Hostname: page-component-5c6d5d7d68-thh2z Total loading time: 0 Render date: 2024-08-19T23:31:37.090Z Has data issue: false hasContentIssue false
  • English
  • Français

Neotectonic development of the Struma (Kraištid) Lineament, southwest Bulgaria and northern Greece

Published online by Cambridge University Press:  01 May 2009

I. S. Zagorčev
I. S. Zagorčev
Affiliation:
Geological Institute, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria
Get access Rights & Permissions [Opens in a new window]

Abstract

The Struma (Kraištid) Lineament is a part of a fault belt of regional importance. It strikes NNW-SSE and cuts through different Alpine tectonic zones along the whole Balkan Peninsula. Normal and strike-slip faults occurred in environments of extension and graben formation during collapse after or between collision epochs in the Palaeogene and Early Neogene, and in a back-arc extensional environment during the neotectonic (end of Middle Miocene-Quaternary) stage. The last Alpine compression phase occurred in the beginning of the Miocene, and Early-Middle Miocene planation formed the initial peneplain. New intense faulting marked the beginning of the neotectonic stage (Late Badenian), and the neotectonic development, including sedimentation, proceeded in four regional macrocycles: Badenian-Sarmatian; Maeotian; Pontian-Dacian; and Eopleistocene-Pleistocene. The neotectonic development was marked by formation of the Serbo-Macedonian Swell as well as by rifting (the Vardar and Struma rifts).

Type
Articles
Information
Geological Magazine , Volume 129 , Issue 2 , March 1992 , pp. 197 - 222
Copyright
Copyright © Cambridge University Press 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Angelier, J. 1977. Essai sur la néotectonique et les derniers stades tarditectoniques de l'arc egéen et de l' Egée méridionale. Bulletin de la Société géologique de France 19, 651–62.Google Scholar
Andelković, M. 1986. Geodynamic processes and stratigraphic-palaeogeographic development of Oligocene and Miocene freshwater basins in Central and West Serbia. Annales géologiques de la peninsule Balkanique (Belgrade) 50, 170 (in Serbian, with English summary).Google Scholar
Armour-Brown, A., de Bruijn, H., Maniati, C., Siatos, G. & Niesen, P. 1977. The geology of the Neogene sediments north of Serrai and the use of Rodent faunas for biostratigraphic control. Proceedings of the VI Colloquium on the geology of the Aegean Region 2, 615–22.Google Scholar
Bakalov, P. 1977. Unconformity-bounded stratigraphic units in the Blagoevgrad Graben. Paleontology, Stratigraphy and Lithology 7, 6074 (in Bulgarian, with English summary).Google Scholar
Bakalov, P. 1978. Lithostratigraphic subdivision of the Blagoevgrad Synthem in the confines of the Blagoevgrad Graben. I. Lithostratigraphic subdivision of the Slatina Interthem. Paleontology, Stratigraphy and Lithology 9, 7995 (in Bulgarian, with English summary).Google Scholar
Bakalov, P. 1979. Lithostratigraphic subdivision of the Blagoevgrad Synthem. II. Subdivision of the Eliiska, Belopole and Stob Interthems. Paleontology, Stratigraphy and Lithology 10, 5776 (in Bulgarian, with English summary).Google Scholar
Bakalov, P., Ipateva, Z. & Nikolov, L. 1977. Über das Alter der Ablagerungen in Graben von Blagoevgrad (Sudwestbulgarien). Review of the Bulgarian Geological Society 38, 98100 (in Bulgarian, with German abstract).Google Scholar
