Bada Gábor tudományos publikációi független hivatkozásainak …geophysics.elte.hu/dolgozok/bada fuggetlen hivatkozasok.pdf · 2008-05-06 · 1. oldal Bada Gábor tudományos

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Bada Gábor tudományos publikációi független hivatkozásainak jegyzéke

Ez a fejezet az impakt faktoros folyóiratokban megjelent és/vagy független hivatkozást szerző cikkek listáját tartalmazza. Forrás: ISI Web of Knowledge, Scopus, saját gyűjtés. Az összesítés a 2008. április 1-i állapotot tükrözi. A fejezetet a hivatkozásoknak és a tudományos cikkek impakt faktorainak összegzése zárja.

Független hivatkozások

Bada, G., Fodor, L., Székely, B., Timár, G., 1996. Tertiary brittle faulting and stress field evolution in the Gerecse Mts., N. Hungary. Tectonophysics, 255: 269-289.

Impact factor (1996): 0.974 Független hivatkozások száma: 10 1. Gál, B., Poros, Zs., Molnár, F., 2008. A Hárshegyi Homokkő Formáció hidrotermális kifejlődései és

azok kapcsolatai regionális földtani eseményekhez. Földtani Közlöny, 138 (1), pp. 49-60.

2. Sasvári, Á., Kiss, A., Csontos, L., 2007. Paleostress investigation and kinematic analysis along the Telegdi Roth Fault (Bakony Mountains, western Hungary). Geologica Carpathica, 58 (5), pp. 477-486.

3. Widera, M., Banaszak, J., Cepińska, S., Derdowski, R., 2004. Palaeotectonic analysis of the Paleogene and Neogene activity of the northern parts of the Poznán-Oleśnica Dislocation Zone (central Poland). Przeglad Geologiczny, 52 (8 I), pp. 665-674.

4. Csontos, L., Vörös, A., 2004. Mesozoic plate tectonic reconstruction of the Carpathian region. Palaeogeography, Palaeoclimatology, Palaeoecology, 210 (1), pp. 1-56.

5. Jordán, Gy., Csillag, G., Szűcs, A., Qvarfort, U., 2003. Application of digital terrain modelling and GIS methods for the morphotectonic investigation of the Kali Basin, Hungary. Zeitschrift fur Geomorphologie, 47 (2), pp. 145-169.

6. Kázmér, M., Dunkl, I., Frisch, W., Kuhlemann, J., Ozsvárt, P., 2003. The Palaeogene forearc basin of the Eastern Alps and Western Carpathians: Subduction erosion and basin evolution. Journal of the Geological Society, 160 (3), pp. 413-428.

7. Grachev, A.F., Nikolaev, V.A., 2002. Problems of the Pannonian Basin geodynamics. Russian Journal of Earth Sciences, 4(5), pp. 331-361.

8. Koroknai, B., Horváth, P., Balogh, K., Dunkl, I., 2001. Alpine metamorphic evolution and cooling history of the Veporic basement in Northern Hungary: New petrological and geochronological constraints. International Journal of Earth Sciences, 90 (3), pp. 740-751.

9. Ozsvárt, P., 1997. Middle Eocene foraminifer, mollusc and ostracod fauna from the Csordakút Basin (Gerecse Mountains, Hungary): Palaeoenvironments recorded in a transgressive sequence. Annales Universitatis Scientiarum Budapestinensis de Rolando Eotvos Nominatae, Sectio Geologica, (32), pp. 73-135.

10. Faupl, P., Császár, G., Mišik, M., 1997. Cretaceous and Palaeogene sedimentary evolution in the eastern Alps, western Carpathians and the north Pannonian region: An overview. Acta Geologica Hungarica, 40 (3), pp. 273-305.

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Bada, G., Gerner, P., Cloetingh, S., Horváth, F., 1998. Sources of recent tectonic stress in the Pannonian region: inferences from finite element modelling. Geophysical Journal International, 134: 87-102, doi: 10.1046/j.1365-246X.1998.00545.x.

Impact factor (1998): 1.491 Független hivatkozások száma: 33 1. Heidbach, O., Reinecker, J., Tingay, M., Müller, B., Sperner, B., Fuchs, K., Wenzel, F., 2007. Plate

boundary forces are not enough: Second- and third-order stress patterns highlighted in the World Stress Map database. Tectonics, 26 (6), art. no. TC6014.

2. Ruszkiczay-Rüdiger, Zs., 2007. Tectonic and climatic forcing in Quaternary landscape evolution in the central Pannonian Basin. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-149.

3. Kiszely, M., 2007. Statistical investigations of local earthquakes in the Carpathian Basin and surrounding area. Acta Geodaetica et Geophysica Hungarica, 42 (3), pp. 341-359.

4. Fernández-Ibáñez, F., Soto, J.I., Zoback, M.D., Morales, J., 2007. Present-day stress field in the Gibraltar Arc (western Mediterranean). Journal of Geophysical Research B: Solid Earth, 112 (8), art. no. B08404.

5. Jarosiński, M., 2006. Recent tectonic stress field investigations in Poland: A state of the art. Geological Quarterly, 50 (3), pp. 303-321.

6. Tóth, L., Győri, E., Mónus, P., Zsíros, T., 2006. Seismic hazard in the Pannonian region. NATO Science Series, IV. Earth and Environmental Sciences, 61, pp. 369-384.

7. Jarosiński, M., 2006. Sources of the present-day tectonic stresses in Central Europe: Inferences from finite element modelling. Przeglad Geologiczny, 54 (8), pp. 700-709.

8. Oczlon, M.S., Onescu, D., 2005. Late Neogene low-angle thrusting on the northwestern margin of the South Carpathians (Poiana Rusca, West Romania). Tectonophysics, 410 (1-4), pp. 367-377.

9. Jarosiński, M., 2005. Ongoing tectonic reactivation of the Outer Carpathians and its impact on the foreland: Results of borehole breakout measurements in Poland. Tectonophysics, 410 (1-4), pp. 189-216.

10. Robl, J., Stüwe, K., 2005. Continental collision with finite indenter strength: 2. European Eastern Alps. Tectonics, 24 (4), art. no. TC4014, pp. 1-21.

11. Martín Velásquez, S., de Vicente, G., Elorza, F.J., Muñoz Martín, A., 2005. Stress magnitudes determinations by means of the finite element technique in the El Berrocal massif (Spanish Central System). Boletin Geologico y Minero, 116 (3), pp. 217-230.

12. Wéber, Z., 2005. Probabilistic waveform inversion for focal parameters of local earthquakes. Acta Geodaetica et Geophysica Hungarica, 40 (2 SPEC. ISS.), pp. 229-239.

13. Zakarevičius, A., Stanionis, A., 2005. Research of horizontal movements of the earth crust by applying the programme ansys. Geodesy and Cartography, 31 (1), pp. 3-11+IIIa+IVa.

14. Tournerie, B., Chouteau, M., 2005. Three-dimensional magnetotelluric survey to image structure and stratigraphy of a sedimentary basin in Hungary. Physics of the Earth and Planetary Interiors, 150 (1-3 SPEC. ISS.), pp. 197-212.

15. Bielik, M., Šefara, J., Kováč, M., Bezák, V., Plašienka, D., 2004. The Western Carpathians - Interaction of Hercynian and Alpine processes. Tectonophysics, 394 (1-2), pp. 63-86.

16. Wéber, Z., 2004. Bootstrap inversion of local earthquake data in the Pannonian Basin. Geophysical Transactions, 44 (3-4), pp. 221-239.


18. Tǎrǎpoancǎ, M., 2004. Architecture, 3D geometry and tectonic evolution of the Carpathians foreland basin. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-120.

19. Gribovszki, K., Vaccari, F., 2004. Seismic ground motion and site effect modelling along two profiles in the City of Debrecen, Hungary. Acta Geodaetica et Geophysica Hungarica, 39 (1), pp. 101-120.

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20. Sasowsky, I.D., Šebela, S., Harbert, W., 2003. Concurrent tectonism and aquifer evolution >100,000 years recorded in cave sediments, Dinaric Karst, Slovenia. Environmental Geology, 44 (1), pp. 8-13.

