Open Access
Issue
Bull. Soc. géol. Fr.
Volume 188, Number 6, 2017
Article Number 36
Number of page(s) 28
DOI https://doi.org/10.1051/bsgf/2017195
Published online 27 November 2017
  • Argyriadis I, Fourquin C. 1987. La structure du complexe de nappes rhodopien en Grèce : une fenêtre hellénique africaine sous les Balkans. Comptes Rendus de l'Académie des Sciences, Paris 305: 727–732. [Google Scholar]
  • Barr SR, Temperley S, Tarney J. 1999. Lateral growth of the continental crust through deep level subduction-accretion: a re-evaluation of central Greek Rhodope. Lithos 46: 69–94. [CrossRef] [Google Scholar]
  • Belousova EA, Griffin WL, O'Reilly SY, Fisher NI. 2002. Igneous zircon: trace element composition as an indicator of source rock type. Contributions to Mineralogy and Petrology 143: 602–622. [CrossRef] [Google Scholar]
  • Birk F. 1970. Zur Geologie und Petrographie des östlichen Bos-Dag-Massivs bei Drama in Griechisch-Mazedonien. Beihefte zum Geologischen Jahrbuch 88: 5–42. [Google Scholar]
  • Bosse V, Boulvais P, Gautier P, Tiepolo M, Ruffet G, Devidal JL, et al. 2009. Fluid-induced disturbance of the monazite Th-Pb chronometer: in situ dating and element mapping in pegmatites from the Rhodope (Greece, Bulgaria). Chemical Geology 261: 286–302. [CrossRef] [Google Scholar]
  • Brun JP, Sokoutis D. 2007. Kinematics of the Southern Rhodope Core Complex (North Greece). International Journal of Earth Sciences 96: 1079–1099. [CrossRef] [Google Scholar]
  • Brun JP, Faccenna C, Gueydan F, Sokoutis D, Philippon M, Kydonakis K, et al. 2016. The two-stage Aegean extension, from localized to distributed, a result of slab rollback acceleration. Canadian Journal of Earth Sciences 53: 1142–1157. [CrossRef] [Google Scholar]
  • Brunel M, Andrieux J. 1980. Sur un modèle tectonique explicatif du métamorphisme « inverse » himalayen. Comptes Rendus de l'Académie des Sciences, Paris 291: 609–612. [Google Scholar]
  • Burg JP. 2011. Rhodope: from Mesozoic convergence to Cenozoic extension, review of petro-structural data in the geochronological frame. Journal of the Virtual Explorer 39: 1. DOI: 10.3809/jvirtex.2011.00270. [Google Scholar]
  • Burg JP, Ricou LE, Ivanov Z, Godfriaux I, Dimov D, Klain L. 1996. Syn-metamorphic nappe complex in the Rhodope Massif: structure and kinematics. Terra Nova 8: 6–15. [CrossRef] [Google Scholar]
  • Collings D, Savov I, Maneiro K, Baxter E, Harvey J, Dimitrov I. 2016. Late Cretaceous UHP metamorphism recorded in kyanite-garnet schists from the Central Rhodope Mountains, Bulgaria. Lithos 246–247: 165–181. [CrossRef] [Google Scholar]
  • Daniel CG, Hollister LS, Parrish RR, Grujic D. 2003. Exhumation of the Main Central Thrust from lower crustal depths, Eastern Bhutan Himalaya. Journal of Metamorphic Geology 21: 317–334. [CrossRef] [Google Scholar]
  • Didier A, Bosse V, Cherneva Z, Gautier P, Georgieva M, Paquette JL, et al. 2014. Syn-deformation fluid-assisted growth of monazite during renewed high-grade metamorphism in metapelites of the Central Rhodope (Bulgaria, Greece). Chemical Geology 381: 206–222. [CrossRef] [Google Scholar]
  • Dimadis E, Zachos S. 1986. Geological map of the Greek Rhodope on the scale 1:200.000. Athens (Xanthi branch): Institute of Geology and Mineral Exploration. [Google Scholar]
  • Dinter DA. 1998. Late Cenozoic extension of the Alpine collisional orogen, northeastern Greece: Origin of the north Aegean basin. Geological Society of America Bulletin 110: 1208–1230. [CrossRef] [Google Scholar]
