Regional turbidites and turbiditic environments developed during Neogene and Quaternary in Croatia

[1] Velić, J., Weisser, M., Saftić, B., Vrbanac, B., Ivković, Ž. (2002): Petroleum-geological characteristics and exploration level of the three Neogene depositional megacycles in the Croatian part of the Pannonian Basin. Nafta, 53/6–7, pp. 239–249.Search in Google Scholar

[2] Velić, J. (2007): Geologija ležišta nafte i plina [Geology of oil and gas reservoirs]. University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, Zagreb; 342 p. (in Croatian and English).Search in Google Scholar

[3] Troskot-Čorbić, T., Velić, J., Malvić, T. (2009): Comparison of the Middle Miocene and the Upper Miocene source rock formations in the Sava Depression (Pannonian Basin, Croatia). Geol. Croat., 62/2, pp. 123–133.10.4154/GC.2009.11Search in Google Scholar

[4] Vrbanac, B., Velić, J., Malvić, T. (2010): Sedimentation of deep-water turbidites in main and marginal basins in the SW part of the Pannonian Basin. Geol. Carpathica, 61/1, pp. 55–69.10.2478/v10096-010-0001-8Search in Google Scholar

[5] Colantoni, P., Gallignani, P., Lenaz, R. (1979): Late Pleistocene and Holocene evolution of the North Adriatic Shelf (Italy). Mar. Geol., 33, pp. M41–M50.10.1016/0025-3227(79)90130-0Search in Google Scholar

[6] Fairbanks, R.G. (1989): A 17,000-year glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-ocean circulation. Nature, 342, pp. 637–642.10.1038/342637a0Search in Google Scholar

[7] Stanley, D.I. (1995): A global sea level curve for the late Quaternary: the impossible dream? Mar. Geol., 125, pp. 1–6.Search in Google Scholar

[8] Vlahović, I., Tišljar, J., Velić, I., Matičec, D. (2005): Evolution of the Adriatic carbonate platform: palaeogeography, main events and depositional dynamics. Palaeogeogr., Palaeoclimatol., Palaeoecol., 220/3–4, pp. 333–360.10.1016/j.palaeo.2005.01.011Search in Google Scholar

[9] Marić-Đureković, Ž. (2011): Litofacijesne i stratigrafske značajke pleistocenskih naslaga Sjevernog Jadrana na temelju visokorazlučivih karotažnih mjerenja [Lithofacies and stratigraphy of Pleistocene deposits in North Adriatic offshore by using high-resolution well logs]. PhD thesis. Zagreb: University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, Croatia, 2011; 167 p. (in Croatian with English abstracts).Search in Google Scholar

[10] Prelogović, E., Kranjec, V. (1983): Geološki razvitak područja Jadranskog mora [Geological evolution of the Adriatic Sea]. Pomorski zbornik, 21, pp. 387–405 (in Croatian and English).Search in Google Scholar

[11] Middleton, G.V. (1967): Experiments on density and turbidity currents. III. Deposition of sediment. Can. J. Earth Sci., 4, pp. 475–505.10.1139/e67-025Search in Google Scholar

[12] Middleton, G.V., Hampton, M.A. (1976): Subaqueous sediment transport and deposition by sediment gravity lows. In: Stanley, D.J., Swift, D.J.P. (Eds.) Marine Sediment Transport and Environmental Management. John Wiley, New York, pp. 97–218.Search in Google Scholar

[13] Lowe, D.R. (1976): Subaqueous liquefied and fluidized sediment flows and their deposits. Sedimentology, 23, pp. 285–308.10.1111/j.1365-3091.1976.tb00051.xSearch in Google Scholar

[14] Lowe, D.R. (1979). Sediment gravity flows: their classification and some problems of application to natural flows and deposits. In: Society of Economic Paleontologists and Mineralogists, Special Publication No. 27, pp. 75–82.10.2110/pec.79.27.0075Search in Google Scholar

[15] Velić, J., Malvić, T. (2011): Depositional conditions during Pliocene and Pleistocene in Northern Adriatic and possible lithostratigraphic division of these rocks [Taložni uvjeti tijekom pliocena i pleistocena u Sjevernom Jadranu te moguća litostratigrafska raščlamba nastalih stijena]. Nafta, 62/1–2, pp. 25–38 (in English and Croatian).Search in Google Scholar

[16] Vrbanac, B. (1996): Paleostrukturne i sedimentološke analize gornjopanonskih naslaga formacije Ivanić grad u savskoj depresiji [Palaeostructural and sedimentological analyses of Late Pannonian sediments of Ivanić Grad formation in the Sava depression]. PhD thesis. Zagreb: University of Zagreb, Faculty of Natural Sciences, 1996; 121 p. (in Croatian with English summary).Search in Google Scholar

