New magnetic anomalies of the Outer Carpathians in NE Slovakia and their relationship to the Carpathian Conductivity Zone

Kucharič, L.; Bezák, V.; Kubeš, P.; Konečný, V.; Vozár, J.

Artykuł - szczegóły

Tytuł artykułu

New magnetic anomalies of the Outer Carpathians in NE Slovakia and their relationship to the Carpathian Conductivity Zone

Autorzy

Kucharič L. , Bezák V. , Kubeš P. , Konečný V. , Vozár J.

Treść / Zawartość

Pełne teksty:

Kucharic_L_New magnetic_Geol. Quart._Vol.57_No 1_2013.pdf

Pobierz

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

A hitherto unknown magnetic anomaly has been detected in the framework of assembling magnetic picture of the Slovakian territory. The impressive magnetic object was recognized in the northeasternmost part of Slovakia within the area which is created by sediments of the Flysch belt. This is certain rarity because the Flysch sequence is practically without magnetic rocks. Due to this was obvious that anomaly is caused by an exotic rocks complex, intruded into Flysch sediments. The shape and the character of anomalous body indicated that source of anomaly is located in the shallow depth under surface relatively. The anomaly has been modelled in the 2D. Source of magnetic anomaly was interpreted as the product of Neogene volcanism – neck of intermediate rocks. Besides of this there were found out other minor anomalies within this area which might be caused also by smaller subvolcanic bodies. The Carpathian Conductivity Anomaly is located in the proximity of new observed magnetic anomalies. Due to this fact it is possible to open new view on the importance of this zone. In the case of justification of such interpretation the area might be interesting for its potential prognosis of hydrocarbons occurrence, metallogenetic prominence, as well as possibilities for underground storage of carbon dioxide.

Słowa kluczowe

Western Carpathians Flysch belt Magnetic anomalies Subvolcanic bodies Carpathian Conductivity Anomaly

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2013

Tom

Vol. 57, No. 1

Strony

123–--134

Opis fizyczny

Bibliogr. 60 poz., rys., tab.

Twórcy

autor

Kucharič L.

ludovit.kucharic@geology.sk

State Geological Institute of Dionýz Štúr, Bratislava, Mlynská dolina 1, 817 04 Bratislava, Slovakia

autor

Bezák V.

Geophysical Institute of the Slovak Academy of Sciences, Dúbravská cesta 9, 845 28 Bratislava, Slovakia

autor

Kubeš P.

State Geological Institute of Dionýz Štúr, Bratislava, Mlynská dolina 1, 817 04 Bratislava, Slovakia

autor

Konečný V.

State Geological Institute of Dionýz Štúr, Bratislava, Mlynská dolina 1, 817 04 Bratislava, Slovakia

autor

Vozár J.

Geophysical Institute of the Slovak Academy of Sciences, Dúbravská cesta 9, 845 28 Bratislava, Slovakia

