A brief review on the tectonic evolution of the west Tethysides
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摘要: 本文通过综述近年西特提斯带主要缝合带的研究进展及所代表洋盆的发育特征,提出了古特提斯缝合带可能的位置和俯冲消亡方式。结合区域资料探讨了西特提斯带古生代末—中生代洋陆构造格局,认为东、西古特提斯洋完全可以类比,自晚古生代末西特提斯带主要受古特提斯大洋双向俯冲制约,在俯冲带后缘以二叠纪裂谷带为基础逐渐发展成中生代多岛弧盆系的新特提斯构造格局,西特提斯造山系主要表现为弧后洋盆消减造山作用。Abstract: The research progress of the main suture zones in the west Tethysides and the development characteristics of the oceanic basin represented by them are reviewed. We propose the potential location of the Paleo-Tethys suture and summarize a brief evolution of the Paleo-Tethyan Ocean. Combining with regional geological data, this paper discusses the tectonic framework of the west Tethysides during the latest Paleozoic to the Mesozoic. The similar tectonic evolution is also found within the Paleo-Tethys which can be compared between the east and west parts. From the latest Paleozoic onward, the west Tethysides realm was mainly affected by double-sided subduction of the Paleo-Tethys.The Neo-Tethys was characterised by archipelagic arc-basin system during the Mesozoic, which succeed the Permian rifts in the aftermath of the Paleo-Tethys subduction. The west Tethysides was mainly manifested by the orogenesis of collaped back-arc basin.
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Key words:
- composite arc-basin system /
- Tethysides /
- suture zone /
- oceanic plate geology
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Akbayram K, Okay A I, SatƖr M, 2013. Early Cretaceous closure of the Intra-Pontide Ocean in western Pontides (northwestern Turkey)[J]. Journal of Geodynamics, 65: 38-55.
Alparslan G, Dilek Y, 2018. Seafloor spreading structure, geochronology, and tectonic evolution of the Küre ophiolite, Turkey: a Jurassic continental backarc basin oceanic lithosphere in southern Eurasia[J]. Lithosphere, 10(1): 14-34.
Amante C, Eakins B W, 2009. ETOPO1 1 arc-minute global relief model: procedures, data sources and analysis[R]. NOAA Technical Memorandum NESDIS NGDC-24. Boulder: NOAA.
Anders B, Reischmann T, Kostopoulos D, et al., 2006. The oldest rocks of Greece: first evidence for a Precambrian terrane within the Pelagonian Zone[J]. Geological Magazine, 143(1): 41-58.
Anders B, Reischmann T, Poller U, et al., 2005. Age and origin of granitic rocks of the eastern Vardar Zone, Greece: new constraints on the evolution of the Internal Hellenides[J]. Journal of the Geological Society, 162(5): 857-870.
Argnani A, 2018. Subduction evolution of the dinarides and the cretaceous orogeny in the eastern alps: hints from a new paleotectonic interpretation[J]. Tectonics, 37(2): 621-635.
Aysal N,Şahin S Y, Güngör Y, et al., 2018. Middle Permian-early Triassic magmatism in the Western Pontides, NW Turkey: geodynamic significance for the evolution of the Paleo-Tethys[J]. Journal of Asian Earth Sciences, 164: 83-103.
Babić L, Hochuli P A, Zupanic J, 2002. The Jurassic ophiolitic mélange in the NE Dinarides: dating, internal structure and geotectonic implications[J]. Eclogae Geologicae Helvetiae, 95(3): 263-275.
Bauer C, Rubatto D, Krenn K, et al., 2007. A zircon study from the Rhodope metamorphic complex, N-Greece: time record of a multistage evolution[J]. Lithos, 99(3-4): 207-228.
Bernoulli D, Jenkyns H C, 1974. Alpine, mediterranean, and central atlantic mesozoic facies in relation to the early evolution of the tethys[M]//Dott R H Jr, Shaver R H. Modern and Ancient Geosynclinal Sedimentation. SEPM Special Publications. 129-160.
Bernoulli D, Laubscher H, 1972. The palinspastic problem of the hellenides[J]. Eclogae Geologicae Helvetiae, 65(1): 107-118.
Berza T, Constantinescu E, Vlad S-N, 1998. Upper cretaceous magmatic series and associated mineralisation in the carpathian -balkan orogen[J]. Resource Geology, 48(4): 291-306.
Billi A, Faccenna C, Bellier O, et al., 2011. Recent tectonic reorganization of the Nubia-Eurasia convergent boundary heading for the closure of the western Mediterranean[J]. Bulletin de la Société Géologique de France, 182(4): 279-303.
Bonev N, Marchev P, Moritz R, et al., 2015. Jurassic subduction zone tectonics of the Rhodope Massif in the Thrace region (NE Greece) as revealed by new U-Pb and 40Ar/39Ar geochronology of the Evros ophiolite and high-grade basement rocks[J]. Gondwana Research, 27(2): 760-775.
Bortolotti V, Chiari M, Marroni M, et al., 2013. Geodynamic evolution of ophiolites from Albania and Greece (Dinaric-Hellenic belt): one, two, or more oceanic basins?[J]. International Journal of Earth Sciences, 102(3): 783-811.
Bortolotti V, Kodra A, Marroni M, et al., 1996. Geology and petrology of ophiolitic sequences in Mirdita region (northern Albania)[J]. Ofioliti, 21(1): 3-20.
Bortolotti V, Marroni M, Nicolae I, et al., 2002a. Geodynamic implications of jurassic ophiolites associated with island-arc volcanics, south Apuseni Mountains, western Romania[J]. International Geology Review, 44(10): 938-955.
Bortolotti V, Marroni M, Nicolae I, et al., 2004. An update of the Jurassic ophiolites and associated Calc-alkaline rocks in the South Apuseni Mountains (Western Romania)[J]. Ofioliti, 29(1): 5-18.
