Preface: Pacific Plate Subduction and the Yanshanian Movement in Eastern China

Weidong Sun, Lipeng Zhang

Journal of Earth Science ›› 2022, Vol. 33 ›› Issue (3) : 541-543.

Journal of Earth Science ›› 2022, Vol. 33 ›› Issue (3) : 541-543. DOI: 10.1007/s12583-022-1311-3
Pacific Plate Subduction and the Yanshanian Movement in Eastern China

Preface: Pacific Plate Subduction and the Yanshanian Movement in Eastern China

Author information +
History +

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾
Weidong Sun, Lipeng Zhang. Preface: Pacific Plate Subduction and the Yanshanian Movement in Eastern China. Journal of Earth Science, 2022, 33(3): 541‒543 https://doi.org/10.1007/s12583-022-1311-3

References

Publishing order | Descend order by publishing year | Descend order by cited within
Bai J H, Ling M X, Yang X Y, . Yangshan A-Type Granites in the Lower Yangtze River Belt Formed by Ridge Subduction: Radiogenic Ca and Nd Isotopic Constraints. Journal of Earth Science, 2022, 33(3): 581-590.
CrossRef Google scholar
Cao Y, Kang Z Q, Yang F, . Geochronology, Geochemistry and Geological Significance of Volcanic Rocks of the Bangba District, Western Segment of the Central Lhasa Subterrane. Journal of Earth Science, 2022, 33(3): 681-695.
CrossRef Google scholar
Chen Y X, Li H, Sun W D, . Generation of Late Mesozoic QianlishanA2-Type Granite in Nanling Range, South China: Implications for Shizhuyuan W-Sn Mineralization and Tectonic Evolution. Lithos, 2016, 266/267: 435-452.
CrossRef Google scholar
Davis G A, Zheng Y D, Wang C, . Mesozoic Tectonic Evolution of the Yanshan Fold and Thrust Belt, with Emphasis on Hebei and Liaoning Provinces, Northern China. In: Hendrix, M. S., Davis, G. A., eds., Paleozoic and Mesozoic Tectonic Evolution of Central and Eastern Asia: From Continental Assembly to Intracontinental Deformation. GSA Memoirs, 2001, 194: 171-197.
Deng J, Yang L Q, Groves D I, . An Integrated Mineral System Model for the Gold Deposits of the Giant Jiaodong Province, Eastern China. Earth-Science Reviews, 2020, 208: 103274
CrossRef Google scholar
Deng Y F, Chen Y, Li P F, . A Synthesis of Geophysical Data in Southeastern North China Craton: Implications for the Formation of the Arcuate Xuhuai Thrust Belt. Journal of Earth Science, 2022, 33(3): 552-566.
CrossRef Google scholar
Ding X, Su K L, Yan H B, . Effect of F-Rich Fluids on the A-Type Magmatism and Related Metal Mobilization: New Insights from the Fogang-Nankunshan-Yajishan Igneous Rocks in Southeast China. Journal of Earth Science, 2022, 33(3): 591-608.
CrossRef Google scholar
Dong S W, Zhang Y Q, Li H L, . The Yanshan Orogeny and Late Mesozoic Multi-Plate Convergence in East Asia—Commemorating 90th Years of the “Yanshan Orogeny”. Science China Earth Sciences, 2018, 61(12): 1888-1909.
CrossRef Google scholar
Dong S W, Zhang Y Q, Long C X, . Jurassic Tectonic Revolution in China and New Interpretation of the “Yanshan Movement”. Acta Geologica Sinica—English Edition, 2008, 82(2): 334-347
Li C Y, Zhang H, Wang F Y, . The Formation of the Dabaoshan Porphyry Molybdenum Deposit Induced by Slab Rollback. Lithos, 2012, 150 101-110.
CrossRef Google scholar