21. Márton, E., Fodor, L., Jelen, B., Márton, P., Rifelj, H., Kevrić, R., 2002. Miocene to Quaternary deformation in NE Slovenia: Complex paleomagnetic and structural study. Journal of Geodynamics, 34 (5), pp. 627-651.

22. Dunkl, I., Frisch, W., 2002. Thermochronologic constraints on the Late Cenozoic exhumation along the Alpine and West Carpathian margins of the Pannonian basin. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 135-147.

23. Grenerczy, G., Fejes, I., Kenyeres, A., 2002. Present crustal deformation pattern in the Pancardi Region: Constraints from Space Geodesy. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 65-77.

24. Marovic, M., Djokovic, I., Pesic, L., Radovanovic, S., Toljic, M., Gerzina, N., 2002. Neotectonics and seismicity of the southern margin of the Pannonian basin in Serbia. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 277-295.

25. Tóth, L., Mónus, P., Zsíros, T., Kiszely, M., 2002. Seismicity in the Pannonian Region - earthquake data. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 9-28.

26. Huismans, R.S., Bertotti, G., 2002. The Transylvanian basin, transfer zone between coeval extending and contracting regions: Inferences on the relative importance of slab pull and rift push in arc-back arc systems. Tectonics, 21 (2), pp. 2-1.

27. Roth, F., Fleckenstein, P., 2001. Stress orientations found in North-East Germany differ from the West European trend. Terra Nova, 13 (4), pp. 289-296.

28. Tóth, J., Almási, I., 2001. Interpretation of observed fluid potential patterns in a deep sedimentary basin under tectonic compression: Hungarian Great Plain, Pannonian Basin. Geofluids, 1 (1), pp. 11-36.

29. Pavelić, D., 2001. Tectonostratigraphic model for the North Croatian and North Bosnian sector of the Miocene Pannonian Basin System. Basin Research, 13 (3), pp. 359-376.

30. Grenerczy, G., Kenyeres, A., Fejes, I., 2000. Present crustal movement and strain distribution in Central Europe inferred from GPS measurements. Journal of Geophysical Research B: Solid Earth, 105 (B9), pp. 21835-21846.

31. Badawy, A., 2000. P-wave spectra of the Fuzesgyarmat, eastern Hungary earthquake sequence. Journal of Seismology, 4 (1), pp. 49-58.

32. Szafián, P., 1999. Gravity and tectonics. A case study in the Pannonian basin and surrounding mountain belt. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-154.

33. Reinecker, J., Lenhardt, W.A., 1999. Present-day stress field and deformation in eastern Austria. International Journal of Earth Sciences, 88 (3), pp. 532-550.

Bada, G., Horváth, F., 1998. Present-day geodynamics of the Pannonian basin and its surroundings: A review. Reports on Geodesy, 35/5: 51-75.

Impact factor: - Független hivatkozások száma: 3 1. Dinter, G., Schmitt, G., 2001. Three dimensional plate kinematics in Romania. Natural Hazards, 23

(2-3), pp. 389-406.

2. Jarosinski, M., 2001. Present-day geodynamics of Palaeozoic complex beneath the outer carpathians basing on logs and core examinations in the Tarnawa 1 well. Prace - Panstwowego Instytutu Geologicznego, (174), pp. 119-132.

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3. Detzky, G., D. Lőrincz, K., Tevan, K., 2000. Neotektonikus jelensegek szeizmikus vizsgalata a Szolnoki flis teruleten. Magyar Geofizika, 41 (1), pp. 33-41.

Bada, G., 1999. Cenozoic stress field evolution in the Pannonian basin and surrounding orogens. Inferences from kinematic indicators and finite element stress modelling. PhD thesis, Vrije Universiteit, Amsterdam, NSG Publication No. 990101, ISBN 90-9012374-1, 204 p.

Impact factor: - Független hivatkozások száma: 32 1. Kiszely, M., 2007. Statistical investigations of local earthquakes in the Carpathian Basin and

surrounding area. Acta Geodaetica et Geophysica Hungarica, 42 (3), pp. 341-359.

2. Duić, Ž, Urumović, K., 2007. Influence of Legrad threshold structure on hydrogeological characteristics in Koprivnica area. Rudarsko Geolosko Naftni Zbornik, 19, pp. 1-10.


4. Pospíšil, L., Mikšva, J., Kováčik, M., 2007. Risk and Geodynamically active areas of Carpathian lithosphere. Acta Montanistica Slovaca 12 (1), pp. 105-114.

5. Nemčok, M., Dilov, T., Wojtaszek, M., Ludhová, L., Klecker, R.A., Sercombe, W.J., Coward, M.P., 2007. Dynamics of the Polish and Eastern Slovakian parts of the Carpathian accretionary wedge: Insights from palaeostress analyses. Geological Society Special Publication, (272), pp. 271-302.

6. Nemčok, M., Krzywiec, P., Wojtaszek, M., Ludhová, L., Klecker, R.A., Sercombe, W.J., Coward, M.P., 2006. Tertiary development of the Polish and eastern Slovak parts of the Carpathian accretionary wedge: Insights from balanced cross-sections. Geologica Carpathica, 57 (5), pp. 355-370.

7. Szafián, P., Horváth, F., 2006. Crustal structure in the Carpatho-Pannonian region: Insights from three-dimensional gravity modelling and their geodynamic significance. International Journal of Earth Sciences, 95 (1), pp. 50-67.

8. Krézsek, Cs, Bally, A.W., 2006. The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in gravitational salt tectonics. Marine and Petroleum Geology, 23(4), pp. 405-442.

9. Krézsek, Cs., Filipescu, S., 2005. Middle to late Miocene sequence stratigraphy of the Transylvanian Basin (Romania). Tectonophysics, 410 (1-4), pp. 437-463.

10. Csontos, L., Magyari, Á., Van Vliet-Lanoë, B., Musitz, B., 2005. Neotectonics of the Somogy hills (Part II): Evidence from seismic sections. Tectonophysics, 410 (1-4), pp. 63-80.

11. Timár, G., Sümegi, P., Horváth, F., 2005. Late Quaternary dynamics of the Tisza River: Evidence of climatic and tectonic controls. Tectonophysics, 410 (1-4), pp. 97-110.

12. Unger, Z., Timár, G., 2005. Székelyföld lineamens térképe Landsat-TM űrfelvétel alapján. Földtani Közlöny, 135(2), pp. 293-304.

13. Gméling, K., Harangi, Sz., Kasztovszky, Zs., 2005. Boron and chlorine concentration of volcanic rocks: An application of prompt gamma activation analysis. Journal of Radioanalytical and Nuclear Chemistry, 265 (2), pp. 201-212.

14. Wórum, G., 2004. Modelling of fault reactivation potential and quantification of inversion tectoics in the southern Netherlands. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-152.

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15. Márton, E., Fodor, L., 2003. Tertiary paleomagnetic results and structural analysis from the Transdanubian Range (Hungary): Rotational disintegration of the Alcapa unit. Tectonophysics, 363 (3-4), pp. 201-224.

16. Timár, G., 2003. Controls on channel sinuosity changes: A case study of the Tisza River, the Great Hungarian Plain. Quaternary Science Reviews, 22 (20), pp. 2199-2207.

17. Lamarche, J., Bergerat, F., Lewandowski, M., Mansy, J.L., Świdrowska, J., Wieczorek, J., 2002.

18. Variscan to Alpine heterogeneous palaeo-stress field above a major Palaeozoic suture in the Carpathian foreland (southeastern Poland). Tectonophysics, 357 (1-4), pp. 55-80.

19. Zuchiewicz, W., Tokarski, A.K., Jarosinski, M., Márton, E., 2002. Late Miocene to present day structural development of the Polish segment of the Outer Carpathians. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 185-202.



22. Kováč, M., Bielik, M., Hok, J., Kováč, P., Kronome, B., Labak, P., Moczo, P. Plašienka a, D., Šefara, J., Sujan, M., 2002. Seismic activity and neotectonic evolution of the Western Carpathians (Slovakia). In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 167-184.

23. Andeweg, B., 2002. Cenozoic tectonic evolution of the Iberian Peninsula. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-178.

24. Bielik, M., Kováč, M., Kučera, I., Michalík, P., Sujan, M., Hók, J., 2002. Neo-alpine linear density boundaries (faults) detected by gravimentry. Geologica Carpathica, 53 (4), pp. 235-244.