[17] Vrbanac, B. (2002a): Chronohorizons based on resistivity curve variations – Upper Miocene sediments of the Ivanić Grad Formation in the Sava Depression (NW Croatia). Geol. Croat., 55/1, pp. 11–24.10.4154/GC.2002.02Search in Google Scholar

[18] Vrbanac, B. (2002b): Facies and facies architecture of the Ivanić Grad Formation (Upper Pannonian) – Sava Depression, NW Croatia. Geol. Croat., 55/1, pp. 57–78.10.4154/GC.2002.06Search in Google Scholar

[19] Bouma, A.H. (1962): Sedimentology of Some Flysch Deposits: A Graphic Approach to Facies Interpretation. Elsevier, Amsterdam, New York; 1968 p.Search in Google Scholar

[20] Van Der Lingen, G.J. (1969): The turbidite problem. N.Z.J. Geol. Geophys., 12, pp. 7–50.10.1080/00288306.1969.10420225Search in Google Scholar

[21] Kennett, J.P. (1977): Cenozoic evolution of Antarctic glaciation, the circum-Antarctic Ocean, and their impact on global paleoceanography. J. Geophys. Res., C: Oceans Atmos., 82/27, pp. 3842–3860.10.1029/JC082i027p03843Search in Google Scholar

[22] Mercer, J.H., Sutter, J.F. (1982): Late Miocene–earliest pliocene glaciation in southern Argentina: implications for global ice-sheet history. Palaeogeogr., Palaeoclimatol., Palaeoecol., 38/3–4, pp. 185–206.10.1016/0031-0182(82)90003-7Search in Google Scholar

[23] Veseli, V. (1999): Facijesi karbonatnih sedimenata mlađeg mezozoika i paleogena u pučinskim bušotinama sjevernog Jadrana [Carbonate facies of the Late Mesozoic and Palaeogene in offshore wells from northern Adriatic Sea]. PhD thesis, Zagreb: University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, 1999; 306 p. (in Croatian and English).Search in Google Scholar

[24] Thunel, M. (1971): Građa tercijarnog bazena u sjeveroistočnom dijelu Jadranskog mora [Settings of Tertiary basin in northeastern part of the Adriatic Sea]. Nafta, 22/4–5, pp. 275–434 (in Croatian and English).Search in Google Scholar

[25] Cita, M.B., Ryan, W.B.F. (1972): The Pliocene Record in Deep Sea Mediterranean Sediments. Times-scale and General Synthesis, Initial Reports DSDP, Washington.10.2973/dsdp.proc.13.147-5.1973Search in Google Scholar

[26] Kalac, K. (2008): Biostratigrafsko-kronostratigrafska istraživanja pliocensko-pleistocenskih naslaga u podmorju Jadrana s posebnim osvrtom na klimatske promjene [Biostratigraphy and chronostratigraphy researches of Pliocene-Pleistocene deposits in the Adriatic offshore with special emphasis on climate changes]. Naftaplin, 45/8, 104 p. (in Croatian and English).Search in Google Scholar

[27] Mattavelli, L., Novelli, L., Anelli, L. (1991): Occurrence of hydrocarbons in the Adriatic basin. In: Spencer, A.M. (Ed.) Generation, Accumulation and Production of Europe’s Hydrocarbons. Special Publication of the European Association of Petroleum Geoscientists, No. 1, Oxford University Press, Oxford, pp. 369–380.Search in Google Scholar

[28] Rio, D., Channel, J.E.T., Bertoldi, R., Poli, M.S., Vergerio, P.R., Raffi, I., Sprovieri, R., Thunell, R.C. (1997): Pliocene sapropels in the northern Adriatic area: chronology and paleoenvironmental significance. Palaeogeogr., Palaeoclimatol., Palaeoecol., 135, pp. 1–25.10.1016/S0031-0182(97)00027-8Search in Google Scholar

[29] Donn, W.L., Farrand, W.R., Ewing, M. (1962): Pleistocene ice volumes and sea-level lowering. J. Geol., 70/2, pp. 206–214.10.1086/626809Search in Google Scholar

[30] Yokoyama, Y., De Deckker, P., Lambeck, K., Johnston, P., Fifield, L.K. (2001): Sea-level at the Last Glacial Maximum: evidence from northwestern Australia to constrain ice volumes for oxygen isotope stage 2. Palaeogeogr., Palaeoclimatol., Palaeoecol., 165, pp. 281–297.10.1016/S0031-0182(00)00164-4Search in Google Scholar

[31] Nakada, M., Lambeck, K. (1988): The melting history of the Late Pleistocene Antarctic ice sheet. Nature, 333, pp. 36–40.10.1038/333036a0Search in Google Scholar

