGoogle Scholar
Harris, NBW, Pearce, JA and Tindle, AG (1986) Geochemical characteristics of collision-zone magmatism. In Collision Tectonics (eds Coward, MP and Ries, AC), pp. 6781. Geological Society of London, Special Publication no. 19.Google Scholar
Hastie, AR, Kerr, AC, Pearce, JA and Mitchell, SF (2007) Classification of altered volcanic island arc rocks using immobile trace elements: development of the Th–Co discrimination diagram. Journal of Petrology 48, 2341–57.CrossRefGoogle Scholar
Hofmann, AW (1988) Chemical differentiation of the Earth: the relationship between mantle, continental crust, and oceanic crust. Earth and Planetary Science Letters 90, 297314.CrossRefGoogle Scholar
Hu, PY, Li, C, Wang, M, Xie, C and Wu, YW (2013) Cambrian volcanism in the Lhasa terrane, southern Tibet: record of an early Paleozoic Andean-type magmatic arc along the Gondwana proto-Tethyan margin. Journal of Asian Earth Sciences 77, 91107.CrossRefGoogle Scholar
Huang, BC, Yan, YG, Piper, JDA, Zhang, DH, Yi, ZY, Yu, S and Zhou, TH (2018) Paleomagnetic constraints on the paleogeography of the East Asian blocks during Late Paleozoic and Early Mesozoic times. Earth-Science Reviews 186, 836.CrossRefGoogle Scholar
Hui, J, Zhang, KJ, Zhang, J, Qu, JF, Zhang, BH, Zhao, H and Niu, PF (2021) Middle–late Permian high-K adakitic granitoids in the NE Alxa block, northern China: orogenic record following the closure of a Paleo-Asian oceanic branch? Lithos 400–401, 106379. doi: 10.1016/j.lithos.2021.106379.CrossRefGoogle Scholar
Imayama, T, Koh, Y, Aoki, K, Saneyoshi, M, Yagi, K, Aoki, S, Terada, T, Sawada, Y, Ikawa, C, Ishigaki, S, Toyoda, S, Tsogtbaatar, K and Mainbayar, B (2019) Late Permian to Early Triassic back-arc type volcanism in the southern Mongolia volcano-plutonic belt of the Central Asian Orogenic Belt: implication for timing of the final closure of the Palaeo-Asian Ocean. Journal of Geodynamics 131, 101650. doi: 10.1016/j.jog.2019.101650.CrossRefGoogle Scholar
Jahn, BM, Wu, FY and 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, 181–93.CrossRefGoogle Scholar
Jing, Y, Ge, WC, Dong, Y, Yang, H, Ji, Z, Bi, JH, Zhou, HY and Xing, DH (2020a) Early–Middle Permian southward subduction of the eastern Paleo-Asian Ocean: constraints from geochronology and geochemistry of intermediate-acidic volcanic rocks in the northern margin of the North China Craton. Lithos 364–365, 105491. doi: 10.1016/j.lithos.2020.105491.CrossRefGoogle Scholar
Jing, Y, Ji, Z, Ge, WC, Dong, Y, Yang, H and Bi, J (2020b) Middle–late Permian I-type granitoids from the Diaobingshan region in the northern margin of the North China Craton: insight into southward subduction of the Paleo-Asian Ocean. International Geology Review 63, 357–79. doi: 10.1080/00206814.2020.1712556.CrossRefGoogle Scholar
Jing, Y, Yang, H, Ge, WC, Dong, Y, Ji, Z, Bi, JH, Zhou, HY and Xing, DH (2022) When did the final closure occur of the eastern Paleo-Asian Ocean: Constraints from the latest Early-Middle Triassic adakitic granites in the southeastern Central Asian Orogenic Belt. Gondwana Research 103, 146171.CrossRefGoogle Scholar
Jung, S, Hoernes, S and Mezger, K (2002) Synorogenic melting of mafic lower crust: constraints from geochronology, petrology and Sr, Nd, Pb and O isotope geochemistry of quartz diorites (Damara orogen, Namibia). Contributions to Mineralogy and Petrology 143, 551–66.CrossRefGoogle Scholar
Kerrich, R, Polat, A, Wyman, APD and Hollings, P (1999) Trace element systematics of Mg-, to Fe-tholeiitic basalt suites of the Superior Province: implications for Archean mantle reservoirs and greenstone belt genesis. Lithos 46, 163–87.CrossRefGoogle Scholar