Bortolotti V, Marroni M, Pandolfi L, et al., 2002b. Interaction between mid-ocean ridge and subduction magmatism in Albanian ophiolites[J]. The Journal of Geology, 110(5): 561-576.
Božović M, Prelević D, Romer R L, et al., 2013. The demir kapija ophiolite, macedonia (FYROM): a snapshot of subduction initiation within a back-arc[J]. Journal of Petrology, 54(7): 1427-1453.
Bragin N, Bragina L, Spajić N G, et al., 2019. New radiolarian data from the Jurassic ophiolitic mélange of Avala Mountain (Serbia, Belgrade Region)[J]. Swiss Journal of Geosciences, 112(1): 235-249.
Brown S A M, Robertson A H F, 2004. Evidence for Neotethys rooted within the Vardar suture zone from the Voras Massif, northernmost Greece[J]. Tectonophysics, 381(1-4): 143-173.
Brunn J H, Argyriadis I, Ricou L E, et al., 1976. Elements majeurs de liaison entre Taurides et Hellenides[J]. Bulletin de la Société Géologique de France, 18(2): 481-497.
Burchfiel B C, 1980. Eastern European Alpine system and the Carpathian orocline as an example of collision tectonics[J]. Tectonophysics, 63(1-4): 31-61.
Candan O, Akal C, Koralay O E, et al., 2016. Carboniferous granites on the northern margin of Gondwana, Anatolide-Tauride Block, Turkey-Evidence for southward subduction of Paleotethys[J]. Tectonophysics, 683: 349-366.
Castellarin A, Lucchini F, Rossi P L, et al., 1988. The Middle Triassic magmatic-tectonic arc development in the Southern Alps[J]. Tectonophysics, 146(1-4): 79-89.
Cavazza W, Roure F, Spakman W, et al., 2004. The TRANSMED Atlas. The Mediterranean Region from Crust to Mantle[M]. Berlin: Springer. 141.
Channell J E T, Kozur H W, 1997. How many oceans? Meliata, Vardar and Pindos oceans in Mesozoic Alpine paleogeography[J]. Geology, 25(2): 183-186.
Chiari M, Marcucci M, Prela M, 2002. New species of Jurassic radiolarians in the sedimentary cover of ophiolites in the Mirdita area, Albania[J]. Micropaleontology, 48(1): 61-87.
Cocks L R M, Torsvik T H, 2011. The Palaeozoic geography of Laurentia and western Laurussia: a stable craton with mobile margins[J]. Earth-Science Reviews, 106(1-2): 1-51, doi: 10.1016/j.earscirev.2011.01.007.
Csontos L, Vörös A, 2004. Mesozoic plate tectonic reconstruction of the Carpathian region[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 210(1): 1-56.
Cvetković V,Šarić K, Grubić A, et al., 2014. The Upper Cretaceous ophiolite of North Kozara-remnants of an anomalous mid-ocean ridge segment of the Neotethys?[J]. Geologica Carpathica, 65(2): 117-130.
de Broucker G, Mellin A, Duindam P, 1998. Tectono-stratigraphic evolution of the Transylvanian Basin pre-salt sequence Romania[M]//Dinu C, Mocanu V H. Geological Structure and Hydrocarbon Potential of the Romanian Area. Bucharest Geoscience Forum. 36-69.
de Lamotte D F, Fourdan B, Leleu S, et al., 2015. Style of rifting and the stages of Pangea breakup[J]. Tectonics, 34(5): 1009-1029.
Decarlis A, Dallagiovanna G, Lualdi A, et al., 2013. Stratigraphic evolution in the Ligurian Alps between Variscan heritages and the Alpine Tethys opening: a review[J]. Earth-Science Reviews, 125: 43-68.
Degnan P J, Robertson A H F, 1998. Mesozoic-early Tertiary passive margin evolution of the Pindos ocean (NW Peloponnese, Greece)[J]. Sedimentary Geology, 117(1-2): 33-70.
Dilek Y, Furnes H, 2009. Structure and geochemistry of Tethyan ophiolites and their petrogenesis in subduction rollback systems[J]. Lithos, 113(1-2): 1-20.
Dilek Y, Furnes H, Shallo M, 2008. Geochemistry of the Jurassic Mirdita Ophiolite (Albania) and the MORB to SSZ evolution of a marginal basin oceanic crust[J]. Lithos, 100(1-4): 174-209.
Dimitrijević M D, 1997. Geology of Yugoslavia[M]. Belgrade: Geological Institute GEMINI Special Publication. 187.
Dimitrijević M N, Dimitrijević M D, Karamata S, et al., 2003. Olistostrome/mélanges-an overview of the problems and preliminary comparison of such formations in Yugoslavia and NE Hungary[J]. Slovak Geological Magazine, 9(1): 3-21.
Dimo-Lahitte A, Monié P, Vergély P, 2001. Metamorphic soles from the Albanian ophiolites: petrology, 40Ar/39Ar geochronology, and geodynamic evolution[J]. Tectonics, 20(1): 78-96. Dosztály L, Józsa S, 1992. Geochronological evaluation of Mesozoic formations of Darnó Hill at Recsk on the basis of radiolarians and K-Ar age data[J]. Acta Geologica Hungarica, 35(4): 371-393.
Dunćić M, Dulić I, Popov O, et al., 2017. The Campanian- Maastrichtian foraminiferal biostratigraphy of the basement sediments from the southern Pannonian Basin (Vojvodina, northern Serbia): implications for the continuation of the Eastern Vardar and Sava zones[J]. Geologica Carpathica, 68(2): 130-146, doi: 10.1515/geoca-2017-0011.
