Central European Geology
Volume/Issue:
Volume 57: Issue 1
An integrated magnetic susceptibility anisotropy (AMS) and structural geological study on Cenozoic clay-rich sediments from the Transdanubian Range
Authors:
Krisztina Sipos-Benkő Geological and Geophysical Institute of Hungary Paleomagnetic Laboratory H-1118 Homonna u. 9 Budapest Hungary

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Emő Márton Geological and Geophysical Institute of Hungary Paleomagnetic Laboratory H-1118 Homonna u. 9 Budapest Hungary

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László Fodor Eötvös Loránd University Geological, Geophysical and Space Science, Research Group of the Hungarian Academy of Sciences H-1117 Pázmány P. stny 1/c Budapest Hungary

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Mihály Pethe Eötvös Loránd University Department of Geophysics H-1117 Pázmány P. stny 1/c Budapest Hungary

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Pages:
21–52
Online Publication Date:
01 Oct 2014
Publication Date:
01 Mar 2014
Article Category:
Research Article
DOI:
https://doi.org/10.1556/ceugeol.57.2014.1.2
Keywords:
integrated; magnetic susceptibility; anisotropy; AMS; structural geology; fault-slip analysis; Cenozoic; Transdanubian Range
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Systematic structural and anisotropy of magnetic susceptibility (AMS) measurements were carried out on Cenozoic clay-rich deposits from the Transdanubian Range, central part of the Alcapa Unit. The aim was to improve the knowledge of the Neogene tectonic evolution of the area and of the connection of the stress field and the magnetic fabric of the sediments. The measurements of AMS revealed dominant foliation with weak lineation for Middle Eocene-Lower Miocene sediments. The directions of AMS lineation are aligned either with the direction of NNE-SSW extension of a strike slip phase (30–19 Ma) or with the direction of NE-SW extension of the main rifting phase of the Pannonian Basin (19–14 Ma).The studied Late Miocene sediments have foliated AMS fabric, maximum and intermediate AMS directions are intermixed, and the AMS fabrics do not show any sign of tectonic deformation. In contrast, joints and faults were observed in the same rocks. Detailed structural analysis shows two extensional phases between ca. 10–4 Ma, with E-W to WNW-ESE and with NW-SE extension, respectively, and the youngest neotectonic strike-slip phase. The contrast between the presence of markers of brittle deformation and the absence of tectonically-induced AMS lineation is striking, since the same types of sediments in the South Pannonian basin show just the opposite. The explanation may be that northward-moving and CCW-rotating Adria caused strong compression in the southern Pannonian Basin, resulting in ductile deformation of the clay-rich sediments and systematic reorganization of AMS texture, while in our study area sediments of similar character and age were at a larger distance from the strongly deforming basin part.

  • Alfonsi, L. 1997: Paleomagnetic and anisotropy of magnetic susceptibility (AMS) analyses of the Plio-Pleistocene extensional Todi-basin (Central Italy). — Annali Di Geofisica, 40/6, pp. 1535–1549.

    Alfonsi L. , 'Paleomagnetic and anisotropy of magnetic susceptibility (AMS) analyses of the Plio-Pleistocene extensional Todi-basin (Central Italy) ' (1997 ) 40 Annali Di Geofisica : 1535 -1549 .

    • Search Google Scholar

  • Anderson, E.M. 1951: The dynamics of faulting. — Oliver and Boyd, Edinburgh, 206 p.

    Anderson E.M. , '', in Oliver and Boyd, Edinburgh , (1951 ) -.

  • Angelier, J., S. Manoussis 1980: Classification automatique et distinction des phases superposées en tectonique de failles. — C. R. Acad. Sci. Paris 290, série D, pp. 651–654.

    Manoussis S. , '', in C. R. Acad. Sci. Paris 290, série D , (1980 ) -.

  • Angelier, J., F. Bergerat 1983: Systemes de contrainte et extension intracontinentale. — Bulletin Centres Rech. Exploration-Production Elf-Aquitaine 7/1, pp. 137–147.

    Bergerat F. , 'Systemes de contrainte et extension intracontinentale ' (1983 ) 7 Bulletin Centres Rech. Exploration-Production Elf-Aquitaine : 137 -147 .

    • Search Google Scholar

  • Angelier, J. 1984: Tectonic analysis of fault slip data sets. — Journal of Geophysical Research 8. (B7), pp. 5835–5848.

    Angelier J. , '', in Journal of Geophysical Research 8 , (1984 ) -.

  • Angelier, J. 1989: From orientation to magnitudes in palaeostress determination using fault slip data. — Journal of Structural Geology, 11/1–2, pp. 37–50.