  • Duprat-Oualid S, Yamato P, Pitra P. 2013. Major role of shear heating in intracontinental inverted metamorphism: inference from a thermo-kinematic parametric study. Tectonophysics 608: 812–831. [CrossRef] [Google Scholar]
  • Ebadi A, Johannes W. 1991. Beginning of melting and composition of first melts in the system Qz-Ab-Or-H2O-CO2. Contributions to Mineralogy and Petrology 106: 286–295. [CrossRef] [Google Scholar]
  • Ferry JM, Watson EB. 2007. New thermodynamic models and revised calibrations for the Ti-in-zircon and Zr-in-rutile thermometers. Contributions to Mineralogy and Petrology 154: 429–437. [CrossRef] [Google Scholar]
  • Froitzheim N, Jahn-Awe S, Frei D, Wainwright AN, Mass R, Georgiev N, et al. 2014. Age and composition of meta-ophiolite from the Rhodope Middle Allochton (Satovcha, Bulgaria): a test for the maximum-allochtony hypothesis of the Hellenides. Tectonics 32. DOI: 10.1002/2014TC003526. [Google Scholar]
  • Gallhofer D, von Quadt A, Peytcheva I, Schmid SM, Heinrich CA. 2015. Tectonic, magmatic, and metallogenic evolution of the Late Cretaceous arc in the Carpathian-Balkan orogen. Tectonics 34: 1813–1836. DOI: 10.1002/2015TC003834. [CrossRef] [Google Scholar]
  • Gapais D, Pêcher A, Gilbert E, Ballèvre M. 1992. Synconvergence spreading of the Higher Himalaya Crystalline in Ladakh. Tectonics 11: 1045–1056. [CrossRef] [Google Scholar]
  • Gardien V, Thompson AB, Grujic D, Ulmer P. 1995. Experimental melting of biotite+plagioclase+quartz±muscovite assemblages and implications for crustal melting. Journal of Geophysical Research 100: 15581–15591. [CrossRef] [Google Scholar]
  • Gautier P, Moriceau R, Kostopoulos D, Sokoutis D, Monié P, Van den Driessche J. 2001. Alpine thrusting versus late Alpine extension in the northern Aegean: an evaluation of the ductile record in the Rhodope massif. Geologica Balcanica 31: 104–107. [Google Scholar]
  • Gautier P, Gerdjikov I, Ruffet G, Bosse V, Cherneva Z, Pitra P, et al. 2010. Persistent synmetamorphic thrusting in the Rhodope until 33 Ma: evidence from the Nestos Shear Zone and implications for Aegean geodynamics. In: 19th Congress of the Carpathian-Balkan Geological Association, Thessaloniki, Greece, Geologica Balcanica, Vol. 39, pp. 122–123. [Google Scholar]
  • Georgiev N, Henry B, Jordanova N, Froitzheim N, Jordanova D, Ivanov Z, et al. 2009. The emplacement mode of Upper Cretaceous plutons from the southwestern part of the Sredna Gora Zone (Bulgaria): structural and AMS study. Geologica Carpathica 60: 15–33. [CrossRef] [Google Scholar]
  • Gerdjikov I, Gautier P, Cherneva Z, Bosse V, Ruffet G. 2010. Late Eocene synmetamorphic thrusting and syn-orogenic extension across the metamorphic pile of the Bulgarian Central Rhodope. In: 19th Congress of the Carpathian-Balkan Geological Association, Thessaloniki, Greece, Geologica Balcanica, Vol. 39, pp. 132–133. [Google Scholar]
  • Gorinova T, Georgiev N, Cherneva Z, Grozdev V. 2015. Kinematics and age of thrusting of the Upper onto the Middle Allochton of the Rhodope Metamorphic Complex: an example from NW Rila Mt., Bulgaria. In: Proceedings of the Bulgarian Geological Society Annual Conference, Sofia, pp. 93–94. [Google Scholar]
  • Grasemann B, Stüwe K, Vannay JC. 2003. Sense and non-sense of shear in flanking structures. Journal of Structural Geology 25: 19–34. [CrossRef] [Google Scholar]