25. Lučić, D., Saftić, B., Krizmanić, K., Prelogović, E., Britvić, V., Mesić, I., Tadej, J., 2001. The neogene evolution and hydrocarbon potential of the pannonian basin in Croatia. Marine and Petroleum Geology, 18 (1), pp. 133-147.

26. Cloetingh, S., Lankreijer, A., 2001. Lithospheric memory and stress field controls on polyphase deformation of the Pannonian basin-Carpathian system. Marine and Petroleum Geology, 18 (1), pp. 3-11.

27. Sotak, J., Pereszlenyi, M., Marschalko, R., Milicka, J., Starek, D., 2001. Sedimentology and hydrocarbon habitat of the submarine-fan deposits of the central carpathian paleogene basin (NE Slovakia). Marine and Petroleum Geology, 18 (1), pp. 87-114.

28. Willingshofer, E., 2000. Extension in collisional orogenic belts: the Late Cretaceous evolution of the Alps and Carpathians. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-146.

29. Frisch, W., Székely, B., Kuhlemann, J., Dunkl, I., 2000. Geomorphological evolution of the Eastern Alps in response to Miocene tectonics. Zeitschrift fur Geomorphologie, 44 (1), pp. 103-138.

30. Wortel, M.J.R., Spakman, W., 2000. Subduction and slab detachment in the Mediterranean-Carpathian region. Science, 290 (5498), pp. 1910-1917.

31. Lenkey, L., 1999. Geotermics of the Pannonian basin and its bearing on the tectonics of basin evolution. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-215.

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32. Lankreijer, A., Bielik, M., Cloetingh, S., Majcin, D., 1999. Rheology predictions across the western Carpathians, Bohemian massif, and the Pannonian basin: Implications for tectonic scenarios. Tectonics, 18 (6), pp. 1139-1153.

Fodor, L., Csontos, L., Bada, G., Benkovics, L., Györfi, I., 1999. Tertiary tectonic evolution of the Carpatho-Pannonian region: a new synthesis of paleostress data. In: Durand, B., Jolivet, L., Horváth, F., Séranne, M., (Eds.), The Mediterranean basins: Tertiary extension within the Alpine orogen. Geol. Soc. London Spec. Publ., 156: 295-334.

Impact factor: - Független hivatkozások száma: 86 1. Schmid, S.M., Bernoulli, D., Fügenschuh, B., Maţenco, L., Schefer, S., Schuster, R., Tischler, M.,

Ustaszewski, K., 2008. The Alpine-Carpathian-Dinaridic orogenic system: correlation and evolution of tectonic units. Swiss Journal of Geosciences, 101 (1), pp. 1-45.

2. Kovács, I., Szabó, Cs., 2008. Middle Miocene volcanism in the vicinity of the Middle Hungarian zone: Evidence for an inherited enriched mantle source. Journal of Geodynamics, 45 (1), pp. 1-17.

3. Bali, E., Zajacz, Z., Kovács, I., Szabó, Cs., Halter, W., Vaselli, O., Török, K., Bodnar, R.J., 2008. A quartz-bearing orthopyroxene-rich websterite xenolith from the Pannonian Basin, Western Hungary: Evidence for release of quartz-saturated melts from a subducted slab. Journal of Petrology, 49 (3), pp. 421-439.

4. Bali, E., Zanetti, A., Szabó, Cs., Peate, D.W., Waight, T.E., 2008. A micro-scale investigation of melt production and extraction in the upper mantle based on silicate melt pockets in ultramafic xenoliths from the Bakony - Balaton Highland Volcanic Field (Western Hungary). Contributions to Mineralogy and Petrology, 155 (2), pp. 165-179.

5. Cloetingh, S., Ziegler, P.A., 2007. Tectonic models for the evolution of sedimentary basins. In: Watts, A.B., (Ed.), Crust and lithosphere dynamics. Treaties on Geophysics, vol. 6, pp. 485-610.


7. Harangi, Sz., Downes, H., Thirlwall, M., Gméling, K., 2007. Geochemistry, petrogenesis and geodynamic relationships of miocene calc-alkaline volcanic rocks in the western Carpathian arc, Eastern Central Europe. Journal of Petrology, 48 (12), pp. 2261-2287.

8. Leever, K., 2007. Foreland of te Romanian Carpathians. Controls on late orogenic sedimentary basin evolution and Paratethys paleogeography. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-182.

9. Harangi, Sz., Lenkey, L., 2007. Genesis of the Neogene to Quaternary volcanism in the Carpathian-Pannonian region: Role of subduction, extension, and mantle plume. GSA Special Paper, 418, pp. 67-92.

10. Juhász, Gy., Pogácsás, Gy., Magyar, I., Vakarcs, G., 2007. Tectonic versus climatic control on the evolution of fluvio-deltaic systems in a lake basin, Eastern Pannonian Basin. Sedimentary Geology, 202 (1-2), pp. 72-95.

11. Seghedi, I., Bojar, A.-V., Downes, H., Rosu, E., Tonarini, S., Mason, P., 2007. Generation of normal and adakite-like calc-alkaline magmas in a non-subductional environment: An Sr-O-H isotopic study of the Apuseni Mountains neogene magmatic province, Romania. Chemical Geology, 245 (1-2), pp. 70-88.

12. Csató, I., Kendall, C.G.S.C., Moore, P.D., 2007. The Messinian problem in the Pannonian Basin, Eastern Hungary - Insights from stratigraphic simulations. Sedimentary Geology, 201 (1-2), pp. 111-140.

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13. Tischler, M., Gröger, H.R., Fügenschuh, B., Schmid, S.M., 2007. Miocene tectonics of the Maramures area (Northern Romania): Implications for the Mid-Hungarian fault zone. International Journal of Earth Sciences, 96 (3), pp. 473-496.

14. Zajacz, Z., Kovács, I., Szabó, Cs., Halter, W., Pettke, T., 2007. Evolution of mafic alkaline melts crystallized in the uppermost lithospheric mantle: A melt inclusion study of olivine-clinopyroxenite xenoliths, Northern Hungary. Journal of Petrology, 48 (5), pp. 853-883.

15. Bali, E., Falus, G., Szabó, Cs., Peate, D.W., Hidas, K., Török, K., Ntaflos, T., 2007. Remnants of boninitic melts in the upper mantle beneath the central Pannonian Basin? Mineralogy and Petrology, 90 (1-2), pp. 51-72.

16. Hidas, K., Falus, G., Szabó, Cs., Szabó, P.J., Kovács, I., Földes, T., 2007. Geodynamic implications of flattened tabular equigranular textured peridotites from the Bakony-Balaton Highland Volcanic Field (Western Hungary). Journal of Geodynamics, 43 (4-5), pp. 484-503.

17. Falus, G., Szabó, Cs., Kovács, I., Zajacz, Z., Halter, W., 2007. Symplectite in spinel lherzolite xenoliths from the Little Hungarian Plain, Western Hungary: A key for understanding the complex history of the upper mantle of the Pannonian Basin. Lithos, 94 (1-4), pp. 230-247.

18. Lustrino, M., Wilson, M., 2007. The circum-Mediterranean anorogenic Cenozoic igneous province. Earth-Science Reviews, 81 (1-2), pp. 1-65.

19. Gméling, K., Németh, K., Martin, U., Eby, N., Varga, Z., 2007. Boron concentrations of volcanic fields in different geotectonic settings. Journal of Volcanology and Geothermal Research, 159 (1-3), pp. 70-84.

20. Pospíšil, L., Mikšva, J., Kováčik, M., 2007. Risk and Geodynamically active areas of Carpathian lithosphere. Acta Montanistica Slovaca 12 (1), pp. 105-114.

21. Łój, M., Madej, J., Porzucek, S., Zuchiewicz, W., 2007. Young tectonics of the Orava Basin and southern part of the Magura Nappe, Polish western Carpathians, in the light of gravity studies: A new research proposal. Studia Quaternaria, 24, pp. 53-60.

22. Karátson, D., Oláh, I., Pécskay, Z., Márton, E., Harangi, Sz., Dulai, A., Zelenka, T., Kósik, Sz., 2007. Miocene volcanism in the Visegrád Mountains (Hungary): An integrated approach to regional volcanic stratigraphy. Geologica Carpathica, 58 (6), pp. 541-563.

