[1] WILSON J T.A New Class of Faults and Their Bearing on Continental Drift[J].Nature,1965,207:343-347.
[2] MCKENZIE D P,PARKER R L.The North Pacific:An Example of Tectonics on a Sphere[J].Nature,1967,216:1276-1280.
[3] STERN R J.Subduction Zones[J].Reviews of Geophysics,2002,40(4):1012.
[4] ZHENG Y F,CHEN Y X.Continental Versus Ocea-nic Subduction Zones[J].National Science Review,2016,3(4):495-519.
[5] STERN R J.Subduction Initiation:Spontaneous and Induced[J].Earth and Planetary Science Letters,2004,226(3/4):275-292.
[6] STERN R J,GERYA T V.Subduction Initiation in Nature and Models:A Review[J].Tectonophysics,2018,746:173-198.
[7] GÜRER D,GRANOT R,VAN HINSBERGEN D J J.Plate Tectonic Chain Reaction Revealed by Noise in the Cretaceous Quiet Zone[J].Nature Geoscience,2022,15:233-239.
[8] KORENAGA J.Initiation and Evolution of Plate Tectonics on Earth:Theories and Observations[J].Annual Review of Earth and Planetary Sciences,2013,41:117-151.
[9] HALL R.The Subduction Initiation Stage of the Wilson Cycle[J].Geological Society,London,Special Publications,2019,470:415-437.
[10] HOLDER R M,VIETE D R,BROWN M,et al.Me-tamorphism and the Evolution of Plate Tectonics[J].Nature,2019,572:378-381.
[11] BROWN M,JOHNSON T,GARDINER N.Plate Tectonics and the Archean Earth[J].Annual Review of Earth and Planetary Sciences,2020,48:291-320.
[12] CRAMERI F,MAGNI V,DOMEIER M,et al.A Transdisciplinary and Community-driven Database to Unravel Subduction Zone Initiation[J].Nature Communications,2020,11:3750.
[13] ZHAI M G,PENG P.Origin of Early Continents and Beginning of Plate Tectonics[J].Science Bulletin,2020,65:970-973.
[14] WINDLEY B F,KUSKY T,POLAT A.Onset of Plate Tectonics by the Eoarchean[J].Precambrian Research,2021,352:105980.
[15] LI Y H,LI X,RYAN J G,et al.Boron Isotopes in Boninites Document Rapid Changes in Slab Inputs During Subduction Initiation[J].Nature Communications,2022,13:993.
[16] NAERAA T,SCHERSTÉN A,ROSING M T,et al.Hafnium Isotope Evidence for a Transition in the Dynamics of Continental Growth 3.2 Gyr Ago[J].Nature,2012,485:627-630.
[17] 万 博.板块构造启动时间的争议、进展与思考[J].科学通报,2022,67(32):3850-3860.
WAN Bo.The Onset Timing of Plate Tectonics:Controversies,Progress,and Prospects[J].Chinese Science Bulletin,2022,67(32):3850-3860.
[18] TANG M,CHEN K,RUDNICK R L.Archean Upper Crust Transition from Mafic to Felsic Marks the Onset of Plate Tectonics[J].Science,2016,351:372-375.
[19] GREBER N D,DAUPHAS N,BEKKER A,et al.Titanium Isotopic Evidence for Felsic Crust and Plate Tectonics 3.5 Billion Years Ago[J].Science,2017,357:1271-1274.
[20] WAN B,YANG X S,TIAN X B,et al.Seismological Evidence for the Eearliest Global Subduction Network at 2 Ga Ago[J].Science Advances,2020,6(32):eabc5491.
[21] CAWOOD P A.Earth Matters:A Tempo to Our Planet's Evolution[J].Geology,2020,48(5):525-526.
[22] ZHENG Y F,ZHAO G C.Two Styles of Plate Tectonics in Earth's History[J].Science Bulletin,2020,65(4):329-334.
[23] GERYA T V,STERN R J,BAES M,et al.Plate Tectonics on the Earth Triggered by Plume-induced Subduction Initiation[J].Nature,2015,527:221-225.
[24] 孙卫东.“岩浆引擎”与板块运动驱动力[J].科学通报,2019,64(28/29):2988-3006.
