New advances of understanding physical volcanology processes in the Carpathian-Balkan Region from a global perspective

Károly Németh 1  und Zoltán Pécskay 2
  • 1 Department of Soil and Earth Sciences, Massey University, Palmerston North, New Zealand
  • 2 Institute of Nuclear Research of the Hungarian Academy of Sciences, Debrecen, Hungary

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  • [1] Seghedi L., Downes H., Harangi S., Mason P.R.D., Pecskay Z., Geochemical response of magmas to Neogene-Quaternary continental collision in the Carpathian-Pannonian region: A review, Tectonophysics, 2005, 410, 485–499 http://dx.doi.org/10.1016/j.tecto.2004.09.015

  • [2] Seghedi I., Downes H., Vaselli O., Szakács A., Balogh K., Pécskay Z., Postcollisional Tertiary-Quaternary mafic alkalic magmatism in the Carpathian-Pannonian region:a review, Tectonophysics, 2004, 393, 43–62 http://dx.doi.org/10.1016/j.tecto.2004.07.051

  • [3] Seghedi I., Downes H., Szakács A., Mason P.R.D., Thirlwall M.F., Rosu E., Pécskay Z., Márton E., Panaiotu C., Neogene-Quaternary magmatism and geodynamlcs In the Carpathlan-Pannonlan region: a synthesis, Llthos, 2004, 72, 117–146 http://dx.doi.org/10.1016/j.lithos.2003.08.006

  • [4] Seghedi L., Downes H., Pecskay Z., ThirlwalL M.F., Szakacs A., Prychodko M., Mattey D., Magmagenesls in a subduction-related post-coLLlslonaL volcanic arc segment: the Ukrainian Carpathians, Lithos, 2001, 57, 237–262 http://dx.doi.org/10.1016/S0024-4937(01)00042-1

  • [5] Seghedi I., Balintoni I., Szakacs A., Interplay of tectonics and neogene post-collisional magmatism in the Intracarpathian region, Lithos, 1998, 45, 483–497 http://dx.doi.org/10.1016/S0024-4937(98)00046-2

  • [6] Harangi S., Lenkey L., Genesis of the Neogene to Quaternary volcanism in the Carpathian — Pannonian region: Role of subduction, extension, and mantle plume, Geol. S. Am. S., 2007, 418, 67–90

  • [7] Harangi S., Downes H., Thirlwall M., Gmeling K., Geochemistry, petrogenesis and geodynamic relationships of miocene calc-alkaline volcanic rocks in the western carpathian arc, eastern central Europe, J. Petrol., 2007, 48, 2261–2287 http://dx.doi.org/10.1093/petrology/egm059

  • [8] Harangi S., Downes H., Seghedi I., Tertiary-Quaternary subduction processes and related magmatism in Europe. In: Gee D.G., Stephenson R.A. (Eds.), European Lithosphere Dynamics, Geological Society of London, London, 2006, 167–190

  • [9] Harangi S., Neogene magmatism in the Alpine-Pannonian Transition Zone — a model for melt generation in a complex geodynamic setting, Acta Vulcanologica, 2001, 13, 25–39

  • [10] Szabó C., Harangi S., Csontos L., Review of Neogene and Quaternary Volcanism ofthe Carpathian Pannonian Region, Tectonophysics, 1992, 208, 243–256 http://dx.doi.org/10.1016/0040-1951(92)90347-9

  • [11] Seghedi I., Ntaflos T., Pécskay Z., The Gâtaia Pleis-tocene lamproite: a new occurrence at the southeastern edge of the Pannonian Basin, Romania, Geol. Soc. Spec. Publ. 2008, 293, 83–100, DOI:10.1144/SP293.5 http://dx.doi.org/10.1144/SP293.5

  • [12] Seghedi I., Bojar A.V., Downes H., Rosu E., Tonarini S., Mason, P.R.D., Generation of normal and adakitelike calc-alkaline magmas in a non-subductional environment: A Sr-O-H isotopic study of the Apuseni Mountains Neogene magmatic province, Romania, Chem. Geol., 2007, 245, 70–88 http://dx.doi.org/10.1016/j.chemgeo.2007.07.027