[32] Balić, D., Malvić, T. (2013): Pliocene-Quaternary deposition and stratigraphy of the Neretva River Mouth, example of the Croatian Adriatic Coast. Geol. Q., 57/2, pp. 233–242.Search in Google Scholar

[33] Frignani, M., Langone, L. (1991): Accumulation rates and ¹³⁷Cs distribution in sediments of the Po River delta and the Emilia-Romagna coast (north western Adriatic Sea, Italy). Cont. Shelf Res., 11, pp. 525–542.10.1016/0278-4343(91)90009-USearch in Google Scholar

[34] Milliman, J.D., Syvitski, J.P.M. (1992): Geomorphic/tectonic control of sediment discharge to the ocean: the importance of small mountainous rivers. J. Geol., 100, pp. 525–544.10.1086/629606Search in Google Scholar

[35] Sorgente, D. (1999): Studio della sedimentazione attuale e recente nel medio Adriatico attraverso l’uso di traccianti radioattivi [Study of the current and recent sedimentation in the medium Adriatic through the use of radioactive tracers]. PhD thesis, Bologna: University of Bologna. Italy, 1999; 178 p. (in Italian).Search in Google Scholar

[36] Cattaneo, A., Correggiari, A., Langone, L., Trincardi, F. (2003): The late-Holocene Gargano subaqueous delta, Adriatic shelf: sediment pathways and supply fluctuations. Mar. Geol., 193, pp. 61–91.10.1016/S0025-3227(02)00614-XSearch in Google Scholar

[37] Storms, J.E.A., Weltjea, G.J., Terrab, G.J., Cattaneoc, A., Trincardid, F. (2008): Coastal dynamics under conditions of rapid sea-level rise: late Pleistocene to early Holocene evolution of barrier–lagoon systems on the northern Adriatic shelf (Italy). Quat. Sci. Rev., 27/11–12, pp. 1107–1123.10.1016/j.quascirev.2008.02.009Search in Google Scholar

[38] Tosi, L., Teatini, P., Brancolini, G., Zecchin, M., Carbognin, L., Affatato, A., Baradello, L. (2012): Three-dimensional analysis of the Plio-Pleistocene seismic sequences in the Venice Lagoon (Italy). J. Geol. Soc., 169, pp. 507–510.10.1144/0016-76492011-093Search in Google Scholar

[39] Đureković, M., Krpan, M., Pontiggia, M., Ruvo, L., Savino, R., Volpi, B. (1998): Geological modelling and petrophysical characterisation of turbiditic reservoirs of the Ivana gas field – R. Croatia. Nafta, 49/7–8, pp. 241–258.Search in Google Scholar

[40] Muttoni, G., Carcano, C., Garzanti, E., Ghielmi, M., Piccin, A., Pini, R., Rogledi, S., Sciunnach, D. (2003): Onset of major Pleistocene glaciations in the Alps. Geology, 31/11, pp. 989–992.10.1130/G19445.1Search in Google Scholar

[41] Velić, J., Malvić, T., Cvetković, M., Velić, I. (2015): Stratigraphy and petroleum geology of the Croatian part of the Adriatic Basin. J. Pet. Geol., 38/3, pp. 281–300.10.1111/jpg.12611Search in Google Scholar

[42] Tomljenović, B., Csontos, L. (2001): Neogene-Quaternary structures in the border zone between Alps, Dinarides and Pannonian Basin [Hrvatskozagorje and Karlovac Basins, Croatia]. Geol. Rundsch., 90/3, pp. 560–578.Search in Google Scholar

[43] Pavelić, D., Avanić, R., Kovačić, M., Vrsaljko, D., Miknić, M. (2003): An outline of the evolution of the Croatian part of the Pannonian Basin System. In: Vlahović, I., Tišljar, J. (Eds.) Evolution of Depositional Environments from the Paleozoic to the Quaternary in the Karst Dinarides and the Pannonian Basin. 22nd IAS Meeting of Sedimentology, September 17–19, Field Trip Guidebook, Opatija, 2003, pp. 155–161.Search in Google Scholar

[44] Malvić, T., Velić, J. (2011): Neogene tectonics in Croatian part of the Pannonian Basin and reflectance in hydrocarbon accumulations. In: Schattner, U. (Ed.) New Frontiers in Tectonic Research: At the Midst of Plate Convergence. InTech, Rijeka, pp. 215–238.10.5772/21270Search in Google Scholar

[45] Magyar, I., Radivojević, D., Sztanód, O., Synake, R., Ujszászia, K., Pócsika, M. (2013): Progradation of the paleo-Danube shelf margin across the Pannonian Basin during the Late Miocene and Early Pliocene. Global Planet. Change, 103, pp. 168–173.10.1016/j.gloplacha.2012.06.007Search in Google Scholar