Bončev, E. 1936. Versuch einer tektonischen Synthese Westbulgariens. Geologija na Balkanite 2 (1), 548 (in Bulgarian, with German abstract).Google Scholar
Bončev, E. 1958. Über die tektonische Ausbildung der Kraištiden (Kraištiden-Lineament). Geologie 7 (3–6), 409–19.Google Scholar
Bončev, E. 1971. Problems of Bulgarian Geoteclonics. Sofia: Tehnika, 204 pp. (in Bulgarian).Google Scholar
Bončev, E., Bune, V. I., Christoskov, L., Karagjuleva, Ju., Kostadinov, V., Reisner, G. J., Rizhikova, S., Shebalin, N. V., Sholpo, V. N. & Sokerova, D. 1982. A method for compilation of seismic zoning prognostic maps for the territory of Bulgaria. Geologica Balcanica 12 (2), 348.Google Scholar
Boyanov, I., Dabovski, Ch., Gočev, P., Harkovska, A., Kostadinov, V., Tzankov, Tz. & Zagorčev, I. 1989. A new view on the Alpine tectonic evolution of Bulgaria. Geologica Rhodopica 1, 107–22.Google Scholar
Černjavska, S. 1977. Palynological studies on Paleogene deposits in South Bulgaria. Geologica Balcanica 7 (4), 326.Google Scholar
Dabovski, Ch., Boyanov, I., Harkovska, A., Tzankov, Tz., Zagorčev, I., Karagjuleva, Ju., Kostadinov, V. & Paskalev, M. 1989. Late Alpine collisional orogen on the Balkan Peninsula. Extended Abstracts of the XIV Congress of the Carpatho-Balkan Geological Association, Sofia, 499502.Google Scholar
Dachev, Ch. 1988. Structure of the Earth's Crust in Bulgaria. Sofia: Tehnika, 334 pp. (in Bulgarian, with English summary).Google Scholar
Dermitzakis, M. & Papanikolaou, D. 1981. Paleogeography and geodynamics of the Aegean region during the Neogene. Annales géologiques des pays Helléniques, hors série 4, 245–66.Google Scholar
Dewey, J. F., Hempton, M. R., Kidd, W. S. F., Şaroglu, F. & Şengor, A. M. C. 1986. Shortening of continental lithosphere: The tectonics of eastern Anatolia - a young collisional zone. In Collision Tectonics (eds Coward, M. P. and Ries, A. C.), pp. 336. Geological Society of London, Special Publication no. 19.Google Scholar
Freyberg, B. von. 1951. Geologie und Lagerstattenkunde des Braunkohlenrevier von Serrae (Makedonien). Annales géologiques des pays Helléniques 3, 81154.Google Scholar
Galabov, Z. (ed.) 1982. Geography of Bulgaria. Physical Geography. Sofia: Editorial House of the Bulgarian Academy of Sciences; 513 pp. (in Bulgarian, with English summary).Google Scholar
Gočev, P. 1976. New data on the fault tectonics of Bulgaria and part of the Balkan Peninsula obtained from the ERTS-1 space photographs. Geologica Balcanica 6 (4), 5776.Google Scholar
Gočev, P. & Matova, M. 1989. Middle Mesta fault bundle and recent tectonic activity of part of the Rila-Rhodope Region. Geologica Rhodopica (Sofia) 1, 139–44.Google Scholar
Gramann, F. & Kockel, F. 1969. Das Neogen im Strimon-Becken (Griechenland, Ostmazedonien). Geologisches Jahrbuch 87, 445528.Google Scholar
Grigorova, E. & Grigorov, B. 1964. Epicenters and seismic lines in Bulgaria. Bulletin of the Geophysical Institute (Sofia) 9, 181 (in Bulgarian, with English summary).Google Scholar
Harkovska, A. 1969. Le Paléogène dans la montagne Malechevska. Comptes rendus de l' Académie bulgare des Sciences 2, 153–8.Google Scholar
Harkovska, A. 1983 a. Spatial and temporal relations between volcanic activity and sedimentation in the stratified Paleogene from the central parts of Mesta Graben (SW Bulgaria). Geologica Balcanica 13 (2), 330.Google Scholar
Harkovska, A. 1983 b. Magmotectonic features of Late Paleogene volcanism in the Ruen zone (West Bulgaria). In The magmatism and metallogenesis associated to the epochs of molasse formation. Bucarest, 6380.Google Scholar