    Angelier J. , 'From orientation to magnitudes in palaeostress determination using fault slip data ' (1989 ) 11 Journal of Structural Geology : 37 -50 .

    • Search Google Scholar

  • Angelier, J. 1990: Inversion of field data in fault tectonics to obtain the regional stress — III. A new rapid direct inversion method by analytical means. — Geophysical Journal International, 103, pp. 363–376.

    Angelier J. , 'Inversion of field data in fault tectonics to obtain the regional stress — III. A new rapid direct inversion method by analytical means ' (1990 ) 103 Geophysical Journal International : 363 -376 .

    • Search Google Scholar

  • Bada, G., P. Szafián, O. Vincze, T. Tóth, L. Fodor, V. Spiess, F. Horváth 2010: Neotektonikai viszonyok a Balaton keleti medencéjében és tágabb környezetében nagyfelbontású szeizmikus mérések alapján (The neotectonic habitat of the eastern part of Lake Balaton and its broader environs: inferences from high-resolution seismic profiling). — Földtani Közlöny, 140/4, pp. 367–390.

    Horváth F. , 'Neotektonikai viszonyok a Balaton keleti medencéjében és tágabb környezetében nagyfelbontású szeizmikus mérések alapján (The neotectonic habitat of the eastern part of Lake Balaton and its broader environs: inferences from high-resolution seismic profiling) ' (2010 ) 140 Földtani Közlöny : 367 -390 .

    • Search Google Scholar

  • Balla, Z., A. Dudko 1989: Large-scale Tertiary strike-slip displacements recorded in the structure of the Transdanubian Range. — Geophys. Trans., 35, pp. 3–64.

    Dudko A. , 'Large-scale Tertiary strike-slip displacements recorded in the structure of the Transdanubian Range ' (1989 ) 35 Geophys. Trans. : 3 -64 .

    • Search Google Scholar

  • Balogh, K., E. Árva-Sós, Z. Pécskay, L. Ravasz-Baranyai 1983: K/Ar dating of post-Sarmatian alkali basaltic rocks in Hungary. — Acta Mineralogica-Petrologica Segediensis, 28, pp. 75–94.

    Ravasz-Baranyai L. , 'K/Ar dating of post-Sarmatian alkali basaltic rocks in Hungary ' (1983 ) 28 Acta Mineralogica-Petrologica Segediensis : 75 -94 .

    • Search Google Scholar

  • Báldi, T. 1986: Mid-Tertiary Stratigraphy and Paleogeographic Evolution of Hungary. — Akadémiai Kiadó, Budapest, 293 p.

    Báldi T. , '', in Mid-Tertiary Stratigraphy and Paleogeographic Evolution of Hungary , (1986 ) -.

  • Benkő, K., L. Fodor, E. Márton 2005: Structural and paleomagnetic analysis of Miocene rocks in Northern Transdanubia. — Geolines, 19, pp. 22–24.

    Márton E. , 'Structural and paleomagnetic analysis of Miocene rocks in Northern Transdanubia ' (2005 ) 19 Geolines : 22 -24 .

    • Search Google Scholar

  • Bordás, R. 1992: Magnetic fabric and strain in Miocene volcanics in the southern margin of the Bükk Mountains, Hungary. — Physics of the Earth and Planetary Interiors, 70, pp. 205–213.

    Bordás R. , 'Magnetic fabric and strain in Miocene volcanics in the southern margin of the Bükk Mountains, Hungary ' (1992 ) 70 Physics of the Earth and Planetary Interiors : 205 -213 .

    • Search Google Scholar

  • Borradaile, G.J., M. Jackson 2010: Structural geology, petrofabrics and magnetic fabrics (AMS, AARM, AIRM). — Journal of Structural Geology, 32, pp. 1519–1551.

    Jackson M. , 'Structural geology, petrofabrics and magnetic fabrics (AMS, AARM, AIRM) ' (2010 ) 32 Journal of Structural Geology : 1519 -1551 .

    • Search Google Scholar

  • Cifelli, F., F. Rossetti, M. Mattei, A.M. Hirt, R.L. Tortorici 2004: An AMS, structural and paleomagnetic study of quaternary deformation in eastern Sicily. — Journal of Structural Geology, 26, pp. 29–46.

    Tortorici R.L. , 'An AMS, structural and paleomagnetic study of quaternary deformation in eastern Sicily ' (2004 ) 26 Journal of Structural Geology : 29 -46 .

    • Search Google Scholar

  • Chadima, M., V. Jelínek 2008: Anisoft 4.2. — Anisotropy data-browser. Contributions to Geophysics and Geodesy, 38, special issue, 41 p.

