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Triassic magmatism and its relation to decratonization in the eastern North China Craton

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Abstract

Lithospheric removal and destruction of the North China Craton have been hotly discussed recently. It has been confirmed that the timing of a strong lithospheric removal took place in Late Mesozoic; however, little is known about when the lithospheric removal was initiated and how the Late Permian to Early Triassic deep subduction of Yangtze continental crust affected the cratonic destruction. This paper presents an overview on the temporal and spatial framework and geochemical characteristics of the Triassic intrusive rocks in the eastern North China Craton and use these data to trace their sources and petrogenetic processes, in order to constrain the tectonic setting in which they evolved. It is concluded that the destruction of the North China Craton was initiated in the Late Triassic and induced by delamination of the thickened continental crust by deep subduction of Yangtze continental crust and continent-continent collision. This suggests that the subduction of the continental crust and continent-continent collision are possibly interpreted as the inducement of Late Mesozoic decratonization of the North China Craton.

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References

  1. Jordan T H. The continental tectosphere. Rev Geophys Space Phys, 1975, 13: 1–12

    Article  Google Scholar 

  2. Fan W M, Menzies M A. Destruction of aged lower lithosphere and accretion of asthenosphere mantle beneath eastern China. Geotecon Metallogen, 1992, 16: 171–180

    Google Scholar 

  3. Griffin W L, Zhang A, O’Reilly S Y, et al. Phanerozoic evolution of the lithosphere beneath the Sino-Korean Craton. In: Flower M F J, Chung S L, Lo C H, et al, eds. Mantle Dynamics and Plate Interaction in East Asia. AGU Geodyn, 1998. 27: 107–126

  4. Griffin W L, O’Reilly S Y, Ryan C G. Composition and thermal structure of the lithosphere beneath South Africa, Siberia and China: Proton microprobe studies. Abstract of the International Symposium on Cenozoic Volcanic Rocks and Deep-seated Xenoliths of China and Its Environs. Beijing, 1992. 65–66

    Google Scholar 

  5. Wu F Y, Walker R J, Yang Y H, et al. The chemical-temporal evolution of lithospheric mantle underlying the North China Craton. Geochim Cosmochim Acta, 2006, 70: 5013–5034

    Article  Google Scholar 

  6. Wu F Y, Walker R J, Ren X W, et al. Osmium isotopic constraints on the age of lithospheric mantle beneath northeastern China. Chem Geol, 2003, 197: 107–129

    Article  Google Scholar 

  7. Xu Y G. Thermo-tectonic destruction of the Archean lithospheric keel beneath eastern China: Evidence, timing and mechanism. Phys Chem Earth, 2001, 26: 747–757

    Article  Google Scholar 

  8. Gao S, Rudnick R L, Carlson R W, et al. Re-Os evidence for replacement of ancient mantle lithosphere beneath the North China Craton. Earth Planet Sci Lett, 2002, 198: 307–322

    Article  Google Scholar 

  9. Wu F Y, Xu Y G, Gao S, et al. Lithospheric thinning and destruction of the North China Craton (in Chinese). Acta Petrol Sin, 2008, 24: 1145–1174

    Google Scholar 

  10. Gao S, Ridnick R L, Xu W L, et al. Recycling lower continental crust in the North China Craton. Nature, 2004, 432: 892–897

    Article  Google Scholar 

  11. Han B F, Kagami H, Li H M. Age and Nd-Sr isotopic geochemistry of the Guangtoushan alkaline granite, Hebei Province, China: Implications for early Mesozoic crust-mantle interaction in North China Block (in Chinese). Acta Petrol Sin, 2004, 20: 1375–1388

    Google Scholar 

  12. Yang J H, Sun J F, Chen F K, et al. Sources and petrogenesis of Late Triassic dolerite dikes in the Liaodong Peninsula: Implications for post-collisional lithosphere thinning of Eastern North China Craton. J Petrol, 2007, 48(10): 1973–1997

    Article  Google Scholar 

  13. Yang J H, Wu F Y, Wilde S A, et al. Petrogenesis of Late Triassic granitoids and their enclaves with implications for post-collisional lithospheric thinning of the Liaodong Peninsula, North China Craton. Chem Geol, 2007, 242(1–2): 155–175

    Article  Google Scholar 

  14. Zhao G C, Wilde S A, Cawood P A, et al. Archean blocks and their boundaries in the North China Craton: Lithological, geochemical, structural and P-T path constraints and tectonic evolution. Precambrian Res, 2001, 107: 45–73

