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Volume 13 Number 3
  • E-ISSN: 1365-2117

Abstract

The formation of the North Croatian Basin, which represents the south‐western marginal part of the Pannonian Basin System and the Central Paratethys Bioprovince, began during Ottnangian time (early Miocene) by continental rifting. The syn‐rift phase lasted until the middle Badenian (middle Miocene), and resulted in the formation of elongated half‐grabens characterized by large sediment thicknesses strongly influenced by tectonics and gradually increasing volcanism. Towards the end of the syn‐rift phase sinistral strike‐slip faulting took place, transverse to oblique to the master faults, which disintegrated the longitudinal structures contemporaneously with volcanic activity. The depositional environments gradually changed from alluvial and lacustrine to marine. The syn‐ to post‐rift boundary was characterized by significant erosion of the uplift fault block footwalls. The post‐rift phase extended from the middle Badenian to the end of the Pontian (latest Miocene). Tectonic influence drastically decreased, volcanism ceased, and subsidence of the basin was controlled predominantly by cooling of the lithosphere. Marine connections gradually decreased, resulting in a transition from marine to brackish, ‘caspi‐brackish’ and finally fluvial‐marsh environments. By the end of the Miocene the basin was finally infilled. The basin evolution was also complicated by an alternation of phases of extension and compression.

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References

  1. Aljinović, B., Prelogović, E., Skoko, D. (1987) Novi podaci o dubinskoj geološkoj gradi i seizmotektonski aktivnim zonama u Jugoslaviji. Geol. vjesnik, 40, 255–263. Zagreb.
     [Google Scholar]
  2. Allen, P.A. & Allen, J.R. (1990) Basin Analysis. Principles and Applications. Blackwell Scientific Publications, Oxford.
    [Google Scholar]
  3. Bada, G., Cloetingh, S., Gerner, P., Horváth, F. (1998) Sources of recent tectonic stress in the Pannonian region: inferences from finite element modelling. Geophys. Int., 134, 87–101.
    [Google Scholar]
  4. Bakrać, K. (1999) Palinologija pontskih naslaga Medvednice. Unpublished MSc Thesis, University of Zagreb, Zagreb.
  5. Belak, M., SarkotićŠlat, M., Pavelić, D. (1991) An occurence of Badenian rhyolitic volcanoclastic rocks from middle parts of Mt. Dilj (northeastern Croatia). Geol. vjesnik, 44, 151–159. Zagreb.
     [Google Scholar]
  6. Belak, M. & Tibljaš, D. (1998) Discovery of blueschists on the Medvednica Mountain (northern Croatia) and their significance in the interpretation of geotectonic evolution of the area. Geol. Croatica, 51, 27–32. Zagreb.
     [Google Scholar]
  7. Bérczi, I., Hámor, G., Jámbor, Á. & Szentgyörgyi, K. (1988) Neogene sedimentation in Hungary. In: The Pannonian Basin. A Study in Basin Evolution (Ed. by L.H. Royden & F. Horváth), Am. Assoc. Petrol. Geol. Mem., 45, 57–67.
    [Google Scholar]
  8. Berggren, W.A., Kent, D.V., Swisher, C.C.III, Aubry, M.‐P. (1995) A revised Cenozoic geochronology and chronostratigraphy. In: Geochronolgy, Time Scales and Global Stratigraphic Correlations (Ed. by W.A. Berggren, D.V. Kent, M.‐P. Aubry & J. Hardenbol), Spec. Publ. Soc. Econ. Paleont. Miner., 54, 129–212.
    [Google Scholar]
  9. Blair, T.C. & Bilodeau, W.L. (1988) Development of tectonic cyclothemes in rift, pull‐apart, and foreland basins: Sedimentary response to episodic tectonism. Geology, 16, 517–520.