    Jelínek V. , 'Anisoft 4.2 ' (2008 ) 38 Anisotropy data-browser. Contributions to Geophysics and Geodesy : 41 -.

    • Search Google Scholar

  • Dudich, E., G. Kopek 1980: A Bakony és környéke Eocén osföldrajzának vázlata (Outlines of the Eocene Paleogeography of the Bakony Mountains, Transdanubia, Hungary). — Földtani Közlöny, 110, pp. 417–431.

    Kopek G. , 'A Bakony és környéke Eocén osföldrajzának vázlata ' (1980 ) 110 Földtani Közlöny : 417 -431 .

    • Search Google Scholar

  • Dudko, A., G. Bence, I. Selmeci 1992: The tectonic origin of Miocene basins on the south-western edge of the Transdanubian Central Range. — Ann. Rep. Hung. Geol. Surv. 1990, pp. 107–124.

    Selmeci I. , 'The tectonic origin of Miocene basins on the south-western edge of the Transdanubian Central Range ' (1992 ) 1990 Ann. Rep. Hung. Geol. Surv. : 107 -124 .

    • Search Google Scholar

  • Fodor, L. 2008: Structural geology. — In: Budai T., L. Fodor (Eds): Geology of the Vértes Hills. Explanatory book to the Geological Map of the Vértes Hills (1:50000). — Geological Institute of Hungary, Budapest, pp. 145–202, 282–300.

    Fodor L. , '', in Geology of the Vértes Hills. Explanatory book to the Geological Map of the Vértes Hills (1:50000) , (2008 ) -.

  • Fodor, L.I. 2010: Mesozoic-Cenozoic stress fields and fault patterns in the northwestern part of the Pannonian Basin — methodology and structural analysis. — Doctoral work for the Hungarian Academy of Sciences, 129 p., 7 appendices.

    Fodor L.I. , '', in Doctoral work for the Hungarian Academy of Sciences , (2010 ) -.

  • Fodor, L., M. Kázmér, Á. Magyari, A. Fogarasi 1992: Gravity flow dominated sedimentation on the Buda Paleoslope (Hungary). Record of Late Eocene continental escape of the Bakony Unit. — Geol. Rundsh., 82, pp. 695–716.

    Fogarasi A. , 'Gravity flow dominated sedimentation on the Buda Paleoslope (Hungary). Record of Late Eocene continental escape of the Bakony Unit ' (1992 ) 82 Geol. Rundsh. : 695 -716 .

    • Search Google Scholar

  • Fodor, L., L. Csontos, G. Bada, I. Győrfi, L. Benkovics 1999: Tertiary tectonic evolution of the Pannonian basin system and neighbouring orogens: a new syntheses of paleostress data. — In: Durand, B., L. Jolivet, F. Horváth, M. Séranne (Eds): The Mediterranean Basins: Tertiary Extension within the Alpine Orogen. — Geol. Soc. Spec. Publ., vol. 156, pp. 295–334.

    Benkovics L. , '', in The Mediterranean Basins: Tertiary Extension within the Alpine Orogen. — Geol. Soc. Spec. Publ. , (1999 ) -.

  • Fodor, L., G. Bada, G. Csillag, E. Horváth, Zs. Ruszkiczay-Rüdiger, K. Palotás, F. Síkhegyi, G. Timár, S. Cloetingh, F. Horváth 2005: An outline of neotectonic structures and morphotectonics of the western and central Pannonian basin. — Tectonophysics, 410, pp. 15–41.

    Horváth F. , 'An outline of neotectonic structures and morphotectonics of the western and central Pannonian basin ' (2005 ) 410 Tectonophysics : 15 -41 .

    • Search Google Scholar

  • Fülöp, J., A. Rónai, G. Hámor, E. Nagy, G. Császár, Á. Jámbor, R. Hetényei, M. Deák, P. Gyarmati 1984: Geological map of Hungary, 1:500 000. — Geol. Inst. Hung., Budapest.

    Gyarmati P. , '', in Geol. Inst. Hung. , (1984 ) -.

  • Gyalog, L., G. Császár (Eds): 1982: Geological map of the Bakony Mts., 1:50 000. — Geol. Inst. of Hungary, Budapest.

    Császár G. , '', in Geological map of the Bakony Mts., 1:50 000 , (1982 ) -.

  • Haas, J., S. Kovács, L. Krystyn, R. Lein 1995: Significance of Late Permian-Triassic facies zones in terrane reconstructions in the Alpine-North Pannonian domain. — Tectonophysics, 242, pp. 19–40.

    Lein R. , 'Significance of Late Permian-Triassic facies zones in terrane reconstructions in the Alpine-North Pannonian domain ' (1995 ) 242 Tectonophysics : 19 -40 .