Faryad S W, Spišiak J, Horváth P, et al., 2005. Petrological and geochemical features of the Meliata mafic rocks from the sutured Triassic Oceanic Basin, Western Carpathians[J]. Ofioliti, 30(1): 27-35. Faupl P, Pavlopoulos A, Migiros G, 1999. The Paleogene history of the Pelagonian zone s.l. (Hellenides, Greece): heavy mineral study from terrigenous flysch sediments[J]. Geologica Carpathica, 50(6): 449-458.
Favre P, Stampfli G M, 1992. From rifting to passive margin: the examples of the Red Sea, Central Atlantic and Alpine Tethys[J]. Tectonophysics, 215(1-2): 69-97.
Ferriere J, Baumgartner P O, Chanier F, 2016. The Maliac Ocean: the origin of the Tethyan Hellenic ophiolites[J]. International Journal of Earth Sciences, 105(7): 1941-1963.
Ferrière J, Chanier F, Ditbanjong P, 2012. The Hellenic ophiolites: eastward or westward obduction of the Maliac Ocean, a discussion[J]. International Journal of Earth Sciences, 101(6): 1559-1580.
Florineth D, Froitzheim N, 1994. Transition from continental to oceanic basement in the Tasna nappe (Engadine window, Graubünden, Switzerland): evidence for early Cretaceous opening of the Valais Ocean[J]. Schweizerische Mineralogische und Petrographische Mitteilungen, 74(3): 437-448.
Froitzheim N, Jahn-Awe S, Frei D, et al., 2014. Age and composition of meta-ophiolite from the Rhodope Middle Allochthon (Satovcha, Bulgaria): a test for the maximum-allochthony hypothesis of the Hellenides[J]. Tectonics, 33(8): 1477-1500.
Gaina C, Torsvik T H, van Hinsbergen D J J, et al., 2013. The African Plate: a history of oceanic crust accretion and subduction since the Jurassic[J]. Tectonophysics, 604: 4-25, doi: 10.1016/j.tecto.2013.05.037.
Gallhofer D, van Quadt A, Peytcheva I, et al., 2015. Tectonic, magmatic, and metallogenic evolution of the Late Cretaceous arc in the Carpathian-Balkan orogen[J]. Tectonics, 34(9): 1813-1836.
Gallhofer D, von Quadt A, Schmid S M, et al., 2017. Magmatic and tectonic history of Jurassic ophiolites and associated granitoids from the South Apuseni Mountains (Romania)[J]. Swiss Journal of Geosciences, 110(2): 699-719.
Gawlick H-J, Frisch W, Hoxha L, et al., 2008. Mirdita Zone ophiolites and associated sediments in Albania reveal Neotethys Ocean origin[J]. International Journal of Earth Sciences, 97(4): 865-881.
Gawlick H-J, Missoni S, 2019. Middle-Late Jurassic sedimentary mélange formation related to ophiolite obduction in the Alpine-Carpathian-Dinaridic Mountain Range[J]. Gondwana Research, 74: 144-172.
Goes S, Giardini D, Jenny S, et al., 2004. A recent tectonic reorganization in the south-central Mediterranean[J]. Earth and Planetary Science Letters, 226(3-4): 335-345.
Golonka J, 2004. Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic[J]. Tectonophysics, 381(1-4): 235-273.
Göncüoglu M C, Marroni M, Pandolfi L, et al., 2014. The Arkot DaǧMélange in Araç area, central Turkey: evidence of its origin within the geodynamic evolution of the Intra-Pontide suture zone[J]. Journal of Asian Earth Sciences, 85: 117-139.
Göncüoglu M C, Turhan N,Şentürk K, et al., 2000. A geotraverse across northwestern turkey: tectonic units of the central sakarya region and their tectonic evolution[J]. Geological Society, London, Special Publications, 173(1): 139-161.
Grubić A, Radoićić R, Knežević M, et al., 2009. Occurrence of Upper Cretaceous pelagic carbonates within ophiolite-related pillow basalts in the Mt. Kozara area of the Vardar zone western belt, northern Bosnia[J]. Lithos, 108(1-4): 126-130.
Gutiérrez-Alonso G, Fernández-Suárez J, Weil A B, et al., 2008. Self-subduction of the Pangaean global plate[J]. Nature Geoscience, 1(8): 549-553.
Halamić J, Goričan Š, 1995. Triassic radiolarites from Mts. kalnik and medvednica (Northwestern Croatia)[J]. Geologia Croatica, 48(2): 129-146.
Handy M R, Schmid S M, Bousquet R, et al., 2010. Reconciling plate-tectonic reconstructions of Alpine Tethys with the geological-geophysical record of spreading and subduction in the Alps[J]. Earth-Science Reviews, 102(3-4): 121-158.
Hoeck V, Ionescu C, Balintoni I, et al., 2009. The Eastern Carpathians “ophiolites” (Romania): remnants of a Triassic ocean[J]. Lithos, 108(1-4): 151-171.
Hsü K J, Pan G T, Sengör A M C, 1995. Tectonic evolution of the Tibetan Plateau: a working hypothesis based on the archipelago model of orogenesis[J]. International Geology Review, 37(6): 473-508.
Ionescu C, Hoeck V, Tomek C, et al., 2009. New insights into the basement of the Transylvanian Depression (Romania)[J]. Lithos, 108(1-4): 172-191.
Ivan P, 2002. Relics of the Meliata Ocean crust: geodynamic implications of mineralogical, petrological and geochemical proxies[J]. Geologica Carpathica, 53(4): 245-256.
Kane I, Stampolidis A, Tsokas N G, et al., 2005. The structure of the ophiolitic beltin Albania inferred from geomagnetic anomalies[J]. Annals of Geophysics, 48(2): 231-246.
Karamata S, 2006. The geological development of the Balkan Peninsula related to the approach, collision and compression of Gondwanan and Eurasian units[J]. Geological Society, London, Special Publications, 260(1): 155-178.