    [Google Scholar]
  10. Blašković, I., Dragičević, I., Tišljar, J., Velić, J. (1985) Badenian submarine fan‐delta in Mt. Psunj (Croatia). Abstracts and Poster Abstracts. 6. Europ. Reg. Meet. of Sedimentology, pp. 518–522, Lleida.
  11. Csató, I. (1993) Sequences in the Pannonian basin, Hungary. Tectonophysics, 226, 377–400.
    [Google Scholar]
  12. Csontos, L. (1995) Tertiary tectonic evolution of the Intra‐Carpathian area: a review. Acta Vulcanologica, 7, 1–13.
    [Google Scholar]
  13. Csontos, L. & Nagymarosi, A. (1998) The Mid‐Hungarian line: a zone of repeated tectonic inversions. Tectonophysics, 297, 51–71.DOI: 10.1016/s0040-1951(98)00163-2
     [Google Scholar]
  14. Csontos, L., Nagymarosy, A., Horváth, F., Kováč, M. (1992) Tertiary evolution of the Intra‐Carpathian area: a model. Tectonophysics, 208, 221–241.
    [Google Scholar]
  15. Dam, G. & Surlyk, F. (1993) Cyclic sedimentation in a large wave‐ and storm‐dominated anoxic lake: Kap Stewart Formation (Rhaetian‐Sinemurian), Jameson Land, East Greenland. In: Sequence Stratigraphy and Facies Associations (Ed. by H. W. Posamentier, C. P. Summerhayes, B. U. Haq & G. P. Allen), Spec. Publ. Int. Ass. Sediment., 18, 419–448.
    [Google Scholar]
  16. Ebner, F. & Sachsenhofer, R.F. (1995) Palaeogeography, subsidence and thermal history of the Neogene Styrian Basin (Pannonian basin system, Austria). Tectonophysics, 242, 133–150.DOI: 10.1016/0040-1951(94)00155-3
     [Google Scholar]
  17. Fodor, L., Csontos, L., Bada, G., Györfi, I., Benkovics, L. (1999) Tertiary tectonic evolution of the Pannonian Basin system and neighbouring orogens: a new synthesis of paleostress data. In: The Mediterranean Basins: Tertiary Extension with the Alpine Orogen (Ed. by B. Durand, L. Jolivet, F. Horváth & M. Séranne), Geol. Soc. London Spec. Publ., 156, 295–334.
    [Google Scholar]
  18. Friebe, J.G. (1993) Sequence stratigraphy in a mixed carbonate‐siliciclastic depositional system (Middle Miocene, Styrian Basin, Austria). Geol. Rundschau, 82, 281–294.
    [Google Scholar]
  19. Frostick, L.E. & Steel, R.J. (1993) Sedimentation in divergent plate‐margin basins. In: Tectonic Controls and Signatures in Sedimentary Successions (Ed. by L. E. Frostick & R. J. Steel), Spec. Publ. Int. Ass. Sediment., 20, 111–128.
    [Google Scholar]
  20. Halamić, J., Belak, M., Jamičić, D. (1990) Geološko‐petrografski prikaz bazičnih vulkanskih stijena Požeške gore (Slavonija, Hrvatska). 12. kongres na geolozi na Jugoslavija, 2, 456–465.
    [Google Scholar]
  21. Halamić, J., Belak, M., Pavelić, D. (1993) The sedimentological significance and stratigraphic position of coarse‐grained red beds (?Oligocene) of the northwestern margin of Mt. Požeška gora (North Croatia). Geol. Croatica, 46, 137–143.
    [Google Scholar]
  22. Hámor, G. & Szentgyörgyi, K. (1981) Outlines of geological structure and evolution of the Miocene. Excursion guide of molasse formations in Hungary, pp. 42–55. Hung. Geol. Inst. Publishers, Budapest.
    [Google Scholar]
  23. Haq, B.U., Hardenbol, J., Vail, P.R. (1987) Chronology of fluctuating sea levels since the Triassic (250 Myr ago to present). Science, 235, 1156–1167.