    • Search Google Scholar

  • Harangi, Sz., O. Vaselli, S. Tonarini, Cs. Szabó, R. Harangi, N. Coradossi 1995: Petrogenesis of Neogene extension-related alkaline volcanic rocks of the Little Hungarian Plain Volcanic Field (Western Hungary). — Acta Vulcanol., 7, pp. 173–188.

    Coradossi N. , 'Petrogenesis of Neogene extension-related alkaline volcanic rocks of the Little Hungarian Plain Volcanic Field (Western Hungary) ' (1995 ) 7 Acta Vulcanol. : 173 -188 .

    • Search Google Scholar

  • Hirt, A.M., W. Lowrie, W.S. Clendenen, R. Kligfield 1988: The correlation of magnetic anisotropy with strain in the Chelmsford Formation of the Sudbury Basin, Ontario. — Tectonophysics, 145, pp. 177–189.

    Kligfield R. , 'The correlation of magnetic anisotropy with strain in the Chelmsford Formation of the Sudbury Basin, Ontario ' (1988 ) 145 Tectonophysics : 177 -189 .

    • Search Google Scholar

  • Howell, P., G. Kozyreff, J. Ockendon 2009: Applied Solid Mechanics. — Cambridge University Press.

    Ockendon J. , '', in Applied Solid Mechanics , (2009 ) -.

  • Hrouda, F. 1987: Mathematical model relationship between the paramagnetic anisotropy and strain in slates. — Tectonophysics, 142, pp. 323–327.

    Hrouda F. , 'Mathematical model relationship between the paramagnetic anisotropy and strain in slates ' (1987 ) 142 Tectonophysics : 323 -327 .

    • Search Google Scholar

  • Jámbor, Á. 1980: A Dunántúli-középhegység pannóniai képződményei (Pannonian in the Transdanubian Central Mountains). — Ann. Geol. Inst. Hung. 62, pp. 12–59.

    Jámbor Á. , 'A Dunántúli-középhegység pannóniai képződményei (Pannonian in the Transdanubian Central Mountains) ' (1980 ) 62 Ann. Geol. Inst. Hung : 12 -59 .

    • Search Google Scholar

  • Jelínek, V. 1977: The statistical theory of measuring anisotropy of magnetic susceptibility of rocks and its applications. — Geofyzika, Brno, 88 pp.

    Jelínek V. , '', in The statistical theory of measuring anisotropy of magnetic susceptibility of rocks and its applications , (1977 ) -.

  • Jelínek, V. 1978: Statistical processing of anisotropy of magnetic susceptibility measured on group of specimens and its applications. — Stud. Geophys. Geod., 22, pp. 50–62.

    Jelínek V. , 'Statistical processing of anisotropy of magnetic susceptibility measured on group of specimens and its applications ' (1978 ) 22 Stud. Geophys. Geod. : 50 -62 .

    • Search Google Scholar

  • Kázmér, M. 1987: A Lower Cretaceous submarine fan sequence in the Gerecse Mts., Hungary. — Annales Universitatis Scientiarum Budapestinensis De Rolando Eötvös Nominatae — Sectio Geologica, 27, pp. 101–116.

    Kázmér M. , 'A Lower Cretaceous submarine fan sequence in the Gerecse Mts., Hungary ' (1987 ) 27 Annales Universitatis Scientiarum Budapestinensis De Rolando Eötvös Nominatae — Sectio Geologica : 101 -116 .

    • Search Google Scholar

  • Kercsmár, Zs. 2005: A Tatabányai-medence földtani felépítésének és fejlődéstörténetének újabb kutatási eredményei tektono-szedimentológiai és üledékföldtani vizsgálatok alapján (Synsedimentary deformations in the Eocene, Tatabánya Basin, Central Hungary). — PhD értekezés, Eötvös Loránd Tudományegyetem, Őslénytani Tanszék, 175 p.

    Kercsmár Z. , '', in A Tatabányai-medence földtani felépítésének és fejlődéstörténetének újabb kutatási eredményei tektono-szedimentológiai és üledékföldtani vizsgálatok alapján (Synsedimentary deformations in the Eocene, Tatabánya Basin, Central Hungary) , (2005 ) -.

  • Kiss, A., B. Gellért, L. Fodor 2001: Structural history of the Porva Basin in the Northern Bakony Mts. (Western Hungary): implications for the Mesozoic and Tertiary tectonic evolution of the Transdanubian Range and Pannonian Basin. — Geologica Carpathica, 52, pp. 183–190.