  • [13] Seghedi I., Szakacs A., Pécskay Z., Mason P.R.D., Eruptive history and age of magmatic processes in the Calimani volcanic structure (Romania), Geol. Carpath., 2005, 56, 67–75

  • [14] Papp D.P., Ureche I., Seghedi I., Downes H., Dallai L., Petrogenesis of convergent margin calc-alkaline rocks and the significance of low-isotope oxygen ratio: the Rodna-Bárgau Neogene subvolcanic area (Eastern Carpathians), Geol. Carpath. 2005, 56, 77–90

  • [15] Pécskay Z., Edelstein O., Seghedi, I., Szakács A., Kovács M., Crihan M., Berrnád A. (1995): K-Ar datings of Neogene-Quaternary volcanic rocks in Romania Acta Vulcanologica 7(2), 53–61

  • [16] Roşu E., Seghedi I., Downes H., Alderton D.H.M., Szakács A., Pécskay Z., Panaiotu C., Panaiotu C.E., Nedelcu L., Extension-related Miocene calc-alkaline magmatism in the Apuseni Mountains, Romania: origin of magmas, Swiss Bulletin of Mineralogy and Petrology, 2004, 84, 153–172

  • [17] Seghedi I., Szakács A., Mason P.R.D., Petrogenesis and magmatic evolutions in the East Carpathians Neogene volcanic arc (Romania), Acta Vulcanologica 1995, 7, 135–145

  • [18] Lukacs R., Harangi S., Ntaflos T., Mason P.R.D., Silicate melt inclusions in the phenocrysts of the Szomolya Ignimbrite, Bukkalja Volcanic Field (Northern Hungary): Implications for magma chamber processes, Chem. Geol., 2005, 223, 46–67 http://dx.doi.org/10.1016/j.chemgeo.2005.03.013

  • [19] Harangi S., Mason P.R.D., Lukacs R., Correlation and petrogenesis of silicic pyroclastic rocks in the Northern Pannonian Basin, Eastern-Central Europe: In situ trace element data of glass shards and mineral chemical constraints, J. Volcanol. Geoth. Res., 2005, 143, 237–257 http://dx.doi.org/10.1016/j.jvolgeores.2004.11.012

  • [20] Gméling K., Harangi S., Kasztovszky Z., Boron and chlorine concentration of volcanic rocks: an application of prompt gamma activation analysis, J. Radioanal. Nucl. Chem., 2005, 265, 201–214 http://dx.doi.org/10.1007/s10967-005-0810-x

  • [21] Harangi S., Downes H., Kosa L., Szabo C., Thirlwall M.F., Mason P.R.D., Mattey D., Almandine garnet in calc-alkaline volcanic rocks of the northern Pannonian Basin (Eastern-Central Europe);geochemistry, petrogenesis and geodynamic implication,. J. Petrol., 2001, 42, 1813–1843 http://dx.doi.org/10.1093/petrology/42.10.1813

  • [22] Pécskay Z., Seghedi I., Kovacs M., Szakács A., Fülöp A., Geochronology of the Neogene calc-alkaline intrusive magmatism in the “Subvolcanic Zone” of the Eastern Carpathians (Romania), Geol. Carpath., 2009, 60, 181–190 http://dx.doi.org/10.2478/v10096-009-0012-5

  • [23] Pécskay Z., Lexa J., Szakács A., Seghedi I., Balogh K., Koneĉný V., Zelenka T., Kovacs M., et al., Geochronology of Neogene-Quaternary magmatism in the Carpathian arc and Intra-Carpathian area: a Review, Geol. Carpath., 2006, 57, 511–530

  • [24] Seghedi I., Szakács A., Snelling N.J., Pécskay Z., Evolution of the Neogene Gurghiu Mountains volcanic range (Eastern Carpathians, Romania), based on K-Ar geochronology, Geol. Carpath., 2004, 55, 325–332