    [Google Scholar]
  24. Herak, M. (1986) A new concept of geotectonics of the Dinarides. Acta Geol., 16/1, 1–42.
    [Google Scholar]
  25. Herak, M., Jamičić, D., Šimunić, An. Bukovac, J. (1990) The northern boundary of the Dinarides. Acta Geol., 20/1, 5–27.
    [Google Scholar]
  26. Hernitz, Z. (1983) Dubinski strukturno‐tektonski odnosi u području istočne Slavonije. Disertacija. Nafta, Zagreb.
  27. Hernitz, Z., Tišljar, J., Kalac, K., Velić, J., Jelić, K. (1993) Miocenski siparni i priobalni klastiti te matične stijene u Dravskoj depresiji. HAZU, Savjetovanje o kolektorskim stijenama u Panonskom bazenu, Sažeci predavanja, pp. 1–2, Zagreb.
  28. Horváth, F. (1984) Neotectonics of the Pannonian basin and the surrounding mountain belts: Alps, Carpathians and Dinarides. Annal. Geophys., 2, 147–154.
    [Google Scholar]
  29. Horváth, F. (1993) Towards a mechanical model for the formation of the Pannonian basin. Tectonophysics, 226, 333–357.
    [Google Scholar]
  30. Horváth, F. (1995) Phases of compression during the evolution of the Pannonian Basin and its bearing on hydrocarbon exploration. March. Petrol. Geol., 12, 837–844.
    [Google Scholar]
  31. Horváth, F. & Cloetingh, S. (1996) Stress‐induced late stage subsidence anomalies in the Pannonian basin. Tectonophysics, 266, 287–300.DOI: 10.1016/s0040-1951(96)00194-1
     [Google Scholar]
  32. Horváth, F. & Royden, L.H. (1981) Mechanism for the Formation of the Intra‐Carpathian Basins: a Rewiev. Earth Sci. Rev., 3–4, 307–316.
    [Google Scholar]
  33. Ingersoll, R.V. & Busby, C.J. (1995) Tectonics of sedimentary basins. In: Tectonics of Sedimentary Basins (Ed. by C.J.Busby & R.V.Ingersoll ), pp. 1–51. Blackwell Science, Oxford.
    [Google Scholar]
  34. Jamičić, D. (1983) Strukturni sklop metamorfnih stijena Krndije i južnih padina Papuka. Geol. vjesnik, 36, 51–72.
    [Google Scholar]
  35. Jamičić, D. (1989) Basic Geological Map SFRJ 1 : 100 000. Sheet Daruvar. Geol. zavod, Zagreb, Sav. geol. zavod, Beograd.
     [Google Scholar]
  36. Jamičić, D. (1995) The role of sinistral strike‐slip faults in the formation of the structural fabric of the Slavonian Mts. (Eastern Croatia). Geol. Croatica, 48, 155–160.
    [Google Scholar]
  37. Jamičić, D. & Brkić, M. (1987) Basic Geological Map 1 : 100 000. Sheet Orahovica. Geol. zavod, Zagreb, Sav. geol. zavod, Beograd.
     [Google Scholar]
  38. Jamičić, D., Brkić, M., Crnko, J., Vragović, M. (1987) Basic Geological Map 1 : 100 000. Explanatory notes for sheet Orahovica. Geol. zavod, Zagreb, Sav. geol. zavod, Beograd.
     [Google Scholar]
  39. Jamičić, D., Crnko, J., Prtoljan, B., Matičec, D. (1985) Strukturni elementi laramijskih pokreta u području Sulkovca (Požeška gora). Geol. vjesnik, 38, 149–154.
    [Google Scholar]
  40. Jamičić, D., Vragović, M., Matičec, D. (1989) Basic Geological Map 1 : 100 000. Explanatory notes for sheet Daruvar. Geol. zavod, Zagreb; Sav. geol. zavod, Beograd.