23. Kovačić, M., Grizelj, A., 2006. Provenance of the Upper Miocene clastic material in the southwestern part of the Pannonian Basin. Geologica Carpathica, 57 (6), pp. 495-510.


25. Leever, K.A., Maţenco, L., Bertotti, G., Cloetingh, S., Drijkoningen, G.G., 2006. Late orogenic vertical movements in the Carpathian Bend Zone - Seismic constraints on the transition zone from orogen to foredeep. Basin Research, 18 (4), pp. 521-545.

26. Ziegler, P.A., Dèzes, P., 2006. Crustal evolution of Western and Central Europe. Geological Society Memoir, (32), pp. 43-56.

27. Harangi, Sz., Downes, H., Seghedi, I., 2006. Tertiary-Quarternary subduction processes and related magmatism in the Alpine-Mediterranean region. Geological Society Memoir, (32), pp. 167-190.

28. Szakács, A., Krézsek, C., 2006. Volcano-basement interaction in the Eastern Carpathians: Explaining unusual tectonic features in the Eastern Transylvanian Basin, Romania. Journal of Volcanology and Geothermal Research, 158 (1-2), pp. 6-20.

29. Środa, P., Czuba, W., Grad, M., Guterch, A., Tokarski, A.K., Janik, T., Rauch, M., Keller, G.R., Hegedüs, E., Vozár, J., 2006. Crustal and upper mantle structure of the Western Carpathians from CELEBRATION 2000 profiles CEL01 and CEL04: Seismic models and geological implications. Geophysical Journal International, 167 (2), pp. 737-760.

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31. Oszczypko, N., 2006. Late Jurassic-Miocene evolution of the Outer Carpathian fold-and-thrust belt and its foredeep basin (Western Carpathians, Poland). Geological Quarterly, 50 (1), pp. 169-194.

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7. Wéber, Z., 2006. Probabilistic local waveform inversion for moment tensor and hypocentral location. Geophysical Journal International, 165 (2), pp. 607-621.

8. Vrabec, M., Fodor, L., 2006. Late Cenozoic tectonics of SLovenia: structural styles at the northeastern corner of the Adriatic microplate. NATO Science Series, IV. Earth and Environmental Sciences, 61, pp.151-168.

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13. Márton, E., Fodor, L., Jelen, B., Márton, P., Rifelj, H., Kevrić, R., 2002. Miocene to Quaternary deformation in NE Slovenia: Complex paleomagnetic and structural study. Journal of Geodynamics, 34 (5), pp. 627-651.

14. Lamarche, J., Bergerat, F., Lewandowski, M., Mansy, J.L., Świdrowska, J., Wieczorek, J., 2002. Variscan to Alpine heterogeneous palaeo-stress field above a major Palaeozoic suture in the Carpathian foreland (southeastern Poland). Tectonophysics, 357 (1-4), pp. 55-80.


16. Grenerczy, G., Fejes, I., Kenyeres, A., 2002. Present crustal deformation pattern in the Pancardi Region: Constraints from Space Geodesy. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 65-77.


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20. Hámor, G., Jámbor, Á, Pogácsás, G., 2001. Paleogeographic/structural evolutionary stages and the related volcanism of the Carpathian-Pannonian Region. Acta Geologica Hungarica, 44 (2-3), pp. 193-222.

21. Tóth, J., Almási, I., 2001. Interpretation of observed fluid potential patterns in a deep sedimentary basin under tectonic compression: Hungarian Great Plain, Pannonian Basin. Geofluids, 1 (1), pp. 11-36.

22. Grenerczy, G., Kenyeres, A., Fejes, I., 2000. Present crustal movement and strain distribution in Central Europe inferred from GPS measurements. Journal of Geophysical Research B: Solid Earth, 105 (B9), pp. 21835-21846.


24. Badawy, A., 2000. P-wave spectra of the Fuzesgyarmat, eastern Hungary earthquake sequence. Journal of Seismology, 4 (1), pp. 49-58.


26. Márton, P., 1999. Hungarian national report on IASPEI 1995-1998. Acta Geodaetica et Geophysica Hungarica, 34 (3), pp. 319-348.

27. Jolivet, L., Frizon De Lamotte, D., Mascle, A., Séranne, M., 1999. The Mediterranean Basins: Tertiary Extension within the Alpine Orogen - an introduction. Geological Society Special Publication, (156), pp. 1-14.

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Impact factor (1999): 0.671 Független hivatkozások száma: 42 1. Szeidovitz, G., Surányi, G., Gribovszki, K., Bus, Z., Leél-Ossy, S., Varga, Z., 2008. Estimation of an



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5. Maţenco, L., Bertotti, G., Leever, K., Cloetingh, S., Schmid, S.M., Tǎrǎpoancǎ, M., Dinu, C. , 2007. Large-scale deformation in a locked collisional boundary: Interplay between subsidence and uplift, intraplate stress, and inherited lithospheric structure in the late stage of the SE Carpathians evolution. Tectonics, 26 (4), art. no. TC4011.

6. Ruszkiczay-Rüdiger, Z., Fodor, L.I., Horváth, E. , 2007. Neotectonics and Quaternary landscape evolution of the Gödöllő Hills, Central Pannonian Basin, Hungary. Global and Planetary Change, 58 (1-4), pp. 181-196.

7. Genser, J., Cloetingh, S.A.P.L., Neubauer, F. , 2007. Late orogenic rebound and oblique Alpine convergence: New constraints from subsidence analysis of the Austrian Molasse basin. Global and Planetary Change, 58 (1-4), pp. 214-223.

8. Gemmer, L., Houseman, G.A. , 2007. Convergence and extension driven by lithospheric gravitational instability: Evolution of the Alpine-Carpathian-Pannonian system. Geophysical Journal International, 168 (3), pp. 1276-1290.

9. Maramai, A., Graziani, L., Tinti, S. , 2007. Investigation on tsunami effects in the central Adriatic Sea during the last century - A contribution. Natural Hazards and Earth System Science, 7 (1), pp. 15-19.

10. Gméling, K., Németh, K., Martin, U., Eby, N., Varga, Z. , 2007. Boron concentrations of volcanic fields in different geotectonic settings. Journal of Volcanology and Geothermal Research, 159 (1-3), pp. 70-84.


12. Zámolyi, A., 2006. Nagy és kis reliefenergiájú digitális domborzati modellek esettanulmánya. Geodezia es Kartografia, 58 (11), pp. 24-30.


14. Bajnóczi, B., Horváth, Z., Demény, A., Mindszenty, A., 2006. Stable isotope geochemistry of calcrete nodules and septarian concretions in a Quaternary 'red clay' paleovertisol from Hungary. Isotopes in Environmental and Health Studies, 42 (4), pp. 335-350.


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16. Wéber, Z., 2006. Probabilistic local waveform inversion for moment tensor and hypocentral location. Geophysical Journal International, 165 (2), pp. 607-621.


18. Grenerczy, Gy., Kenyeres, A., 2006. Crustal deformation between Adria and the European platform from space geodesy. NATO Science Series, IV. Earth and Environmental Sciences, 61, pp. 321-334.

19. Márton, E., 2006. Paleomagnetic evidence for Tertiary counterclockwise rotation of Adria with respect to Africa. NATO Science Series, IV. Earth and Environmental Sciences, 61, pp. 71-80.

20. Bleibinhaus, F., Brückl, E., 2006. Wide-angle observations of ALP 2002 shots on the TRANSALP profile: Linking the two DSS projects. Tectonophysics, 414 (1-4), pp. 71-78.


22. Horváth, Z., Michéli, E., Mindszenty, A., Berényi-Üveges, J., 2005. Soft-sediment deformation structures in Late Miocene-Pleistocene sediments on the pediment of the Mátra Hills (Visonta, Atkár, Verseg): Cryoturbation, load structures or seismites? Tectonophysics, 410 (1-4), pp. 81-95.


24. Grenerczy, G., Sella, G., Stein, S., Kenyeres, A., 2005. Tectonic implications of the GPS velocity field in the northern Adriatic region. Geophysical Research Letters, 32 (16), art. no. L16311, pp. 1-4.



27. Bielik, M., Šefara, J., Kováč, M., Bezák, V., Plašienka, D., 2004. The Western Carpathians - Interaction of Hercynian and Alpine processes. Tectonophysics, 393 (1-4 SPEC.ISS.), pp. 63-86.