Kock S, Martini R, Reischmann T, et al., 2007. Detrital zircon and micropalaeontological ages as new constraints for the lowermost tectonic unit (Talea Ori unit) of Crete, Greece[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 243(3-4): 307-321.
Kounov A, Schmid S M, 2013. Fission-track constraints on the thermal and tectonic evolution of the Apuseni Mountains (Romania)[J]. International Journal of Earth Sciences, 102: 207-233.
Koutsovitis P, Magganas A, Katerinopoulos A, 2009. Calc-alkaline volcanic rocks in mélange formations from the South Othris region, Greece: petrogenetic and geotectonic implications[J]. Geochemistry, Mineralogy and Petrology, 47: 79-95.
Kozur H, 1991. The evolution of the Meliata-Hallstatt ocean and its significance for the early evolution of the Eastern Alps and Western Carpathians[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 87(1-4): 109-135.
Kozur H W, Aydin M, Demir O, et al., 1999. Geological evolution of Middle Pontide area (Northern Turkey) and eastward continuation of the Meliata-Hallstatt Ocean[J]. Geologicky Zbornik, 50: 154-155.
Kozur H W, Aydin M, Demir O, et al., 2000. New stratigraphic and palaeogeographic results from the palaeozoic and early mesozoic of the middle pontides (Northern Turkey) in the azdavay, devrekani, küre and inebolu areas: implications for the carboniferous-early cretaceous geodynamic evolution and some related remarks to the karakaya oceanic rift basin[J]. Geologia Croatica, 53(2): 209-268.
Krenn K, Bauer C, Proyer A, et al., 2010. Tectonometamorphic evolution of the Rhodope orogen[J]. Tectonics, 29(4): TC4001.
Kukoš D, Goričan Š, Košir A, et al., 2015. Middle Jurassic age of basalts and the post-obduction sedimentary sequence in the Guevgueli Ophiolite Complex (Republic of Macedonia)[J]. International Journal of Earth Sciences, 104(2): 435-447.
Li S Z, Zhao S J, Liu X, et al., 2018. Closure of the Proto-Tethys Ocean and Early Paleozoic amalgamation of microcontinental blocks in East Asia[J]. Earth-Science Reviews, 186: 37-75.
Liati A, Froitzheim N, Fanning C M, 2005. Jurassic ophiolites within the Valais domain of the Western and Central Alps: geochronological evidence for re-rifting of oceanic crust[J]. Contributions to Mineralogy and Petrology, 149(4): 446-461.
Liati A, Theye T, Fanning C M, et al., 2016. Multiple subduction cycles in the Alpine orogeny, as recorded in single zircon crystals (Rhodope zone, Greece)[J]. Gondwana Research, 29(1): 199-207.
Liu Y, Neubauer F, Yuan S, et al., 2019. The Plankogel complex within the Austroalpine nappe complex of Eastern Alps: a paleotethyan suture?[C]//Emile Argand Conference on Alpine Geological Studies 2019. Sion. 44.
Lugović B, Altherr R, Raczek I, et al., 1991. Geochemistry of peridotites and mafic igneous rocks from the Central Dinaric Ophiolite Belt, Yugoslavia[J]. Contributions to Mineralogy and Petrology, 106(2): 201-216.
Lugović B, Slovenec D, Schuster R, et al., 2015. Petrology, geochemistry and tectono-magmatic affinity of gabbroic olistoliths from the ophiolite mélange in the NW Dinaric-Vardar ophiolite zone (Mts. Kalnik and Ivanščica, North Croatia)[J]. Geologia Croatica, 68(1): 25-49.
Maffione M, van Hinsbergen D J J, 2018. Reconstructing plate boundaries in the jurassic neo-tethys from the east and west vardar ophiolites (Greece and Serbia)[J]. Tectonics, 37(3): 858-887, doi: 10.1002/2017tc004790.
Mandl G W, 2000. The Alpine sector of the Tethyan shelf-Examples of Triassic to Jurassic sedimentation and deformation from the Northern Calcareous Alps[J]. Mitt. Österr. Geo. Ges., 92: 61-77.
Marsellos A E, Foster D A, Kamenov G D, et al., 2012. Detrital zircon U-Pb data from the Hellenic south Aegean belts: constraints on the age and source of the South Aegean basement[J]. Journal of the Virtual Explorer, 42(3): 1-12.
Masson H, Bussy F, Eichenberger M, et al., 2008. Early Carboniferous age of the Versoyen ophiolites and consequences: non-existence of a "Valais ocean" (Lower Penninic, western Alps)[J]. Bulletin de la Société Géologique de France, 179(4): 337-355.
Metcalfe I, 1996. Gondwanaland dispersion, Asian accretion and evolution of eastern Tethys[J]. Australian Journal of Earth Sciences, 43(6): 605-623.
Metcalfe I, 2013a. Gondwana dispersion and Asian accretion: tectonic and palaeogeographic evolution of eastern Tethys[J]. Journal of Asian Earth Sciences, 66: 1-33.
Metcalfe I, 2013b. Gondwana dispersion and Asian accretion: tectonic and palaeogeographic evolution of eastern Tethys[J]. Journal of Asian Earth Sciences, 66: 1-33.
Milovanovic D, Marchig V, Stevan K, 1995. Petrology of the crossite schist from Fruška Gora Mts (Yugoslavia), relic of a subducted slab of the Tethyan oceanic crust[J]. Journal of Geodynamics, 20(3): 289-304.
Natal’in B A, Sunal G, Gün E, et al., 2016. Precambrian to Early Cretaceous rocks of the Strandja Massif (northwestern Turkey): evolution of a long lasting magmatic arc[J]. Canadian Journal of Earth Sciences, 53(11): 1312-1335.
Neubauer F, Genser J, Handler R, 2000. The Eastern Alps: result of a two-stage collision process[J]. Mitt. Öesterr. Geol. Ges., 92: 117-134.