  • [25] Panaiotu C.G., Pécskay Z., Hambach U., Seghedi I., Panaiotu C.C., Itaya C.E.T., Orleanu M., Szakács A., Short-lived Quaternary volcanism in the Perşani Mountains (Romania) revealed by combined K-Ar and paleomagnetic data, Geol. Carpath., 2004, 55, 333–339

  • [26] Pécskay Z., Seghedi I., Downes H., Prychodko M., Mackiv B., K/Ar dating of Neogene calc-alkaline volcanic rocks from Transcarpathian Ukraine, Geol. Carpath., 2000, 51, 83–89

  • [27] Póka T., Seghedi I., Márton E., Zelenka T., Péc-skay Z., Miocene volcanism of the Cserhát Mts (N Hungary): Integrated volcano-tectonic, geochronologic and petrochemical study, Acta Geologica Hungarica, 2004, 47, 221–246 http://dx.doi.org/10.1556/AGeol.47.2004.2-3.7

  • [28] Szakács A., Seghedi I., Large volume volcanic debris avalanche in the East Carpathians, Romania. In: Leyrit H., Montenat C. (Eds.), Volcaniclastic rocks, from magmas to sediments, H. Gordon Breach Science Publishers, Amsterdam, The Netherland, 2000, 131–151

  • [29] Szakács A., Zelenka T., Márton E., Pécskay Z., Póka T., Seghedi I., Miocene acidic explosive volcanism in the Bükk Foreland, Hungary; identifying eruptive sequences and searching for source locations, Acta Geologica Hungarica, 1998, 41, 413–435

  • [30] Szakács A., Seghedi I., Volcaniclastic sequences around andesite stratovolcanoes, East Carpathians, Romania, Romanian Journal of Petrology, 1996, 77, 1–55

  • [31] Szakács A., Seghedi I., The Calimani-Gurghiu-Harghita volcanic chain, East Carpathians, Romania: Volcanological features, Acta Vulcanologica, 1995, 7, 145–153

  • [32] Seghedi I., Szakács A., The Upper Pliocene- Pleistocene effusive and explosive basaltic volcanism from the Persani Mountains, Romanian Journal of Petrology, 1994, 76, 101–107

  • [33] Karátson D., Oláh I., Pécskay Z., Márton E., Harangi S., Dulai A., Zelenka T., Kósik S., Miocene volcanism in the Visegrad Mountains (Hungary): an integrated approach to regional volcanic stratigraphy, Geol. Carpath., 2007, 58, 541–563

  • [34] Németh K., Martin U., Harangi S., Miocene phreatomagmatic volcanism at Tihany (Pannonian Basin, Hungary), J. Volcanol. Geoth. Res., 2001, 111, 111–135 http://dx.doi.org/10.1016/S0377-0273(01)00223-2

  • [35] Karátson D., Csontos L., Harangi S., Székely B., Kovácsvolgyi S., Thouret J.C., Volcanic successions and the role of destructional events in the western Matra Mountains, Hungary; implications for the volcanic structures, Geomorphologie, 2001, 2001, 79–92

  • [36] Karátson D., Márton E., Harangi S., Józsa S., Balogh K., Pécskay Z., Kovácsvolgyi S., Szakmány et al., Volcanic evolution and stratigraphy of the Miocene Börzsöny Mountains, Hungary: An integrated study, Geol. Carpath., 2000, 51, 325–343

  • [37] Karátson D., Németh K., Székely B., Ruszkiczay- Rïdiger Z., Pécskay Z., Incision of a river curvature due to exhumed Miocene volcanic landforms: Danube Bend, Hungary, Int. J. Earth Sci., 2006, 95, 929–944 http://dx.doi.org/10.1007/s00531-006-0075-9

  • [38] Karátson D., Timár G., Comparative volumetric calculations of two segments of the Carpathian Neogene/Quaternary volcanic chain using SRTM elevation data: implications for erosion and magma output rates, Zeitschrift für Geomorphologie, 2005, 140, 19–35

  • [39] Székely B., Karátson D., DEM-based morphometry as a tool for reconstructing primary volcanic landforms: examples from the Borzsony Mountains, Hungary, Geomorphology, 2004, 63, 25–37 http://dx.doi.org/10.1016/j.geomorph.2004.03.008