  • Harley SL, Kelly NM, Möller A. 2007. Zircon behaviour and the thermal histories of mountain chains. Elements 3: 25–30. [CrossRef] [Google Scholar]
  • Hoskin PWO. 2005. Trace-element composition of hydrothermal zircon and the alteration of Hadean zircon from the Jack Hills, Australia. Geochimica et Cosmochimica Acta 69: 637–648. [CrossRef] [Google Scholar]
  • Hudleston PJ. 1989. The association of folds and veins in shear zones. Journal of Structural Geology 11: 949–957. [CrossRef] [Google Scholar]
  • Ivanov Z, Dimov D, Dobrev S, Kolkovski B, Sarov S. 2000. Structure, Alpine evolution and mineralizations of the Central Rhodopes area (South Bulgaria). Guide to excursion B, ABCD-GEODE Workshop, Borovets, Bulgaria, “St. Kliment Ohridski” University Press, Sofia. [Google Scholar]
  • Jahn-Awe S, Froitzheim N, Nagel TJ, Frei D, Georgiev N, Pleuger J. 2010. Structural and geochronological evidence for Paleogene thrusting in the western Rhodopes, SW Bulgaria: elements for a new tectonic model of the Rhodope Metamorphic Province. Tectonics 29: TC3008. DOI: 10.1029/2009TC002558. [CrossRef] [Google Scholar]
  • Jolivet L, Brun JP. 2010. Cenozoic geodynamic evolution of the Aegean. International Journal of Earth Sciences 99: 109–138. [CrossRef] [Google Scholar]
  • Jordan H. 1969. Geologie und Petrographie im Zentralteil des Bos Dag (Drama, Griechisch-Makedonien). Geotektonische Forschungen 31: 50–85. [Google Scholar]
  • Kilias A, Mountrakis D. 1990. Kinematics of the crystalline sequences in the western Rhodope Massif. Geologica Rhodopica 2: 100–116. [Google Scholar]
  • Kilias A, Falalakis G, Mountrakis D. 1999. Cretaceous-Tertiary structures and kinematics of the Serbomacedonian metamorphic rocks and their relation to the exhumation of the Hellenic hinterland (Macedonia, Greece). International Journal of Earth Sciences 88: 513–531. [CrossRef] [Google Scholar]
  • Kirchenbaur M, Pleuger J, Jahn-Awe S, Nagel TJ, Froitzheim N, Fonseca ROC, Münker C. 2012. Timing of high-pressure metamorphic events in the Bulgarian Rhodopes from Lu-Hf garnet geochronology. Contributions to Mineralogy and Petrology 163: 897–921. [CrossRef] [Google Scholar]
  • Kotopouli CN, Pe-Piper G, Katagas CG. 1991. The metamorphism and migmatization of the Xanthe-Echinos metamorphic complex, Central Rhodope, Greece. Lithos 27: 79–93. [CrossRef] [Google Scholar]
  • Krenn K, Bauer C, Proyer A, Klötzli U, Hoinkes G. 2010. Tectonometamorphic evolution of the Rhodope orogen. Tectonics 29: TC4001. DOI: 10.1029/2009TC002513. [CrossRef] [Google Scholar]
  • Krohe A, Mposkos E. 2002. Multiple generations of extensional detachments in the Rhodope Mountains (northern Greece): evidence of episodic exhumation of high-pressure rocks. In: Blundell DJ, Neubauer F, von Quadt A, eds. The Timing and Location of Major Ore Deposits in an Evolving Orogen. Geological Society of London Special Publication 204: 151–178. [Google Scholar]
  • Kronberg P, Raith M. 1977. Tectonics and metamorphism of the Rhodope Crystalline Complex in Eastern Greek Macedonia and parts of Western Thrace. Neues Jahrbuch für Geologie und Paläontologie Monatshefte 11: 697–704. [Google Scholar]
  • Kydonakis K, Brun JP, Poujol M, Monié P, Chatzitheodoridis E. 2016. Inferences on the Mesozoic evolution of the North Aegean from the isotopic record of the Chalkidiki block. Tectonophysics 682: 65–84. [CrossRef] [Google Scholar]
  • Le Fort P. 1996. Evolution of the Himalaya. In: Yin A, Harrison TM, eds. The Tectonic Evolution of Asia. Cambridge: Cambridge University Press, pp. 95–109. [Google Scholar]