Bibliografia

1. Ádám A. (2001) Anattempt to map the depth of the electrical asthenosphere by deep magnetotelluric measurements in the Pannonian basin (Hungary). Acta Geologica Hungarica, 44: 197-192.
2. Behrmann J.H., Stiasny S., Milička J., Pereszlényi M. (2000) Quantitative reconstruction of orogenic convergence in the northern Carpathians. Tectonophysics, 319: 111-127.
3. Berdichevski M.N., Dmitriev V.I. (1976) Distorsion of magnetic and electrical fields by near-surface lateral inhomogenities. Acta Geodaetica, Geophysica et Montanistica Academiae Scientarium Hungaricae, 11: 447-483.
4. Bezák V., Šefara J., Bielik M., Kubeš P. (1997) Models of the Western Carpathians lithosphere. In: Geological Evolution of the Western Carpathians (eds. P. Grecula et al.): 25-34. Mineralia Slovaca-Monograph, Bratislava.
5. Bezák V., Broska I., Ivanička J., Reichwalder P., Vozár J., Polák M., Havrila M., Mello J., Biely A., Plašienka D., Potfaj M., Konečný V., Lexa J., Kaličiak M., Žec B., Vass D., Elečko M., Janočko J., Pereszlényi M., Marko M., Maglay J., Pristaš J. (2004) Tectonic map of the Slovak Republic 1:500 000. ŠGÚDŠ Bratislava.
6. Bezák V., Biely A., Elečko M., Konečný V., Mello J., Polák M., Potfaj M. (2011) A new synthesis of the geological structure of Slovakia - the general geological map at 1:200 000 scale. Geological Quarterly, 55 (1): 1-8.
7. Bielik M. (1998) Analysis of the gravity field in the Western and Eastern part of Carpathian junction area: density modeling. Geologica Carpathica, 46: 75-83.
8. Bielik M., Šefara J., Kováč M., Bezák V., Plašienka D. (2004) The Western Carpathians - interaction of Hercynian and Alpine processes. Tectonophysics, 393: 63-86.
9. Biely A., Bezák V., Elečko M., Kaličiak M., Konečný V., Lexa J., Mello J., Nemčok J., Potfaj M., Rakús M., Vass D., Vozár J., Vozárová A. (1996) Geological map of Slovak Republic 1:500 000. GÚDŠ Bratislava.
10. Birkenmajer K., Lorenc W.M. (2008) Lower Cret aceous exotic intraplate basaltoid olistolith from Biała Woda, Pieniny Klippen Belt, Poland: geochemistry and provenance. Studia Geologica Polonica, 131: 237-246.
11. Birkenmajer K., Pécskay Z., Szeliga W. (2004) Age relationships between Miocene volcanism and hydrothermal activity at Mt. Jarmuta, Pieniny Klippen Belt, West Carpathians, Poland. Studia Geologica Polonica, 123: 279-294.
12. Cieszkowski M. (2003) The Outer Carpathians thrustbelt. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic, 28 (363): 107-110.
13. Csontos L., Nagymarosy A., Horváth F., Kováč M. (1992) Tertiary evolution of the intra-Carpathian area: a model. Tectonophysics, 208: 221-241.
14. Červ V., Pek J., Praus O. (1984) Models of geophysical anomalies in Czechoslovakia. Journal of Geophysics, 55: 61-168.
15. Ďurkovič T., Koráb T., Rudinec R., Gašparíková V., Snopková P., Köhler E., Zakovič M. (1982) Hlboký štruktúrny vrt Zboj-1. Regionalna Geológia Západných Karpát, 16: 1-76.
16. Filo M., Konečný V., Kubeš P., Šimon L., Dublan Š., Kaličiak M., Lexa J., Gluch A. (2003) Zdroje magnetických anomálií v neovulkanitoch Slovenska. Geologicke Práce - Správy, 107: 47-172.
17. Franko O., Remšík A., Fendek M., Fusán O., Král' M., Bodiš D., Drozd V., Vika K., eds. (1995) At I as of geothermal energy of Slovakia. GÚDŠ Bratislava.
18. Gągała Ł., Vergés J., Saura E., Malata T., Ringenbach J.-C., Werner P., Krzywiec P. (2012) Architecture and orogenic evolution of the northeastern Outer Carpathians from cross-section balancing and forward modelling. Tectonophysics, 532-535: 223-241 .
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): 70-84.
20. Golonka J. (2004) Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic. Tectonophysics, 381: 235-273.