    Fodor L. , 'Structural history of the Porva Basin in the Northern Bakony Mts. (Western Hungary): implications for the Mesozoic and Tertiary tectonic evolution of the Transdanubian Range and Pannonian Basin ' (2001 ) 52 Geologica Carpathica : 183 -190 .

    • Search Google Scholar

  • Kiss, A., L. Fodor 2007: Miocene dextral transpression along the Csesznek Zone of the northern Bakony Mountains (Transdanubian Range, western Hungary). — Geologica Carpathica, 58/5, pp. 465–475.

    Fodor L. , 'Miocene dextral transpression along the Csesznek Zone of the northern Bakony Mountains (Transdanubian Range, western Hungary) ' (2007 ) 58 Geologica Carpathica : 465 -475 .

    • Search Google Scholar

  • Kissel, C., E. Barrier, C. Laj, T-Q. Lee 1986: Magnetic fabric in "undeformed" marine clays from compressional zones. — Tectonics, 5/5, pp. 769–781.

    Lee T.-Q. , 'Magnetic fabric in "undeformed" marine clays from compressional zones ' (1986 ) 5 Tectonics : 769 -781 .

    • Search Google Scholar

  • Kókay, J. 1976: Geomechanical investigation of the southern margin of the Bakony Mts. and the age of the Litér fault line. — Acta Geologica Hungarica, 20, pp. 245–257.

    Kókay J. , 'Geomechanical investigation of the southern margin of the Bakony Mts. and the age of the Litér fault line ' (1976 ) 20 Acta Geologica Hungarica : 245 -257 .

    • Search Google Scholar

  • Kókay, J. 1991: Stratigraphic revision of Lower and Middle-Miocene sediments of the Várpalota basin. — In: Lobitzer, H., G. Császár (Eds): Jubiläumsschrift 20 Jahre Geologische Zusammenarbeit Österreich — Ungarn 1. Geol. Survey of Austria, Vienna, and Geol. Inst. of Hungary, Budapest, pp. 101–109.

    Kókay J. , '', in Jubiläumsschrift 20 Jahre Geologische Zusammenarbeit Österreich , (1991 ) -.

  • Kókay, J. 1996: Tectonic review of the Neogene Várpalota Basin. — Földtani Közlöny, 126, pp. 417–446. (In Hungarian.)

    Kókay J. , 'Tectonic review of the Neogene Várpalota Basin ' (1996 ) 126 Földtani Közlöny : 417 -446 .

    • Search Google Scholar

  • Korpás, L. 1981: Oligocene — lower Miocene formations of the Transdanubian Central Mountains. — Annals Geol. Inst. Hung., 64, pp. 1–40.

    Korpás L. , 'Oligocene — lower Miocene formations of the Transdanubian Central Mountains ' (1981 ) 64 Annals Geol. Inst. Hung. : 1 -40 .

    • Search Google Scholar

  • Lee, T., C. Kissel, C. Laj, Ch. Horng, Y. Lue 1990: Magnetic fabric analysis of the Plio-Pleistocene sedimentary formations of the Coastal Range of Taiwan. — Earth and Planetary Science Letters, 98, pp. 23–32.

    Lue Y. , 'Magnetic fabric analysis of the Plio-Pleistocene sedimentary formations of the Coastal Range of Taiwan ' (1990 ) 98 Earth and Planetary Science Letters : 23 -32 .

    • Search Google Scholar

  • Magyar, I., D.H. Geary, P. Müller 1999: Paleogeographic evolution of the Late Miocene Lake Pannon in Central Europe. — Palaeogeography, Palaeoclimatology, Palaeoecology, 147, pp. 151–167.

    Müller P. , 'Paleogeographic evolution of the Late Miocene Lake Pannon in Central Europe ' (1999 ) 147 Palaeogeography, Palaeoclimatology, Palaeoecology : 151 -167 .

    • Search Google Scholar

  • Magyar, I., D. Radivojević, O. Sztanó, R. Synak, K. Ujszászi, M. Pócsik 2013: Progradation of the paleo-Danube shelf margin across the Pannonian Basin during the Late Miocene and Early Pliocene. — Global and Planetary Change, 102, pp. 168–173.

    Pócsik M. , 'Progradation of the paleo-Danube shelf margin across the Pannonian Basin during the Late Miocene and Early Pliocene ' (2013 ) 102 Global and Planetary Change : 168 -173 .

    • Search Google Scholar

  • Márton, E., L. Fodor 2003: Tertiary paleomagnetic results and structural analysis from the Transdanubian Range (Hungary): rotational disintegration of the Alcapa unit. — Tectonophysics, 363, pp. 201–224.