Jackson, J. A., King, G. & Vita-Finzi, C. 1982. The neotectonics of the Aegean: an alternative view. Earth and Planetary Science Letters 61, 303–18.CrossRefGoogle Scholar
Jackson, J. A. & White, N. J. 1989. Normal faulting in the upper continental crust: observations from regions of active extension. Journal of Structural Geology 11, 1536.CrossRefGoogle Scholar
Jaranoff, D. 1960. La tectonique de la Bulgarie. Sofia: Tehnika, 282 pp. (in Bulgarian, with French summary).Google Scholar
Jaranoff, D. 1963. La néotectonique de la Bulgarie. Révue de Géographie physique et de Géologie dynamique 5 (2), 7583.Google Scholar
Kamenov, B., Konstantinova, V. & Jordanov, B. 1965. Geology and coal potential of Oranovo-Simitli Tertiary basin. Review of the Bulgarian Geological Society 26 (1), 120 (in Bulgarian, with English summary).Google Scholar
Karagjuleva, Ju. 1970. The Stanyovci graben complex. II. Internal structure and development. Bulletin of the Geological Institute 19, 6189 (in Bulgarian, with English summary).Google Scholar
Karistineos, N. K. 1988. ‘Transform regimes’ und die tektonischen Strukturen der Strymon-Becken (N. Griechenland). Annales géologiques des pays Helléniques 33, 135–46.Google Scholar
Karistineos, N. K. & Georgiades-Dikeoulia, E. 1986. The marine transgression in the Serres Basin. Annales géologiques des pays Helléniques 33, 221–32.Google Scholar
Katskov, N. & Stoychev, D. 1976. Structural-geological interpretation of television space images of the Balkan Peninsula. Geologica Balcanica 6 (2), 316 (in Russian, with English abstract).Google Scholar
Katskov, N., Stoychev, D., Antova, N., Decheva, A., Yovchev, S., Kuleva, S., Spiridonova, M., Stoyanov, Ts., Filipov, L. & Filipova, L. 1985. The cosmophototectonic map of Bulgaria. Geologica Balcanica 15 (1), 310.Google Scholar
Kockel, F. & Walther, H. W. 1965. Die Strimonlinie als Grenze zwischen Serbo-Mazedonischen und Rila-Rhodope Massiv in Ost Mazedonien. Geologisches Jahrbuch 83, 575602.Google Scholar
Kojumdgieva, E. 1987. Evolution géodynamique du bassin Egéen pendant le Miocène supérieur et ses relations à la Paratethys Orientale. Geologica Balcanica 17 (1), 314.Google Scholar
Kojumdgieva, E., Nikolov, I., Nedjalkov, P. & Busev, A. 1982. Stratigraphy of the Neogene in Sandanski Graben. Geologica Balcanica 12 (3), 6981.Google Scholar
Kojumdgieva, E., Nedjalkov, P. & Tzatzev, B. 1984. Neogene stratigraphy and development of Simitli Graben. In Problems of the Geology of Southwest Bulgaria (ed. Zagorčev, I.), pp. 52–7. Sofia: Tehnika (in Bulgarian).Google Scholar
Koukouzas, C. 1972. Le chevauchement de Strymon dans la région de la frontière gréco-bulgare. Zeitschrift der Deutschen geologischen Geselschaft 123, 343–8.CrossRefGoogle Scholar
Lalechos, N. & Savoyat, E. 1977. La sédimentation Neogene dans le Fosse Nord-Egéen. Proceedings of the VI Colloquium on the Geology of the Aegean Region 2, 591603.Google Scholar
le Pichon, X., Lyberis, N. & Alvarez, F. 1984. Subsidence history of the North Aegean Trough. In The Geological Evolution of the Eastern Mediterranean (eds Dixon, J. E. and Robertson, A. H. F.), pp. 727–41. Oxford: Blackwells.Google Scholar
Lilienberg, D. 1966. Some problems of geomorphology, Quaternary geology and neotectonics of Macedonia. Referati VI Savet. Saveza Geol. Drustv SFRJ, Ohrida 1, 271–99 (in Russian, with English abstract).Google Scholar