28. Viti, M., De Luca, J., Babbucci, D., Mantovani, E., Albarello, D., D'Onza, F., 2004. Driving mechanism of tectonic activity in the northern Apennines: Quantitative insights from numerical modeling. Tectonics, 23 (4), pp. TC4003 1-16.

29. Nocquet, J.-M., Calais, E., 2004. Geodetic measurements of crustal deformation in the Western Mediterranean and Europe. Pure and Applied Geophysics, 161 (3), pp. 661-681.

30. Márton, E., Drobne, K., Ćosović, V., Moro, A.., 2003. Palaeomagnetic evidence for Tertiary counterclockwise rotation of Adria. Tectonophysics, 377 (1-2), pp. 143-156.

31. Timár, G., 2003. Controls on channel sinuosity changes: A case study of the Tisza River, the Great Hungarian Plain. Quaternary Science Reviews, 22 (20), pp. 2199-2207.

32. Ádám, J., 2003. Hungarian national report on IAG 1999-2002. Acta Geodaetica et Geophysica Hungarica, 38 (2), pp. 133-158.

33. Grafarend, E.W., Voosoghi, B., 2003. Intrinsic deformation analysis of the Earth's surface based on displacement fields derived from space geodetic measurements. Case studies: Present-day deformation patterns of Europe and of the Mediterranean area (ITRF data sets). Journal of Geodesy, 77 (5-6), pp. 303-326.

34. Berényi-Üveges, J., Horváth, Z., Michéli, E., Mindszenty, A., Németh, T., 2003. Reconstructing quaternary pedogenesis in a paleosol sequence in Hungary. Quaternary International, 106-107, pp. 61-71.

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36. Grachev, A.F., Nikolaev, V.A., 2002. Problems of the Pannonian Basin geodynamics. Russian Journal of Earth Sciences, 4(5), pp. 331-361.


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41. Cloetingh, S., Lankreijer, A., 2001. Lithospheric memory and stress field controls on polyphase deformation of the Pannonian basin-Carpathian system. Marine and Petroleum Geology, 18 (1), pp. 3-11.


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Windhoffer, G., Bada, G., Dövényi, P., Horváth, F., 2001. New crustal stress determinations in Hungary from borehole breakout analysis. Földtani Közlöny, 131: 541-560.

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Telegdi Roth Fault (Bakony Mountains, western Hungary). Geologica Carpathica, 58 (5), pp. 477-486.

2. Magyari, Á., Musitz, B., Csontos, L., Van Vliet-Lanoë, B., 2005. Quaternary neotectonics of the Somogy Hills, Hungary (part I): Evidence from field observations. Tectonophysics, 410 (1-4), pp. 43-62.

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Impact factor (2001): 2.521 Független hivatkozások száma: 21 1. Hetényi, Gy., Bus, Z., 2007. Shear wave velocity and crustal thickness in the Pannonian Basin

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2. Csató, I., Kendall, C.G.S.C., Moore, P.D., 2007. The Messinian problem in the Pannonian Basin, Eastern Hungary - Insights from stratigraphic simulations. Sedimentary Geology, 201 (1-2), pp. 111-140.


4. Gemmer, L., Houseman, G.A., 2007. Convergence and extension driven by lithospheric gravitational instability: Evolution of the Alpine-Carpathian-Pannonian system. Geophysical Journal International, 168 (3), pp. 1276-1290.

5. Posgay, K., Kovács, A.Cs., Csabafi, R., Bodoky, T., Hegedűs, E., Fancsik, T., Rigler, B., 2007. A CEL07 mélyszeizmikus szelvény újraértékelése. Magyar Geofizika, 48 (3), pp. 87-98.

6. Peters, G., 2007. Active tectonics in the Upper Rhine Graben. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-270.




10. Delacou, B., Sue, C., Champagnac, J.-D., Burkhard, M., 2005. Origin of the current stress field in the western/central Alps: Role of gravitational re-equilibration constrained by numerical modelling. Geological Society Special Publication, (243), pp. 295-310.

11. Fellin, M.G., Picotti, V., Zattin, M., 2005. Neogene to Quaternary rifting and inversion in Corsica: Retreat and collision in the western Mediterranean. Tectonics, 24 (1), pp. 1-29.

12. Delacou, B., Sue, C., Champagnac, J.D., Burkhard, M., 2004. Present-day geodynamics in the bend of the western and central Alps as constrained by earthquake analysis. Geophysical Journal International, 158 (2), pp. 753-774.

13. Turner, J.P., Williams, G.A., 2004. Sedimentary basin inversion and intra-plate shortening. Earth-Science Reviews, 65 (3-4), pp. 277-304.

14. Bump, A.P., 2004. Three-dimensional Laramide deformation of the Colorado Plateau: Competing stresses from the Sevier thrust belt and the flat Farallon slab. Tectonics, 23 (1), pp. TC1008 1-15.

15. Wéber, Z., 2003. Hungarian national report on IASPEI 1999-2002. Acta Geodaetica et Geophysica Hungarica, 38 (2), pp. 239-258.

16. Yamaji, A., Sakai, T., Arai, K., Okamura, Y., 2003. Unstable forearc stress in the eastern Nankai subduction zone for the last 2 million years. Tectonophysics, 369 (1-2), pp. 103-120.

17. He, J., 2003. Mechanical instability of the Taihang Mountains crust-transition zone and its relation to the tectonic compression in its frontal cenozoic basin. Acta Geophysica Sinica, 46 (4), pp. 495-502.

18. Yamaji, A., 2003. Slab rollback suggested by latest Miocene to Pliocene forearc stress and migration of volcanic front in southern Kyushu, northern Ryukyu Arc. Tectonophysics, 364 (1-2), pp. 9-24.


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20. Andeweg, B., 2002. Cenozoic tectonic evolution of the Iberian Peninsula. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-178.

21. Székely, B., Reinecker, J., Dunkl, I., Frisch, W., Kuhlemann, J., 2002. Neotectonic movements and their geomorphic response as reflected in surface parameters and stress patterns in the Eastern Alps. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3, pp. 149-166.

Bada, G., Horváth, F., 2001. On the structure and tectonic evolution of the Pannonian basin and surrounding orogens. Acta Geologica Hungarica, 44/2-3: 301-327.

Impact factor: 0 Független hivatkozások száma: 13 1. Kovács, I., Szabó, Cs., 2008. Middle Miocene volcanism in the vicinity of the Middle Hungarian

zone: Evidence for an inherited enriched mantle source. Journal of Geodynamics, 45 (1), pp. 1-17.

2. Thamó-Bozsó, E., Magyari, Á., Nagy, A., Unger, Z., Kercsmár, Z., 2007. Osl dates and heavy mineral analysis of upper quaternary sediments from the valleys of the Er and Berettyó rivers. Geochronometria, 28 (1), pp. 17-23.

3. Nádor, A., Thamó-Bozsó, E., Magyari, Á., Babinszki, E., 2007. Fluvial responses to tectonics and climate change during the Late Weichselian in the eastern part of the Pannonian Basin (Hungary). Sedimentary Geology, 202 (1-2), pp. 174-192.

4. Gábris, G., Nádor, A., 2007. Long-term fluvial archives in Hungary: response of the Danube and Tisza rivers to tectonic movements and climatic changes during the Quaternary: a review and new synthesis. Quaternary Science Reviews, 26 (22-24), pp. 2758-2782.

5. Gméling, K., Németh, K., Martin, U., Eby, N., Varga, Z., 2007. Boron concentrations of volcanic fields in different geotectonic settings. Journal of Volcanology and Geothermal Research, 159 (1-3), pp. 70-84.

6. Harangi, Sz., Lenkey, L., 2007. Genesis of the Neogene to Quaternary volcanism in the Carpathian-Pannonian region: Role of subduction, extension, and mantle plume. GSA Special Paper, 418, pp. 67-92.

7. Posgay, K., Kovács, A.Cs., Csabafi, R., Bodoky, T., Hegedűs, E., Fancsik, T., Rigler, B., 2007. A CEL07 mélyszeizmikus szelvény újraértékelése. Magyar Geofizika, 48 (3), pp. 87-98.