    Fodor L. , 'Tertiary paleomagnetic results and structural analysis from the Transdanubian Range (Hungary): rotational disintegration of the Alcapa unit ' (2003 ) 363 Tectonophysics : 201 -224 .

    • Search Google Scholar

  • Márton, E., B. Tomljenović, D. Pavelić, M. Pethe, R. Avanić, B. Jelen 2011: Magnetic fabric of Late Miocene clay-rich sediments from the southern Pannonian basin. — Int. J. Earth Sci. (Geol. Rundschau), DOI 10.1007/s00531-011-0669-8

    Jelen B. , '', in Int. J. Earth Sci. (Geol. Rundschau) , (2011 ) -.

  • Mattei M., L. Sagnotti, C. Faccenna, R. Funiciello 1997: Magnetic fabric of weakly deformed clay-rich sediments in the Italian peninsula: relationship with compressional and extensional tectonics. — Tectonophysics, 172, pp. 107–122.

    Funiciello R. , 'Magnetic fabric of weakly deformed clay-rich sediments in the Italian peninsula: relationship with compressional and extensional tectonics ' (1997 ) 172 Tectonophysics : 107 -122 .

    • Search Google Scholar

  • Mészáros, J. 1982: Major horizontal tectonic dislocation as a guide to mineral prospectors in the western Bakony Mountains. — Ann. Rep. Geol. Inst. Hungary from 1980, pp. 517–536.

    Mészáros J. , '', in Ann. Rep. Geol. Inst. Hungary from 1980 , (1982 ) -.

  • Mészáros, J. 1983: Structural and economic-geological significance of strike-slip faults in the Bakony Mountains. — Ann. Rep. Geol. Inst. Hungary from 1981, pp. 485–502.

    Mészáros J. , '', in Ann. Rep. Geol. Inst. Hungary from 1981 , (1983 ) -.

  • Mindszenty, A., M. Szintai, K. Tóth, F. Szantner, T. Nagy, M. Gellai, G. Baross 1988: Sedimentology and depositional environment of Csabpuszta bauxite (Paleocene/Eocene) in the South Bakony Mts. (Hungary). — Acta Geol. Hung., 31, pp. 339–370.

    Baross G. , 'Sedimentology and depositional environment of Csabpuszta bauxite (Paleocene/Eocene) in the South Bakony Mts. (Hungary) ' (1988 ) 31 Acta Geol. Hung. : 339 -370 .

    • Search Google Scholar

  • Nagymarosy, A. 1990: Paleogeographical and paleotectonical outlines of some intracarpathian Paleogene Basins. — Geologica Carpathica, 41/3, pp. 259–274.

    Nagymarosy A. , 'Paleogeographical and paleotectonical outlines of some intracarpathian Paleogene Basins ' (1990 ) 41 Geologica Carpathica : 259 -274 .

    • Search Google Scholar

  • Németh, K., U. Martin 1999: Late Miocene paleogeomorphology of the Bakony Balaton Highland Volcanic field (BBHVF), Hungary. — Zeitschrift für Geomorphologie, 43, pp. 417–438.

    Martin U. , 'Late Miocene paleogeomorphology of the Bakony Balaton Highland Volcanic field (BBHVF), Hungary ' (1999 ) 43 Zeitschrift für Geomorphologie : 417 -438 .

    • Search Google Scholar

  • Pethe, M., E. Márton, P. Márton 2009: AMS lineations and the orientation of stress axes during Early and Middle Miocene in the Transdanubian Range, Hungary. — Abstract Book of the IAGA 11th Scientific Assembly, 111-TUE-P1110-0867

    Márton P. , '', in Abstract Book of the IAGA 11th Scientific Assembly , (2009 ) -.

  • Royden, L.H., F. Horváth (Eds) 1988: The Pannonian basin: A case study in basin evolution. — AAPG Memoir, 45, pp. 1–394.

    Horváth F. , 'The Pannonian basin: A case study in basin evolution ' (1988 ) 45 AAPG Memoir : 1 -394 .

    • Search Google Scholar

  • Sagnotti, L., C. Faccenna, R. Funiciello, M. Mattei 1994: Magnetic fabric and structural setting of Plio-Pliocene clayey units in an extensional regime: the Tyrrhenian margin of central Italy. — J. Struct. Geol., 16/9, pp. 1243–1257.

    Mattei M. , 'Magnetic fabric and structural setting of Plio-Pliocene clayey units in an extensional regime: the Tyrrhenian margin of central Italy ' (1994 ) 16 J. Struct. Geol. : 1243 -1257 .

    • Search Google Scholar

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

    Csontos L. , 'Paleostress investigation and kinematic analysis along the Telegdi Roth Fault (Bakony Mountains, western Hungary) ' (2007 ) 58 Geologica Carpathica : 477 -486 .