  • [40] Karatson D., Sztano O., Telbisz T., Preferred clast orientation in volcaniclastic mass-flow deposits: Application of a new photo-statistical method, J. Sediment. Res., 2002, 72, 823–835 http://dx.doi.org/10.1306/040402720823

  • [41] Karátson D., Németh K., Lithofacies associations of an emerging volcaniclastic apron in a Miocene volcanic complex: an example from the Borzsony Mountains, Hungary, Int. J. Earth Sci., 2001, 90, 776–794 http://dx.doi.org/10.1007/s005310100193

  • [42] Németh K., Goth K., Martin U., Csillag G., Suhr P., Reconstructing paleoenvironment, eruption mechanism and paleomorphology ofthe Pliocene Pula maar, (Hungary), J. Volcanol. Geoth. Res., 2008, 177, 441–456 http://dx.doi.org/10.1016/j.jvolgeores.2008.06.010

  • [43] Martin U., Németh K., Blocky versus fluidal peperite textures developed in volcanic conduits, vents and crater lakes of phreatomagmatic volcanoes in Mio/Pliocene volcanic fields of Western Hungary, J. Volcanol. Geoth. Res., 2007, 159, 164–178 http://dx.doi.org/10.1016/j.jvolgeores.2006.06.010

  • [44] Koneĉný V., Lexa J., Evolution of the phreatomag-matic/extrusive/intrusive complex of the Bulhary maar-diatreme volcano in Southern Slovakia, Geolines, 2003, 15, 47–51

  • [45] Lexa J., Stohl J., Konecny V., The Banska Stiavnica ore district: relationship between metallogenetic proesses and the geological evolution ofa stratovolcano, Mineralium Deposita, 1999, 34, 639–654 http://dx.doi.org/10.1007/s001260050225

  • [46] Konecny V., Lexa J., Hojsricová V., The Central Slovakian volcanic Field: a review, Acta Vulcanologica 1995, 7, 63–78

  • [47] [47] Sigurdsson H., Houghton B.F., McNutt S.R., Rymer H., Stix J. (Eds.), Encyclopedia of Volcanoes. San Diego: Academic Press, 2000

  • [48] Fisher R.V., Schmincke H.U., Pyroclastic Rocks. Heidelberg, Springer, 1984

  • [49] Cas R.A.F., Wright J.V., Volcanic Successions, Modern and Ancient, Allen and Unwin, London Boston Sydney Wellington, 1987

  • [50] McPhie J., Doyle M., Allen R., Volcanic Textures. New advances of understanding physical volcanology processes in the Carpathian-Balkan Region from a global perspective A guide to the interpretation of textures in volcanic rocks. Tasmanian Government Printing Office, Tasmania, 1993

  • [51] White J.D.L., Houghton B.F., Primary volcaniclastic rocks, Geology, 2006, 34, 677–680 http://dx.doi.org/10.1130/G22346.1

  • [52] Skilling I.P., White J.D.L., McPhie J., Peperite: a review of magma-sediment mingling, J. Volcanol. Geoth. Res., 2002, 114, 1–17 http://dx.doi.org/10.1016/S0377-0273(01)00278-5

  • [53] Manville V., Németh K., Kano K., Source to sink: A review of three decades ofprogress in the understanding of volcaniclastic processes, deposits, and hazards, Sediment. Geol., 2009, 220, 136–161

  • [54] Ross P.S., Peate I.U., McClintock M.K., Xu Y.G., Skilling I.P., White J.D.L., Houghton B.F., Mafic volcaniclastic deposits in flood basalt provinces: A review, J. Volcanol. Geoth. Res., 2005, 145, 281–314 http://dx.doi.org/10.1016/j.jvolgeores.2005.02.003

  • [55] Stroncik N.A., Schmincke H.U., Palagonite — a review, Int. J. Earth Sci., 2002, 91, 680–697 http://dx.doi.org/10.1007/s00531-001-0238-7