     [Google Scholar]
  41. Juhász, G. (1991) Lithostratigraphical and sedimentological framework of the Pannonian (s.l.) sedimentary sequence in the Hungarian Plain (Alföld), Eastern Hungary. Acta Geol. Hungarica, 34, 53–72.
    [Google Scholar]
  42. Kázmér, M. (1990) Birth, file and death of the Pannonian Lake. Palaeogeogr. Palaeoclim. Palaeoecol., 79, 171–188.
    [Google Scholar]
  43. Kochansky‐Devidé, V. (1979) Srednjomiocenske kongerijske naslage Požeške gore. Geol. vjesnik, 31, 69–72.
    [Google Scholar]
  44. Kochansky‐Devidé, V. & Slišković, T. (1978) Miocenske kongerije Hrvatske, Bosne i Hercegovine. Palaeont. Jugosl., 19, 1–98.
    [Google Scholar]
  45. Korolija, B. & Jamičić, D. (1989) Basic Geological Map 1 : 100 000. Sheet Našice. Geol. zavod, Zagreb; Sav. geol. zavod, Beograd.
     [Google Scholar]
  46. Kováč, M., Baráth, I., Kováčová‐Slamková, M., Pipik, R., Hlavatý, I., Hudáčková, N. (1998a) Late Miocene paleoenvironments and sequence stratigraphy: Northern Vienna Basin. Geol. Carpathica, 49, 445–458.
    [Google Scholar]
  47. Kováč, M., Baráth, I., Nagymarosy, A. (1997) The Miocene collapse of the Alpine‐Carpathian‐Pannonian junction – an overview. Acta Geol. Hungarica, 40, 241–264.
    [Google Scholar]
  48. Kováč, M. & Hudáčková, N. (1997) Changes of paleoenvironment as a result of interaction of tectonic events with sea level changes in the northeastern margin of Vienna Basin. Zbl. Geol. Paläont. Teil, I (5/6), 457–469.
    [Google Scholar]
  49. Kováč, M., Nagymarosy, A., Oszczypko, N., Csontos, L., Slaczka, A., Marunteanu, M., Matenco, L., Márton, E. (1998b) Palinspastic reconstruction of the Carpathian‐ Pannonian region during the Miocene. In: Geodynamic Development of the Western Carpathians (Ed. by M. Rakús), Mineralia Slov. Monogr., 189–217.
  50. Krainer, B. (1987) Sedimentation und Shoshonit von Weitendorf, Badenian, Steirisches Becken. Mitt. Österr. Geol. Ges., 80, 143–156.
    [Google Scholar]
  51. Kranjec, V., Hernitz, Z., Reščec, T., Velić, J. (1976) Neki rezultati dubinskog kartiranja u Dravskoj potolini. Nafta, 27/3, 123–141.
    [Google Scholar]
  52. Lankreijer, A., Kováč, M., Cloethingh, S., Pitoňák, P., Hlôška, M., Biermann, C. (1995) Quantitative subsidence analysis and forward modelling of the Vienna and Danube basins: thin‐skinned versus thick‐skinned extension. Tectonophysics, 252, 433–451.DOI: 10.1016/0040-1951(95)00099-2
     [Google Scholar]
  53. Leeder, M.R. (1995) Continental rifts and proto‐oceanic rift troughs. In: Tectonics of Sedimentary Sasins (Ed. by C.J.Busby & R.V.Ingersoll ), pp. 119–148. Blackwell Science, Oxford.
    [Google Scholar]
  54. Leeder, M.R. & Gawthorpe, R.L. (1987) Sedimentary models for extensional tilt‐block/half‐graben basins. Geol. Soc. London Spec. Publ., 28, 139–152.
    [Google Scholar]
  55. Márton, E. & Márton, P. (1999) Tectonic aspects of a paleomagnetic study on the Neogene of the Mecsek Mountains. Geophys. Trans., 42, 159–180.
