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The late Silurian–Middle Devonian long-term eustatic cycle as a possible control on the global generic diversity dynamics of bivalves and gastropods

, Palaeoecology 251, 422-436. Ruban, D.A., 2010a. Do new reconstructions clarify the relationships between the Phanerozoic diversity dynamics of marine invertebrates and long-term eustatic trends? Annales de Paléontologie 96, 51-59. Ruban, D.A., 2010b. Palaeoenvironmental setting (glaciations, sea level, and plate tectonics) of Palaeozoic major radiations in the marine realm. Annales de Paléontologie 96, 143-158. Ruban, D.A., 2011a. Do outdated palaeontological data produce just a noise? An assessment of the Middle Devonian

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Did plate tectonics control the generic diversity of Jurassic brachiopods? One point of view

) and its enigmatic origin. GeoActa 9, 21–30. Ruban, D.A., 2011. Diversity dynamics of Callovian-Albian brachiopods in the Northern Caucasus (northern Neo-Tethys) and a Jurassic/Cretaceous mass extinction. Paleontological Research 15, 154–167. Ruban, D.A., 2013. Was there more space in the late Early Devonian for marine biodiversity to peak than in the early Late Ordovician? A brief note. Geološki anali Balkanskoga poluostrva 74, 1–8. Ruban, D.A., 2015. Mesozoic long-term eustatic cycles and their uncertain hierarchy. Geoscience Frontiers 6

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Do the Available Data Permit Clarifcation of the Possible Dependence of Palaeozoic Brachiopod Generic Diversity Dynamics on Global Sea-Level Changes? A Viewpoint

extinctions in the marine fossil record. Science 215, 1501–1503. Ruban, D.A., 2010. Do new reconstructions clarify the relationships between the Phanerozoic diversity dynamics of marine invertebrates and long term eustatic trends? Annales de Paléontologie 96, 51–59. Ruban, D.A., 2013. The late Silurian-Middle Devonian long-term eustatic cycle as a possible control on the global generic diversity dynamics of bivalves and gastropods. Geologos 19, 193–200. Ruban, D.A. & van Loon, A.J., 2008. Possible pitfalls in the procedure for paleobiodiversity-dynamics analysis

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The siliciclastics/carbonates shift in the Jurassic of the Western Caucasus (central northern Neo-Tethys): reconsidering research over the last 50 years

.V., Abdulkasumzade, M.R., Avanesian, A.S., Belenkova, V.S., Bendukidze, N.S., Vuks, V.Ya., Doludenko, M.P., Kiritchkova, A.I., Klikushin, V.G., Krimholz, G.Ya., Romanovskaya, G.M. & Schevchenko, T.V., 1992. Yura Kavkaza [ Jurassic of the Caucasus ]. St. Petersburg (Nauka), 192 pp. (in Russian). Ruban, D.A., 2006a. Taxonomic diversity dynamics of the Jurassic bivalves in the Caucasus: regional trends and recognition of global patterns. Palaeogeography, Palaeo-climatology, Palaeoecology 239, 63-74. Ruban, D.A., 2006b. The Palaeogeographic Outlines of the Caucasus in

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Paleofloristic and paleofaunistic analysis of Dudváh River oxbow and implication for Late Holocene paleoenvironmental development of the Žitný ostrov Island (SW Slovakia)

Island on the basis of pollen analysis. In: Križová E. & Ujházy K. (Eds.): Dynamics, stability and diversity of forest ecosystems. Technical University , Zvolen, 209-215 (in Czech). Buch M. W. & Heine K. 1995: Fluvial geomorphodynamics in the Danube River valley and tributary river systems near Regensburg during the Upper Quaternary — theses, questions and conclusions. In: Hagedorn J. (Ed.): Late Quaternary and present-day fluvial processes in Central Europe. Z. Geomorphologie N. F., Suppl. Bd. 100. Gebrüder Borntraeger , Berlin, Stuttgart