  • Liati A. 1986. Regional metamorphism and overprinting contact metamorphism of the Rhodope Zone, near Xanthi (N. Greece). PhD dissertation, Univ. Carolo-Wilhelmina, Braunschweig, Germany. [Google Scholar]
  • Liati A. 2005. Identification of repeated Alpine (ultra) high-pressure metamorphic events by U-Pb SHRIMP geochronology and REE geochemistry of zircon: the Rhodope zone of Northern Greece. Contributions to Mineralogy and Petrology 150: 608–630. [CrossRef] [Google Scholar]
  • Liati A, Gebauer D. 1999. Constraining the prograde and retrograde P-T-t path of Eocene HP rocks by SHRIMP dating of different zircon domains: inferred rates of heating, burial, cooling and exhumation for central Rhodope, northern Greece. Contributions to Mineralogy and Petrology 135: 340–354. [CrossRef] [Google Scholar]
  • Liati A, Gebauer D, Fanning CM. 2011. Geochronology of the Alpine UHP Rhodope Zone: a review of isotopic ages and constraints on the geodynamic evolution. In: Dobrzhinetskaya LF, Faryad SW, Wallis S, Cuthbert S, eds. Ultrahigh-Pressure Metamorphism. Amsterdam: Elsevier, pp. 295–324. [CrossRef] [Google Scholar]
  • Liati A, Theye T, Fanning CM, Gebauer D, Rayner N. 2016. Multiple subduction cycles in the Alpine orogeny, as recorded in single zircon crystals (Rhodope zone, Greece). Gondwana Research 29: 199–207. [CrossRef] [Google Scholar]
  • Mancktelow NS. 1992. Neogene lateral extension during convergence in the Central Alps: evidence from interrelated faulting and backfolding around the Simplonpass (Switzerland). Tectonophysics 215: 295–317. [CrossRef] [Google Scholar]
  • Marchev P, Georgiev S, Raicheva R, Peytcheva I, von Quadt A, Ovtcharova M, et al. 2013. Adakitic magmatism in post-collisional setting: an exemple from the Early-Middle Eocene magmatic belt in southern Bulgaria and northern Greece. Lithos 180–181: 159–180. [CrossRef] [Google Scholar]
  • Merle O, Cobbold PR, Schmid S. 1989. Tertiary kinematics in the Lepontine dome. In: Coward MP, Dietrich D, Park RG, eds. Alpine Tectonics. Geological Society of London Special Publication 45: 113–134. [Google Scholar]
  • Meyer W. 1968. Zur Altersstellung des Plutonismus im Südteil der Rila-Rhodope-Masse (Nordgriechenland). Geologica et Palaeontologica 2: 173–192. [Google Scholar]
  • Moulas E, Kostopoulos D, Connolly JAD, Burg JP. 2013. P-T estimates and timing of the sapphirine-bearing metamorphic overprint in kyanite eclogites from Central Rhodope, Northern Greece. Petrology 21: 507–521. [CrossRef] [Google Scholar]
  • Mposkos E, Kostopoulos D. 2001. Diamond, former coesite and supersilicic garnet in metasedimentary rocks from the Greek Rhodope: a new ultrahigh-pressure metamorphic province established. Earth and Planetary Science Letters 192: 497–506. [CrossRef] [Google Scholar]
  • Mposkos E, Chatzipanagis I, Papadopoulos P. 1998. New data on the boundary between the Pangaeon and Sidironero tectonic units in Western Rhodope. Bulletin of the Geological Society of Greece 32(1): 13–21. [Google Scholar]
  • Mposkos E, Krohe A, Baziotis I. 2010. Alpine polyphase metamorphism in metapelites from Sidironero complex (Rhodope domain, NE Greece). In: Proceedings of the 19th Congress of the Carpathian-Balkan Geological Association, Thessaloniki, Greece, Special Volume of the Scientific Annals of the School of Geology of the Aristotle University of Thessaloniki, Vol. 100, pp. 173–181. [Google Scholar]