SUN Wei-dong.The Magma Engine and the Driving Force of Plate Tectonics[J].Chinese Science Bulletin,2019,64(28/29):2988-3006.
[25] ZHOU X,LI Z H,GERYA T,et al.Lateral Propagation-induced Subduction Initiation at Passive Continental Margins Controlled by Preexisting Lithospheric Weakness[J].Science Advances,2020,6(10):eaaz1048.
[26] SHUCK B,GULICK S P S,VAN AVENDONK H J A,et al.Stress Transition from Horizontal to Vertical Forces During Subduction Initiation[J].Nature Geoscience,2022,15:149-155.
[27] ZHONG X Y,LI Z H.Formation of Metamorphic Soles Underlying Ophiolites During Subduction Initiation:A Systematic Numerical Study[J].Journal of Geophysical Research:Solid Earth,2022,127(1):e2021JB023431.
[28] NIU Y L,O'HARA M J,PEARCE J A.Initiation of Subduction Zones as a Consequence of Lateral Compositional Buoyancy Contrast Within the Lithosphere:A Petrological Perspective[J].Journal of Petrology,2003,44(5):851-866.
[29] GURNIS M,HALL C,LAVIER L.Evolving Force Ba-lance During Incipient Subduction[J].Geochemistry,Geophysics,Geosystems,2004,5(7):Q07001.
[30] ARCULUS R J,ISHIZUKA O,BOGUS K A,et al.A Record of Spontaneous Subduction Initiation in the Izu-Bonin-Mariana Arc[J].Nature Geoscience,2015,8:728-733.
[31] LENG W,GURNIS M.Subduction Initiation at Relic Arcs[J].Geophysical Research Letters,2015,42(17):7014-7021.
[32] GUILMETTE C R,SMIT M A,VAN HINSBERGEN D J J,et al.Forced Subduction Initiation Recorded in the Sole and Crust of the Semail Ophiolite,Oman[J].Nature Geoscience,2018,11:688-695.
[33] REAGAN M K,HEATON D E,SCHMITZ M D,et al.Forearc Ages Reveal Extensive Short-lived and Rapid Seafloor Spreading Following Subduction Initiation[J].Earth and Planetary Science Letters,2019,506:520-529.
[34] MAUNDER B,PRYTULAK J,GOES S,et al.Rapid Subduction Initiation and Magmatism in the Western Pacific Driven by Internal Vertical Forces[J].Nature Communications,2020,11:1874.
[35] SUN B L,KAUS B J P,YANG J F,et al.Subduction Polarity Reversal Triggered by Oceanic Plateau Accretion:Implications for Induced Subduction Initiation[J].Geophysical Research Letters,2021,48(24):e2021GL095299.
[36] WANG L L,DAI L M,GONG W,et al.Subduction Initiation at the Soloman Back-arc Basin:Contributions from Both Island Arc Rheological Strength and Oceanic Plateau Collision[J].Geophysical Research Letters,2022,49(3):e2021GL093369.
[37] 陈 意.板块俯冲起始与成熟阶段的差异变质响应[J].矿物岩石地球化学通报,2019,38(3):490-498.
CHEN Yi.Different Metamorphic Records Between Subduction Initiation and Mature Subduction[J].Bulletin of Mineralogy,Petrology and Geochemistry,2019,38(3):490-498.
[38] STERN R J,BLOOMER S H.Subduction Zone Infancy:Examples from the Eocene Izu-Bonin-Mariana and Jurassic California Arcs[J].Geological Society of America Bulletin,1992,104(12):1621-1636.
[39] MAFFIONE M,VAN HINSBERGEN D J J,DE GELDER G I N O,et al.Kinematics of Late Cretaceous Subduction Initiation in the Neo-Tethys Ocean Reconstructed from Ophiolites of Turkey,Cyprus,and Syria[J].Journal of Geophysical Research:Solid Earth,2017,122(5):3953-3976.
[40] ZHONG X Y,LI Z H.Forced Subduction Initiation at Passive Continental Margins:Velocity-driven Versus Stress-driven[J].Geophysical Research Letters,2019,46(20):11054-11064.