9. Harangi, Sz., Downes, H., Seghedi, I., 2006. Tertiary-Quarternary subduction processes and related magmatism in the Alpine-Mediterranean region. Geological Society Memoir, (32), pp. 167-190.

10. Oldow, J.S., Ferranti, L., 2006. Fragmentation of Adria and active decollement tectonics within the southern Peri-Tyrrhenian orogen, Italy. NATO Science Series, IV. Earth and Environmental Sciences, 61, pp. 269-286.


12. Márton, E., Fodor, L., 2003. Tertiary paleomagnetic results and structural analysis from the Transdanubian Range (Hungary): Rotational disintegration of the Alcapa unit. Tectonophysics, 363 (3-4), pp. 201-224.


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Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Eds.), 2002. Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. European Geosciences Union, EGU St. Mueller Special Publication Series, vol. 3: 301 p.

Impact factor: 0 Független hivatkozások száma: 3 1. Gemmer, L., Houseman, G.A., 2007. Convergence and extension driven by lithospheric

gravitational instability: Evolution of the Alpine-Carpathian-Pannonian system. Geophysical Journal International, 168 (3), pp. 1276-1290.

2. Karätson, D., Németh, K., Székely, B., Ruszkiczay-Rüdiger, Zs., Pécskay, Z., 2006. Incision of a river curvature due to exhumed Miocene volcanic landforms: Danube Bend, Hungary. International Journal of Earth Sciences, 95 (5), pp. 929-944.

3. Burov, E., Guillou-Frottier, L., 2005. The plume head-continental lithosphere interaction using a tectonically realistic formulation for the lithosphere. Geophysical Journal International, 161 (2), pp. 469-490.

Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., 2002. Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Eds.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3: 1-7.

Impact factor: 0 Független hivatkozások száma: 2 1. Jarosiński, M., 2006. Sources of the present-day tectonic stresses in Central Europe: Inferences

from finite element modelling. Przeglad Geologiczny, 54 (8), pp. 700-709. 2. Rauch-Włodarska, M., Zuchiewicz, W., Brud, S., Group, G.T., 2006. Tectonics of Miocene-Pliocene

fresh-water molasses in the Carpathian Foredeep (Witów Series, South Poland). Journal of Geodynamics, 41 (4), pp. 369-384.

Lopes Cardozo, G., Bada, G., Lankreijer, A., Nieuwland, D., 2002. Analogue modelling of a prograding strike-slip fault: Case study of the Balatonfő fault, western Hungary. In: Cloetingh, S., Horváth, F., Bada, G., Lankreijer, A., (Ed.), Neotectonics and surface processes: the Pannonian basin and Alpine/Carpathian system. EGU St. Mueller Special Publication Series, 3: 217-226.

Impact factor: 0 Független hivatkozások száma: 2 1. Di Bucci, D., Ravaglia, A., Seno, S., Toscani, G., Fracassi, U., Valensise, G., 2007. Modes of fault

reactivation from analogue modeling experiments: Implications for the seismotectonics of the Southern Adriatic foreland (Italy). Quaternary International, 171-172 (SPEC. ISS.), pp. 2-13.

2. Di Bucci, D., Ravaglia, A., Seno, S., Toscani, G., Fracassi, U., Valensise, G., 2006. Seismotectonics of the southern Apennines and Adriatic foreland: Insights on active regional E-W shear zones from analogue modeling. Tectonics, 25 (4), art. no. TC4015.

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Cloetingh, S., Horváth, F., Dinu, C., Stephenson, R.A., Bertotti, G., Bada, G., Maţenco, L., Garcia-Castellanos, D. and the TECTOP Working Group, 2003. Probing tectonic topography in the aftermath of continental convergence in Central Europe. EOS, Transactions, American Geophysical Union, 84/10: 89-93.

Impact factor: 0 Független hivatkozások száma: 4 1. Leever, K., 2007. Foreland of te Romanian Carpathians. Controls on late orogenic sedimentary

basin evolution and Paratethys paleogeography. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-182.

2. Fielitz, W., Seghedi, I., 2005. Late Miocene-Quaternary volcanism, tectonics and drainage system evolution in the East Carpathians, Romania. Tectonophysics, 410 (1-4), pp. 111-136.

3. Raileanu, V., Bala, A., Hauser, F., Prodehl, C., Fielitz, W., 2005. Crustal properties from S-wave and gravity data along a seismic refraction profile in Romania. Tectonophysics, 410 (1-4), pp. 251-272.

4. Tǎrǎpoancǎ, M., 2004. Architecture, 3D geometry and tectonic evolution of the Carpathians foreland basin. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-120.

Wórum, G., Van Wees, J.D., Bada, G., Van Balen, R.T., Cloetingh, S.A.P.L., Pagnier, H., 2004. Slip tendency analysis as a tool to constrain fault reactivation: A numerical approach applied to three-dimensional fault models in the Roer Valley rift system (southeast Netherlands). Journal of Geophysical Research, 109, B02401, doi:10.1029/2003JB002586.

Impact factor (2005): 2,839 Független hivatkozások száma: 1 1. Peters, G., 2007. Active tectonics in the Upper Rhine Graben. PhD Thesis, Vrije Universiteit

Amsterdam, pp. 1-270. Cloetingh, S., Ziegler, P., Beekman, F., Andriessen, P., Maţenco, L., Bada, G., Garcia-Castellanos, D., Hardebol, N., Dezes, P., Sokoutis, D., 2005. Lithospheric memory, state of stress and rheology: Neotectonic controls on Europe’s intraplate continental topography. Quaternary Science Reviews, 24/3-4: 241-304, doi: 10.1016/j.quascirev.2004.06.015.

Impact factor (2005): 2,95 Független hivatkozások száma: 15 1. Vázquez, J.T., Medialdea, T., Ercilla, G., Somoza, L., Estrada, F., Fernández Puga, M.C., Gallart, J.,

Gràcia, E., Maestro, A., Sayago, M., 2008. Cenozoic deformational structures on the Galicia Bank Region (NW Iberian continental margin). Marine Geology, 249 (1-2), pp. 128-149.

2. Antoine, P., Limondin Lozouet, N., Chaussé, C., Lautridou, J.-P., Pastre, J.-F., Auguste, P., Bahain, J.-J., Falguères, C., Galehb, B., 2007. Pleistocene fluvial terraces from northern France (Seine, Yonne, Somme): synthesis, and new results from interglacial deposits. Quaternary Science Reviews, 26 (22-24), pp. 2701-2723.

3. Narkiewicz, M., 2007. Development and inversion of Devonian and Carboniferous basins in the eastern part of the Variscan foreland (Poland). Geological Quarterly, 51 (3), pp. 231-256.

4. Guillou-Frottier, L., Burov, E., Nehlig, P., Wyns, R., 2007. Deciphering plume-lithosphere interactions beneath Europe from topographic signatures. Global and Planetary Change, 58 (1-4), pp. 119-140.

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6. Smelror, M., Dehls, J., Ebbing, J., Larsen, E., Lundin, E.R., Nordgulen, Ø., Osmundsen, P.T., Olesen, O., Ottesen, D., Pascal, C., Redfield, T.F., Rise, L., 2007. Towards a 4D topographic view of the Norwegian sea margin. Global and Planetary Change, 58 (1-4), pp. 382-410.

7. Artemieva, I.M., 2007. Dynamic topography of the East European craton: Shedding light upon lithospheric structure, composition and mantle dynamics. Global and Planetary Change, 58 (1-4), pp. 411-434.

8. Tassara, A., Swain, C., Hackney, R., Kirby, J., 2007. Elastic thickness structure of South America estimated using wavelets and satellite-derived gravity data. Earth and Planetary Science Letters, 253 (1-2), pp. 17-36.

9. Yegorova, T., Bayer, U., Thybo, H., Maystrenko, Y., Scheck-Wenderoth, M., Lyngsie, S.B., 2007. Gravity signals from the lithosphere in the Central European Basin System. Tectonophysics, 429 (1-2), pp. 133-163.

10. Mucuta, D.M., Knapp, C.C., Knapp, J.H., 2006. Constraints from Moho geometry and crustal thickness on the geodynamic origin of the Vrancea Seismogenic Zone (Romania). Tectonophysics, 420 (1-2), pp. 23-36.