  • Nagel TJ, Schmidt S, Janak M, Froitzheim N, Jahn-Awe S, Georgiev N. 2011. The exposed base of a collapsing wegde: the Nestos Shear Zone (Rhodope Metamorphic Province, Greece). Tectonics 30: TC4009. DOI: 10.1029/2010TC002815. [CrossRef] [Google Scholar]
  • Naydenov K, Peytcheva I, von Quadt A, Sarov S, Kolcheva K, Dimov D. 2013. The Maritsa strike-slip shear zone between Kostenets and Krichim towns, South Bulgaria − structural, petrographic and isotope geochronology study. Tectonophysics 595–596: 69–89. [CrossRef] [Google Scholar]
  • Papanikolaou D, Kranis H. 2004. Transect VII, sections 3.3 and 4.3: the Tethyan Area (Rhodope − Hellenides − Hellenic Arc and Trench − East Mediterranean Ridge). In: Cavazza W, Roure F, Spakman W, Stampfli GM, Ziegler PA, eds. The TRANSMED Atlas − The Mediterranean Region from Crust to Mantle (Part 2, CD-Rom). Berlin: Springer. [Google Scholar]
  • Papanikolaou D, Panagopoulos A. 1981. On the structural style of Southern Rhodope, Greece. Geologica Balcanica 11 (3): 13–22. [Google Scholar]
  • Passchier CW. 2001. Flanking structures. Journal of Structural Geology 23: 951–962. [CrossRef] [Google Scholar]
  • Patiño Douce AE, Harris N. 1998. Experimental constraints on Himalayan anatexis. Journal of Petrology 39: 689–710. [CrossRef] [Google Scholar]
  • Petrik I, Janak M, Froitzheim N, Georgiev N, Yoshida K, Sasinkova V, 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). Journal of Metamorphic Geology 34: 265–291. [CrossRef] [Google Scholar]
  • Pitra P, Ballèvre M, Ruffet G. 2010. Inverted metamorphic field gradient towards a Variscan suture zone (Champtoceaux Complex, Armorican Massif, France). Journal of Metamorphic Geology 28: 183–208. [CrossRef] [Google Scholar]
  • Ricou LE, Burg JP, Godfriaux I, Ivanov Z. 1998. Rhodope and Vardar: the metamorphic and the olistostromic paired belts related to the Cretaceous subduction under Europe. Geodinamica Acta 11: 285–309. [CrossRef] [Google Scholar]
  • Rubatto D. 2002. Zircon trace element geochemistry: partitioning with garnet and the link between U-Pb ages and metamorphism. Chemical Geology 184: 123–138. [CrossRef] [Google Scholar]
  • Sawyer EW. 2000. Grain-scale and outcrop-scale distribution and movement of melt in a crystallising granite. Transactions of the Royal Society of Edinburgh: Earth Sciences 91: 73–85. [CrossRef] [Google Scholar]
  • Sawyer EW. 2008. Atlas of migmatites. The Canadian Mineralogist Special Publication, 9. Ottawa, Canada: NRC Research Press. [Google Scholar]
  • Schenker FL, Burg JP, Kostopoulos D, Moulas E, Larionov A, von Quadt A. 2014. From Mesoproterozoic magmatism to collisional Cretaceous anatexis: Tectonomagmatic history of the Pelagonian Zone, Greece. Tectonics 33. DOI: 10.1002/2014TC003563. [CrossRef] [Google Scholar]
  • Schmidt S, Nagel TJ, Froitzheim N. 2010. A new occurrence of microdiamond-bearing metamorphic rock, SW Rhodopes, Greece. European Journal of Mineralogy 22: 189–198. [CrossRef] [Google Scholar]
  • Steck A, Hunziker J. 1994. The Tertiary structural and thermal evolution of the Central Alps − Compressional and extensional structures in an orogenic belt. Tectonophysics 238: 229–254. [CrossRef] [Google Scholar]
  • Stevens G, Clemens JD, Droop GTR. 1997. Melt production during granulite-facies anatexis: experimental data from “primitive” metasedimentary protoliths. Contributions to Mineralogy and Petrology 128: 352–370. [CrossRef] [Google Scholar]