Khain, EV, Bibikova, EV, Salnikova, EB, Kröner, A, Gibsher, AS, Didenko, AN, Degtyarev, KE and Fedotova, AA (2003) The Palaeo-Asian ocean in the Neoproterozoic and early Palaeozoic: new geochronologic data and palaeotectonic reconstructions. Precambrian Research 122, 329–58.CrossRefGoogle Scholar
Kinnaird, JA, Bowden, P, Ixer, RA and Odling, NWA (1985) Mineralogy, geochemistry and mineralization of the Ririwai complex, northern Nigeria. Journal of African Earth Sciences 3, 185222.Google Scholar
Koschek, G (1993) Origin and significance of the SEM cathodoluminescence from zircon. Journal of Microscopy 171, 223–32.CrossRefGoogle Scholar
Lan, HY, Li, SZ, Guo, LL, Li, XY, Liu, YJ, Liu, B, Santosh, M, Cao, XZ, Zhang, R and Wang, GZ (2022) Mesozoic deformation of the Nadanhada Terrane (NE China) and its implications on the subduction of the Paleo-Pacific Plate. Journal of Asian Earth Sciences 232, 105166. doi: 10.1016/j.jseaes.2022.105166.CrossRefGoogle Scholar
Li, HH, Yu, JJ, Guo, XW and Xu, WL (2021) Late Permian medium-pressure metamorphism in the eastern Songnen Massif, eastern Central Asian Orogenic Belt (NE China): implications for the final closure of the Paleo-Asian Ocean. Journal of Asian Earth Sciences 215, 104800. doi: 10.1016/j.jseaes.2021.104800.CrossRefGoogle Scholar
Li, JY (2006) Permian geodynamic setting of northeast China and adjacent regions: closure of the Paleo-Asian Ocean and subduction of the Paleo-Pacific plate. Journal of Asian Earth Sciences 26, 207–24.CrossRefGoogle Scholar
Li, S, Wilde, SA, He, ZJ, Jiang, XJ, Liu, RY and Zhao, L (2014) Triassic sedimentation and postaccretionary crustal evolution along the Solonker suture zone in Inner Mongolia, China. Tectonics 33, 960–81.CrossRefGoogle Scholar
Li, S, Wilde, SA, Wang, T, Xiao, WJ and Guo, QQ (2016) Latest Early Permian granitic magmatism in southern Inner Mongolia, China: implications for the tectonic evolution of the southeastern Central Asian Orogenic Belt. Gondwana Research 29, 168–80.CrossRefGoogle Scholar
Liu, D, Zhao, ZD, Zhu, DC, Niu, YL, Depaolo, DJ, Harrison, M, Mo, XX, Dong, GC, Zhou, S, Sun, CG, Zhang, ZC and Liu, JL (2014) Identifying mantle carbonatite metasomatism through Os–Sr–Mg isotopes in Tibetan ultrapotassic rocks. Geochimica et Cosmochimica Acta 143, 207–31.CrossRefGoogle Scholar
Liu, J, Liu, ZH, Li, SC, Zhao, C, Wang, CJ, Peng, YB, Yang, ZJ and Dou, SY (2016) Geochronology and geochemistry of Triassic intrusive rocks in Kaiyuan area of the eastern section of the northern margin of North China. Acta Petrologica Sinica 32, 2739–56 (in Chinese with English abstract).Google Scholar
Liu, J, Zhang, J, Liu, ZH, Yin, C, Zhao, C, Yu, X, Chen, Y, Tian, Y and Dong, Y (2020) Petrogenesis of Permo-Triassic intrusive rocks in Northern Liaoning Province, NE China: implications for the closure of the eastern Paleo-Asian Ocean. International Geology Review 62, 754–80. doi: 10.1080/00206814.2019.1633693.CrossRefGoogle Scholar
Liu, YJ, Li, WM, Ma, YF, Feng, ZQ, Guan, QB, Li, SZ, Chen, ZX, Liang, CY and Wen, QB (2021) An orocline in the eastern Central Asian Orogenic Belt. Earth-Science Reviews 221, 103808. doi: 10.1016/j.earscirev.2021.103808.CrossRefGoogle Scholar
Liu, YS, Wang, XH, Wang, DB, He, DT, Zong, KQ, Gao, CG, Hu, ZC and Gong, HJ (2012) Triassic high-Mg adakitic andesites from Linxi, Inner Mongolia: insights into the fate of the Paleo-Asian ocean crust and fossil slab-derived melt–peridotite interaction. Chemical Geology 328, 89108.CrossRefGoogle Scholar