Lyberis, N. 1984. Tectonic evolution of the North Aegean Trough. In The Geological Evolution of the Eastern Mediterranean (eds Dixon, J. E. and Robertson, A. H. F.), pp. 709–25. Oxford: Blackwell.Google Scholar
Mercier, J.-L. 1977. L'arc égéen, une bordure déformée de la plaque eurasiatique; réflexions sur un exemple d'étude néotectonique. Bulletin de la Sociéte géologique de France 19, 663–72.CrossRefGoogle Scholar
Milev, G. & Vrablianski, B. 1988. Possibilities for the study of recent crustal movements in the Struma fault zone, on the basis of and geodetic data and their relations to earthquakes. Journal of Geodynamics 9, 265–77.CrossRefGoogle Scholar
Moskovski, S. 1971. On the sequence in the formation of Paleogene-Neogene graben structures in the Kraištides in Bulgaria. Review of Bulgarian Geological Society 32, 2131 (in Bulgarian, with English summary).Google Scholar
Moskovski, S. & Georgiev, A. 1970. On the structure of Kresna Gorge region. Annuaire de l' Université de Sofia 62, 95111 (in Bulgarian, with English summary).Google Scholar
Nedjalkov, P., Tcheremisin, N., Kojumdgieva, E., Tzatzev, B. & Buzev, A. 1986. Facial and paleogeographic features of Neogene deposits in the Sandanski Graben. Geologica Balcanica 16 (1), 6980 (in Russian, with English abstract).Google Scholar
Nedjalkov, P., Kojumdgieva, E. & Bozhkov, I. 1988. Sedimentation cycle in the Neogene grabens along the Struma valley. Geologica Balcanica 18 (2), 61–6.Google Scholar
Nedjalkov, P., Kojumdgieva, E. & Tcheremisin, N. 1990. Facial and paleogeographic features of Neogene deposits in the Blagoevgrad Graben. Review of the Bulgarian Geological Society 51 (1), 19 (in Bulgarian, with English summary).Google Scholar
Nenov, T., Slavov, I. & Stoykov, S. 1972. The Pliocene and Quaternary in the Gotse Delchev valley and main stages in the neotectonic evolution. Review of the Bulgarian Geological Society 33, 195204 (in Bulgarian, with English summary).Google Scholar
Nikolov, I. 1985. Catalogue of the localities of Tertiary Mammals in Bulgaria. Paleontology, Stratigraphy and Lithology 21, 4362.Google Scholar
Osswald, K. 1938. Geologische Geschichte von griechisch Nord-Makedonien. Denkschrifte des Geologisches Landesanstalt Griechenlands 3, 142 pp.Google Scholar
Palamarev, E. 1990. Grundzüge der paläeofloristischen Palaeosukzessionen im Spätmiozan (Sarmatien-Pontien) Bulgariens. In Global biological Events in Earth history, Prague, 118.Google Scholar
Psilovicos, A. 1984. Geomorphological and structural modification of the Serbomacedonian massif during the neotectonic stage. Tectonophysics 110, 2745.CrossRefGoogle Scholar
Psilovicos, A. 1986. Contribution to the geomorphology of the south-western part of the Rhodope Massif (Greek East Macedonia). Geologica Balcanica 16 (5), 2132.Google Scholar
Psilovicos, A. & Syrides, G. 1983. Stratigraphy, sedimentation and paleogeography of the Strymon basin, Eastern Macedonia/Northern Aegean sea, Greece. Clausthaler Geologischen Abhandlungen 44, 5587.Google Scholar
Psilovicos, A. & Vavliakis, E. 1983. The problem of planation surfaces in the areas of the Serbomacedonian massif and the Rhodope massif (Greece). Bulletin of the Geological Society of Greece 16, 182–95 (in Greek, with English summary).Google Scholar
Psilovicos, A., Koufos, G. & Syrides, G. 1987. The problem of red beds in Northern Greece. Annales Institute Geological Publications Hungary 70, 509–16.Google Scholar