  • Thompson AB. 1982. Dehydration melting of pelitic rocks and the generation of H20-undersaturated granitic liquids. American Journal of Science 282: 1567–1595. [CrossRef] [Google Scholar]
  • Trouw RAJ, Passchier CW, Wiersma DJ. 2010. Atlas of mylonites and related microstructures. Berlin: Springer. [Google Scholar]
  • Turpaud P. 2006. Characterization of igneous terranes by zircon dating: implications for the UHP relicts occurrences and suture identification in the Central Rhodope, Northern Greece. PhD dissertation, Univ. Johannes Gutenberg, Mainz, Germany. [Google Scholar]
  • Turpaud P, Reischmann T. 2010. Characterization of igneous terranes by zircon dating: implications for UHP occurrences and suture identification in the Central Rhodope, northern Greece. International Journal of Earth Sciences 99: 567–591. [CrossRef] [Google Scholar]
  • van Hinsbergen DJJ, Schmid SM. 2012. Map view restoration of Aegean-West Anatolian accretion and extension since the Eocene. Tectonics 31: TC5005. DOI: 10.1029/2012TC003132. [Google Scholar]
  • Vernon RH, Paterson SR. 2001. Axial-surface leucosomes in anatectic migmatites. Tectonophysics 335: 183–192. [CrossRef] [Google Scholar]
  • Vielzeuf D, Montel JM. 1994. Partial melting of metagreywackes, Part 1: Fluid-absent experiments and phase relationships. Contributions to Mineralogy and Petrology 117: 375–393. [CrossRef] [Google Scholar]
  • von Quadt A, Peytcheva I. 2005. The southern extension of the Srednogorie-type Upper Cretaceous magmatism in Rila-Western Rhodopes: constraints from isotope-geochronological and geochemical data. In: Proceedings of the Bulgarian Geological Society Annual Conference (80th Anniversary), Sofia, pp. 113–116. [Google Scholar]
  • Watson EB, Wark DA, Thomas JB. 2006. Crystallization thermometers for zircon and rutile. Contributions to Mineralogy and Petrology 151: 413–433. [CrossRef] [Google Scholar]
  • Wawrzenitz N, Krohe A, Baziotis I, Mposkos E, Kylander-Clark ARC, Romer RL. 2015. LASS U-Th-Pb monazite and rutile geochronology of felsic high-pressure granulites (Rhodope, N Greece): effects of fluid, deformation and metamorphic reactions in local subsystems. Lithos 232: 266–285. [CrossRef] [Google Scholar]
  • Weinberg RF, Mark G. 2008. Magma migration, folding, and disaggregation of migmatites in the Karakoram Shear Zone, Ladakh, NW India. Geological Society of America Bulletin 120: 994–1009. [CrossRef] [Google Scholar]
  • White RW, Powell R, Holland TJB. 2001. Calculation of partial melting equilibria in the system Na2O-CaO-K2O-FeO-MgO-Al2O3-SiO2-H2O (NCKFMASH). Journal of Metamorphic Geology 19: 139–153. [CrossRef] [EDP Sciences] [Google Scholar]
  • Wyllie PJ. 1983. Experimental studies on biotite- and muscovite-granites and some crustal magmatic sources. In: Atherton MP, Gribble CD, eds. Migmatites, Melting and Metamorphism. Nantwich, UK: Shiva Publishing Limited, pp. 12–26. [Google Scholar]
  • Yanev Y, Innocenti F, Manetti P, Serri G. 1998. Upper Eocene-Oligocene collision-related volcanism in Eastern Rhodopes (Bulgaria) − Western Thrace (Greece): petrogenetic affinity and geodynamic significance. Acta Vulcanologica 10: 279–291. [Google Scholar]
  • Zachos S, Dimadis E. 1983. The geotectonic position of the Skaloti-Echinos granite and its relationship to the metamorphic formations of Greek Western and Central Rhodope. Geologica Balcanica 13 (5): 17–24. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.