Liu, ZC, Wang, JG, Liu, XC, Liu, Y and Lai, QZ (2020) Middle Miocene ultrapotassic magmatism in the Himalaya: a response to mantle unrooting process beneath the orogen. Terra Nova 33, 240–51.CrossRefGoogle Scholar
Maniar, PD and Piccoli, PM (1989) Tectonic discrimination of granitoids. Geological Society of America Bulletin 101, 635–43.2.3.CO;2>CrossRefGoogle Scholar
Maury, RC, Andriambololona, R and Dupuy, C (1978) Evolution comparée de deux séries alcalines du Pacifique Central: rôle de la fugacité d’oxygène et de la pression d’eau. Bulletin of Volcanology 41, 97118.CrossRefGoogle Scholar
McLennan, SM (1993) Weathering and global denudation. The Journal of Geology 101, 295303.CrossRefGoogle Scholar
Miao, LC, Fan, WM, Liu, DY, Zhang, FQ, Shi, Y and Guo, F (2008) Geochronology and geochemistry of the Hegenshan ophiolitic complex: implications for late-stage tectonic evolution of the Inner Mongolia-Daxinganling Orogenic Belt, China. Journal of Asian Earth Sciences 32, 348–70.CrossRefGoogle Scholar
Miller, C, Schuster, R, Kltzli, U, Frank, W and Purtscheller, F (1999) Post-collisional potassic and ultrapotassic magmatism in SW Tibet: geochemical and Sr–Nd–Pb–O isotopic constraints for mantle source characteristics and petrogenesis. Journal of Petrology 40, 1399–424.CrossRefGoogle Scholar
Müller, RD, Zahirovic, S, Williams, SE, Cannon, J, Seton, M, Bower, DJ, Tetley, MG, Heine, C, Le Breton, E, Liu, S, Russell, SHJ, Yang, T, Leonard, J and Gurnis, M (2019) A global plate model including lithospheric deformation along major rifts and orogens since the Triassic. Tectonics 38, 1884–907.CrossRefGoogle Scholar
Nozaka, T and Liu, Y (2002) Petrology of the Hegenshan ophiolite and its implication for the tectonic evolution of northern China. Earth and Planetary Science Letters 202, 89104.CrossRefGoogle Scholar
Pearce, JA (1982) Trace element characteristics of lavas from destructive plate boundaries. In Orogenic Andesites and Related Rocks (ed. Thorpe, RS), pp. 528–48. Chichester: John Wiley and Sons.Google Scholar
Peccerillo, A and Taylor, AR (1976) Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, Northern Turkey. Contributions to Mineralogy and Petrology 58, 6381.CrossRefGoogle Scholar
Pitcher, WS (1983) Granite type and tectonic environment. In Mountain Building Processes (ed. Hsu, K), pp. 1940. London: Academic Press.Google Scholar
Qian, Q and Hermann, J (2013) Partial melting of lower crust at 10–15 kbar: constraints on adakite and TTG formation. Contributions to Mineralogy and Petrology 165, 1195–224.CrossRefGoogle Scholar
Rapp, RP, Shimizu, N and Norman, MD (2003) Growth of early continental crust by partial melting of eclogite. Nature 425, 605–9.CrossRefGoogle ScholarPubMed
Ren, Q, Zhang, S, Gao, Y, Zhao, H, Wu, H, Yang, T and Li, H (2020) New Middle–Late Permian paleomagnetic and geochronological results from Inner Mongolia and their paleogeographic implications. Journal of Geophysical Research: Solid Earth 125, e2019JB019114. doi: 10.1029/2019JB019114.Google Scholar
Robinson, PT, Zhou, MF, Hu, XF, Reynolds, P, Wenji, B and Yang, JS (1999) Geochemical constraints on the origin of the Hegenshan Ophiolite, Inner Mongolia, China. Journal of Asian Earth Sciences 17, 423–42.CrossRefGoogle Scholar
Rudnick, R and Gao, S (2003) Composition of the continental crust. In Treatise on Geochemistry Vol. 3 (ed. Rudnick, RL), pp. 164. Amsterdam: Elsevier.Google Scholar
Rudnick, RL (1995) Making continental crust. Nature 378, 571–8.CrossRefGoogle Scholar