    • Search Google Scholar

  • Sipos-Benkő, K., E. Márton, L. Fodor, M. Pethe 2012: An integrated magnetic susceptibility anisotropy (AMS) and structural geology study on Cenozoic clay rich sediments from the Transdanubian Range. — Environmental, Structural and Stratigraphical Evolution of the Western Carpathians, 8th Conference 2012, Abstract Book, p. 44.

    Pethe M. , '', in Environmental, Structural and Stratigraphical Evolution of the Western Carpathians, 8th Conference 2012, Abstract Book , (2012 ) -.

  • Soto, R., A.M. Casas-Sainz, J.J. Villalain, A. Gil-Imaz, G. Fernández-González, P. Del Río, M. Calvo, T. Mochales 2008: Characterizing the Mesozoic extension direction in the northern Iberian plate margin by anisotropy of magnetic susceptibility (AMS). — Journal of the Geological Society, 165, pp. 1007–1018.

    Mochales T. , 'Characterizing the Mesozoic extension direction in the northern Iberian plate margin by anisotropy of magnetic susceptibility (AMS) ' (2008 ) 165 Journal of the Geological Society : 1007 -1018 .

    • Search Google Scholar

  • Szentgyörgyi, K., Gy. Juhász 1988: Sedimentological characteristics of the Neogene sequences in SW Transdanubia, Hungary. — Acta Geologica Hungarica, 31/3–4, pp. 209–225.

    Juhász G. , 'Sedimentological characteristics of the Neogene sequences in SW Transdanubia, Hungary ' (1988 ) 31 Acta Geologica Hungarica : 209 -225 .

    • Search Google Scholar

  • Tari, G. 1991: Multiple Miocene block rotation in the Bakony Mountains, Transdanubian Central Range, Hungary. — Tectonophysics, 199, pp. 93–103.

    Tari G. , 'Multiple Miocene block rotation in the Bakony Mountains, Transdanubian Central Range, Hungary ' (1991 ) 199 Tectonophysics : 93 -103 .

    • Search Google Scholar

  • Tari, G. 1994: Alpine Tectonics of the Pannonian basin. — PhD. Thesis, Rice University, Texas, USA. 501 p.

    Tari G. , '', in Alpine Tectonics of the Pannonian basin , (1994 ) -.

  • Tari, G., T. Báldi, M. Báldi-Beke 1993: Paleogene retroarc flexural basin beneath the Neogene Pannonian Basin: a geodynamical model. — Tectonophysics, 226, pp. 433–455.

    Báldi-Beke M. , 'Paleogene retroarc flexural basin beneath the Neogene Pannonian Basin: a geodynamical model ' (1993 ) 226 Tectonophysics : 433 -455 .

    • Search Google Scholar

  • Tarling, D.H., F. Hrouda 1993: The Magnetic Anisotropy of Rocks. — Chapman and Hall, London, 217 p.

    Hrouda F. , '', in The Magnetic Anisotropy of Rocks , (1993 ) -.

  • Thamóné Bozsó, E., G. Csillag, O. Kákay-Szabó, P. Kónya, E. Király, P.M. Müller 2012: Szél által polírozott pleisztocén kőzetfelszínek vizsgálati eredményei a Dunántúli-középhegységből (Investigation of polished surfaces by wind in the Transdanubian Range in the Pleistoce age). — Annual Report of the Geological Institute of Hungary 2010, pp. 41–53.

    Müller P.M. , '', in Annual Report of the Geological Institute of Hungary 2010 , (2012 ) -.

  • Telegdi Roth, K. 1927: Spuren einer infraoligozänen Denudation am nordwestlichen Rande des Transdanubishen Mittelgebirges. — Földtani Közlöny, 57, pp. 117–128.

    Telegdi R. K. , 'Spuren einer infraoligozänen Denudation am nordwestlichen Rande des Transdanubishen Mittelgebirges ' (1927 ) 57 Földtani Közlöny : 117 -128 .

    • Search Google Scholar

  • Tomljenović, B., L. Csontos 2001: Neogene–Quaternary structures in the border zone between Alps, Dinarides and Pannonian Basin (Hrvatsko zagorje and Karlovac Basins, Croatia), — Int. J. Earth Sciences (Geol. Rundschau), 90, pp. 560–578.

    Csontos L. , '', in Int. J. Earth Sciences (Geol. Rundschau) , (2001 ) -.

  • Uhrin, A., O. Sztanó 2007: Reconstruction of Pliocene fluvial channels flowing to Lake Pannon. — Geologica Carpathica, 58/3, pp. 291–300.