21. Golonka J., Aleksandrowski P., Aubrecht R., Chowaniec J., Chrustek M., Cieszkowski M., Florek R., Gawęda A., Jarosiński M., Kępińska B., Krobicki M., Lefeld J., Lewandowski M., Marko F., Michalik M., Oszczypko N., Picha F., Potfaj M., Słaby E., Ślączka A., Stefaniuk M., Uchman A., Żelaźniewicz A. (2005) The Orava Deep Drilling Project and post-Palaeogene tectonics of the Northern Carpathians. Annales Societatis Geologorum Poloniae, 75: 211-248.
22. Hrušecký I., Kotulová J., Baráth I., Kubeš P., Ďurkovič T., Fejdi V., Pereszlényi M., Nemčok M., Janočko J. (2003) Uhl’ovodíkový potenciál východoslovenského neogénu a prifahlých oblastí flyšového pásma. Manuscript. Geofond, ŠGÚDŠ Bratislava.
23. Hvožďara M., Vozár J. (2004) Laboratory and geophysical implications for explanation of the nature of the Carpathian Conductivity Anomaly. Acta Geophysica Polonica, 52: 497-508.
24. Janik T., Grad M., Guterch A., Vozár J., Bielik M., Vozárová A., Hegedüs E., Kovács C.A., Kovács I., Keller G.R., Celebration 2000 Work i ng Group (2011) Crustal structure of the Western Carpathians and Pannonian Basin: seismic models from Celebration 2000 data and geological implications. Journal of Geodynamics, 52: 97-113.
25. Jurewicz E., Nejbert K. (2005) Geotectonic position of the so-called “Pieniny Mts. andesites”. Mineralogical Society of Poland, Special Paper, 25: 179-183.
26. Konečný V., Kováč M., Lexa J., Šefara J. (2002) Neogene evolution of the Carpatho-Pannonian region: an interplay of subduction and back-arc diapiric uptise in the mantle. EGU Stephan Mueller Special Publication Series, 1: 105-123.
27. Koráb T. (1983) Geol ogl cal map of the Nízke Beskydy Mts., scale 1:50 000 - Eastern part. GÚDŠ, Bratislava.
28. Krejčí O., Poul I. (2010) Evidence of Middle Miocene thrust tectonics in the Bílé Karpaty Unit (Carpathian Flysch Belt). Geologické Výzkumy Moravy a Slezska: 58-63.
29. Krobicki M., Golonka J., Aubrecht R. (2003) Pieniny Klippen Belt: general geology and geodynamic evolution. Publications ofthe Institute of Geophysics, Polish Academy of Sciences, Monographic, M-28 (363): 25-33.
30. Krobicki M., Golonka J., Lewandowski M., Michalik M., Oszczypko N., Popadyuk I., Słaby E. (2004) Volcanism of the Jurassic-Cretaceous triple-junction zone in the Eastern Carpathians. Geolines, 17: 60-61.
31. Kubeš P., Kucharič L., Gluch A., Kohút M., Bezák V., Potfaj M. (2008) Magnetická mapa Slovenska. Final report Manuscript. Geofond, ŠGÚDŠ Bratislava.
32. Kubeš P., Bezák V., Kucharič L., Filo M., Vozár J., Konečný V., Kohút M., Gluch A. (2010) Magnetic field of the Western Carpathians (Slovakia): reflection structure of the crust. Geologica Carpathica, 61: 437-447.
33. Leško B., Ďurkovič T., Faber P., Filkova V., Hradil F., Janku J., Losík K., Píchová E., Rudinec R., Samuel O., Smetana J., Snopková P., Wunder D. (1987) Oporný vrt Smilno 1 (5 700 m). Regionálna Geológia Západných Karpát, 22: 1-133.
34. Lexa J., Konečný V. (1998) Geodynamic aspects of the Neogene to Quaternary volcanism. In: Geodynamic Development of the Western Carpathians (ed. M. Rakús): 219-240. Geological Survey of the Slovak Republic.
35. Lexa J., Bezák V., Elečko M., Mello J., Polák M., Potfaj M., Vozár J., eds. (2000) Geological map of the Western Carpathians and adjacent areas: scale 1:500 000. Geological Survey of Slovak Republic, Bratislava.
36. Maglay J., Halouzka R., Baňacký V., Pristaš J., Janočko J., Hók J. (1999) Neotectonic map of Slovakia and explanation 1:500 000. GÚDŠ Bratislava.
37. Mašín J. (1963) Aeromagnetická a aerorádiometrická mapa ČSSR v měřítku 1:200000. ÚÚG Praha.
38. Mišík M. (1992) Pieniny Klippen Belt in relationship with Mesozoic and Tertiary volcanism. Západné Karpaty, Geológia, 16: 47-64.
39. Mořkovský M., Novák J., Lukášová R. (1992) Geophysical prospectings for hydrocarbons in the Intracarpathian Paleogene and in the East Slovakian Flysch belt. Sborník geologických věd, Užitá Geofyzika, 25: 9-48.