    [Google Scholar]
  56. Márton, E., Pavelić, D., Tomljenović, B., Pamić, J., Márton, P. (1999) First paleomagnetic results on Tertiary rocks from the Slavonian Mountains in the Southern Pannonian Basin, Croatia. Geol. Carpathica, 50, 273–279.
    [Google Scholar]
  57. McKenzie, D. (1978) Some remarks on the development of sedimentary basins. Earth Planet. Sci. Lett., 40, 25–32.
    [Google Scholar]
  58. Meulenkamp, J.E., Kováč, M., Cicha, I. (1996) On Late Oligocene to Pliocene depocentre migrations and the evolution of the Carpathian‐Pannonian system. Tectonophysics, 266, 301–317.DOI: 10.1016/s0040-1951(96)00195-3
     [Google Scholar]
  59. Mutić, R. (1969) Neogenska magmatska aktivnost na jugoistočnim obroncima Medvednice (Zagrebačke gore). Geol. vjesnik, 22, 423–438.
    [Google Scholar]
  60. Mutić, R. (1980) Tufovi u donjohelvetskim naslagama na području Brestika i Bojne (Banija, Hrvatska). Geol. vjesnik, 31, 253–266.
    [Google Scholar]
  61. Mutić, R. (1981) Akcesorni cirkon iz srednjomiocenskih tufnih naslaga središnje Hrvatske i zapadne Slavonije. Geol. vjesnik, 34, 71–83.
    [Google Scholar]
  62. Najdenovski, J. (1988) Dubinski geološki odnosi i razvitak struktura u tercijarnim sedimentima Požeške kotline. Unpublished PhD Thesis, University of Zagreb, Zagreb.
  63. NØttvedt, A., Gabrielsen, R.H., Steel, R.J. (1995) Tectonostratigraphy and sedimentary architecture of rift basins, with reference to the northern North Sea. March. Petrol. Geol., 12, 881–901.
    [Google Scholar]
  64. Pamić, J. (1993) Eoalpine to Neoalpine magmatic and metamorphic processes in the northwestern Vardar Zone, the easternmost Periadriatic Zone and the southwestern Pannonian Basin. Tectonophysics, 226, 503–518.
    [Google Scholar]
  65. Pamić, J. (1996) Magmatske formacije Dinarida, Vardarske zone i južnih dijelova Panonskog bazena. Nafta, Zagreb.
    [Google Scholar]
  66. Pamić, J. (1998) North Dinaridic Late Cretaceous‐Paleogene subduction‐related tectonostratigraphic units of Southern Tisia, Croatia. Geol. Carpathica, 49, 341–350.
    [Google Scholar]
  67. Pamić, J., Árkai, P., O'Neil, J.O., Lantai, C. (1992) Very low‐ and low‐grade progressive metamorphism of Upper Cretaceous sediments of Mt. Motajica, northern Dinarides, Yugoslavia. In: Western Carpathians, Eastern Alps, Dinarides (Ed. by J. Vozár), IGCP Proj., 276, 131–146.
     [Google Scholar]
  68. Pamić, J., Belak, M., Slovenec, D. (19921993) Donjomiocenski trahiandeziti (šošoniti) Krndije u Slavoniji (sjeverna Hrvatska). Rad HAZU, 463, 27–47.
    [Google Scholar]
  69. Pamić, J., Gušić, I., Jelaska, V. (1998) Geodynamic evolution of the Central Dinarides. Tectonophysics, 297, 251–268.DOI: 10.1016/s0040-1951(98)00171-1
     [Google Scholar]
  70. Pamić, J. & Lanphere, M. (1991) Hercinske granitoidne i metamorfne stijene Papuka, Psunja, Krndije i okolne podloge Panonskog bazena u Slavoniji (sjeverna Hrvatska). Geologija, 34, 81–253.
    [Google Scholar]
  71. Pamić, J., McKee, E.H., Bullen, T., Lanphere, M.A. (1995) Tertiary volcanic rocks from Southern Pannonian basin, Croatia. Int. Geol. Rev., 37, 259–283.