Rudnick, RL and Fountain, DM (1995) Nature and composition of the continental crust: a lower crustal perspective. Reviews of Geophysics 33, 267309.CrossRefGoogle Scholar
Samuel, MD, Moussa, HE and Azer, MK (2007) A-type volcanics in Central Eastern Sinai, Egypt. Journal of African Earth Sciences 47, 203–26.CrossRefGoogle Scholar
Sengör, AMC, Natal’in, BA and Burtman, VS (1993) Evolution of the Altaid tectonic collage and Paleozoic crustal growth in Eurasia. Nature 364, 299307.CrossRefGoogle Scholar
Shan, Q, Niu, HC, Yu, XY and Zeng, Q (2007) Geochemical characteristics, magmatic genesis and tectonic background of the late Paleozoic high potassium and high silicon ignimbrite on the southern margin of Altaid, north Xinjiang. Acta Petrologica Sinica 23, 1721–9 (in Chinese with English abstract).Google Scholar
Shang, QH (2004) Occurrences of Permian radiolarians in central and eastern Nei Mongol (Inner Mongolia) and their geological significance to the Northern China Orogen. Chinese Science Bulletin 49, 2613–19.CrossRefGoogle Scholar
Song, ZG, Han, ZZ, Gao, LH, Geng, HY, Li, XP, Meng, FX, Han, M, Zhong, WJ, Li, JJ, Du, QX, Yan, JL and Liu, H (2018) Permo-Triassic evolution of the southern margin of the Central Asian Orogenic Belt revisited: insights from Late Permian igneous suite in the Daheishan Horst, NE China. Gondwana Research 56, 2350.CrossRefGoogle Scholar
Sun, DY, Wu, FY, Zhang, YB and Gao, S (2004) The final closing time of Xiramuron-Changchun-Yanji plate suture zone: evidence from the Dayushan granitic pluton of Jilin. Journal of Jilin University (Earth Science Edition) 34, 174–81 (in Chinese with English abstract).Google Scholar
Sun, SS and McDonough, WF (1989) Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In Magmatism in Ocean Basins (eds Saunders, AD and Norry, MJ), pp. 313–45. Geological Society of London, Special Publication no. 42.Google Scholar
Tang, K (1990) Tectonic development of Paleozoic fold belts at the north margin of the Sino-Korean Craton. Tectonics 9, 249–60.CrossRefGoogle Scholar
Veksler, IV (2004) Liquid immiscibility and its role at the magmatic-hydrothermal transition: a summary of experimental studies. Chemical Geology 210, 731.CrossRefGoogle Scholar
Veksler, IV and Thomas, R (2002) An experimental study of B-, P- and F-rich synthetic granite pegmatite at 0.1 and 0.2 GPa. Contributions to Mineralogy and Petrology 143, 673–83.CrossRefGoogle Scholar
Wang, F, Xing, KC, Xu, WL, Teng, FZ, Xu, YG and Yang, DB (2021) Permian ridge subduction in the easternmost Central Asian Orogenic Belt: magmatic record using Sr–Nd–Pb–Hf–Mg isotopes. Lithos 384–385, 105966. doi: 10.1016/j.lithos.2021.105966.CrossRefGoogle Scholar
Wang, YJ (1997) Discovery of Permian radiolarians in ophiolite belt on northern side of Xar Moron River, Nei Monggol and its geological significance. Acta Palaeontologica Sinica 36, 5870 (in Chinese with English abstract).Google Scholar
Wilde, SA (2015) Final amalgamation of the Central Asian Orogenic Belt in NE China: Paleo-Asian Ocean closure versus Paleo-Pacific plate subduction-a review of the evidence. Tectonophysics 662, 345–62.CrossRefGoogle Scholar
Williams, HM, Turner, SP, Pearce, JA, Kelley, SP and Harris, NBW (2004) Nature of the source regions for postcollisional, potassic magmatism in southern and northern Tibet from geochemical variations and inverse trace element modelling. Journal of Petrology 45, 555607.CrossRefGoogle Scholar