[41] DURETZ T,AGARD P,YAMATO P,et al.Thermomechanical Modeling of the Obduction Process Based on the Oman Ophiolite Case[J].Gondwana Research,2016,32:1-10.
[42] VAN HINSBERGEN D J J,MAFFIONE M,KOORNNEEF L M T,et al.Kinematic and Paleomagnetic Restoration of the Semail Ophiolite(Oman)Reveals Subduction Initiation Along an Ancient Neotethyan Fracture Zone[J].Earth and Planetary Science Letters,2019,518:183-196.
[43] UEDA K,GERYA T,SOBOLEV S V.Subduction Ini-tiation by Thermal-chemical Plumes:Numerical Stu-dies[J].Physics of the Earth & Planetary Interiors,2008,171(1/2/3/4):296-312.
[44] WHATTAM S A,STERN R J.Late Cretaceous Plume-Induced Subduction Initiation Along the Southern and Eastern Margins of the Caribbean:The First Documented Example with Implications for the Onset of Plate Tectonics[J].Gondwana Research,2015,27(1):38-63.
[45] RODRIGUEZ M,ARNOULD M,COLTICE N,et al.Long-term Evolution of a Plume-induced Subduction in the Neotethys Realm[J].Earth and Planetary Science Letters,2021,561:116798.
[46] BAES M,SOBOLEV S V.Mantle Flow as a Trigger for Subduction Initiation:A Missing Element of the Wilson Cycle Concept[J].Geochemistry,Geophysics,Geosystems,2017,18(12):4469-4486.
[47] PANDEY D K,PANDEY A,WHATTAM S A.Re-lict Subduction Initiation Along a Passive Margin in the Northwest Indian Ocean[J].Nature Communications,2019,10:2248.
[48] ZHONG X Y,LI Z H.Subduction Initiation at Passive Continental Margins:A Review Based on Nume-rical Studies[J].Solid Earth Sciences,2021,6(3):249-267.
[49] VOGT K,GERYA T V.From Oceanic Plateaus to Allochthonous Terranes:Numerical Modelling[J].Gondwana Research,2014,25(2):494-508.
[50] YAN L L,ZHANG K J.Infant Intra-oceanic Arc Magmatism Due to Initial Subduction Induced by Oceanic Plateau Accretion:A Case Study of the Bangong Meso-Tethys,Central Tibet,Western China[J].Gondwana Research,2020,79:110-124.
[51] ALMEIDA J,RIEL N,ROSAS F M,et al.Polarity-reversal Subduction Zone Initiation Triggered by Buoyant Plateau Obstruction[J].Earth and Planetary Science Letters,2022,577:117195.
[52] HANSEN V L.Subduction Origin on Early Earth:A Hypothesis[J].Geology,2009,35(12):1059-1062.
[53] O'NEILL C,MARCHI S,BOTTKE W,et al.The Role of Impacts on Archaean Tectonics[J].Geology,2020,48(2):174-178.
[54] SOLOMATOV V S.Initiation of Subduction by Small-scale Convection[J].Journal of Geophysical Research:Solid Earth,2004,109(B1):B05408.
[55] REGENAUER-LIEB K,YUEN D A,BRANLUND J.The Initiation of Subduction:Critically by Addition of Water?[J].Science,2001,294:578-580.
[56] WILSON R W,HOUSEMAN G A,BUITER S J H,et al.Fifty Years of the Wilson Cycle Concept in Plate Tectonics:An Overview[J].Geological Society,London,Special Publications,2019,470:1-17.
[57] PALIN R M,SANTOSH M,CAO W T,et al.Secular Change and the Onset of Plate Tectonics on Earth[J].Earth-science Reviews,2020,207:103172.
[58] KEMP D V,STEVENSON D J.A Tensile,Flexural Model for the Initiation of Subduction[J].Geophysical Journal International,1996,125(1):73-93.
[59] NIKOLAEVA K,GERYA T V,MARQUES F O.Subduction Initiation at Passive Margins:Numerical Mo-deling[J].Journal of Geophysical Research:Solid Ear-th,2010,115(B3):B03406.
[60] HALL C E,GURNIS M,SDROLIAS M,et al.Catastrophic Initiation of Subduction Following Forced Convergence Across Fracture Zones[J].Earth and Planetary Science Letters,2003,212(1/2):15-30.