Neubauer F, Heinrich C, 2003. Late Cretaceous and Tertiary geodynamics and ore deposit evolution of the Alpine-Balkan-Carpathian-Dinaride orogen[C]//Mineral Exploration and Sustainable Development. Rotterdam: Millpress.
Nicolae I, Saccani E, 2003. Petrology and geochemistry of the Late Jurassic calc-alkaline series associated to Middle Jurassic ophiolites in the South Apuseni Mountains (Romania)[J]. Swiss Bulletin of Mineralogy and Petrology, 83(1): 81-96.
Okay A I, Sunal G, Sherlock S, et al., 2020.[AKI·]zmir-ankara suture as a triassic to cretaceous plate boundary—data from central anatolia[J]. Tectonics, 39(5): e2019TC005849.
Pamić J, Balen D, Herak M, 2002a. Origin and geodynamic evolution of Late Paleogene magmatic associations along the Periadriatic-Sava-Vardar magmatic belt[J]. Geodinamica Acta, 15(4): 209-231.
Pamić J, Jurković I, 2002. Paleozoic tectonostratigraphic units of the northwest and central Dinarides and the adjoining South Tisia[J]. International Journal of Earth Sciences, 91(3): 538-554, doi: 10.1007/s00531-001-0229-8.
Pamić J, Tomljenović B, Balen D, 2002b. Geodynamic and petrogenetic evolution of Alpine ophiolites from the central and NW Dinarides: an overview[J]. Lithos, 65(1-2): 113-142.
Pan G T, Wang L Q, Li R S, et al., 2012. Tectonic evolution of the Qinghai-Tibet Plateau[J]. Journal of Asian Earth Sciences, 53: 3-14.
Papanikolaou D, 2009. Timing of tectonic emplacement of the ophiolites and terrane paleogeography in the Hellenides[J]. Lithos, 108(1-4): 262-280.
Papanikolaou D, 2013. Tectonostratigraphic models of the Alpine terranes and subduction history of the Hellenides[J]. Tectonophysics, 595-596: 1-24.
Pe-Piper G, 1998. The nature of Triassic extension-related magmatism in Greece: evidence from Nd and Pb isotope geochemistry[J]. Geological Magazine, 135(3): 331-348.
Pe-Piper G, Piper D J W, 1991. Early mesozoic oceanic subduction-related volcanic rocks, Pindos Basin, Greece[J]. Tectonophysics, 192(3-4): 273-292.
Petrík I, Janák M, Froitzheim N, et al., 2016. Triassic to Early Jurassic (c. 200 Ma) UHP metamorphism in the Central Rhodopes: evidence from U-Pb-Th dating of monazite in diamond-bearing gneiss from Chepelare (Bulgaria)[J]. Journal of Metamorphic Geology, 34(3): 265-291.
Piper D J W, 2006. Sedimentology and tectonic setting of the Pindos Flysch of the Peloponnese, Greece[J]. Geological Society, London, Special Publications, 260(1): 493-505.
Plašienka D, 1995. Passive and active margin history of the northern Tatricum (Western Carpathians, Slovakia)[J]. Geologische Rundschau, 84(4): 748-760.
Plašienka D, 2003. Dynamics of Mesozoic pre-orogenic rifting in the Western Carpathians[J]. Mitt. Österr. Geol. Ges., 94: 79-98.
Plašienka D, 2018. Continuity and episodicity in the early Alpine tectonic evolution of the western Carpathians: how large-scale processes are expressed by the orogenic architecture and rock record data[J]. Tectonics, 37(7): 2029-2079.
Plašienka D, Méres Š, Ivan P, et al., 2019. Meliatic blueschists and their detritus in Cretaceous sediments: new data constraining tectonic evolution of the West Carpathians[J]. Swiss Journal of Geosciences, 112(1): 55-81.
Popov P, Berza T, Grubic A, et al., 2002. Late Cretaceous Apuseni-Banat-Timok-Srednogorie (ABTS) magmatic and metallogenic belt in the Carpathian-Balkan orogen[J]. Geologica Balcanica, 32(2): 145-163.
Prela M, Chiari M, Marcucci M, 2000. Jurassic radiolarian biostratigraphy of the sedimentary cover of ophiolites in the Mirdita Area, ALBANIA: new data[J]. Ofioliti, 25(1): 55-62.
Prelević D, Wehrheim S, Reutter M, et al., 2017. The Late Cretaceous Klepa basalts in Macedonia (FYROM)—Constraints on the final stage of Tethys closure in the Balkans[J]. Terra Nova, 29(3): 145-153.
Putiš M, Soták J, Li Q-L, et al., 2019. Origin and age determination of the neotethys meliata basin ophiolite fragments in the late jurassic-early cretaceous accretionary wedge mélange (inner western carpathians, slovakia)[J]. Minerals, 9(11): 652.
Ratschbacher L, Frisch W, Linzer H-G, et al., 1991. Lateral extrusion in the eastern Alps, PArt 2: structural analysis[J]. Tectonics, 10(2): 257-271.
Reischmann T, Kostopoulos D, Loos S, et al., 2001. Late palaeozoic magmatism in the basement rocks Southwest of Mt. Olympos, Central Pelagonian zone, Greece: remnants of a permo-carboniferous magmatic arc[J]. Bulletin of the Geological Society of Greece, 34(3): 985-993.
Robertson A H F, 2012. Late Palaeozoic-Cenozoic tectonic development of Greece and Albania in the context of alternative reconstructions of Tethys in the Eastern Mediterranean region[J]. International Geology Review, 54(4): 373-454.
Robertson A H F, Clift P D, Degnan P J, et al., 1991. Palaeogeographic and palaeotectonic evolution of the Eastern Mediterranean Neotethys[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 87(1-4): 289-343.
Robertson A H F, Trivić B, Derić N, et al., 2013. Tectonic development of the Vardar ocean and its margins: evidence from the Republic of Macedonia and Greek Macedonia[J]. Tectonophysics, 595-596: 25-54.