Winchester, JA and Floyd, PA (1977) Geochemical discrimination of different magma series and their differentiation products using immobile elements. Chemical Geology 20, 325–43.CrossRefGoogle Scholar
Windley, BF, Alexeiev, D, Xiao, W, Kröner, A and Badarch, G (2007) Tectonic models for accretion of the Central Asian Orogenic Belt. Journal of the Geological Society, London 164, 3147.CrossRefGoogle Scholar
Wu, DD, Li, S, Chew, D, Liu, TY and Guo, DH (2021) Permian–Triassic magmatic evolution of granitoids from the southeastern Central Asian Orogenic Belt: implications for accretion leading to collision. Science China Earth Sciences 64, 788806.CrossRefGoogle Scholar
Wu, FY, Sun, DY, Ge, WC, Zhang, YB, Grant, ML, Wilde, SA and Jahn, BM (2011) Geochronology of the Phanerozoic granitoids in northeastern China. Journal of Asian Earth Sciences 41, 130.CrossRefGoogle Scholar
Wu, FY, Zhao, GC, Sun, DY, Wilde, SA and Yang, JH (2007) The Hulan Group: its role in the evolution of the Central Asian Orogenic Belt of NE China. Journal of Asian Earth Sciences 30, 542–56.CrossRefGoogle Scholar
Xiao, WJ, Windley, BF, Hao, J and Zhai, MG (2003) Accretion leading to collision and the Permian Solonker suture, Inner Mongolia, China: termination of the central Asian orogenic belt. Tectonics 22, 1069. doi: 10.1029/2002TC001484.CrossRefGoogle Scholar
Xiao, WJ, Windley, BF, Huang, BC, Han, CM, Yuan, C, Chen, HL, Sun, M, Sun, S and Li, JL (2009) 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. International Journal of Earth Sciences 98, 1189–217.CrossRefGoogle Scholar
Xiao, WJ, Windley, BF, Sun, S, Li, JL, Huang, BC, Han, CM, Yuan, C, Sun, M and Chen, HL (2015) A tale of amalgamation of three Permo-Triassic collage systems in Central Asia: oroclines, sutures, and terminal accretion. Annual Review of Earth and Planetary Sciences 43, 477507.CrossRefGoogle Scholar
Xin, YL, Ren, JL, Peng, YJ and Sun, XQ (2011) Ending of the mountain-building movement of Xing'an-Mongolian-Ji-Hei Orogenic Belt in Northeast China: evidence from Late Triassic molasses (geotectonic phase). Geology and Resources 20, 413–19 (in Chinese with English abstract).Google Scholar
Xu, B, Charvet, J, Chen, Y, Zhao, P and Shi, GZ (2013) Middle Paleozoic convergent orogenic belts in western Inner Mongolia (China): framework, kinematics, geochronology and implications for tectonic evolution of the Central Asian Orogenic Belt. Gondwana Research 23, 1342–64.CrossRefGoogle Scholar
Xu, B, Zhao, P, Wang, Y, Liao, W, Luo, Z, Bao, Q and Zhou, Y (2015) The pre-Devonian tectonic framework of Xing’an-Mongolia orogenic belt (XMOB) in north China. Journal of Asian Earth Sciences 97, 183–96.CrossRefGoogle Scholar
Yang, GX, Li, YJ, Tong, LL, Wang, ZP, Si, GH, Lindagato, P and Zeng, R (2022) Natural observations of subduction initiation: implications for the geodynamic evolution of the Paleo-Asian Ocean. Geosystems and Geoenvironment 1, 100009. doi: 10.1016/j.geogeo.2021.10.004.CrossRefGoogle Scholar
Yang, JH, Wu, FY, Shao, JA, Wilde, SA, Xie, LW and Liu, XM (2006) Constraints on the timing of uplift of the Yanshan Fold and Thrust Belt, North China. Earth and Planetary Science Letters 246, 336–52.CrossRefGoogle Scholar
Yu, Q, Ge, WC, Yang, H, Zhao, GC, Zhang, YL and Su, L (2014) Petrogenesis of late Paleozoic volcanic rocks from the Daheshen Formation in central Jilin Province, NE China, and its tectonic implications: constraints from geochronology, geochemistry and Sr–Nd–Hf isotopes. Lithos 192–195, 116–31.CrossRefGoogle Scholar
Yu, Q, Ge, WC, Zhang, J, Zhao, GC, Zhang, YL and Yang, H (2017) Geochronology, petrogenesis and tectonic implication of Late Paleozoic volcanic rocks from the Dashizhai Formation in Inner Mongolia, NE China. Gondwana Research 43, 164–77.CrossRefGoogle Scholar