[61] ARCULUS R J,GURNIS M,ISHIZUKA O,et al.How to Create New Subduction Zones:A Global Perspective[J].Oceanography,2019,32(1):160-174.
[62] ISHIZUKA O,TAYLOR R N,UMINO S,et al.Geochemical Evolution of Arc and Slab Following Subduction Initiation:A Record from the Bonin Islands,Japan[J].Journal of Petrology,2020,61(5):egaa050.
[63] ZHOU X,LI Z H,GERYA T V,et al.Subduction Ini-tiation Dynamics Along a Transform Fault Control Trench Curvature and Ophiolite Ages[J].Geology,2018,46(7):607-610.
[64] ZHONG X Y,LI Z H.Subduction Initiation During Collision-induced Subduction Transference:Numerical Modeling and Implications for the Tethyan Evolution[J].Journal of Geophysical Research:Solid Earth,2020,125(2):e2019JB019288.
[65] MARQUES F O,NIKOLAEVA K,ASSUMPCAO M,et al.Testing the Influence of Far-field Topographic Forcing on Subduction Initiation at a Passive Margin[J].Tectonophysics,2013,608:517-524.
[66] STERN R J,DUMITRU T A.Eocene Initiation of the Cascadia Subduction Zone:A Second Example of Plu-me-induced Subduction Initiation[J].Geosphere,2019,15(3):659-681.
[67] TETREAULT J L,BUITER S.Geodynamic Models of Terrane Accretion:Testing the Fate of Island Arcs,Oceanic Plateaus,and Continental Fragments in Subduction Zones[J].Journal of Geophysical Research:Solid Earth,2012,117(B8):B08403.
[68] MANN P,TAIRA A.Global Tectonic Significance of the Solomon Islands and Ontong Java Plateau Convergent Zone[J].Tectonophysics,2004,389(3/4):137-190.
[69] PLUNDER A,BANDYOPADHYAY D,GANERØD M,et al.History of Subduction Polarity Reversal During Arc-continent Collision:Constraints from the Andaman Ophiolite and Its Metamorphic Sole[J].Tecto-nics,2020,39(6):e2019TC005762.
[70] DILEK Y,FURNES H.Structure and Geochemistry of Tethyan Ophiolites and Their Petrogenesis in Subduction Rollback Systems[J].Lithos,2009,113(1/2):1-20.
[71] WHATTAM S A,STERN R J.The ‘Subduction Initiation Rule':A Key for Linking Ophiolites,Intra-oceanic Forearcs and Subduction Initiation[J].Contributions to Mineralogy and Petrology,2011,162:1031-1045.
[72] MIYASHIRO A.The Troodos Ophiolitic Complex was Probably Formed in an Island Arc[J].Earth and Planetary Science Letters,1973,19(2):218-224.
[73] PEARCE J A,LIPPARD S J,ROBERTS S.Characteristics and Tectonic Significance of Supra-subduction Zone Ophiolites[J].Geological Society,London,Special Publications,1984,16:77-94.
[74] PEARCE J A.Supra-subduction Zone Ophiolites:The Search for Modern Analogues[J].Special Paper of Geological Society of America,2003,373:269-293.
[75] VAN HINSBERGEN D J J,PETERS K,MAFFIONE M,et al.Dynamics of Intraoceanic Subduction Initiation:2.Suprasubduction Zone Ophiolite Formation and Metamorphic Sole Exhumation in Context of Absolute Plate Motions[J].Geochemistry,Geophysics,Geosystems,2015,16(6):1771-1785.
[76] NICOLAS A.Structures of Ophiolites and Dynamics of Oceanic Lithosphere[M].Dordrecht:Kluwer,1989.
[77] DILEK Y,FURNES H.Ophiolite Genesis and Global Tectonics:Geochemical and Tectonic Fingerprinting of Ancient Oceanic Lithosphere[J].Geological Society of America Bulletin,2011,123(3/4):387-411.
[78] SHERVAIS J W.Birth,Death,and Resurrection:The Life Cycle of Suprasubduction Zone Ophiolites[J].Geochemistry,Geophysics,Geosystems,2001,2(1):2000GC000080.