40. Ondra P., Hanák J. (1989) Petrofyzikálna štúdia sedimentov východoslovenského flyša. Geologicke Práce - Správy, 89: 67-89.
41. Oszczypko N., Golonka J., Malata T., Poprawa P., Słomka T., Uchman A. (2002) Tectono-stratigraphic evolution ofthe Outer Carpathian basin (Western Carpathans, Poland). Geologica Carpathica, Special Issue, 53.
42. Pécskay Z., Lexa J., Szakács A., Szeghedi I., Balogh K., Konečný V., Zelenka T., Kovacs M., Póka T., Fülöp A., Márton E., Panaiotu C., Cvetković V. (2006) Geochronology of Neogene magmatism in the Carpathian arc and intra-Carpathian area. Geologica Carpathica, 57 (6): 511-530.
43. Pécskay Z., Seghedi I., Kovacs M., Szakacs A., Fülöp A. (2009) Geochronology of the Neogene calc-alkaline intrusive magmatism in the “Subvolcanic Zone” of the Eastern Carpathians (Romania). Geologica Carpathica, 60 (2): 1 81-1 90.
44. Plašienka D., Grecula P., Putiš M., Kováč M., Hovorka D. (1997) Evolution and structure of the Western Carpathians: an overview. In: Geological Evolution of the Western Carpathians (eds. P. Grecula, D. Hovorka and M. Putiš): 7-24. Mineralia Slovaca - Mono graph, Bratislava.
45. Planke S., Svensen H., Hovland M., Banks D.A., Jamtveit B. (2003) Mud and fluid migration in active mud volcanoes in Azerbaijan. Geo-Marine Letters, 23: 258-268.
46. Poprawa D., Nemčok J., eds. (1988-1989) Geological atlas of the Western Outer Carpathians. Scale 1:500 000. Wydawnictwa Geologiczne, Warszawa.
47. Pospíšil L., Ádám A. (2006) Review of the Crust - Lithosphere research in the Carpathians. AAPG Memoir, 84: 481-495.
48. Rudinec R. (1989) Crude oil, natural gas and geothermal energy resources in eastern Slovakia. ALFA publishing, Bratislava.
49. Ryłko W., Tomaś A. (1995) Morphology of the consoll dated basement of the Pollsh Carpathians in the light of magnetotelluric data. Geological Quarterly, 39 (1): 1-16.
50. Shinohara H. (2008) Excess degassing from volcanoes and its role on eruptive and intrusive activity. Reviews of Geophysics, 46: 1 -31 .
51. Ślączka A. (1970) Geology of the Dukla Unit (in Polish with English summary). Prace Instytutu Geologicznego, 63: 1-97.
52. Ślączka A., Kruglov S., Golonka J., Oszczypko N., Popadyuk I. (2006) The general geology of the Outer Carpathians, Pol and, Slovakia and Ukraine. AAPG Memoir, 84: 1-70.
53. Sparks R.S.J. (2003) Forecast volcanic eruption. Earth and Planetary Science Letters, 210: 1-15.
54. Stanica M., Stanica D., Marin-Furnica C. (1999) The placement of the Trans/European Suture Zone on the Romanian territory by electromagnetic arguments. Earth Planets Space, 51: 1 073-1 078.
55. Stefaniuk M. (2006) Some results of a new magnetotelluric survey in the area of the Polish Outer Carpathians. AAPG Memoir, 84: 707-71 6.
56. Svensen H., Planke S., Malthe-Sorenssen A., Jamtveit B., Myklebust R., Eidem T.R. , Rey S.S. (2004) Release of methane from a volcanic basin as a mechanism for initial Eocene global warming. Nature, 429: 524-527.
57. Szeliga W., Michalik M. (2003) Contact metamorphism and hydrothermal alterations around andesite intrusion of the Jarmuta hill, Pieniny (Poland). Geologica Carpathica, 46: 327-334.
58. Tari G., Horváth F. (2006) Alpine evolution and hydrocarbon geology of the Pannonian Basin: an overview. AAPG Memoir, 84: 605-61 8.
59. Tomek Č., Švancara J., Budík L. (1979) The depth and the origin of the West Carpathian gravity low. Earth and Planetary Science Letters, 44: 39-42.
60. Trua T., Birkenmayer K., Serim G., Pécskay Z. (2006) Petrography and geochemistry of Middle Miocene (Sarmatian) volcanic area of the Pieniny Mts., Western Carpathians. Lithos, 90: 57-76.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-1d5ad8e5-dcd1-4fb9-9ced-be1374056218