    Article  Google Scholar 

  15. Liu D Y, Nutman A P, Compston W, et al. Remmants of ⩾3800 Ma crust in the Chinese part of the Sino-Korean Craton. Geology, 1992, 20: 339–342

    Article  Google Scholar 

  16. Wu F Y, Zhang Y B, Yang J H, et al. Zircon U-Pb and Hf isotopic constraints on the Early Archean crustal evolution in Anshan of the North China Craton. Precambrian Res, 2008, 167: 339–362

    Article  Google Scholar 

  17. Wu F Y, Yang J H, Wilde S A, et al. Detrital zircon U-Pb and Hf isotopic constraints on the crustal evolution of North Korea. Precambrian Res, 2007, 159: 155–177

    Article  Google Scholar 

  18. Wu F Y, Yang J H, Liu X M. Geochronological framework of the Mesozoic granitic magmatism in the Liaodong Peninsula, Northeast China (in Chinese). Geol J China Univ, 2005, 11: 305–317

    Google Scholar 

  19. Yang J H, Wu F Y, Chung S L, et al. Petrogenesis and tectonic significance of Early Cretaceous granitic magmastism in the Sulu ultrahigh-pressure orogenic belt, East China. Chem Geol, 2005, 222: 200–231

    Article  Google Scholar 

  20. Wu F Y, Lin J Q, Wilde S A, et al. Nature and significance of the Early Cretaceous giant igneous event in eastern China. Earth Planet Sci Lett, 2005, 233: 103–119

    Article  Google Scholar 

  21. Wu F Y, Yang J H, Wilde S A, et al. Geochronology, petrogenesis and tectonic implications of the Jurassic granites in the Liaodong Peninsula, NE China. Chem Geol, 2005, 221: 127–156

    Article  Google Scholar 

  22. Yang J H, Wu F Y, Wilde S A, et al. Mesozoic decratonization of the North China Block. Geology, 2008, 36: 467–470

    Article  Google Scholar 

  23. Yang J H, Wu F Y, Wilde S A, et al. Tracing magma mixing in granite genesis: in situ U-Pb dating and Hf-isotope analysis of zircons. Contrib Mineral Petrol, 2007, 153(2): 177–190

    Article  Google Scholar 

  24. Yang J H, Wu F Y, Chung S L, et al. A hybrid origin for the Qianshan A-type granite, northeast China: Geochemical and Sr-Nd-Hf isotopic evidence. Lithos, 2006, 89(1–2): 89–106

    Article  Google Scholar 

  25. Yang J H, Wu F Y, Chung S L, et al. Multiple sources for the origin of granites: Geochemical and Nd/Sr isotopic evidence from the Gudaoling granite and its mafic enclaves, northeast China. Geochim Cosmochim Acta, 2004, 68 (21): 4469–4483

    Article  Google Scholar 

  26. Lin J Q, Tan D J, Chi X G, et al. Mesozoic Granitoids in the Jiaodong-Liaodong Peninsula (in Chinese). Beijing: Science Press, 1991. 1–208

    Google Scholar 

  27. Chen J F, Xie Z, Li H M, et al. U-Pb zircon ages for a collision-related K-rich complex at Shidao in the Sulu ultrahigh pressure terrane, China. Geochem J, 2003, 37: 35–46

    Google Scholar 

  28. Yang J H, Chung S L, Wilde S A, et al. Petrogenesis of post-orogenic syenites in the Sulu Orogenic Belt, East China: Geochronological, geochemical and Nd-Sr isotopic evidence. Chem Geol, 2005, 214: 99–125

    Article  Google Scholar 

  29. Guo J H, Chen F K, Zhang X M, et al. Evolution of syn- to post-collisional magmatism from north Sulu UHP belt, eastern China: Zircon U-Pb geochronology (in Chinese). Acta Petrol Sin, 2005, 21: 1281–1302

    Google Scholar 

  30. Lu X P, Wu F Y, Zhao C B, et al. Triassic U-Pb age for zircon from granites in the Tonghua area and its response to the Dabie-Sulu ultrahigh-pressure collisional orogenesis. Chin Sci Bull, 2003, 48: 1616–1623

