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Stratigraphic correlation potential of magnetic susceptibility and gamma-ray spectrometric variations in calciturbiditic facies (Silurian-Devonian boundary, Prague Synclinorium, Czech Republic)

. Palaeogeogr. Palaeoclimatol. Palaeoecol. 181, 67-90. Čáp P., Vacek F. & Vorel T. 2003: Microfacies analysis of Silurian and Devonian type sections (Barrandian, Czech Republic). Czech Geol. Surv., Spec. Pap. 15, 1-40. da Silva A. C. & Boulvain F. 2006: Upper Devonian carbonate platform correlations and sea level variations recorded in magnetic susceptibility. Palaeogeogr. Palaeoclimatol. Palaeoecol. 240, 373-388. da Silva A. C., Mabille C. & Boulvain F. 2009a: Influence of sedimentary setting

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Tectono-sedimentary analysis using the anisotropy of magnetic susceptibility: a study of the terrestrial and freshwater Neogene of the Orava Basin

. Soc. London, Spec. Publ. 105, 91-99. Garecka M. 2005: Calcareous nannoplankton from the Podhale Flysch (Oligocene-Miocene, Inner Carpathians, Poland). Stud. Geol. Pol. 124, 353-370. Graham J. W. 1954: Magnetic susceptibility anisotropy, an unexploited petrofabric element. Geol. Soc. Am. Bull. 65, 12, 1257-1258. Gravenor C. P. & Wong T. 1987: Magnetic and pebble fabrics and origin of the Sunnybrook Till, Scarborough, Ontario, Canada. Can. J. Earth Sci. 24, 10, 2038-2046. Gross P., Filo I., Halouzka R

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Magneto-, and isotope stratigraphy around the Jurassic/Cretaceous boundary in the Vysoká Unit (Malé Karpaty Mountains, Slovakia): correlations and tectonic implications

-240. Hladil J., Geršl M., Strnad L., Frana J., Langrová A. & Spišiak J. 2006: Stratigraphical variation of complex impurities in platform limestone and possible significance of atmospheric dust: a study with emphasis on gamma-ray spectrometry and magnetic susceptibility outcrop logging (Eifelian-Frasnian, Moravia, Czech Republic). Int. J. Earth Sci. 95, 703-723. Houša V., Krs M., Krsová M. & Pruner P. 1996: Magnetostratigraphy of Jurassic-Cretaceous limestones in the Western Carpathians. In: Morris A. & Tarling D. H. (Eds.): Paleomagnetism and

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The Odivelas Limestone: evidence for a Middle Devonian reef system in western Ossa-Morena Zone (Portugal)

. & Spišiak J. 2006: Stratigraphic variation of complex impurities in platform limestones and possible significance of atmospheric dust: a study with emphasis on gamma-ray spectrometry and magnetic susceptibility outcrop logging (Eifelian-Frasnian, Moravia, Czech Republic). Int. J. Earth Sci. 95, 4, 703-723. Iven C. 1980: Alveolitiden and Heliolitiden aus dem Mittle- und Oberdevon des Bergischen Landes (Rheinisches Schiefergebirge). Palaeontographica 167, 1-179. Jesus A., Mateus A., Waerenborgh J., Figueiras J., Alves

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Stratigraphy, plankton communities, and magnetic proxies at the Jurassic/Cretaceous boundary in the Pieniny Klippen Belt (Western Carpathians, Slovakia)

stratigraphy around the Jurassic/Cretaceous boundary in the Vysoká Unit (Male Karpaty Mountains): correlations and tectonic implications Geol. Carpath. 61 309 326 Grabowski J., Schnyder J., Sobień K., Koptiková L., Krzemiński L., Pszczółkowski A., Hejnar J. & Schnabl P. 2013: Magnetic susceptibility and spectra gamma logs in the Tithonian–Berriasian pelagic carbonates in the Tatra Mts (Western Carpathians, Poland): palaeoenvironmental changes at the Jurassic/Cretaceous boundary. Cretaceous Res. 27, 398–417. Grabowski J. Schnyder J. Sobień K

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Lamprophyric rock locations in Greece

. Evidence from mineralogical, spectroscopic and geochemical data in tourmaline-rich fault-related rocks. MSc Thesis, University of Athens, Athens, Greece, 87 p Zananiri, I. (2004). Contribution to the study of the geotectonic evolution of the Rhodope massif with the application of magnetic methods (AMS Anisotropy of Magnetic Susceptibility) in granitic rocks. PhD Thesis. University of Thessaloniki, Thessaloniki, Greece, 255 p. [in Greek] Zouzias, D. (2011). Sustainable Development of the Nisyros volcano and new volcanological characteristic data of the broader

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The emplacement mode of Upper Cretaceous plutons from the southwestern part of the Sredna Gora Zone (Bulgaria): structural and AMS study

, Bulgaria. Geol. Soc. Amer. Bull. 89, 439-447. Borradaile G.J. 1988: Magnetic susceptibility, petrofabrics and strain. Tectonophysics 156, 1-20. Borradaile G.J. & Henry B. 1997: Tectonic applications of magnetic susceptibility and its anisotropy. Earth. Sci. Rev. 42, 49-93. Bouchez J.-L. 1997: Granite is never isotropic: an introduction to AMS studies of granitic rocks. In: Bouchez J.-L., Hutton D.H.W. & Stephens W.E. (Eds.): Granite: from segregation of melt to emplacement fabrics

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Paleoenvironments during the Rhaetian transgression and the colonization history of marine biota in the Fatric Unit (Western Carpathians)

coeval sequences in the Anti-Atlas, Morocco. Palaeogeogr. Palaeoclimatol. Palaeoecol. 167, 73-100. Cullers R.L. 2000: The geochemistry of shales, siltstones and sandstones of Pennsylvanian-Permian age, Colorado, USA: implications for provenance and metamorphic studies. Lithos 51, 181-203. Da Silva A.-C., Mabille C. & Boulvain F. 2009: Influence of sedimentary setting on the use of magnetic susceptibility: examples from the Devonian of Belgium. Sedimentology 56, 1292-1306. Devleeschouwer X., Petitclerc E., Spassov S

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An integrated paleomagnetic and magnetic anisotropy study of the Oligocene flysch from the Dukla nappe, Outer Western Carpathians, Poland

References Besse J. & Courtillot V. 2002: Apparent and true polar wander and the geometry of the geomagnetic field over the last 200 Myr. J. Geophys. Res. 107, 6, 1-31. Biró T., Karátson D., Márton E., Józsa S. & Bradák B. 2015: Paleoflow directions from a subaqueous lahar deposit around the Miocene Keserűs Hill lava dome complex (north Hungary) as constrained by photo-statistics and anisotropy of magnetic susceptibility (AMS). J. Volcanol. Geotherm. Res. 302, 141-149. Bordás R. 1990: Aniso - Anisotropy program

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Characterization of granites by 57Fe Mössbauer spectroscopy

G. (1997). Magnetic properties of the clinopyroxenes aegirine and hedenbergite: a magnetic susceptibility study on single crystals. Physics and Chemistry of Minerals , 24, 294-300. Coey J. M. D. (1975). The clay minerals: use of Mössbauer spectroscopy to characterize them and study their transformations. Proceedings - International Conference on Mössbauer Spectroscopy, August 25-30 (pp. 333-353). Cracow, Poland. De Grave E., Van Alboom A., & Eeckhout S. G. (1998). Electronic and magnetic properties of a natural

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