[79] ISHIZUKA O,TANI K,REAGAN M K,et al.The Timescales of Subduction Initiation and Subsequent Evolution of an Oceanic Island Arc[J].Earth and Planetary Science Letters,2011,306(3/4):229-240.
[80] REAGAN M K,ISHIZUKA O,STERN R J,et al.Fore-arc Basalts and Subduction Initiation in the Izu-Bonin-Mariana System[J].Geochemistry,Geophy-sics,Geosystems,2010,11(3):1-17.
[81] STERN R J,REAGAN M,ISHIZUKA O,et al.To Understand Subduction Initiation,Study Forearc Crust:To Understand Forearc Crust,Study Ophiolites[J].Lithosphere,2012,4(6):469-483.
[82] AGARD P,YAMATO P,SORET M,et al.Plate Interface Rheological Switches During Subduction Infancy:Control on Slab Penetration and Metamorphic Sole Formation[J].Earth and Planetary Science Letters,2016,451:208-220.
[83] SHERVAIS J W,REAGAN M,HAUGEN E,et al.Magmatic Response to Subduction Initiation:Part 1.Fore-arc Basalts of the Izu-Bonin Arc from IODP Expedition 352[J].Geochemistry,Geophysics,Geosystems,2019,20(1):314-338.
[84] REAGAN M K,MCCLELLAND W C,GIRARD G,et al.The Geology of the Southern Mariana Fore-arc Crust:Implications for the Scale of Eocene Volcanism in the Western Pacific[J].Earth and Planetary Science Letters,2013,380:41-51.
[85] TAYLOR R N,NESBITT R W,VIDAL P,et al.Mine-ralogy,Chemistry,and Genesis of the Boninite Series Volcanics,Chichijima,Bonin Islands,Japan[J].Journal of Petrology,1994,35(3):577-617.
[86] CAMERON W E,NISBET E G,DIETRICH V J.Boninites,Kamatiites and Ophiolitic Basalts[J].Nature,1979,280:550-553.
[87] YANG G X,LI Y J,TONG L L,et al.Natural Observations of Subduction Initiation:Implications for the Geodynamic Evolution of the Paleo-Asian Ocean[J].Geosystems and Geoenvironment,2022,1(1):100009.
[88] WAKABAYASHI J,DILEK Y.Spatial and Temporal Relationships Between Ophiolites and Their Metamorphic Soles:A Test of Models of Forearc Ophiolite Genesis[J].Special Paper of Geological Society of America,2000,349:53-64.
[89] DEWEY J F,CASEY J F.The Sole of an Ophiolite:The Ordovician Bay of Islands Complex,Newfoundland[J].Journal of the Geological Society,2013,170(5):715-722.
[90] HACKER B R.Simulation of the Metamorphic and Deformational History of the Metamorphic Sole of the Oman Ophiolite[J].Journal of Geophysical Research:Solid Earth,1990,95(B4):4895-4907.
[91] SORET M,AGARD P,DUBACQ B,et al.Petrological Evidence for Stepwise Accretion of Metamorphic Soles During Subduction Infancy(Semail Ophiolite,Oman and UAE)[J].Journal of Metamorphic Geology,2017,35(9):1051-1080.
[92] GUILMETTE C R,HEBERT R,DOSTAL J,et al.Discovery of a Dismembered Metamorphic Sole in the Saga Ophiolitic Mélange,South Tibet:Assessing an Early Cretaceous Disruption of the Neo-Tethyan Supra-subduction Zone and Consequences on Basin Closing[J].Gondwana Research,2012,22(2):398-414.
[93] PLUNDER A,AGARD P,CHOPIN C,et al.Metamorphic Sole Formation,Emplacement and Blueschist Facies Overprint:Early Subduction Dynamics Witnessed by Western Turkey Ophiolites[J].Terra Nova,2016,28(5):329-339.
[94] ZHANG C,LIU C Z,XU Y,et al.Subduction Re-initiation at Dying Ridge of Neo-Tethys:Insights from Mafic and Metamafic Rocks in Lhaze Ophiolitic Mé-lange,Yarlung-Tsangbo Suture Zone[J].Earth and Planetary Science Letters,2019,523:115707.