    Article  Google Scholar 

  31. Pei F P, Xu W L, Yu Y, et al. Petrogenesis of the Late Triassic Mayihe pluton in southern Jilin Province: Evidence from zircon U-Pb geochrology and geochemistry (in Chinese). J Jilin Univ (Earth Sci Ed), 2008, 38: 351–362

    Google Scholar 

  32. Wu F Y, Han R H, Yang J H, et al. Initial constraints on granitic magmatism in North Korea using U-Pb zircon geochronology. Chem Geol, 2007, 238: 232–248

    Article  Google Scholar 

  33. Sagong H, Kwon S T. Mesozoic episodic magmatism in South Korean and its tectonic implication. Tectonics, 2005, 24: TC5002, doi: 10.1029/2004TC007120

    Article  Google Scholar 

  34. Ree J H, Kwon S H, Park Y, et al. Preteconic and posttectonic emplacements of the granitoids in the south central Okchon belt, South Korea: Implications for the timing of strike-slip shearing and thrusting. Tectonics, 2001, 20: 850–867

    Article  Google Scholar 

  35. Turek A, Kim C B. U-Pb zircon ages of Mesozoic plutons in the Damyang-Geochang area, Ryeongnam massif, Korea. Geochem J, 1995, 29: 243–258

    Google Scholar 

  36. Kim C B, Turek A. Advances in U-Pb zircon geochronology of Mesozoic plutonism in the southwestern part of Ryeongnam massif, Korea. Geochem J, 1996, 30: 323–338

    Google Scholar 

  37. Cho D L, Lee S R, Armstrong R. Termination of the Permo-Triassic Songrim (Indosinian) orogeny in the Ogcheon belt, South Korea: Occurrence of ca. 220 Ma post-orogenic alkali granites and their tectonic implications. Lithos, 2008, 105: 191–200

    Article  Google Scholar 

  38. Williams I S, Cho D L, Kim S W. Geochronology, and geochemical and Nd-Sr isotopic characteristics of Triassic plutonic rocks in the Gyeonggi Massif, South Korea: Constraints on Triassic postcollisional magmatism. Lithos, 2009, 107: 239–256

    Article  Google Scholar 

  39. Peng P, Zhai M G, Guo J H, et al. Petrogenesis of Triassic postcollisional syenite plutons in the Sino-Korean craton: An example from North Korea. Geol Mag, 2008, 145: 637–647

    Article  Google Scholar 

  40. Kelemen P B. Genesis of high Mg# andesites and the continental crust. Contrib Mineral Petrol, 1995, 120: 1–19

    Article  Google Scholar 

  41. Stern C R, Kilian R. Role of subducted slab, mantle wedge and continental crust in the generation of adakites from the Andean Austral Volcanic Zone. Contrib Mineral Petrol, 1996, 123: 263–281

    Article  Google Scholar 

  42. Rapp R P, Watson E B. Dehydration melting of metabasalt at 8-32 kbar: Implications for continental growth and crust-mantle recycling. J Petrol, 1995, 36: 891–931

    Google Scholar 

  43. DePaolo D J. Trace element and isotopic effects of combined wallrock assimilation and fractionation crystallization. Earth Planet Sci Lett, 1981, 53: 189–202

    Article  Google Scholar 

  44. Gao S, Rudnick R L, Xu W L, et al. Lithospheric evolution of the North China Craton: Evidence from high-Mg adakitic rocks and their entrained xenoliths. Geochim Cosmochim Acata, 2006, A193

  45. Cui S Q, Li J R. On the circum-Pacific Indosinian movement in China (in Chinese). Acta Geol Sin, 1983, 57: 51–62

    Google Scholar 

  46. Li Z T, Zhao C J. Indosinian Movement in northeastern China (in Chinese). Sci Geol Sin, 1985, 20: 211–223

    Google Scholar 

  47. Ren J S, Chen T Y, Niu B G, et al. Tectonic Evolution of the Continental Lithosphere and Metallogeny in Eastern China and Adjacent Areas (in Chinese). Beijing: Science Press, 1992. 26–27

    Google Scholar 

  48. Li Z X, Li X H. Formation of the 1300 km-wide intra-continental orogen and post-orogenic magmatic province in Mesozoic South China: A flat-slab subduction model. Geology, 2007, 35: 179–182

    Article  Google Scholar 

  49. Li X H, Li Z X, Li W X, et al. Initiation of the Indosinian orogeny in South China: Evidence for a Permian magmatic arc on Hainan Island. J Geol, 2006, 114: 341–353