Robertson A H F, Ustaömer T, 2004. Tectonic evolution of the Intra-Pontide suture zone in the Armutlu Peninsula, NW Turkey[J]. Tectonophysics, 381(1-4): 175-209.
Robertson A H F, Ustaömer T, 2009. Formation of the Late Palaeozoic Konya Complex and comparable units in southern Turkey by subduction-accretion processes: implications for the tectonic development of Tethys in the Eastern Mediterranean region[J]. Tectonophysics, 473(1-2): 113-148.
Romano S S, Dörr W, Zulauf G, 2004. Cambrian granitoids in pre-Alpine basement of Crete (Greece): evidence from U-Pb dating of zircon[J]. International Journal of Earth Sciences, 93(5): 844-859, doi: 10.1007/s00531-004-0422-7.
Saccani E, Beccaluva L, Photiades A, et al., 2011. Petrogenesis and tectono-magmatic significance of basalts and mantle peridotites from the Albanian-Greek ophiolites and sub-ophiolitic mélanges. New constraints for the Triassic-Jurassic evolution of the Neo-Tethys in the Dinaride sector[J]. Lithos, 124(3-4): 227-242.
Saccani E, Photiades A, Santato A, et al., 2008. New evidence for supra-subduction zone ophiolites in the Vardar Zone of northern Greece: implications for the tectono-magmatic evolution of the Vardar oceanic basin[J]. Ofioliti, 33(1): 65-85.
Sayit K, Bedi Y, Tekin U K, et al., 2017. Middle Triassic back-arc basalts from the blocks in the Mersin Mélange, southern Turkey: implications for the geodynamic evolution of the Northern Neotethys[J]. Lithos, 268-271: 102-113.
Sayit K, Marroni M, Göncüoglu M C, et al., 2016. Geological setting and geochemical signatures of the mafic rocks from the Intra-Pontide Suture Zone: implications for the geodynamic reconstruction of the Mesozoic Neotethys[J]. International Journal of Earth Sciences, 105(1): 39-64, doi: 10.1007/s00531-015-1202-2.
Sayit K, Tekin U K, Göncüoglu M C, 2011. Early-middle Carnian radiolarian cherts within the Eymir Unit, Central Turkey: constraints for the age of the Palaeotethyan Karakaya Complex[J]. Journal of Asian Earth Sciences, 42(3): 398-407.
Schefer S, Cvetković V, Fügenschuh B, et al., 2011. Cenozoic granitoids in the Dinarides of southern Serbia: age of intrusion, isotope geochemistry, exhumation history and significance for the geodynamic evolution of the Balkan Peninsula[J]. International Journal of Earth Sciences, 100(5): 1181-1206.
Schmid S M, Bernoulli D, Fügenschuh B, et al., 2008. The Alpine-Carpathian-Dinaridic orogenic system: correlation and evolution of tectonic units[J]. Swiss Journal of Geosciences, 101(1): 139-183.
Schmid S M, Fügenschuh B, Kissling E, et al., 2004. Tectonic map and overall architecture of the Alpine orogen[J]. Eclogae Geologicae Helvetiae, 97(1): 93-117.
Schmid S M, Fügenschuh B, Kounov A, et al., 2020. Tectonic units of the Alpine collision zone between Eastern Alps and western Turkey[J]. Gondwana Research, 78: 308-374.
Şenggör A M C, 1979. Mid-Mesozoic closure of Permo-Triassic Tethys and its implications[J]. Nature, 279(5714): 590-593.
Şenggör A M C, 1987. Tectonics of the Tethysides: orogenic collage development in a collisional setting[J]. Annual Review of Earth and Planetary Sciences, 15: 213-224.
Slovenec D, Lugović B, Meyer H-P, et al., 2011. A tectono-magmatic correlation of basaltic rocks from ophiolite mélanges at the north-eastern tip of the Sava-Vardar suture zone, northern Croatia, constrained by geochemistry and petrology[J]. Ofioliti, 36(1): 77-100.
Smith A G, 2006. Tethyan ophiolite emplacement, Africa to Europe motions, and Atlantic spreading[J]. Geological Society, London, Special Publications, 260(1): 11-34.
Sokol K, Prelevic D, Romer R, et al., 2017. The Late Cretaceous lamprophyres within the Sava Zone: petrology, geochemistry and geodynamic significance[C]//Proceedings of the 13th workshop on Alpine Geological Studies. EGU Series: Emile Argand Conference Zlatibor Mts. 99.
Spahić D, Glavaš-Trbić B, Gaudenyi T, 2020. The inception of the Maliac Ocean: regional geological constraints on the western Circum-Rhodope belt (northern Greece)[J]. Marine and Petroleum Geology, 113: 104133.
Spray J G, Bébien J, Rex D C, et al., 1984. Age constraints on the igneous and metamorphic evolution of the Hellenic-Dinaric ophiolites[J]. Geological Society, London, Special Publications, 17(1): 619-627.
Stampfli G M, Borel G D, 2002. A plate tectonic model for the Paleozoic and Mesozoic constrained by dynamic plate boundaries and restored synthetic oceanic isochrons[J]. Earth and Planetary Science Letters, 196(1-2): 17-33.
Stampfli G M, Borel G D, 2004. The TRANSMED transects in space and time: constraints on the paleotectonic evolution of the mediterranean domain[M]//Cavazza W, Roure F, Spakman W, et al. The TRANSMED Atlas. The Mediterranean Region from Crust to Mantle: Geological and Geophysical Framework of the Mediterranean and the Surrounding Areas. Berlin: Springer. 3-80.
Stampfli G M, Hochard C, 2009. Plate tectonics of the Alpine realm[J]. Geological Society, London, Special Publications, 327(1): 89-111.