[95] YANG G X.Subduction Initiation Triggered by Collision:A Review Based on Examples and Models[J].Earth-science Reviews,2022,232:104129.
[96] COOPER P A,TAYLOR B.Polarity Reversal in the Solomon Islands Arc[J].Nature,1985,314:428-430.
[97] TURNER S,RUSHMER T,REAGAN M,et al.Heading Down Early on?Start of Subduction on Earth[J].Geology,2014,42(2):139-142.
[98] HAWKESWORTH C J,CAWOOD P A,DHUIME B.The Evolution of the Continental Crust and the Onset of Plate Tectonics[J].Frontiers in Earth Science,2020,8:326.
[99] 陈 凌,王 旭,梁晓峰,等.俯冲构造vs.地幔柱构造:板块运动驱动力探讨[J].中国科学:地球科学,2020,50(4):501-514.
CHEN Ling,WANG Xu,LIANG Xiao-feng,et al.Subduction Tectonics vs.Plume Tectonics:Discussion on Driving Forces for Plate Motion[J].Science China:Earth Sciences,2020,50(4):501-514.
[100] 孙卫东,谢国治,张丽鹏,等.板块俯冲起始与大陆地壳演化[J].地质学报,2021,95(1):32-41.
SUN Wei-dong,XIE Guo-zhi,ZHANG Li-peng,et al.The Onset of Plate Subduction and the Evolution of Continental Crust[J].Acta Geologica Sinica,2021,95(1):32-41.
[101] 赵国春,张国伟.大陆的起源[J].地质学报,2021,95(1):1-19.
ZHAO Guo-chun,ZHANG Guo-wei.Origin of Continents[J].Acta Geologica Sinica,2021,95(1):1-19.
[102] CAWOOD P A,KRONER A,COLLINS W J,et al.Accretionary Orogens Through Earth History[J].Geological Society,London,Special Publications,2009,318:1-36.
[103] ATTIA S,COTTLE J M,PATERSON S R.Erupted Zircon Record of Continental Crust Formation During Mantle Driven Arc Flare-ups[J].Geology,2020,48(5):446-451.
[104] GRIFFIN W L,O'REILLY S Y,ABE N,et al.The Origin and Evolution of Archean Lithospheric Mantle[J].Precambrian Research,2003,127(1/2/3):19-41.
[105] JAHN B M,WU F Y,CHEN B.Granitoids of the Central Asian Orogenic Belt and Continental Growth in the Phanerozoic[J].Earth and Envirnomental Science Transactions of the Royal Society of Edinburgh,2000,91(1/2):181-193.
[106] XIAO W J,SONG D F,WINDLEY B F,et al.Accretionary Processes and Metallogenesis of the Central Asian Orogenic Belt:Advances and Perspectives[J].Science China:Earth Sciences,2020,63:329-361.
[107] HAN B F,WANG S G,JAHN B M,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[J].Chemical Geology,1997,138(3/4):135-159.
[108] WU F Y,JAHN B M,WILDE S,et al.Phanerozoic Crustal Growth:U-Pb and Sr-Nd Isotopic Evidence from the Granites in Northeastern China[J].Tectonophysics,2000,328(1/2):89-113.
[109] 郑永飞,陈伊翔,戴立群,等.发展板块构造理论:从洋壳俯冲带到碰撞造山带[J].中国科学:地球科学,2015,45(6):711-735.
ZHENG Yong-fei,CHEN Yi-xiang,DAI Li-qun,et al.Developing Plate Tectonics Theory from Oceanic Subduction Zones to Collisional Orogens[J].Science China:Earth Sciences,2015,45(6):711-735.
[110] FRISCH W,MESCHEDE M,BLAKEY R.Plate Tectonics:Continental Drift and Mountain Building[M].Berlin:Springer,2011.
[111] HOFMANN A W.Mantle Geochemistry:The Message from Oceanic Volcanism[J].Nature,1997,385:219-229.
[112] ZHENG Y F,XU Z,CHEN L,et al.Chemical Geodynamics of Mafic Magmatism Above Subduction Zones[J].Journal of Asian Earth Sciences,2020,194:104185.
[113] 徐义刚,王 强,唐功建,等.弧玄武岩的成因:进展与问题[J].中国科学:地球科学,2020,50(12):1818-1844.