    Sztanó O. , 'Reconstruction of Pliocene fluvial channels flowing to Lake Pannon ' (2007 ) 58 Geologica Carpathica : 291 -300 .

    • Search Google Scholar

  • Vakarcs, G., P.R. Vail, G. Tari, Gy. Pogácsás, R.E. Mattick, A. Szabó 1994: Third-order Middle Miocene-Early Pliocene depositional sequences in the prograding delta complex of the Pannonian Basin. — Tectonophysics, 240, pp. 81–106.

    Szabó A. , 'Third-order Middle Miocene-Early Pliocene depositional sequences in the prograding delta complex of the Pannonian Basin ' (1994 ) 240 Tectonophysics : 81 -106 .

    • Search Google Scholar

  • Wijbrans, J., K. Németh, U. Martin, K. Balogh 2007: 40Ar/39Ar geochronology of Neogene phreatomagmatic volcanism in the western Pannonian Basin, Hungary. — Journal of Volcanology and Geothermal Research, 164, pp. 193–204.

    Balogh K. , '40Ar/39Ar geochronology of Neogene phreatomagmatic volcanism in the western Pannonian Basin, Hungary ' (2007 ) 164 Journal of Volcanology and Geothermal Research : 193 -204 .

    • Search Google Scholar
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Cover Central European Geology
Central European Geology
Print ISSN:
1788-2281
Online ISSN:
1789-3348

Senior editors

Editor(s)-in-Chief: Attila DEMÉNY

Deputy Editor(s)-in-Chief: Béla RAUCSIK

Co-ordinating Editor(s): Gábor SCHMIEDL

Editorial Board

  • Zsolt BENKÓ (Geochemistry, Ar dating; Institute for Nuclear Research, Debrecen)
  • Szabolcs HARANGI (Petrology, geochemistry, volcanology; Eötvös Loránd University, Budapest)
  • Anette GÖTZ (Sedimentology; Landesamt für Bergbau, Energie und Geologie, Hannover)
  • János HAAS (Regional Geology and Sedimentology; Eötvös Loránd University, Budapest)
  • István Gábor HATVANI (Geomathematics; Institute for Geological and Geochemical Research, Budapest)
  • Henry M. LIEBERMAN (Language Editor; Salt Lake City)
  • János KOVÁCS (Quaternary geology; University of Pécs)
  • Szilvia KÖVÉR (Sedimentology; Eötvös Loránd University, Budapest)
  • Tivadar M. TÓTH (Mineralogy; Petrology    University of Szeged)
  • Stephen J. MOJZSIS (Petrology, geochemistry and planetology; University of Colorado Boulder)
  • Norbert NÉMETH (Structural geology; University of Miskolc)
  • Attila ŐSI (Paleontology; Eötvös Loránd University, Budapest)
  • József PÁLFY (Fossils and Stratigraphic Records; Eötvös Loránd University, Budapest)
  • György POGÁCSÁS (Petroleum Geology; Eötvös Loránd University, Budapest)
  • Krisztina SEBE (Tectonics, sedimentology, geomorphology University of Pécs)
  • Ioan SEGHEDY (Petrology and geochemistry; Institute of Geodynamics, Bucharest)
  • Lóránd SILYE (Paleontology; Babeș-Bolyai University, Cluj-Napoca)
  • Ákos TÖRÖK (Applied and Environmental Earth Sciences; Budapest University of Technology and Economics, Budapest)
  • Norbert ZAJZON (Petrology and geochemistry; University of Miskolc)
  • Ferenc MOLNÁR (ore geology, geochemistry, geochronology, archaeometry; Geological Survey of Finland, Espoo)

Advisory Board

Due to the changes in editorial functions, the Advisory Board has been terminated. The participation of former Advisory Board members is highly appreciated and gratefully thanked.

CENTRAL EUROPEAN GEOLOGY
Institute for Geochemical Research
Hungarian Academy of Sciences
Address: Budaörsi út 45. H-1112 Budapest, Hungary
Phone: (06 1) 309 2681
Phone/fax: (06 1) 319 3137
E-mail: demeny@geochem.hu

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2023  
Scopus  
CiteScore 1.4
CiteScore rank Q3 (Geology)
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Central European Geology
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Central European Geology
Language English
Size Vol 1-63: B5
Vol 64- : A4
Year of
Foundation		 2007 (1952)
Volumes
per Year		 1
Issues
per Year		 2
Founder Magyar Tudományos Akadémia  
Founder's
Address		 H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó
Publisher's
Address		 H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
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Publisher		 Chief Executive Officer, Akadémiai Kiadó
ISSN 1788-2281 (Print)
ISSN 1789-3348 (Online)

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