Acknowledgement
Supported by : National Research Foundation of Korea
References
- Allen, P.A. and Allen, J.R., 2013, Basin Analysis: Principles and Application to Petroleum Play Assessment, 3rd ed. Wiley-Blackwell, Oxford, 642 p.
- Arzmuller, G., Buchta, S., Ralbovský, E. and Wessely, G., 2006, The Vienna Basin. In: Golonka, J. and Picha, F.J. (eds.), AAPG Memoir 84: The Carpathians and Their Foreland: Geology and Hydrocarbon Resources. AAPG, Tulsa, 191-204.
- Athy, L.F., 1930, Density, porosity, and compaction of sedimentary rocks. AAPG Bulletin, 14, 1-24.
- Beidinger, A. and Decker, K., 2011, 3D geometry and kinematics of the Lassee flower structure: Implications for segmentation and seismotectonics of the Vienna Basin strike-slip fault, Austria. Tectonophysics, 499, 22-40. https://doi.org/10.1016/j.tecto.2010.11.006
- Beidinger, A. and Decker, K., 2014, Quantifying Early Miocene in-sequence and out-of-sequence thrusting at the Alpine-Carpathian junction. Tectonics, 33, 222-252. https://doi.org/10.1002/2012TC003250
- Bond, G.C. and Kominz, M.A., 1984, Construction of tectonic subsidence curves for the early Paleozoic miogeocline, southern Canadian rocky mountains: implications for subsidence mechanisms, age of breakup, and crustal thinning. Geological Society of America Bulletin, 95, 155-173. https://doi.org/10.1130/0016-7606(1984)95<155:COTSCF>2.0.CO;2
- Cressie, N., 1988, Spatial prediction and ordinary kriging. Mathematical Geology, 20, 405-421. https://doi.org/10.1007/BF00892986
- Cressie, N., 1993, Spatial prediction and kriging. In: Cressie, N. (eds.), Statistics for spatial data. Wiley, New York, 105-211.
- Csontos, L., Nagymarosy, A., Horvath, F. and Kovac, M., 1992, Tertiary evolution of the Intra-Carpathian area:a model. Tectonophysics, 208, 221-241. https://doi.org/10.1016/0040-1951(92)90346-8
- Decker, K., 1996, Miocene tectonics at the Alpine-Carpathian junction and the evolution of the Vienna Basin. Mitteilungen der Gesellschaft der Geologie- und Bergbaustudenten, 41, 33-44.
- Decker, K. and Peresson, H., 1996, Tertiary kinematics in the Alpine-Carpathian-Pannonian system: links between thrusting, transform faulting und crustal extension. In:Wessely, G. and Liebl, W. (eds.), EAGE Special Publication 5: Oil and Gas in Alpidic Thrustbelts and Basins of Central and Eastern Europe. The Geological Society, London, 69-77.
- Decker, K., Peresson, H. and Hinsch, R., 2005, Active tectonics and Quaternary basin formation along the Vienna Basin Transform fault. Quaternary Science Reviews, 24, 307-322.
- Einsele, G., 2000, Sedimentary basins. Evolution, facies, and sediment budget. Springer, Berlin, 792 p.
- Fodor, L., 1995, From transpression to transtension:Oligocene-Miocene structural evolution of the Vienna basin and the East Alpine-Western Carpathian junction. Tectonophysics, 242, 151-182. https://doi.org/10.1016/0040-1951(94)00158-6
- Gardner, G.H.F., Gardner, L.W. and Gregory, A.R., 1974, Formation velocity and density-the diagnostic basics for stratigraphic traps. Geophysics, 39, 770-780. https://doi.org/10.1190/1.1440465
- Haq, B.U., Hardenbol, J. and Vail, P.R., 1987, Chronology of fluctuating sea levels since the Triassic. Science, 235, 1156-1167. https://doi.org/10.1126/science.235.4793.1156
- Harzhauser, M., Mandic, O., Kranner, M., Lukeneder, P., Kern, A.K., Gross, M., Carnevale, G. and Jawecki, C., 2018, The Sarmatian/Pannonian boundary at the western margin of the Vienna Basin (City of Vienna, Austria). Austrian Journal of Earth Sciences, 111, 1-26. https://doi.org/10.17738/ajes.2018.0001
- Harzhauser, M., Theobalt, D., Strauss, P., Mandic, O. and Piller, W.E., in press, Seismic-based lower and middle Miocene stratigraphy in the northwestern Vienna Basin (Austria). Newsletters on Stratigraphy.
- Hinsch, R., Decker, K. and Peresson, H., 2005, 3-D seismic interpretation and structural modeling in the Vienna Basin: implications for Miocene to recent kinematics. Austrian Journal of Earth Sciences, 97, 38-50.