  • [56] McGuire W.J., Volcano instability: a review of contemporary themes. In: McGuire W.J., Jones (Eds.), Volcano Instability on the Earth and Other Planets, Geological Society of London, London, 1996

  • [57] Barberi F., Bertagnini A., Landi P., Principe C., A review on phreatic eruptions and their precursor, J. Geophys. Res., 1992, 52, 231–246

  • [58] Stix J., Subaqueous, intermediate to silicic-composition explosive volcanism — a review, Earth-Sci. Rev., 1991, 31, 21–53 http://dx.doi.org/10.1016/0012-8252(91)90041-D

  • [59] Lorenz V., Maars and diatremes of phreatomagmatic origin: a review, Transactions of the Geological Society of South Africa, 1985, 88, 459–470

  • [60] White J.D.L., Subaqueous eruption-fed density currents and their deposits, Precambrian Res., 2000, 101, 87–109 http://dx.doi.org/10.1016/S0301-9268(99)00096-0

  • [61] White J.D.L., The depositional record of small, monogenetic volcanoes within terrestrial basins. In: Fisher R.V., Smith G.A. (Eds.), Sedimentation in Volcanic Settings, Society for Sedimentary Geology, Tulsa (Oklahoma), 1991, 155–171 http://dx.doi.org/10.2110/pec.91.45.0155

  • [62] Lipman P.W., Self S., Heiken G., Calderas and associate igneous rocks - Introduction, J. Geophys. Res., 1984, 89, 8219–8221 http://dx.doi.org/10.1029/JB089iB10p08219

  • [63] Németh K., Martin U., Practical Volcanology, Occasional Papers of the Geological Institute of Hungary, Budapest, 2007, 207, 1–221

  • [64] Lexa J., Seghedi I., Németh K., Szakács A., Konecny V., Pécskay Z., Fülöp A., Kovacs M., Neogene-Quaternary Volcanic forms in the Carpathian-Pannonian Region: a review, Central European Journal of Geosciences, 2010, in press

  • [65] Bachmann O., The petrologic evolution and preeruptive conditions of the rhyolitic Kos Plateau Tuff (Aegean arc). Central European Journal of Geosciences, 2010, in press

  • [66] Stewart R.B., Németh K., S.J.C., Is Efate (Vanuatu, SW Pacific) a result of subaerial or submarine eruption? An alternative model for the 1 Ma Efate Pumice Formation, Central European Journal of Geosciences, 2010, in press

  • [67] Seghedi I., Szakács S., Roşu E., Pécskay Z., Gmeling K., Note on the evolution of a Miocene composite volcano in an extensional setting, Zarand Basin (Apuseni Mts., Romania), Central European Journal of Geosciences, 2010, in press

  • [68] Stewart R.B., Andesite petrogenesis in the Tongariro and Taranaki volcanic centres, New Zealand — A review, Central European Journal of Geosciences, 2010, in press

  • [69] Németh K., Cronin S.J., Haller M.J., Brenna M., Csillag G., Modern analogues for Miocene/Pliocene alkali basaltic phreatomagmatic fields in the Pannonian Basin: “soft-substrate” and “combined” aquifer controlled phreatomagmatism in intraplate volcanic fields, Central European Journal of Geosciences, 2010, in press

  • [70] Kereszturi G., Csillag G., Németh K., Sebe K., Balogh K., Volcanic architecture, eruption mechanism and landform evolution of a Plio/Pleistocene intracontinental basaltic polycyclic monogenetic volcano from the Bakony-Balaton Highland Volcanic Field, Hungary, Central European Journal of Geosciences, 2010, in press

  • [71] Balogh K., Németh K., Itaya T., Molnár F., Stewart R., Thanh N.X., Hyodo H., Loss of 40Ar(rad) from leucite-bearing basanite at low temperature: implications on K/Ar dating, Central European Journal of Geosciences, 2010, in press

  • [72] Németh K., Volcanic glass textures, shape characteristics and compositions from phreatomagmatic rock units of the western Hungarian monogenetic volcanic fields and their implication to magma fragmentation. Central European Journal of Geosciences, 2010, in press

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