11. Corti, G., Manetti, P., 2006. Asymmetric rifts due to asymmetric Mohos: An experimental approach. Earth and Planetary Science Letters, 245 (1-2), pp. 315-329.

12. Missenard, Y., Zeyen, H., de Lamotte, D.F., Leturmy, P., Petit, C., Sébrier, M., Saddiqi, O., 2006. Crustal versus asthenospheric origin of relief of the Atlas mountains of Morocco. Journal of Geophysical Research B: Solid Earth, 111 (3), art. no. B03401.

13. Boenigk, W., Frechen, M., 2006. The Pliocene and Quaternary fluvial archives of the Rhine system. Quaternary Science Reviews, 25 (5-6), pp. 550-574.

14. Reicherter, K., Kaiser, A., Stackebrandt, W., 2005. The post-glacial landscape evolution of the North German Basin: Morphology, neotectonics and crustal deformation. International Journal of Earth Sciences, 94 (5-6), pp. 1083-1093.

15. Pérez-Gussinyé, M., Watts, A.B., 2005. The long-term strength of Europe and its implications for plate-forming processes. Nature, 436 (7049), pp. 381-384.

Ruszkiczay-Rüdiger, Zs., Dunai, T., Bada, G., Fodor, L., Horváth, E., 2005. Middle to late Pleistocene uplift rate of the Hungarian Mountain Range at the Danube Bend (Pannonian Basin), using in situ produced 3He. Tectonophysics, 410: 173-187. doi: 10.1016/j.tecto.2005.02.017.

Impact factor (2005): 1,732 Független hivatkozások száma: 5 1. Gábris, G., Nádor, A., 2007. Long-term fluvial archives in Hungary: response of the Danube and

Tisza rivers to tectonic movements and climatic changes during the Quaternary: a review and new synthesis. Quaternary Science Reviews, 26 (22-24), pp. 2758-2782.





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Ruszkiczay-Rüdiger, Zs., Fodor, L., Bada, G., Leél-Össy, Sz., Horváth, E., Dunai, T., 2005. Quantification of Quaternary vertical movements in the central Pannonian Basin: review of chronologic data along the Danube river, Hungary. Tectonophysics, 410: 157-172, doi: 10.1016/j.tecto.2005.05.048.

Impact factor (2005): 1,732 Független hivatkozások száma: 2 1. Gábris, G., Nádor, A., 2007. Long-term fluvial archives in Hungary: response of the Danube and

Tisza rivers to tectonic movements and climatic changes during the Quaternary: a review and new synthesis. Quaternary Science Reviews, 26 (22-24), pp. 2758-2782.


Windhoffer, G., Bada, G., 2005. Analogue modelling of the formation and deformation of the Derecske trough. Acta Geologica Hungarica, 48/4: 351-369, doi: 10.1556/AGeol.48.2005.4.1

Impact factor: - Független hivatkozások száma: 1 1. Juhász, Gy., Pogácsás, Gy., Magyar, I., Vakarcs, G., 2007. Tectonic versus climatic control on the

evolution of fluvio-deltaic systems in a lake basin, Eastern Pannonian Basin. Sedimentary Geology, 202 (1-2), pp. 72-95.

Windhoffer, G., Bada, G., Nieuwland, D., Wórum, G., Horváth, F., Cloetingh, S., 2005. On the mechanics of basin formation in the Pannonian basin: Inferences from analogue and numerical modelling. Tectonophysics, 410: 389-415, doi: 10.1016/j.tecto.2004.10.019.

Impact factor (2005): 1,732 Független hivatkozások száma: 5 1. Kováč, M., Andreyeva-Grigorovich, A., Bajraktarević, Z., Brzobohatý, R., Filipescu, S., Fodor, L.,

Harzhauser, M., Nagymarosy, A., Oszczypko, N., Pavelić, D., Rögl, F., Saftić, B., Sliva, L., Studencka, B., 2007. Badenian evolution of the Central Paratethys Sea: Paleogeography, climate and eustatic sea-level changes. Geologica Carpathica, 58 (6), pp. 579-606.


3. Nádor, A., Thamó-Bozsó, E., Magyari, Á., Babinszki, E., 2007. Fluvial responses to tectonics and climate change during the Late Weichselian in the eastern part of the Pannonian Basin (Hungary). Sedimentary Geology, 202 (1-2), pp. 174-192.

4. Gábris, G., Nádor, A., 2007. Long-term fluvial archives in Hungary: response of the Danube and Tisza rivers to tectonic movements and climatic changes during the Quaternary: a review and new synthesis. Quaternary Science Reviews, 26 (22-24), pp. 2758-2782.


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Cloetingh, S., Maţenco, L., Bada, G., Dinu, C., Mocanu, V., 2005. The evolution of the Carpathians–Pannonian system: Interaction between neotectonics, deep structure, polyphase orogeny and sedimentary basins in a source to sink natural laboratory. Tectonophysics, 410: 1-14, doi: 10.1016/j.tecto.2005.08.014

Impact factor (2005): 1,732 Független hivatkozások száma: 6 1. Vasiliev, I., Dekkers, M.J., Krijgsman, W., Franke, C., Langereis, C.G., Mullender, T.A.T., 2007.

Early diagenetic greigite as a recorder of the palaeomagnetic signal in Miocene-Pliocene sedimentary rocks of the Carpathian foredeep (Romania). Geophysical Journal International, 171 (2), pp. 613-629.


3. Wijbrans, J., Németh, K., Martin, U., Balogh, K., 2007. 40Ar/39Ar geochronology of Neogene phreatomagmatic volcanism in the western Pannonian Basin, Hungary. Journal of Volcanology and Geothermal Research, 164 (4), pp. 193-204.

4. Yang, H.J., Li, Y., Shan, J.Z., Jing, B., Feng, X.J., Wang, D.J., 2007. Controlled effort of rock physical properties to migration and accumulation process of oil and gas: An example from Maigaiti slope, Tarim basin, China. Acta Petrologica Sinica, 23 (4), pp. 823-830.

5. Vasiliev, I., 2006. A new chronology for the Dacian basin (Romania). Geologica Ultraiectina, 267, pp. 1-193.

6. Li, Z., Chen, J.S., Guan, P., 2006. Scientific problems and frontiers of sedimentary diagenesis research in oil-gas-bearing basins. Acta Petrologica Sinica, 22 (8), pp. 2113-2122.

Fodor, L., Bada, G., Csillag, G., Horváth, E., Ruszkiczay-Rüdiger, Zs., Horváth, F., Cloetingh, S., Palotás, K., Síkhegyi, F., Timár, G., 2005. An outline of neotectonic structures and morphotectonics of the western and central Pannonian basin. Tectonophysics, 410: 15-41, doi: 10.1016/j.tecto.2005.06.008.

Impact factor (2005): 1,732 Független hivatkozások száma: 5 1. Wijbrans, J., Németh, K., Martin, U., Balogh, K., 2007. 40Ar/39Ar geochronology of Neogene

phreatomagmatic volcanism in the western Pannonian Basin, Hungary. Journal of Volcanology and Geothermal Research, 164 (4), pp. 193-204.


3. Uhrin, A., Sztanó, O., 2007. Reconstruction of Pliocene fluvial channels feeding Lake Pannon (Gödöllo Hills, Hungary). Geologica Carpathica, 58 (3), pp. 291-300.

4. Zámolyi, A., 2006. Nagy és kis reliefenergiájú digitális domborzati modellek esettanulmánya. Geodezia es Kartografia, 58 (11), pp. 24-30.


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Cloetingh, S., Cornu, T., Ziegler, P., Beekman, F., Ustaszewski, K., Schmid, S., Dezes, P., Hinsch, R., Decker, K., Lopes-Cardoso, G., Granet, M., Bertrand, G., Behrmann, J., van Balen, R., Michon, L., Pagnier, H., Rozsa, Sz., Heck, B., Tesauro, M., Kahle, H.-G., Dewez, T., Carretier, S., Winter, T., Hardebol, N., Bada, G., Dost, B., van Eck, T., 2006. Neotectonics and Intraplate continental topography of the northern Alpine Foreland. Earth-Science Reviews, 74: 127-196, doi: 10.1016/j.earscirev.2005.06.001.