- Hohenegger, J., Coric, S. and Wagreich, M., 2014, Timing of the Middle Miocene Badenian Stage of the Central Paratethys. Geologica Carpathica, 65, 55-66. https://doi.org/10.2478/geoca-2014-0004
- Holzel, M., 2009, Quantification of tectonic movement in the Vienna Basin. Ph.D. thesis, University of Vienna, Vienna, Austria, 136 p.
- Holzel, M., Decker, K., Zamolyi, A., Strauss, P. and Wagreich, M., 2010, Lower Miocene structural evolution of the central Vienna Basin (Austria). Marine and Petroleum Geology, 27, 666-681. https://doi.org/10.1016/j.marpetgeo.2009.10.005
- Holzel, M., Wagreich, M., Faber, R. and Strauss, P., 2008, Regional subsidence analysis in the Vienna Basin (Austria). Austrian Journal of Earth Sciences, 101, 88-98.
- Horvath, F., 1993, Towards a mechanical model for the formation of the Pannonian basin. Tectonophysics, 226, 333-357. https://doi.org/10.1016/0040-1951(93)90126-5
- Huismans, R.S., Podladchikov, Y.Y. and Cloetingh, S., 2001, Dynamic modelling of the transition from passive to active rifting, application to the Pannonian Basin. Tectonics, 20, 1021-1039. https://doi.org/10.1029/2001TC900010
- Jiricek, R. and Seifert, P., 1990, Paleogeography of the Neogene in the Vienna basin and the adjacent part of the foredeep. In: Minarikova, D. and Lobitzer, H. (eds.), Thirty Years of Geological Cooperation between Austria and Czechoslovakia. Geological Survey, Prague, 89-105.
- Kovac, M., Barath, I., Harzhauser, M., Hlavaty, I. and Hudackova, N., 2004, Miocene depositional systems and sequence stratigraphy of the Vienna Basin. CFS Courier Forschungsinstitut Senckenberg, 246, 187-212.
- Lankreijer, A., Kovac, M., Cloetingh, S., Pitoňak, P., Hloska, P. and Biermann, C., 1995, Quantitative subsidence analysis and forward modelling of the Vienna and Danube basins: thin-skinned versus thickskinned extension. Tectonophysics, 252, 433-451. https://doi.org/10.1016/0040-1951(95)00099-2
- Lee, E.Y., Novotny, J. and Wagreich, M., 2016, BasinVis 1.0: A MATLAB(R)-based program for sedimentary basin subsidence analysis and visualization. Computers & Geosciences, 91, 119-127. https://doi.org/10.1016/j.cageo.2016.03.013
- Lee, E.Y., Novotny, J. and Wagreich, M., 2019, Subsidence analysis and visualization for sedimentary basin analysis and modelling. Springer, Cham, 56 p.
- Lee, E.Y. and Wagreich, M., 2016, 3D visualization of the sedimentary fill and subsidence evolution in the northern and central Vienna Basin (Miocene). Austrian Journal of Earth Sciences, 109, 241-251.
- Lee, E.Y. and Wagreich, M., 2017, Polyphase tectonic subsidence evolution of the Vienna Basin inferred from quantitative subsidence analysis of the northern and central parts. International Journal of Earth Sciences, 106, 687-705. https://doi.org/10.1007/s00531-016-1329-9
- Leeder, M., 2011, Sedimentology and sedimentary basins:from turbulence to tectonics. Wiley, Chichester, 784 p.
- Li, J. and Heap, A., 2008, A review of spatial interpolation methods for environmental scientists. Geoscience Australia Record 2008/23, Canberra, 137 p.
- Mann, P., Hempton, M.R., Bradley, D.C. and Burke, K., 1983, Development of pull-apart basins. Journal of Geology, 91, 529-554. https://doi.org/10.1086/628803
- Miall, A.D., 2000, Principles of sedimentary basin analysis. Springer, Berlin, 616 p.
- Ori, G.G. and Friend, P.F., 1984, Sedimentary basins formed and carried piggyback on active thrust sheets. Geology, 12, 475-478. https://doi.org/10.1130/0091-7613(1984)12<475:SBFACP>2.0.CO;2
- Peresson, H. and Decker, K., 1997a, Far-field effects of Late Miocene subduction in the Eastern Carpatians:E-W compression and inversion of structures in the Alpine-Carpathian-Pannonian region. Tectonics, 16, 38-56. https://doi.org/10.1029/96TC02730
- Peresson, H. and Decker, K., 1997b, The Tertiary dynamics of the northern Eastern Alps (Austria): changing palaeostresses in a collisional plate boundary. Tectonophysics, 272, 125-157. https://doi.org/10.1016/S0040-1951(96)00255-7
- Piller, W.E., Harzhauser, M. and Mandic, O., 2007, Miocene Central Paratethys stratigraphy - current status and future directions. Stratigraphy, 4, 151-168.