[46] Royden, L.H. (1988): Late Cenozoic tectonics of the Pannonian Basin System. AAPG Memoirs 45, AAPG, Tulsa, pp. 27–48.10.1306/M45474C3Search in Google Scholar

[47] Bérczi, I., Hamor, G., Jambor, A., Szentgyörgyi, K. (1988): Neogene sedimentation in Hungary. In: Royed, L.H., Horváth, F. (Eds.), The Pannonian Basin. AAPG, Memoir. 45, AAPG, Tulsa, pp. 57–67.10.1306/M45474C5Search in Google Scholar

[48] Šimon, J. (1980): Prilog stratigrafiji i taložnom sustavu pješčanih rezervoara Sava-grupe mlađeg tercijara u Panonskom bazenu Sjeverne Hrvatske [Contribution to stratigraphy of sandstone reservoirs depositional system in the Sava Group sediments in Late Tertiary of Pannonian basin in the Northern Croatia]. PhD thesis, Zagreb: University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, 1980; 56 p. + 82. encl. (in Croatian and English).Search in Google Scholar

[49] Malvić, T. (2012): Review of Miocene shallow marine and lacustrine depositional environments in Northern Croatia. Geol. Q., 56/3, pp. 493–504.10.7306/gq.1035Search in Google Scholar

[50] Malvić, T., Jović, G. (2012): Thickness maps of Neogene and Quaternary sediments in the Kloštar Field (Sava Depression, Croatia). J. Maps, 8/3, pp. 260–266.10.1080/17445647.2012.710463Search in Google Scholar

[51] Velić, J. (1980): Geološka građa zapadnog dijela Savske depresije [Geological framework of the western part of the Sava Depression]. PhD thesis, Zagreb: University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, 1980; 137 p. (in Croatian with English summary).Search in Google Scholar

[52] Malvić, T. (2003): Naftnogeološki odnosi i vjerojatnost pronalaska novih zaliha ugljikovodika u bjelovarskoj uleknini [Oil-Geological Relations and Probability of Discovering New Hydrocarbon Reserves in the Bjelovar Sag]. PhD thesis, Zagreb: University of Zagreb, Faculty of Mining, Geology and Petroleum Engineering, 2003; 123 p. (in Croatian and English).Search in Google Scholar

[53] Malvić, T., 2011. Geological maps of Neogene sediments in the Bjelovar Subdepression (Northern Croatia). J. Maps, 7/1, pp. 304–317.10.4113/jom.2011.1185Search in Google Scholar

[54] Novak Zelenika, K., Cvetković, M., Malvić, T., Velić, J., Sremac, J., 2013a. Sequential Indicator Simulations maps of porosity, depth and thickness of Miocene clastic sediments in the Kloštar Field, Northern Croatia. J. Maps, 9/3, pp. 1–8.10.1080/17445647.2013.829410Search in Google Scholar

[55] Novak Zelenika, K., Velić, J., Malvić, T. (2013b): Local sediment sources and palaeoflow directions in Upper Miocene turbidites of the Pannonian Basin System (Croatian part), based on mapping of reservoir properties. Geol. Q., 57/1, pp. 17–30.10.7306/gq.1068Search in Google Scholar

[56] [56] Malvić, T., Cvetković, M. (2013): Lithostratigraphic units in the Drava Depression (Croatian and Hungarian parts) – a correlation [Korelacija litostratigrafskih jedinica u Dravskoj depresiji (hrvatski i mađarskidio)]. Nafta, 64/1, pp. 27–33. (in English and Croatian).Search in Google Scholar

[57] Juhász, Gy. (1998): A magyarországi neogén mélymedencék pannóniai képződményeinek litosztatigráfiája [Stratigraphy of Neogene Formations from Deep Basin]. In: Bérczi, I., Jámor, Á. (Eds.) Magyarország Geológiai Képződményeinek Rétegtana [ Stratigraphy of Hungarian Geological Formation]. MOL Rt and MÁFI, Budapest, pp. 469–484.Search in Google Scholar

[58] Korpásné-Hódi, M. (1998): A medenceperemi Pannóniai S.L. üledékes formációk rétegtana [Statrigraphy of Pannonian Formations from Marginal Basin]. In: Bérczi, I., Jámor, Á. (Eds.) Magyarország Geológiai Képződményeinek Rétegtana [Stratigraphy of Hungarian Geological Formation]. MOL Rt and MÁFI, Budapest, pp. 453–468.Search in Google Scholar

[59] Haq, B.U., Eysinga, F.W.B. (Eds.) (1998): Geological Time Table, Fifth Edition (Wall Chart). Elsevier Science, Amsterdam.Search in Google Scholar