Lin W, Faure M, Chen Y, . Late Mesozoic Compressional to Extensional Tectonics in the Yiwulüshan Massif, NE China and Its Bearing on the Evolution of the Yinshan-Yanshan Orogenic Belt: Part I: Structural Analyses and Geochronological Constraints. Gondwana Research, 2013, 23(1): 54-77.
CrossRef Google scholar
Ling M X, Li Y, Ding X, . Destruction of the North China Craton Induced by Ridge Subductions. Journal of Geology, 2013, 121(2): 197-213.
CrossRef Google scholar
Lu S M, Lan X Y, Zhao L L, . A 3D Investigation of Geological Structure and Its Relationship to Mineralization in the Nanling-Xuancheng Ore District, Middle-Lower Yangtze River Metallogenic Belt, China. Journal of Earth Science, 2022, 33(3): 664-680.
CrossRef Google scholar
Mao J W, Cheng Y B, Chen M H, . Major Types and Time-Space Distribution of Mesozoic Ore Deposits in South China and Their Geodynamic Settings. Mineralium Deposita, 2013, 48(3): 267-294.
CrossRef Google scholar
Meng Q R, Zhou Z H, Zhu R X, . Cretaceous Basin Evolution in Northeast Asia: Tectonic Responses to the Paleo-Pacific Plate Subduction. National Science Review, 2021, 9(1): nwab088
CrossRef Google scholar
Meng Q R. Development of Sedimentary Basins in Eastern China during the Yanshanian Period. Bulletin of Mineralogy, Petrology and Geochemistry, 2017, 36 4 567-569
Niu Y L. Generation and Evolution of Basaltic Magmas: Some Basic Concepts and a New View on the Origin of Mesozoic-Cenozoic Basaltic Volcanism in Eastern China. Geological Journal of China Universities, 2005, 11: 9-46.
Sun S J, Yang X Y, Wang G J, . In situ Elemental and Sr-O Isotopic Studies on Apatite from the Xu-Huai Intrusion at the Southern Margin of the North China Craton: Implications for Petrogenesis and Metallogeny. Chemical Geology, 2019, 510: 200-214.
CrossRef Google scholar
Sun W D, Zhang L P, Liu X. The Rotation of the Pacific Plate Induced by the Ontong Java Large Igneous Province. Journal of Earth Science, 2022, 33(3): 544-551.
CrossRef Google scholar
Sun W D, Ding X, Hu Y H, . The Golden Transformation of the Cretaceous Plate Subduction in the West Pacific. Earth and Planetary Science Letters, 2007, 262(3/4): 533-542.
CrossRef Google scholar
Sun W D, Li S, Yang X Y, . Large-Scale Gold Mineralization in Eastern China Induced by an Early Cretaceous Clockwise Change in Pacific Plate Motions. International Geology Review, 2013, 55(3): 311-321.
CrossRef Google scholar
Sun W D, Yang X Y, Fan W M, . Mesozoic Large Scale Magmatism and Mineralization in South China: Preface. Lithos, 2012, 150: 1-5.
CrossRef Google scholar
Tian X F, Mooney W D, Deng X G, . Crustal P-and S-Wave Velocity Structure of the North China Craton at 36° N from Active-Source Seismic Data and Its Tectonic Implications. Journal of Earth Science, 2022, 33(3): 642-663.
CrossRef Google scholar
Wang F Y, Ling M X, Ding X, . Mesozoic Large Magmatic Events and Mineralization in SE China: Oblique Subduction of the Pacific Plate. International Geology Review, 2011, 53(5/6): 704-726.
CrossRef Google scholar
Wang Y, Zhou L Y, Luo Z H. Kinematics and Timing of Continental Block Deformation from Margins to Interiors. Terra Nova, 2017, 29(4): 253-263.
CrossRef Google scholar
Wong W H. Crustal Movement in Eastern China. Procceding of the 3th Pan-Pacific Scientific Congress, 1926, 1: 265-285.
Wong W H. Crustal Movements and Igneous Activities in Eastern Chinasince Mesozoic Time. 1. Bulletin of the Geological Society of China, 1927, 6(1): 9-37.
