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Uppermost Jurassic and lowermost Cretaceous dinocyst successions of Siberia, the Subarctic Urals and Russian Platform and their interregional correlation

occurrence of organic-carbon rich facies. Correlation between boreal-subboreal and submediterranean provinces. In: Crasquin-Soleau S. & Barrier E. (Eds.): Peri-Tethys Memoir 4: epicratonic basins of Peri-Tethyan platforms. Mem. Mus. Nat. Hist. Nat. 179, 9-33. Helby R., Morgan R. & Partridge A.D. 1987: A palynological zonation of the Australian Mesozoic. In: Jell P.A. (Ed.): Studies in Australian Mesozoic palynology. Assoc. Australian Palynol. , Sydney, 1-95. Herngreen G.F.W., Kerstholt S.J. & Munsterman D.K. 2000

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The correlation of the Neogene of Central and Eastern Paratethys segments of Ukraine with the International Stratigraphic Chart based on planktonic microfossils

References Andreeva-Grigorovich A.S. 2004: Substantiation of the lower boundary of the Neogene system in the Paratethys and its correlation on plankton organismus. Geol. J. Nat. Acad. Sci. Ukraine 2, 53–58 (in Ukrainian). Andreeva-Grigorovich A.S. 2005: Lower boundary of the Middle Miocene in the Paratethys recent position on plankton microorganismus and correlation. Geol. J. Nat. Acad. Sci. Ukraine 2, 23–32 (in Russian). Andreeva-Grigorovich A.S. 2006: Nannoplankton of the boundary of the Middle–Upper Miocene deposits of the Paratethys

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Correlation of bio- and magnetostratigraphy of Badenian sequences from western and northern Hungary

. (Eds.): Geochronology time scales and global stratigraphic correlation. SEPM Spec. Publ. 54, 129-212. Bohn-Havas M. 1983: Novel Sarmatian Cardium species from Zsámbék Basin (borehole Budajenő-3). Ann. Rep. Hung. Geol. Inst. 1981, 335-367 (in Hungarian with English abstract). Bohn-Havas M. & Nagymarosy A. 1985: Fossil nannoplankton and molluscs from the Ottnangian of the Borsod Basin (N-Hungary). Abstracts, 8th Congr. R. C. M. N. S. , 112-115. Bohn-Havas M. & Zorn I. 1993

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Biostratigraphic constraints for a Lutetian age of the Harrersdorf Unit (Rhenodanubian Zone): Implication for basement structure of the northern Vienna Basin (Austria)

Senckenberg 246, 187–212. Krhovsky J., Rögl F. & Hamrsmid B. 2001: Stratigraphic correlation of the Late Eocene to Early Miocene of the Waschberg Unit (Lower Austria) with the Zdanice and Pouzdrany Units (South Moravia). In: Piller W.E. & Rasser M.W. (Eds.): Paleogene of the Eastern Alps. Österreichische Akademie der Wissenschaften , Vienna, 225–254. Kröll A. & Wessely G. 1993: Strukturkarte — Basis der tertiären Beckenfüllung 1:200.000. Erläuterung zu den Karten über den Untergrund des Wiener Beckens und der angrenzenden Gebiete. Geologische Bundesanstalt

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Correlation between Cu mineralization and major faults using multifractal modelling in the Tarom area (NW Iran)

district, China. J. Geochem. Explor . 122, 71-80. Xu Y. & Cheng Q. 2001: A fractal filtering technique for processing regional geochemical maps for mineral exploration. Geochem. Explor. Environ. Anal . 1, 147-156. Yasrebi A.B., Afzal P., Wetherelt A., Foster P. & Esfahanipour R. 2013: Correlation between geology and concentration-volume fractal models: significance for Cu and Mo mineralized zones separation in the Kahang porphyry deposit (Central Iran). Geol. Carpathica 64, 2, 153-163. Zhao P. 1999: Theory and practice

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Geochemistry and statistical analyses of porphyry system and epithermal veins at Hizehjan in northwestern Iran

of Mineralogy and Geochemistry 194-3, 227-250. Rassi, R. & Afzal, P., 2015. Correlation between Au Lithogeochemical Anomalies and Fault-density using Geostatistical and Fractal Modeling in Sharaf Abad-Hizehjan Area, NW Iran. Universal Journal of Geoscience 3, 51-58. Sillitoe, R.H., 1999. Styles of high-sulfidation gold, silver and copper mineralization in porphyry and epithermal environments. [In:] Weber, G. (Ed.): Pacrim ’99 Congress, Bali, Indonesia. Proceedings. Australasian Institute of Mining and Metallurgy, Parkville, 29

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New 40Ar/39Ar, fission track and sedimentological data on a middle Miocene tuff occurring in the Vienna Basin: Implications for the north-western Central Paratethys region

–606. Kováč M., Hudáčková, N., Halásová E., Kováčová M., Holcová K., Oszczypko-Clowes M., Báldi K., Less G., Nagymarosy A., Ruman A., Klučiar T. & Jamrich M. 2017: The Central Paratethys palaeoceanography: a water circulation model based on microfossil proxies, climate, and changes of depositional environment. Acta Geologica Slovaca 9, 2, 75–114. Kováč M., Halásová E., Hudáčková N., Holcová K., Hyžn, M., Jamrich M. & Ruman A. 2018: Towards better correlation of the Central Paratethys regional time scale with the standard geological time scale of the Miocene Epoch

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Towards better correlation of the Central Paratethys regional time scale with the standard geological time scale of the Miocene Epoch

. (Eds.): Geochronology, Time Scales and Global Stratigraphic Correlations: A unified temporal framework for an historical geology. Society of Economic Paleontologists and Mineralogists, Spec. Publ. 54, 129–212. Blow W.H. 1969: Late middle Eocene to Recent planktonic foraminiferal biostratigraphy. In: Bronnimann P. & Renz H.H. (Eds.): Proceedings of the First International Conference on Planktonic Microfossils, Geneva 1967, Volume 1, 199–422. Brzobohatý R., Cicha I., Kováč M. & Rögl F. (Eds.) 2003: The Karpatian — a Lower Miocene stage of the Central

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Ammonites and magnetostratigraphy of the Berriasian–Valanginian boundary deposits from eastern Crimea

-184 (in Russian). Bagayeva M.I. & Guzhikov A.Yu. 2014: Magnetic textures as indicators of formation of Tithonian-Berriasian rocks of the Mountain Crimea. Izvestiya of Saratov University. New. ser., Ser. Earth Science. 14, 1, 41-47 (in Russian). Baraboshkin E.Y. & Mikhailova I.A. 2000: New and poorly known Valanginian ammonites from South-West Crimea. Bull. Inst. Roy. Sci. Natur. Belgique. Sci. Terre 70, 89-120. Baraboshkin E.Y. & Yanin B.T. 1997: The correlation of the Valanginian of the South-Western and Central Crimea

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Late Miocene sedimentary record of the Danube/Kisalföld Basin: interregional correlation of depositional systems, stratigraphy and structural evolution

the Pannonian Basin, Hungary. Földtani Közlöny 124, 341-365 (bilingual Hungarian and English). Juhász Gy. & Magyar I. 1992: Review and correlation of the Late Neogene (Pannonian s.l.) lithofacies and mollusc biofacies in the Great Plain, eastern Hungary. Földtani Közlöny 122, 167-194 (in Hungarian with English abstract). Juhász Gy., Pogácsás Gy., Magyar I. & Vakarcs G. 2007: Tectonic versus climatic control on the evolution of fluvio-deltaic systems in a lake basin, Eastern Pannonian Basin. Sediment. Geol. 202, 72

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