XU Yi-gang,WANG Qiang,TANG Gong-jian,et al.The Origin of Arc Basalts:New Advances and Remaining Questions[J].Science China:Earth Sciences,2020,50(12):1818-1844.
[114] WINDLEY B F,ALEXEIEV D,XIAO W J,et al.Tectonic Models for Accretion of the Central Asian Orogenic Belt[J].Journal of the Geological Society,2007,164(1):31-47.
[115] XIAO W J,WINDLEY B F,HAN C M,et al.Late Paleozoic to Early Triassic Multiple Roll-back and Oroclinal Bending of the Mongolia Collage in Central Asia[J].Earth-science Reviews,2018,186:94-128.
[116] 吴福元,万 博,赵 亮,等.特提斯地球动力学[J].岩石学报,2020,36(6):1627-1674.
WU Fu-yuan,WAN Bo,ZHAO Liang,et al.Tethyan Geodynamics[J].Acta Petrologica Sinica,2020,36(6):1627-1674.
[117] 朱日祥,赵 盼,赵 亮.新特提斯洋演化与动力过程[J].中国科学:地球科学,2022,52(1):1-25.
ZHU Ri-xiang,ZHAO Pan,ZHAO Liang.Tectonic Evolution and Geodynamics of the Neo-Tethys Ocean[J].Science China:Earth Sciences,2022,52(1):1-25.
[118] KHAIN E V,BIBIKOVA E V,KRÖNER A,et al.The Most Ancient Ophiolite of the Central Asian Fold Belt:U-Pb and Pb-Pb Zircon Ages for the Dunzhugur Complex,Eastern Sayan,Siberia,and Geodynamic Implications[J].Earth and Planetary Science Letters,2002,199(3/4):311-325.
[119] WAN B,LI S H,XIAO W J,et al.Where and When Did the Paleo-Asian Ocean Form[J].Precambrian Research,2018,317:241-252.
[120] YANG G X,LI Y J,TONG L L,et al.An Early Cambrian Plume-induced Subduction Initiation Event Wi-thin the Junggar Ocean:Insights from Ophiolitic Mé-langes,Arc Magmatism,and Metamorphic Rocks[J].Gondwana Research,2020,88:45-66.
[121] 杨高学,李永军,司国浩,等.中亚造山带西段俯冲起始时限及机制探讨[J].地球科学与环境学报,2021,43(2):244-261.
YANG Gao-xue,LI Yong-jun,SI Guo-hao,et al.Discussion on Time and Mechanism of Subduction Initiation in the Western Central Asian Orogenic Belt[J].Journal of Earth Sciences and Environment,2021,43(2):244-261.
[122] 万 博,吴福元,陈 凌,等.重力驱动的特提斯单向裂解-聚合动力学[J].中国科学:地球科学,2019,49(2):2004-2017.
WAN Bo,WU Fu-yuan,CHEN Ling,et al.Cyclical One-way Continental Rupture-drift in the Tethyan Evolution:Subduction Driven Plate Tectonics[J].Science China:Earth Sciences,2019,49(2):2004-2017.
[123] 张洪瑞,侯增谦.大陆碰撞造山与成矿过程:扎格罗斯和喜马拉雅造山带对比[J].地球科学与环境学报,2021,43(3):436-448.
ZHANG Hong-rui,HOU Zeng-qian.Comparisons of the Collision Processes and Related Metallogenesis of Zagros and Himalaya Orogens[J].Journal of Earth Sciences and Environment,2021,43(3):436-448.
[124] 翟明国.大陆动力学的物质演化研究方向与思路[J].地球科学与环境学报,2015,37(4):1-14.
ZHAI Ming-guo.New Research Interests and Concept of Material Evolution for Continental Dynamics[J].Journal of Earth Sciences and Environment,2015,37(4):1-14.
[125] LINANG H T,PILIA S,RAWLINSON N,et al.Collision-induced Subduction Polarity Reversal Explains the Crustal Structure of Northern Borneo:New Results from Virtual Deep Seismic Sounding(VDSS)[J].Geophysical Research Letters,2022,49(19):e2022GL099123.