- Plasienka, D., Grecula, P., Putis, M., Kovac, M. and Hovorka, D., 1997, Evolution and structure of the Western Carpathians: an overview. In: Grecula, P., Hovorka, D. and Putis, M. (eds.), Geological evolution of the Western Carpathians. Mineralia Slovaca - Monograph, Bratislava, 1-24.
- Ratschbacher, L., Frisch, W. and Linzer, H.-G., 1991a, Lateral extrusion in the eastern Alps, part II: structural analysis. Tectonics, 10, 257-271. https://doi.org/10.1029/90TC02623
- Ratschbacher, L., Merle, O., Davy, P. and Cobbold, P., 1991b, Lateral extrusion in the eastern Alps, part I:boundary conditions and experiments scaled for gravity. Tectonics, 10, 245-256. https://doi.org/10.1029/90TC02622
- Royden, L.H., 1985, The Vienna Basin: A thin-skinned pull-apart basin. In: Biddle, K.T. and Christie-Blick, N. (eds.), SEPM Special Publication 37: Strike-slip deformation, Basin formation and Sedimentation. SEPM, Tulsa, 319-338.
- Royden, L.H., 1988, Late Cenozoic tectonics of the Pannonian basin system. In: Royden, L.H. and Horvath, F. (eds.), AAPG Memoir 45: The Pannonian Basin. A study in Basin evolution. AAPG, Tulsa, 27-48.
- Royden, L.H., Horvath, F., Nagymarosy, A. and Stegena, L., 1983a, Evolution of the Pannonian Basin System:2. Subsidence and thermal history. Tectonics, 2, 91-137. https://doi.org/10.1029/TC002i001p00091
- Royden, L.H., Horvath, F. and Rumpler, J., 1983b, Evolution of the Pannonian Basin System: 1. Tectonics. Tectonics, 2, 63-90. https://doi.org/10.1029/TC002i001p00063
- Salcher, B.C., Meurers, B., Smit, J., Decker, K., Hӧlzel, M. and Wagreich, M., 2012, Strike-slip tectonics and Quaternary basin formation along the Vienna Basin fault system inferred from Bouguer gravity derivatives. Tectonics, 31, TC3004, doi:10.1029/2011TC002979.
- Sauer, R., Seifert, P. and Wessely, G., 1992, Part I: Outline of Sedimentation, Tectonic Framework and Hydrocarbon Occurrence in Eastern Lower Austria. Mitteilungen der Osterreichischen Geologischen Gesellschaft, 85, 5-96.
- Sclater, J.G. and Christie, P.A.F., 1980, Continental stretching: An explanation of the Post-Mid-Cretaceous subsidence of the central North Sea Basin. Journal of Geophysical Research, 85, 3711-3739. https://doi.org/10.1029/JB085iB07p03711
- Steckler, M.S. and Watts, A.B., 1978, Subsidence of the Atlantic-type continental margin off New York. Earth and Planetary Science Letters, 41, 1-13. https://doi.org/10.1016/0012-821X(78)90036-5
- Steininger, F.F. and Wessely, G., 1999, From the Tethyan Ocean to the Paratethys Sea: Oligocene to Neogene Stratigraphy, Paleogeography and Palaeobiogeography of the circum-Mediterranean region and the Oligocene to Neogene Basin evolution in Austria. Mitteilungen der Osterreichischen Geologischen Gesellschaft, 92, 95-116.
- Strauss, P., Harzhauser, M., Hinsch, R. and Wagreich, M., 2006, Sequence stratigraphy in a classic pull-apart basin (Neogene, Vienna Basin) - A 3D seismic based integrated approach. Geologica Carpathica, 57, 185-197.
- Wagreich, M. and Schmid, H.P., 2002, Backstripping dip-slip fault histories: apparent slip rates for the Miocene of the Vienna Basin. Terra Nova, 14, 163-168. https://doi.org/10.1046/j.1365-3121.2002.00404.x
- Watts, A.B. and Ryan, W.B.F., 1976, Flexure of the lithosphere and continental margin basins. Tectonophysics, 36, 25-44. https://doi.org/10.1016/0040-1951(76)90004-4
- Watts, A.B. and Steckler, M.S., 1979, Subsidence and eustasy at the continental margin of Eastern North America. AGU, Maurice Ewing Symposium Series, 3, 218-234.
- Wessely, G., Kroll, A., Jiřicek, R. and Nemec, F., 1993, Wiener Becken und angrenzende Gebiete-Geologische Einheiten des praneogenen Beckenuntergrundes. Geologische Themenkarte der Republik Osterreich 1:200.000, Geologische Bundesanstalt, Vienna.
- Xie, X. and Heller, P.L., 2009, Plate tectonics and basin subsidence history. Geological Society of America Bulletin, 121, 55-64.
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