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Tectonic classification of vertical crustal motions – a case study for New Zealand

margin, New Zealand. J. Geophys. Res., 102 , B11, 24931–24952, doi: 10.1029/97JB01384. Bar-Sever Y. E., Kroger P. M., Borjesson J. A., 1998: Estimating horizontal gradients of tropospheric path delay with a single GPS receiver. J. Geophys. Res, 103 , B3, 5019–5035. Batt G. E., Braun J., 1999: The tectonic evolution of the Southern Alps, New Zealand: insights from fully thermally coupled dynamical modelling. Geophys. J. Int. 136 , 2, 403–420, doi: 10.1046/j.1365-246X.1999.00730.x. Beanland S., 1995: The North Island dextral fault belt, Hikurangi

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Stratigraphy and tectonics of a tectonic window in the Magura Nappe (Świątkowa Wielka, Polish Outer Carpathians)

: Geological structure of the Klęczany-Limanowa tectonic window. In: Zuchiewicz W. & Oszczypko N. (Eds.): Guide book of the 63 Annual Meeting of Polish Geological Society (Koninki, September 17-19, 1992) , Kraków, 171-179 (in Polish only). CGA PIG: Central Geological Archive of the Polish Geological Institute. http://baza.pgi.gov.pl/pi_wiercenia Cicha I., Rögl F., Rupp Ch. & Čtyroká J. 1998: Oligocene-Miocene foraminifera of the Central Paratethys. Abh. Senckenberg. Naturförsch. Gesell. 549, 1

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Investigation of Changes of the Kinematic Parameters of Antarctic Tectonic Plate Using Data Observations of Permanent GNSS Stations

-2042. Bowin, C. (2010). Plate tectonics conserves angular momentum, eEarth, 5, 1-20, DOI:10.5194/ee-5-1-2010. Berrocoso M., Fernández-Ros A., Prates G., García A. & Kraus S. (2016). Geodetic implications on block formation and geodynamic domains in the South Shetland Islands, Antarctic Peninsula, Tectonophysics 666 (2016) 211-219. Capra A., Gandolfi S., Mancini F.,Sarti P. & Vittuari L. (2002),“VLNDEF project for crustal deformation control of northern Victoria land” AGS ’01 (Antarctic Geodesy Symposium), St.Petersburg, 2002, N.21, pp.8

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Local tectonic deformations measured by extensometer at the eastern foothills of the Alps at the Sopronbánfalva Geodynamic Observatory, Hungary

. Geological Society of America Special Papers, 425 , 16, 243–262, doi: 10.1130/2007.2425(16). Bada G., Horváth F., Dövényi P., Szafián P., Windhoffer G., Clothing S., 2007b: Present-day stress field and tectonic inversion in the Pannonian basin. Glob. Planet. Change, 58 , 1-4, 165–180, doi: 10.1016/j.gloplacha.2007.01.007. Bán D., Mentes Gy., Kis M., Koppán A., 2018: Observation of the Earth liquid core resonance by extensometers. Pure Appl. Geophys., 175 , 5, 1631–1642, doi: 10.1007/s00024-017-1724-6. Bogusz J., Figurski M., Kontny B., Grzempowski P

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The tectonic evolution of Lake Eğirdir, West Turkey

. Robertson & D. Mountrakis (Eds): Tectonic development of the Eastern Mediterranean region. Geological Society, London, Special publications 260, 591-611. Barka, A. & Reilinger, R., 1997. Active tectonics of the Eastern Mediterranean region: deduced from GPS, neotectonic and seismicity data. Annali di Geofizica 40, 587-602. Barka, A., Reilinger, R., Şaroğlu, F. & Sengör, A. M. C., 1995. The Isparta Angle: its evolution and importance in the tectonics of the Eastern Mediterranean region. International Earth Science

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Architectonic Quality of Industrial Log Architecture in the Scope of Tectonics – Learning from Architectural Competitions

Institute of Technology and Rio Kulturkooperativ, 2013. 349 p. 4. Hvejsel, M. F., Beim, A., Bundgaard, C. Tectonic Vocabulary and Materialization - Discourse on the Future of Tectonic Architectural Research in the Nordic Countries [online]. Nordic Journal of Architectural Research, 2015, Vol. 27, No. 1, pp. 85–101 [cited 1.09.2018]. http://arkitekturforskning.net/na/article/view/505 5. Nilsson, F. Architectural Assemblages and Materializations–changing Notions of Tectonics and Materiality in Contemporary Architecture [online]. In: Cruz, P. J. S. (ed

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Extensometric observation of Earth tides and local tectonic processes at the Vyhne station, Slovakia

. Bull. d’Inf. Marées Terr., 110 , 7936–7939. Mentes Gy., 2008: Observation of recent tectonic movements by extensometers in the Pannonian Basin. Journal of Geodynamics, 45 , 169–177. Mentes Gy., 2010: Quartz tube extensometer for observation of Earth tides and local tectonic deformations at the Sopronbánfalva Geodynamic Observatory, Hungary. Rev. Sci. Instrum., 81 , 074501, doi: 10.1063/1.3470100. Šalát J., 1954: Petrography and petrochemistry of the eruptive rocks in the Hodruša-Vyhne area (Petrografia a petrochémia eruptívnych hornín v oblasti

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Polyphase tectonic evolution of the Aksu Basin, Isparta Angle (Southern Turkey)

-203. Angelier J. 1991: Inversion of field data in fault tectonics to obtain regional stress. III. A new rapid direct inversion method by analytical means. Geophys. J. Int. 103, 63-76. Angelier J. 1994: Fault slip analysis and paleostress reconstruction. In: Hancock P.L. (Ed.): Continental deformation. Pergamon, Oxford, 101-120. Barka A.A., Reilinger R., uaroğlu F. & uengör A.M.C. 1997: The Isparta Angle: its importance in the neotectonics of the Eastern Mediterranean Region. In: Pikkin O., Ergün M., Savakçln M.Y. & Tarcan G. (Eds.): Proceedings

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Geochemistry of the Permian sandstones from the Malužiná Formation in the Malé Karpaty Mts (Hronic Unit, Western Carpathians, Slovakia): implications for source-area weathering, provenance and tectonic setting

References Argast S. & Donnelly T.W. 1987: The chemical discrimination of clastic sedimentary components. J. Sed. Petrology 57, 813-823. Armstrong-Altrin J.S. & Verma S.P. 2005: Critical evaluation of six tectonic setting discrimination diagrams using geochemical data of Neogene sediments from known tectonic settings. Sed. Geol. 177, 115-129. Asiedu D.K., Suzuki S., Nogami K. & Shibata T. 2000: Geochemistry of Lower Cretaceous sediments, Inner Zone of Southwest Japan: Constraints on provenance and

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Stratigraphic and tectonic control of deep-water scarp accumulation in Paleogene synorogenic basins: a case study of the Súľov Conglomerates (Middle Váh Valley, Western Carpathians)

-298. 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. D. Štúr Geological Institute, Bratislava. Blow W.H. 1979: The Cainozoic Globigerinidae. 3 vols., E.J. Brill, Leiden, 1-1452. Bučová J. 2013: Geological structure and tectonic development of the western part of the Pieniny Klippen Belt. PhD Thesis, Faculty of Natural Sciences, Comenius University in Bratislava, 1-147 (in Slovak

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