[126] YANG J F,SUN B L,ZHANG C,et al.Magmatic Ignitor Kick-starts Subduction Initiation[J].Earth and Space Science Open Archive,2022,DOI:10.1002/essoar.10511755.1.
[127] KUSKY T,王 璐.洋内弧和陆缘弧体系中的大陆地壳生长:与太古宙体系的类比[J].中国科学:地球科学,2022,52(10):1966-2001.
KUSKY T,WANG Lu.Growth of Continental Crust in Intra-oceanic and Continental-margin Arc Systems:Analogs for Archean Systems[J].Science China:Ear-th Sciences,2022,52(10):1966-2001.
[128] 李三忠,索艳慧,周 洁,等.微板块与大板块:基本原理与范式转换[J].地质学报,2022,96(10):3541-3558.
LI San-zhong,SUO Yan-hui,ZHOU Jie,et al.Microplate and Large-scale Plate:Fundamental Principles and Paradigm[J].Acta Geologica Sinica,2022,96(10):3541-3558.
[129] 董云鹏,任建国,张志飞,等.地质学科未来5~10年发展战略:趋势与对策[J].科学通报,2022,67(23):2708-2718.
DONG Yun-peng,REN Jian-guo,ZHANG Zhi-fei,et al.Development Strategy of Geology in Next 5-10 Years:Trends and Countermeasures[J].Chinese Science Bulletin,2022,67(23):2708-2718.
[130] 肖文交,宋东方,WINDLEY B F,等.中亚增生造山过程与成矿作用研究进展[J].中国科学:地球科学,2019,49(10):1512-1545.
XIAO Wen-jiao,SONG Dong-fang,WINDLEY B F,et al.Research Progresses of the Accretionary Processes and Metallogenesis of the Central Asian Orogenic Belt[J].Science China:Earth Sciences,2019,49(10):1512-1545.
[131] 肖文交,李继亮,宋东方,等.增生型造山带结构解析与时空制约[J].地球科学,2019,44(5):1661-1687.
XIAO Wen-jiao,LI Ji-liang,SONG Dong-fang,et al.Structural Analyses and Spatio-temporal Constraints of Accretionary Orogens[J].Earth Science,2019,44(5):1661-1687.
[132] 郑永飞.21世纪板块构造[J].中国科学:地球科学,2023,53(1):1-40.
ZHENG Yong-fei.Plate Tectonics in the Twenty-first Century[J].Science China:Earth Sciences,2023,53(1):1-40.
[133] 张国伟,郭安林.关于大陆构造研究的一些思考与讨论[J].地球科学,2019,44(5):1464-1475.
ZHANG Guo-wei,GUO An-lin.Thoughts on Continental Tectonics[J].Earth Science,2019,44(5):1464-1475.
[134] LAPÔTRE M G A,O'ROURKE J G,SCHAEFER L K,et al.Probing Space to Understand Earth[J].Nature Reviews Earth & Environment,2020,1:170-181.
[1]翟明国.大陆动力学的物质演化研究方向与思路[J].地球科学与环境学报,2015,37(04):1.
ZHAI Ming-guo.New Research Interests and Concept of Material Evolution for Continental Dynamics[J].Journal of Earth Sciences and Environment,2015,37(02):1.
[2]杨高学,李永军,司国浩,等.中亚造山带西段俯冲起始时限及机制探讨[J].地球科学与环境学报,2021,43(02):244.[doi:10.19814/j.jese.2020.11023]
YANG Gao-xue,LI Yong-jun,SI Guo-hao,et al.Discussion on Time and Mechanism of Subduction Initiation in the Western Central Asian Orogenic Belt[J].Journal of Earth Sciences and Environment,2021,43(02):244.[doi:10.19814/j.jese.2020.11023]
[3]蒋蕾茵,孙 晶*,黄铖铮,等.地幔榴辉岩包体的同位素定年方法研究进展[J].地球科学与环境学报,2024,46(01):114.[doi:10.19814/j.jese.2023.09010]
JIANG Lei-yin,SUN Jing*,HUANG Cheng-zheng,et al.Review on Isotopic Dating Methods of Mantle Eclogite Xenoliths[J].Journal of Earth Sciences and Environment,2024,46(02):114.[doi:10.19814/j.jese.2023.09010]