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Distribution of coccolithophores as a potential proxy in paleoceanography: The case of the Oman Sea monsoonal pattern

., Acad. J. Inc. 2, 210-217. Moghaddasi B., Nabavi S.M.B., Fatemi S.M.R. & Vosoughi G.H. 2009b: Study on the diversity and distribution of benthic foraminifera in the offshore sediments of the continental shelf in the Oman Sea. Islamic Azad University of Ahvaz, Sea Biology J. 3, 13-27. Molfino B. & McIntyre A. 1990: Precessional forcing of nutricline dynamics in the Equatorial Atlantic. Science 249, 766-769. Nair R.R., Ittekkot V., Manganini S.J., Ramaswamy V., Haake B., Degens E.T., Desai B.N. & Honjo S. 1989: Increased

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Upper Miocene Pannonian sediments from Belgrade (Serbia): new evidence and paleoenvironmental considerations

muddy bottom of Lake Pannon — a challenge for dreissenid settlement (Late Miocene; Bivalvia). Palaeogeogr. Palaeoclimatol. Palaeoecol. 204, 331-352. Harzhauser M. & Mandic O. 2008: Neogene lake systems of Central and South-Eastern Europe: Faunal diversity, gradients and interrelations. Palaeogeogr. Palaeoclimatol. Palaeoecol. 260, 417-434. Harzhauser M. & Mandic O. 2010: Neogene dreissenids in Central Europe: evolutionary shifts and diversity changes. In: van der Velde G., Rajagopal S. & bij de Vaate A. (Eds

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Biostratigraphy, sedimentology and paleoenvironments of the northern Danube Basin: Ratkovce 1 well case study

2012. Elsevier, Boston, USA, 1-1144. Grill R. 1941: Stratigraphische Untersuchungen mit Hilfe von Mikrofaunen im Wiener Becken und den benachbarten Molasse-Anteilen. Oel u. Kohle, Berlin 37, 595-602. Hammer Ř., Harper D.A.T. & Ryan P.D. 2001: PAST: Paleontological statistics software package for education and data analysis. Palaeont. Eletronica 4, 1-9. Harzhauser M. & Mandic O. 2008: Neogene lake systems of Central and South-Eastern Europe: Faunal diversity, gradients and interrelations. Palaeogeogr. Palaeoclimatol

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The oxygen and carbon isotopic composition of Langhian foraminiferal tests as a paleoecological proxy in a marginal part of the Carpathian Foredeep (Czech Republic)

-196. Flores J. A., Sierro F. S., Francés G., Vasquez A. & Zamarreno I. 1997: The last 100,000 years in the western Mediterranean: Sea surface water and frontal dynamics as revealed by coccolithophores. Mar. Micropaleont. 29, 351-366. Flores J.-A., Marino M., Sierro F. J., Hodell D. A. & Charles C. D. 2003: Calcareous plankton dissolution pattern and coccolithophore assemblages during the last 600 kyr at ODP Site 1089 (Cape Basin, South Atlantic): paleoceanographic implications. Palaeogeogr. Palaeoclimatol. Palaeoecol. 196, 409

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Graptolite turnover and δ13Corg excursion in the upper Wenlock shales (Silurian) of the Holy Cross Mountains (Poland)

correlations across restricted facies and specialized faunas. Palaeogeogr. Palaeoclimatol. Palaeoecol. 457, 304–322. Jarochowska E., Munnecke A., Frisch K., Ray D.C. & Castagner A. 2016b: Faunal and facies changes through the mid Homerian (late Wenlock, Silurian) positive carbon isotope excursion in Podolia, western Ukraine. Lethaia 49, 170–198. Jarochowska E., Ray D.C., Röstel P., Worton G. & Munnecke A. 2018: Harnessing stratigraphic bias at the section scale: conodont diversity in the Homerian (Silurian) of the Midland Platform, England. Palaeontology 61

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