CrossRef Google scholar
Wu F Y, Sun D Y, Li H M, . A-Type Granites in Northeastern China: Age and Geochemical Constraints on Their Petrogenesis. Chemical Geology, 2002, 187(1/2): 143-173.
CrossRef Google scholar
Wu F Y, Lin J Q, Wilde S A, . Nature and Significance of the Early Cretaceous Giant Igneous Event in Eastern China. Earth and Planetary Science Letters, 2005, 233(1/2): 103-119.
CrossRef Google scholar
Wu F Y, Yang J H, Xu Y G, . Destruction of the North China Craton in the Mesozoic. Annual Review of Earth and Planetary Sciences, 2019, 47: 173-195.
CrossRef Google scholar
Wu K, Ling M X, Sun W D, . Major Transition of Continental Basalts in the Early Cretaceous: Implications for the Destruction of the North China Craton. Chemical Geology, 2017, 470: 93-106.
CrossRef Google scholar
Xie G Z, Zhang L P, Li J, . Genesis of High Ba-Sr Yashan Intrusion from the Jiaodong Peninsula, Eastern China: Implications for the Destruction of the North China Craton. Journal of Earth Science, 2022, 33(3): 567-580.
CrossRef Google scholar
Xu Y G. Diachronous Lithospheric Thinning of the North China Craton and Formation of the Daxin’ anling-Taihangshan Gravity Lineament. Lithos, 2007, 96(1/2): 281-298.
CrossRef Google scholar
Xu Y G. Thermo-Tectonic Destruction of the Archaean Lithospheric Keel beneath the Sino-Korean Craton in China: Evidence, Timing and Mechanism. Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy, 2001, 26(9/10): 747-757.
CrossRef Google scholar
Xue Y-Y, Liu H Y, Wang Z Y, . Reworking of the Juvenile Crust in the Late Mesozoic in North Qinling, Central China. Journal of Earth Science, 2022, 33(3): 623-641.
CrossRef Google scholar
Yuan S, Li H, Zhang L P, . Geochemical and Zircon Hf-O Isotopic Constraints on the Origin of Wulian A-Type Granite in Shandong Peninsula, Eastern China. Journal of Earth Science, 2022, 33(3): 609-622.
CrossRef Google scholar
Zhang C C, Sun W D, Wang J T, . Oxygen Fugacity and Porphyry Mineralization: A Zircon Perspective of Dexing Porphyry Cu Deposit, China. Geochimica et Cosmochimica Acta, 2017, 206: 343-363.
CrossRef Google scholar
Zhang Y Q, Dong S W, Zhao Y, . Jurassic Tectonics of North China: A Synthetic View. Acta Geologica Sinica—English Edition, 2008, 82(2): 310-326
Zhang Z K, Ling M X, Lin W, . “Yanshanian Movement” Induced by the Westward Subduction of the Paleo-Pacific Plate. Solid Earth Sciences, 2020, 5(2): 103-114.
CrossRef Google scholar
Zhao Y, Xu G, Zhang S H, . Yanshanian Movement and Conversion Oftectonic Regimes in East Asia. Earth Science Frontiers, 2004, 11(3): 319-328
Zheng Y F, Xu Z, Zhao Z F, . Mesozoic Mafic Magmatism in North China: Implications for Thinning and Destruction of Cratonic Lithosphere. Science China Earth Sciences, 2018, 61(4): 353-385.
CrossRef Google scholar
Zhu R X, Fan H R, Li J W, . Decratonic Gold Deposits. Science China Earth Sciences, 2015, 58(9): 1523-1537.
CrossRef Google scholar
Zhu R X, Sun W D. The Big Mantle Wedge and Decratonic Gold Deposits. Science China Earth Sciences, 2021, 64(9): 1451-1462.
CrossRef Google scholar
Zhu R X, Xu Y G, Zhu G, . Destruction of the North China Craton. Science China Earth Sciences, 2012, 55(10): 1565-1587.
CrossRef Google scholar

Accesses

Citations

Detail
Sections
Recommended

/