    [Google Scholar]
  72. Pamić, J. & Prohić, E. (1989) Novi prilog petrološkom poznavanju alpinskih granitnih i metamorfnih stijena Motajice u sjevernim Dinaridima i Bosni. Geol. glasnik, 12, 145–176.
    [Google Scholar]
  73. Pavelić, D. (1991) Srednjomiocenski klastiti južnih obronaka Papuka. Unpublished MSc Thesis, University of Zagreb, Zagreb.
  74. Pavelić, D. (1998) Taložna evolucija slatkovodnog donjeg i srednjeg miocena sjeverne Hrvatske na temelju analize facijesa. Unpublished PhD Thesis, University of Zagreb, Zagreb.
  75. Pavelić, D. & Kovaćić, M. (1999) Lower Miocene alluvial deposits of the Požeška Mt. (Pannonian Basin, Northern Croatia): cycles, megacycles and tectonic implications. Geol. Croatica, 52, 67–76.
    [Google Scholar]
  76. Pavelić, D., Miknić, M., SarkotićŠlat, M. (1998) Early to Middle Miocene facies succession in lacustrine and marine environments on the southwestern margin of the Pannonian basin system. Geol. Carpathica, 49, 433–443.
    [Google Scholar]
  77. Pécskay, Z., Lexa, J., Szakács, A., Balogh, K., Seghedi, I., Konećný, V., Kováć, M., Márton, E., Kalićiak, M., Széky‐Fux, V., Póka, T., Gyarmati, P., Edelstein, O., Rosu, E., Žec, B. (1995) Space and time distribution of Neogene‐Quaternary volcanism in the Carpatho‐Pannonian Region. Acta Volcanol., 7, 15–28.
    [Google Scholar]
  78. Pikija, M., Šikić, K., Tišljar, J., Hrabak, N. (1993) Miocene formations of the Molve – Kalinovac area (North Croatia). Nafta, 44, 665–671.
    [Google Scholar]
  79. Pogácsás, G., Müller, P., Magyar, I. (1993) The role of seismic stratigraphy in understanding biological evolution in the Pannonian Lake (SE Europe, Late Miocene). Geol. Croatica, 46, 63–69.
    [Google Scholar]
  80. Posamentier, H.W. & Vail, P.R. (1988) Eustatic controls on clastic deposition II – sequence and systems tract models. In: Sea‐Level Changes: an Integrated Approach (Ed. by C.K. Wilgus, B.S. St. Hastings, C.G.C. Kendall, H.W. Posamentier, C.A. Ross & J.C. Van Wagoner), SEPM Spec. Publ., 42, 125–154.
    [Google Scholar]
  81. Prelogović, E. (1975) Neotektonska karta SR Hrvatske. Geol. vjesnik, 28, 97–108.
    [Google Scholar]
  82. Prelogović, E., Jamićić, D., Aljinović, B., Saftić, B., Velić, J. (1995) Dinamika nastanka struktura južnog dijela Panonskog bazena. In: 1. hrvatski geološki kongres, zbornik radova (Ed. by I.Vlahović , I.Velić & M.Šparica ), pp. 481–486. Zagreb.
     [Google Scholar]
  83. Prelogović, E., Saftić, B., Kuk, V., Velić, J., Dragaš, M., Lućić, D. (1998) Tectonic activity in the Croatian part of the Pannonian basin. Tectonophysics, 297, 283–293.DOI: 10.1016/s0040-1951(98)00173-5
     [Google Scholar]
  84. Puffer, J.H., Hurtubise, D.O., Geiger, F.J., Leeklar, P. (1981) Chemical composition of the Mesozoic basalts oh the Newark basin, Connecticut: stratigraphic implications. Geol. Soc. Am. Bull., 92, 155–159.
    [Google Scholar]
  85. Raffaelli, P. (1965) Metamorfizam paleozojskih pelitskih škriljaca u podrućju Ravne gore. Geol. vjesnik, 18, 61–111. Zagreb.