Stampfli G M, Hochard C, Vérard C, et al., 2013. The formation of Pangea[J]. Tectonophysics, 593: 1-19.
Stampfli G M, Kozur H W, 2006. Europe from the Variscan to the Alpine cycles[J]. Geological Society, London, Memoirs, 32(1): 57-82.
Stampfli G M, Mosar J, Favre P, et al., 2001. Permo-Mesozoic evolution of the western Tethyan realm: the Neotethys/East- Mediterranean connection[M]//Ziegler P A, Cavazza W, Robertson A H F, et al. Peri-tethys Memoir 6: Peri-tethyan Rift/Wrench Basins and Passive Margins. Mémoires du Muséum national d’Histoire Naturelle. 51-108.
Stampfli G M, Mosar J, Marquer D, et al., 1998. Subduction and obduction processes in the Swiss Alps[J]. Tectonophysics, 296(1-2): 159-204.
Stampfli G, Marcoux J, Baud A, 1991. Tethyan margins in space and time[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 87(1-4): 373-409.
Stampfli G M, Vavassis I, De Bono A, et al., 2003. Remnants of the Paleotethys oceanic suture-zone in the western Tethyan area[M]//Stratigraphic and Structural Evolution on the Late Carboniferous to Triassic Continental and Marine Successions in Tuscany (Italy): Regional Reports and General Correlation. Bolletino della Societa Geologica Italiana. 1-24.
Stampfii G M, von Raumer J F, Borel G D, 2002. Paleozoic evolution of pre-Variscan terranes: from Gondwana to the Variscan collision[J]. Geological Society of America Special Paper, 364: 263-280.
Storck J-C, Brack P, Wotzlaw J-F, et al., 2019. Timing and evolution of Middle Triassic magmatism in the Southern Alps (northern Italy)[J]. Journal of the Geological Society, 176(2): 253-268.
Tilitǎ M, Matenco L, Dinu C, et al., 2013. Understanding the kinematic evolution and genesis of a back-arc continental “sag” basin: The Neogene evolution of the Transylvanian Basin[J]. Tectonophysics, 602: 237-258.
Toljić M, Matenco L, Stojadinović U, et al., 2018. Understanding fossil fore-arc basins: inferences from the Cretaceous Adria-Europe convergence in the NE Dinarides[J]. Global and Planetary Change, 171: 167-184.
Turpaud P, Reischmann T, 2010. Characterisation of igneous terranes by zircon dating: implications for UHP occurrences and suture identification in the Central Rhodope, northern Greece[J]. International Journal of Earth Sciences, 99(3): 567-591.
Ustaömer T, Robertson A H F, 1993. A Late Palaeozoic-Early Mesozoic marginal basin along the actives sourthern continental margin of Eurasia: Evidence from the central Pontides (Turkey) and adjacent regions[J]. Geological Journal, 28(3-4): 219-238.
Ustaömer T, Robertson A H F, 1994. Late Palaeozoic marginal basin and subduction-accretion: the Palaeotethyan Küre Complex, Central Pontides, northern Turkey[J]. Journal of the Geological Society, 151(2): 291-305.
Ustaömer T, Robertson A H F, 1999. Geochemical evidence used to test alternative plate tectonic models for pre-Upper Jurassic (Palaeotethyan) units in the Central Pontides, N Turkey[J]. Geological Journal, 34(1-2): 25-53.
Ustaszewski K, Kounov A, Schmid S M, et al., 2010. Evolution of the Adria-Europe plate boundary in the northern Dinarides: from continent-continent collision to back-arc extension[J]. Tectonics, 29(6): TC6017.
Ustaszewski K, Schmid S M, Lugović B, et al., 2009. Late Cretaceous intra-oceanic magmatism in the internal Dinarides (northern Bosnia and Herzegovina): implications for the collision of the Adriatic and European plates[J]. Lithos, 108(1-4): 106-125.
van Hinsbergen D J J, Torsvik T H, Schmid S M, et al., 2020. Orogenic architecture of the Mediterranean region and kinematic reconstruction of its tectonic evolution since the Triassic[J]. Gondwana Research, 81: 79-229.
van Hinsbergen D J J, Vissers R L M, Spakman W, 2014. Origin and consequences of western Mediterranean subduction, rollback, and slab segmentation[J]. Tectonics, 33(4): 393-419.
van Hinsbergen D J J, Zachariasse W J, Wortel M J R, et al., 2005. Underthrusting and exhumation: a comparison between the External Hellenides and the “hot” Cycladic and “cold” South Aegean core complexes (Greece)[J]. Tectonics, 24(2): TC2011.
Vishnevskaya V S, Djeric N, Zakariadze G S, 2009. New data on Mesozoic Radiolaria of Serbia and Bosnia, and implications for the age and evolution of oceanic volcanic rocks in the Central and Northern Balkans[J]. Lithos, 108(1-4): 72-105.
Vissers R L M, van Hinsbergen D J J, Meijer P T, et al., 2013. Kinematics of Jurassic ultra-slow spreading in the Piemonte Ligurian ocean[J]. Earth and Planetary Science Letters, 380: 138-150.
von Quadt A, Driesner T, Heinrich C A, 2004. Geodynamics and ore deposit evolution of the alpine-carpathian-balkan-dinaride orogenic system[J]. Swiss Bulletin of Mineralogy and Petrology, 84(1): 1-2.
von Raumer J F, Bussy F, Schaltegger U, et al., 2013. Pre-Mesozoic Alpine basements—Their place in the European Paleozoic framework[J]. Geological Society of America Bulletin, 125(1-2): 89-108.
Windley B F, Alexeiev D, Xiao W J, et al., 2007. Tectonic models for accretion of the Central Asian Orogenic Belt[J]. Journal of the Geological Society, 164(1): 31-47.