Stiros, S. C. 1991. Heat flow and thermal structure of the Aegean Sea and the Southern Balkans. In Terrestrial heat flow and the lithosphère structure (eds Čermak, V. and Rybach, L.), pp. 396416. Berlin: Springer-Verlag.Google Scholar
Stojanov, S. 1977. Mechanism of formation of fault zones. Moscow: Nedra, 144 pp. (in Russian).Google Scholar
Vaptsarov, I., Mischev, K., Kochneva, N. T. & Aleksiev, G. 1986. Tectogenic elements in the present-day relief of South Bulgaria and deciphering of superimposed deep structures. Geologica Balcanica 16 (6), 319 (in Russian, with English abstract).Google Scholar
Vatsev, M. 1980. Lithostratigraphy of the Neogene sedimentary rocks of the Gotse Delchev basin. Annales de l' Ecole supérieure des mines et de géologie Sofia 25, 103–15 (in Bulgarian with English summary).Google Scholar
Vatsov, S. 1905. Earthquakes in Bulgaria in 1904. Sofia: Central Meteorological Survey, 130 pp. (in Bulgarian).Google Scholar
Vavliakis, E., Sotiriadis, L. & Psilovicos, A. 1983. The marginal Sidirokastro Basin of the Rhodope Massif during the Neogene and the Quaternary. Clausthaler Geologischen Abhandlungen 44, 319.Google Scholar
Vrablianski, B. 1969. La faille de Melnik et sa manifestation néotectonique. Bulletin of the Geological Institute 18, 167–72 (in Bulgarian, with French sumary).Google Scholar
Vrablianski, B. 1970. Niveaux néotectoniques dans le bassin de la Struma moyenne. Bulletin of the Geological Institute 19, 153–66 (in Bulgarian, with French summary).Google Scholar
Vrablianski, B. 1974. Neotectonic studies in Simitli Graben and its framework. Bulletin of the Geological Institute 23, 195220 (in Bulgarian, with English summary).Google Scholar
Yosifov, D. 1977. First-order deep-seated faults and crustal blocks in the folded zones and activated zones of Bulgaria after geophysical data. Geotektonika, Tektonofizika i Geodinamika 6, 4865 (in Bulgarian, with English summary).Google Scholar
Zagorčev, I. 1969. The Struma deep fault during the Late Alpine orogenic stage. Acta Geologica Academiae Scientiarum Hungaricae 13, 437–41.Google Scholar
Zagorčev, I. 1970. On the neotectonic movements in a part of South-West Bulgaria. Bulletin of the Geological Institute 19, 141–52 (in Bulgarian, with English summary).Google Scholar
Zagorčev, I. 1971. Certain features of the Young Alpine block structure in a part of South-West Bulgaria. Bulletin of the Geological Institute 20, 1727 (in Bulgarian, with English summary).Google Scholar
Zagorčev, I. 1975 a. On the Struma Fault Bundle and the Fault-block structure of Vlahina Block. Geotektonika, Tektonofizika i Geodinamika 3, 316 (in Bulgarian, with English summary).Google Scholar
Zagorčev, I. 1975 b. Basement block structure of a part of the Kraištid-Vardar Lineament. Geologica Balcanica 5 (2), 318.Google Scholar
Zagorčev, I. 1984. The importance of overthrusts in the Alpine structure of Kraištides. Geologica Balcanica 14 (4), 3764 (in Russian, with English summary).Google Scholar
Zagorčev, I. & Popov, N. 1968. Geology of Padeš Paleogene basin. Jubileen geoložki zbornik, Geological Institute Sofia, 2335 (in Bulgarian, with English summary).Google Scholar
Zagorčev, I., Moorbath, S. & Lilov, P. 1987. Radiogeochronological data on the Alpine igneous activity in the western part of the Rhodope Massif. Geologica Balcanica 17 (2), 5971 (in Russian, with English abstract).Google Scholar
Zagorčev, I., Popov, N. & Ruseva, M. 1989. Paleogene stratigraphy in a part of southwest Bulgaria. Geologica Balcanica 19 (6), 4169 (in Russian, with English abstract).Google Scholar