Impact factor (2005): 4,581 Független hivatkozások száma: 4 1. Meissner, R., Kern, H., 2008. Earthquakes and strength in the laminated lower crust -Can they be

explained by the "corset model"? Tectonophysics, 448 (1-4), pp. 49-59.

2. Japsen, P., Green, P.F., Nielsen, L.H., Rasmussen, E.S., Bidstrup, T., 2007. Mesozoic-Cenozoic exhumation events in the eastern North Sea Basin: A multi-disciplinary study based on palaeothermal, palaeoburial, stratigraphic and seismic data. Basin Research, 19 (4), pp. 451-490.

3. Buchmann, T.J., Connolly, P.T., 2007. Contemporary kinematics of the Upper Rhine Graben: A 3D finite element approach. Global and Planetary Change, 58 (1-4), pp. 287-309.

4. Ershov, A.V., Stephenson, R.A., 2006. Implications of a visco-elastic model of the lithosphere for calculating yield strength envelopes. Journal of Geodynamics, 42 (1-3), pp. 12-27.

Jarosiński, M., Beekman, F., Bada, G., Cloetingh, S., 2006. Redistribution of recent collision push and ridge push in Central Europe: Insights from FEM modelling. Geophysical Journal International, 167: 860-880, doi: 10.1111/j.1365-246X.2006.02979.x

Impact factor (2005): 1,826 Független hivatkozások száma: 3 1. Meissner, R., Kern, H., 2008. Earthquakes and strength in the laminated lower crust - Can they be

explained by the "corset model"? Tectonophysics, 448 (1-4), pp. 49-59. 2. Heidbach, O., Reinecker, J., Tingay, M., Müller, B., Sperner, B., Fuchs, K., Wenzel, F., 2007. Plate


3. Buchmann, T.J., Connolly, P.T., 2007. Contemporary kinematics of the Upper Rhine Graben: A 3D finite element approach. Global and Planetary Change, 58 (1-4), pp. 287-309.

Horváth, F., Bada, G., Windhoffer, G., Csontos, L., Dombrádi, E., Dövényi, P., Fodor, L., Grenerczy, Gy., Síkhegyi, F., Szafián, P., Székely, B., Timár, G., Tóth, L., Tóth, T., 2006. A Pannon-medence jelenkori geodinamikájának atlasza: Euro-konform térképsorozat és magyarázó. Magyar Geofizika, 47/4: 133-137.

Impact factor: - Független hivatkozások száma: 3 1. Szeidovitz, G., Surányi, G., Gribovszki, K., Bus, Z., Leél-Őssy, S., Varga, Z., 2008. Estimation of an


2. Hetényi, Gy., Bus, Z., 2007. Shear wave velocity and crustal thickness in the Pannonian Basin from receiver function inversions at four permanent stations in Hungary. Journal of Seismology, 11 (4), pp. 405-414.

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3. Karátson, D., 2007. A Börzsönytől a Hargitáig – Vulkanológia, felszínfejlődés, ősföldrajz. Typotex, Budapest, p. 462.

Bada, G., Horváth, F., Tóth, L., Fodor, L., Timár, G., Cloetingh, S., 2006. Societal aspects of ongoing deformation in the Pannonian region. In: Pinter, N., Grenerczy, Gy., Weber, J., Stein, S., Medak, D., (Eds.), The Adria Microplate: GPS Geodesy, Tectonics, and Hazards. NATO Science Series: IV: Earth and Environmental Sciences, Springer-Verlag, vol. 61: 385-402.

Impact factor: - Független hivatkozások száma: 1 1. Ruszkiczay-Rüdiger, Zs., 2007. Tectonic and climatic forcing in Quaternary landscape evolution in

the central Pannonian Basin. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-149. Cloetingh, S., Bada, G., Maţenco, L., Lankreijer, A., Horváth, F., Dinu, C., 2006. Modes of basin (de)formation, lithospheric strength and vertical motions in the Pannonian–Carpathian system: inferences from thermo-mechanical modelling. In: Gee, D.G., Stephenson, R.A., (Eds.), European Lithosphere Dynamics, Geological Society, London, Memoirs, 32: 207-221.

Impact factor: - Független hivatkozások száma: 3

1. Schmid, S.M., Bernoulli, D., Fügenschuh, B., Maţenco, L., Schefer, S., Schuster, R., Tischler, M.,




Horváth, F., Bada, G., Szafián, P., Tari, G., Ádám, A., Cloetingh, S., 2006. Formation and deformation of the Pannonian basin: Constraints from observational data. In: Gee, D.G., Stephenson, R.A., (Eds.), European Lithosphere Dynamics, Geological Society, London, Memoirs, 32: 191-206.

Impact factor: - Független hivatkozások száma: 6 1. Schmid, S.M., Bernoulli, D., Fügenschuh, B., Maţenco, L., Schefer, S., Schuster, R., Tischler, M.,


2. Kovács, I., Szabó, Cs., 2008. Middle Miocene volcanism in the vicinity of the Middle Hungarian zone: Evidence for an inherited enriched mantle source. Journal of Geodynamics, 45 (1), pp. 1-17.


4. Houseman, G.A., Gemmer, L., 2007. Intra-orogenic extension driven by gravitational instability: Carpathian-Pannonian orogeny. Geology, 35 (12), pp. 1135-1138.

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6. Neubauer, F., Lips, A., Kouzmanov, K., Lexa, J., Ivascanu, P., 2005. Subduction, slab detachment and mineralization: The Neogene in the Apuseni Mountains and Carpathians. Ore Geology Reviews, 27 (1-4), pp. 13-44.

Dombrádi, E., Timár, G., Bada, G., Cloetingh, S., Horváth, F., 2007. Fractal dimension estimations of drainage network in the Carpathian-Pannonian system. Global and Planetary Change, 58/1-4: 197-213, doi:10.1016/j.gloplacha.2007.02.011.

Impact factor (2005): 2,223 Független hivatkozások száma: 0 Cloetingh, S., Ziegler, P., Bogaard, P., Andriessen, P., Artemieva, I., Bada, G., van Balen, R.T., Ben-Avraham, Z., Brun, J.-P., Bunge, H.P., Burov, E., Carbonell, R., Facenna, C., Gallard, J., Green, A., Heidbach, O., Jones, A., Maţenco, L., Mosar, J., Oncken, O., Pascal, C., Peters, G., Sliaupa, S., Soesoo, A., Spakman, W., Stephenson, R., Thybo, H., Torsvik, T., de Vicente, G., Wenzel, F., Wortel, R., 2007. TOPO-Europe: the geoscience of coupled deep Earth - surface processes. Global and Planetary Change, 58/1-4: 1-118, doi: 10.1016/j.gloplacha.2007.02.008.

Impact factor (2005): 2,223 Független hivatkozások száma: 0 Bada, G., Grenerczy, Gy., Tóth, L., Horváth, F., Stein, S., Cloetingh, S., Windhoffer, G., Fodor, L., Pinter, N., Fejes, I., 2007. Motion of Adria and ongoing inversion of the Pannonian basin: Seismicity, GPS velocities and stress transfer. In: Stein, S., Mazzotti, S., (Eds.), Continental Intraplate Earthquakes: Science, Hazard, and Policy Issues. Geological Society of America Special Paper 425, p. 243–262, doi: 10.1130/2007.2425(16).

Impact factor: - Független hivatkozások száma: 1 1. Ruszkiczay-Rüdiger, Zs., 2007. Tectonic and climatic forcing in Quaternary landscape evolution in

the central Pannonian Basin. PhD Thesis, Vrije Universiteit Amsterdam, pp. 1-149.

Bada, G., Horváth, F., Dövényi, P., Szafián, P., Windhoffer, G., Cloetingh, S., 2007. Present-day stress field and tectonic inversion in the Pannonian basin. Global and Planetary Change, 58/1-4: 165-180, doi:10.1016/j.gloplacha.2007.01.007.

Impact factor (2005): 2,223 Független hivatkozások száma: 1 1. Heidbach, O., Reinecker, J., Tingay, M., Müller, B., Sperner, B., Fuchs, K., Wenzel, F., 2007. Plate


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Független hivatkozások és impakt faktorok összegzése

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Bada Gábor tudományos publikációi független hivatkozásainak …geophysics.elte.hu/dolgozok/bada fuggetlen hivatkozasok.pdf · 2008-05-06 · 1. oldal Bada Gábor tudományos