Yuan, LL, Zhang, XH, Xue, FH, Lu, YH and Zong, KQ (2016) Late Permian high-Mg andesite and basalt association from northern Liaoning, North China: insights into the final closure of the Paleo-Asian ocean and the orogen–craton boundary. Lithos 258–259, 5876.CrossRefGoogle Scholar
Zhang, DH, Huang, BC, Zhao, GC, Meert, JG, Williams, S, Zhao, J and Zhou, TH (2021) Quantifying the extent of the Paleo-Asian Ocean during the Late Carboniferous to Early Permian. Geophysical Research Letters 48, e2021GL094498. doi: 10.1029/2021GL094498.Google Scholar
Zhang, DH, Huang, BC, Zhao, J, Meert, JG, Zhang, Y, Liang, YL, Bai, QH and Zhou, TH (2018) Permian paleogeography of the eastern CAOB: paleomagnetic constraints from volcanic rocks in central eastern Inner Mongolia, NE China. Journal of Geophysical Research: Solid Earth 123, 2559–82.CrossRefGoogle Scholar
Zhang, JH, Gao, S, Ge, WC, Wu, FY, Yang, JH, Wilde, SA and Li, M (2010) Geochronology of the Mesozoic volcanic rocks in the Great Xing’an Range, northeastern China: implications for subduction-induced delamination. Chemical Geology 276, 144–65.CrossRefGoogle Scholar
Zhang, Q, Wang, Y, Li, CD, Wang, YL and Jia, XQ (2006) Granite classification on the basis of Sr and Yb contents and its implications. Acta Petrologica Sinica 22, 2249–69.Google Scholar
Zhang, XH, Xue, FH, Yuan, LL, Ma, YG and Wilde, SA (2012) Late Permian appinite–granite complex from northwestern Liaoning, North China Craton: Petrogenesis and tectonic implications. Lithos 155, 201–17.CrossRefGoogle Scholar
Zhang, XH, Zhang, HF, Wilde, SA, Yang, YH and Chen, HH (2010) Late Permian to Early Triassic mafic to felsic intrusive rocks from North Liaoning, North China: petrogenesis and implications for Phanerozoic continental crustal growth. Lithos 117, 283306.CrossRefGoogle Scholar
Zhang, YB, Wu, FY, Wilde, SA, Zhai, MG, Lu, XP and Sun, DY (2004) Zircon U–Pb ages and tectonic implications of ‘Early Paleozoic’ granitoids at Yanbian, Jilin Province, northeast China. Island Arc 13, 484505.CrossRefGoogle Scholar
Zhao, P, Appel, E, Xu, B and Sukhbaatar, T (2020) First paleomagnetic result from the Early Permian volcanic rocks in northeastern Mongolia: evolutional implication for the Paleo-Asian Ocean and the Mongol-Okhotsk Ocean. Journal of Geophysical Research: Solid Earth 125, e2019JB017338. doi: 10.1029/2019JB017338.Google Scholar
Zhao, P, Chen, Y, Xu, B, Faure, M, Shi, G and Choulet, F (2013) Did the Paleo-Asian Ocean between North China Block and Mongolia Block exist during the Late Paleozoic? First paleomagnetic evidence from central-eastern Inner Mongolia, China. Journal of Geophysical Research: Solid Earth 118, 1873–94.CrossRefGoogle Scholar
Zhou, JB, Wilde, SA, Zhao, GC and Han, J (2018) Nature and assembly of microcontinental blocks within the Paleo-Asian Ocean. Earth-Science Reviews 186, 7693.CrossRefGoogle Scholar
Zhou, JB, Wilde, SA, Zhao, GC, Zhang, XZ, Wang, H and Zeng, WS (2010) Was the easternmost segment of the Central Asian Orogenic Belt derived from Gondwana or Siberia: an intriguing dilemma? Journal of Geodynamics 50, 300–17.CrossRefGoogle Scholar
Zhou, ZB, Pei, FP, Wang, ZW, Cao, HH, Lu, SM, Xu, WL and Zhou, H (2018) Geochronology and geological implications of Fangniugou volcanic rocks in Yitong area, central Jilin Province. Global Geology 37, 4655 (in Chinese with English abstract).Google Scholar
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