     [Google Scholar]
  86. Rögl, F. (1996) Stratigraphic correlation of the Paratethys Oligocene and Miocene. Mitt. Ges. Bergbaustud. Österr., 41, 65–73.
    [Google Scholar]
  87. Rögl, F. (1998) Paleogeographic considerations for Mediterranean and Paratethys seaways (Oligocene to Miocene). Ann. Naturhist. Mus. Wien, 99A, 279–310.
    [Google Scholar]
  88. Rögl, F. & Steininger, F.‐F. (1983) Vom Zerfall der Tethys zu Mediterran und Paratethys. Die Neogene Palaeogeographie und Palinspastik des zirkum‐mediterranen Raumes. Ann. Naturhist. Mus. Wien, 85, 135–163.
    [Google Scholar]
  89. Rögl, F. & Steininger, F.‐F. (1984) Neogene Paratethys, Mediterranean and Indo‐pacific seaways. In: Fossils and Climate (Ed. by P.Brenchley ), pp. 171–200. J. Wiley & Sons, London.
    [Google Scholar]
  90. Royden, L.H. (1988) Late Cenozoic Tectonics of the Pannonian Basin System. In: The Pannonian Basin. A Study in Basin Evolution (Ed. by L.H. Royden & F. Horváth), Am. Assoc. Petrol. Geol. Mem., 45, 27–48.
    [Google Scholar]
  91. Royden, L.H., Horváth, F., Burchfiel, B.C. (1982) Transform faulting, extension and subduction in the Carpathian‐Pannonian region. Geol Soc. Am. Bull., 73, 717–725.
    [Google Scholar]
  92. Šćavnićar, S., Krkalo, E., Šćavnićar, B., Halle, R., Tibljaš, D. (1983) Naslage s analcimom u Poljanskoj. Rad Jugosl. akad. znan. umjetn., 404, 137–169.
    [Google Scholar]
  93. Schlische, R.W. (1991) Half‐graben basin fill models: new constrains on continental extensional basin development. Basin Res., 3, 123–141.
    [Google Scholar]
  94. Şengör, A.M.C. (1995) Sedimentation and tectonics of fossil rifts. In: Tectonics of Sedimentary Basins (Ed. by C.J.Busby & R.V.Ingersoll ), pp. 53–117. Blackwell Science, Oxford.
    [Google Scholar]
  95. Šikić, K. (1995) Strukturni odnosi i tektogeneza šireg prostora Medvednice. In: Geološki vodić Medvednice (Ed. by K.Šikić ), 31–40. Inst. za geol. istraž, INA‐Industrija nafte d.d., Zagreb.
    [Google Scholar]
  96. Šparica, M. & Buzaljko, R. (1984) Basic Geological Map 1 : 100 000. Explanatory notes for sheet Nova Gradiška. Geol zavod, Zagreb, Inst. za geologiju, Sarajevo, Sav. geol. zavod, Beograd.
     [Google Scholar]
  97. Šparica, M., Buzaljko, R., Pavelić, D. (1987) Basic Geological Map 1 : 100 000. Explanatory notes for sheet Slavonski brod. Geol. zavod, Zagreb, Sav. geol. zavod, Beograd.
     [Google Scholar]
  98. Šparica, M., Juriša, M., Crnko, J., Šimunić, An, Jovanović, Č., Živanović, D. (1979) Basic Geological Map 1 : 100 000. Sheet Nova Kapela. Inst. za geol. istraž., Zagreb, Geol. zavod, Sarajevo, Sav. geol. zavod, Beograd.
     [Google Scholar]
  99. Šparica, M., Juriša, M., Crnko, J., Šimunić, An, Jovanović, Č., Živanović, D. (1980) Basic Geological Map 1 : 100 000. Explanatory notes for sheet Nova Kapela. Inst. za geol. istraž., Zagreb, Inst. za geol., Sarajevo, Sav. geol. zavod, Beograd.