Wölfler A, Kurz W, Fritz H, et al., 2011. Lateral extrusion in the Eastern Alps revisited: refining the model by thermochronological, sedimentary, and seismic data[J]. Tectonics, 30(4): TC4006.
Xiao W, Windley B F, Badarch G, et al., 2004. Palaeozoic accretionary and convergent tectonics of the southern Altaids: implications for the growth of Central Asia[J]. Journal of the Geological Society, 161(1): 339-342.
Xiao W J, Windley B F, Sun S, et al., 2015. A tale of amalgamation of three permo-triassic collage systems in central asia: oroclines, sutures, and terminal accretion[J]. Annual Review of Earth and Planetary Sciences, 43: 477-507.
Xypolias P, Dörr W, Zulauf G, 2006. Late Carboniferous plutonism within the pre-Alpine basement of the External Hellenides (Kithira, Greece): evidence from U-Pb zircon dating[J]. Journal of the Geological Society, 163(3): 539-547.
Yuan S H, Neubauer F, Liu Y J, et al., 2020. Widespread Permian granite magmatism in Lower Austroalpine units: significance for Permian rifting in the Eastern Alps[J]. Swiss Journal of Geosciences, 113: 18.
Zelić M, D’Orazio M, Malasoma A, et al., 2005. The metabasites from the Kopaonik metamorphic complex, Vardar Zone, southern Serbia: remnants of the rifting-related magmatism of the mesotethyan domain or evidence for Paleotethys closure in the Dinaric-Hellenic belt?[J]. Ofioliti, 30(2): 91-101.
Zelic M, Levi N, Malasoma A, et al., 2010. Alpine tectono-metamorphic history of the continental units from Vardar zone: the Kopaonik Metamorphic Complex (Dinaric-Hellenic belt, Serbia)[J]. Geological Journal, 45(1): 59-77.
Zhai Q-G, Chung S-L, Tang Y, et al., 2019. Late Carboniferous ophiolites from the southern Lancangjiang belt, SW China: implication for the arc-back-arc system in the eastern Paleo-Tethys[J]. Lithos, 344-345: 134-146.
Zhao G C, Wang Y J, Huang B C, et al., 2018. Geological reconstructions of the East Asian blocks: from the breakup of Rodinia to the assembly of Pangea[J]. Earth-Science Reviews, 186: 262-286.
Zulauf G, Dörr W, Fisher-Spurlock S C, et al., 2015. Closure of the Paleotethys in the External Hellenides: constraints from U-Pb ages of magmatic and detrital zircons (Crete)[J]. Gondwana Research, 28(2): 642-667.
Zulauf G, Dörr W, Marko L, et al., 2018. The late Eo-Cimmerian evolution of the external Hellenides: constraints from microfabrics and U-Pb detrital zircon ages of Upper Triassic (meta)sediments (Crete, Greece)[J]. International Journal of Earth Sciences, 107(8): 2859-2894.
Zulauf G, Dörr W, Xypolias P, et al., 2019. Triassic evolution of the western Neotethys: constraints from microfabrics and U-Pb detrital zircon ages of the Plattenkalk Unit (External Hellenides, Greece)[J]. International Journal of Earth Sciences, 108(8): 2493-2529.
陈智梁, 1994. 特提斯地质一百年[J]. 特提斯地质, 18: 1-22.
耿全如,李文昌,王立全,等,2021. 特提斯中西段古生代洋陆格局与构造演化[J/OL].沉积与特提斯地质.https://doi.org/10.19826/j.cnki.1009-3850.2021.02012.
李才, 2008. 青藏高原龙木错-双湖-澜沧江板块缝合带研究二十年[J]. 地质论评, 54(1): 105-119.
李春昱, 王荃, 刘雪亚, 等, 1982. 亚洲大地构造图(1∶800万)及说明书[M]. 北京: 地图出版社. 45.
李三忠, 赵淑娟, 李玺瑶, 等, 2016. 东亚原特提斯洋(Ⅰ): 南北边界和俯冲极性[J]. 岩石学报, 32(9): 2609-2627.
潘桂棠, 1994. 全球洋-陆转换中的特提斯演化[J]. 特提斯地质, 18: 23-40.
潘桂棠, 陈智梁, 李兴振, 等, 1997. 东特提斯地质构造形成演化[M]. 北京: 地质出版社. 191.
潘桂棠, 王立全, 尹福光, 等, 2004. 从多岛弧盆系研究实践看板块构造登陆的魅力[J]. 地质通报, 23(9-10): 933-939.
潘桂棠, 李兴振, 王立全, 等, 2002. 青藏高原及邻区大地构造单元初步划分[J]. 地质通报, 21(11): 701-707.
潘桂棠, 肖庆辉, 陆松年, 等, 2009. 中国大地构造单元划分[J]. 中国地质, 36(1): 1-28.
潘桂棠, 王立全, 李荣社, 等, 2012. 多岛弧盆系构造模式: 认识大陆地质的关键[J]. 沉积与特提斯地质, 32(3): 1-20.
潘桂棠, 王立全, 耿全如, 等, 2021. 班公湖-双湖-怒江-昌宁-孟连对接带时空结构——特提斯大洋地质及演化问题[J]. 沉积与特提斯地质, 40(3): 1-19.
吴福元, 万博, 赵亮, 等, 2020. 特提斯地球动力学[J]. 岩石学报, 36(6): 1627-1674.
袁四化, 潘桂棠, 王立全, 等, 2009a. 大陆边缘增生造山作用[J]. 地学前缘, 16(3): 31-48.
袁四化, 王立全, 江新胜, 等, 2009b. 多岛海(洋)及多岛弧盆系造山模式解析造山带演化的研究进展[J]. 地质科技情报, 28(5): 1-11.
袁四化, 刘永江, Neubauer F, 等, 2020. 东阿尔卑斯原-古特提斯构造演化[J]. 岩石学报, 36(8): 2357-2382.
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