    Article  Google Scholar 

  50. Wu F Y, Yang J H, Lo C H, et al. The Jiamusi Massif: A Jurassic accretionary terrane along the western Pacific margin of NE China. Isl Arc, 2007, 16: 156–172

    Article  Google Scholar 

  51. Wu F Y, Wilde S A, Sun D Y, et al. Geochronology and petrogenesis of post-orogenic Cu, Ni-bearing mafic-ultramafic intrusions in Jilin, NE China. J Asian Earth Sci, 2004, 23: 781–797

    Article  Google Scholar 

  52. Li S G, Jagoutz E, Chen Y, et al. Sm-Nd and Rb-Sr isotopic chronology and cooling history of ultrahigh pressure metamorphic rocks and their country rocks at Shuanghe in the Dabie Mountains, central China. Geochim Cosmochim Acta, 2000, 64: 1077–1093

    Article  Google Scholar 

  53. Liu J L, Xu Z Q, Liou J G, et al. SHRIMP U-Pb ages of ultrahigh-pressure and retrograde metamorphism of gneisses, southwestern Sulu terrane, eastern China. J Metamor Geol, 2004, 22: 315–326

    Article  Google Scholar 

  54. Wan Y S, Li R W, Wilde S A, et al. UHP metamorphism and exhumation of the Dabie Orogen, China: Evidence from SHRIMP dating of zircon and monazite from a UHP granitic gneiss cobble from the Hefei Basin. Geochim Cosmochim Acta, 2005, 69: 4333–4348

    Article  Google Scholar 

  55. Bonin B. From orogenic to anorogenic settings: Evolution of granitoid suites after a major orogenesis. Geol J, 1990, 25: 261–270

    Article  Google Scholar 

  56. Bonin B, Azzouni-Sekkal A, Bussy F, et al. Alkali-calcic and alkaline post-orogenic (PO) granite magmatism: Petrologic constraints and geodynamic settings. Lithos, 1998, 45: 45–70

    Article  Google Scholar 

  57. Davies J H, von Blanckenburg F. Slab break-off: A model of lithospheric detachment and its test in the magmatism and deformation of collisional orogens. Earth Planet Sci Lett, 1995, 129: 85–102

    Article  Google Scholar 

  58. Xu W L, Yang C H, Yang D B, et al. Mesozoic high-Mg diorites in eastern North China craton: Constraints on the mechanism of lithospheric thinning (in Chinese). Earth Sci Front, 2006, 13: 120–129

    Google Scholar 

  59. Huang F, Li S G, Dong F, et al. High-Mg adakitic rocks in the Dabie orogen, central China: Implications for foundering mechanism of lower continental crust. Chem Geol, 2008, 255: 1–13

    Article  Google Scholar 

  60. Yang J H, Wu F Y, Wilde S A. Geodynamic setting of large-scale Late Mesozoic gold mineralization in the North China Craton: An association with lithospheric thinning. Ore Geol Rev, 2003, 23: 125–152

    Article  Google Scholar 

  61. Zheng J P, Griffin W L, O’Reilly S Y, et al. Mechanism and timing of lithospheric modification and replacement beneath the eastern North China Craton: Peridotitic xenoliths from the 100 Ma Fuxin basalts and a regional synthesis. Geochim Cosmochim Acta, 2007, 71: 5203–5225

    Article  Google Scholar 

  62. Zheng J P. Mesozoic-Cenozoic mantle replacement and lithospheric thinning beneath the eastern China. Wuhuan: China University Geosciences Press, 1999. 1–126

    Google Scholar 

  63. Wu F Y, Yang J H, Zhang Y B, et al. Emplacement ages of the Mesozoic granites in southeastern part of the Western Liaoning Province (in Chinese). Acta Petrol Sin, 2006, 22: 315–325

    Google Scholar 

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  1. State Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing, 100029, China

    JinHui Yang & FuYuan Wu

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  1. JinHui Yang
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  2. FuYuan Wu
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Correspondence to JinHui Yang.

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Supported by National Basic Research Program of China (Grant No. 2009CB825000) and National Natural Science Foundation of China (Grant Nos. 40873010 and 40672055)

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Yang, J., Wu, F. Triassic magmatism and its relation to decratonization in the eastern North China Craton. Sci. China Ser. D-Earth Sci. 52, 1319–1330 (2009). https://doi.org/10.1007/s11430-009-0137-5

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