     [Google Scholar]
  100. Šparica, M. & Pamić, J. (1986) Prilog poznavanju tektonike Požeške gore. Rad JAZU, 21, 85–96.
    [Google Scholar]
  101. Šparica, M., Pavelić, D., Miknić, M., Brkić, M. (1988) Miocenski biolititi u području Dilj gore (Slavonija, istočna Hrvatska). Geol. glasnik, Posebna izdanja, 6, 243–251.
    [Google Scholar]
  102. Stegena, L., Géczy, B., Horváth, F. (1975) Late Cenozoic evolution of the Pannonian basin. Tectonophysics, 261, 71–90.
    [Google Scholar]
  103. Steininger, F.F., Müller, C., Rögl, F. (1988) Correlation of Central Paratethys, Eastern Paratethys, and Mediterranean Neogene Stages. In: The Pannonian Basin. A Study in Basin Evolution (Ed. by L. H. Royden & F. Horváth), Am. Assoc. Petrol. Geol. Mem., 45, 79–87.
    [Google Scholar]
  104. Steininger, F. & Rögl, F. (1979) The Paratethys history – a contribution towards the Neogene dynamics of the Alpine Orogene (an abstract). Ann. Géol. Pays Hellén., Tome Hors Serie, Fasc., III, 1153–1165.
    [Google Scholar]
  105. Steininger, F.F., Rögl, F., Hochuli, P., Müller, C. (1989) Lignite deposition and marine cycles. The Austrian Tertiary lignite deposits – A case history. Aus den Sitz. Österr. Akad. Wiss. Mathem.‐naturw. Kl.,Abt. I, Bd., 5–10. Heft, pp. 308–332. Springer‐Verlag, New York.
    [Google Scholar]
  106. Surlyk, F. (1978) Submarine fan sedimentation along fault scarps on tilted fault‐blocks (Jurassic–Cretaceous boundary, East Greenland), Grønlands Geologiske Undersøgelse Bull., 128,108 pp.
    [Google Scholar]
  107. Surlyk, F. (1989) Mid‐ Mesozoik syn‐rift turbidite systems, controls, and predictions. In: Correlation in Hydrocarbon Exploration (Ed. by J. D.Collinson ), pp. 231–241. Graham & Trotman, London.
    [Google Scholar]
  108. Szabó, C., Szabolcs, H., Csontos, L. (1992) Review of Neogene and Quaternary volcanism of the Carpathian‐Pannonian region. Tectonophysics, 208, 243–256.
    [Google Scholar]
  109. Tari, G., Horváth, F., Rumpler, J. (1992) Styles of extension in the Pannonian Basin. Tectonophysics, 208, 203–219.
    [Google Scholar]
  110. Tari, V. & Pamić, J. (1998) Geodynamic evolution of the northern Dinarides and the southern part of the Pannonian Basin. Tectonophysics, 297, 269–281.DOI: 10.1016/s0040-1951(98)00172-3
     [Google Scholar]
  111. Tišljar, J. (1993) Sedimentary bodies and depositional models for the Miocene oil – producing areas Ladislavci, Beničanci and Obod. Nafta, 44, 531–542.
    [Google Scholar]
  112. Vakarcs, Vail, P.R., Tari, G., Pogácsás, Gy, Mattick, R.E., Szabó, A. (1994) Third‐order Middle Miocene – Early Pliocene depositional sequences in the prograding delta complex of the Pannonian Basin. Tectonophysics, 240, 81–106.
    [Google Scholar]
  113. Varićak, D. (1966) Petrološka studija Motajičkog granitskog masiva. Geol. glasnik, 9,170 pp, Sarajevo.
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Tectonostratigraphic model for the North Croatian and North Bosnian sector of the Miocene Pannonian Basin System
Basin Research 13, 359 (2001); https://doi.org/10.1046/j.0950-091x.2001.00155.x
/content/journals/10.1046/j.0950-091x.2001.00155.x
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