Cappetta, H. (1976)
Sélaciens nouveaux du London Clay de l'Essex (Yprésien du Bassin de Londres). Geobios, 9(5), 551–575
DOI: 10.1016/S0016-6995(76)80024-1
Kemp, N.R. (1978)
Detailed comparisons of the dentitions of extant hexanchid sharks and Tertiary hexanchid teeth from South Australia and Victoria, Australia (Selachii: Hexanchidae). Memoirs of the Museum Victoria, 39, 61–83
Ward, D.J. (1979)
Additions to the fish fauna of the English Palaeogene. 3. A review of the Hexanchid sharks with a description of four new species. Tertiary Research, 2(3), 111–129
Ward, D.J. (1979)
Additions to the fish fauna of the English Palaeogene. 3. A review of the Hexanchid sharks with a description of four new species. Tertiary Research, 2(3), 111–129
Kemp, D.J. (1982)
Fossil sharks, rays and chimaeroids of the English Tertiary period. Gosport Museum, 1–47, 10 fig., 3 tabl., 16 pl.
Kemp, D.J. (1982)
Fossil sharks, rays and chimaeroids of the English Tertiary period. Gosport Museum, 1–47, 10 fig., 3 tabl., 16 pl.
Kemp, N.R. (1982)
Chondrichthyans in the Tertiary of Australia. In : Rich, P.V., Thompson, E.M. (Eds), The fossil vertebrate record of Australasia. Clayton, Victoria, Australia, Monash University Offset Printing Unit: 88–118
Lienau, H.-W. (1984)
Die marinen Deckschichten (Mitteleozän-Unteroligozän) der Helmstedter Braunkohlen (Niedersachsen, BRD). Documenta naturae, 22: 1–120, 23 fig., 17 tabl., 12 pl.
Bor, T.J. (1985)
Elasmobranch teeth (Vertebrata, Pisces) from the Dongen Formation (Eocene) in the Netherlands. Mededelingen Van De Werkgroep Voor Tertiaire En Kwartaire Geologie, 22(2), 73–122
Raabe, G. (1986)
Fossilfunde aus den Deckschichten des Helmstedter Braunkohlereviers. Aufschluss, 37(10), 343–349
von der Hocht, F. (1986)
Stand der Untersuchungen an der Chondrichthyes-Fauna des nordwestdeutschen Tertiärs. Beiträge zur regionalen Geologie der Erde, 18, 503–509
Dutheil, D.B. (1991)
A checklist of Neoselachii (Pisces, Chondrichthyes) from the Palaeogene of the Paris Basin, France. Tertiary Research, 13(1) , 27–36
Kemp, N.R. (1991)
Chapter 15: Chondrichthyans in the Cretaceous and Tertiary of Australia. Vertebrate Palaeontology of Australasia: 497–568, 40 pl.
Kent, B.W. (1994)
Fossil Sharks of the Chesapeake Bay Region. Egan Rees and Boyer, Inc. Columbia. 146 pp.
Yabumoto, Y. & Uyeno, T. (1994)
Late Mesozoic and Cenozoic fish faunas of Japan. Island Arc, 3(4), 255–269
DOI: 10.1111/j.1440-1738.1994.tb00115.x
Adnet, S. (2000)
Les élasmobranches fossiles du Paléogène des Landes (Sud-Ouest, France). Implications dans la connaissance des communautés d'élasmobranches d'eaux profondes. Evolution des Squaliformes et paléoécologie. 211 p., 23 fig., annexes, 40 pl. Dipl. Doct., Univ. Montpellier II.
Clouter, F. & Mitchell, T. & Rayner, D. & Rayner, M. (2000)
London Clay Fossils of the Isle of Sheppey. Medway Lapidary and Mineral Society, ISBN 0-9538243-0-6, 100pp.
Clouter, F. & Mitchell, T. & Rayner, D. & Rayner, M. (2000)
London Clay Fossils of the Isle of Sheppey. Medway Lapidary and Mineral Society, ISBN 0-9538243-0-6, 100pp.
Mustafa, H.A. & Zalmout, I.S. & Smadi, A.A. & Nazzal, I. (2005)
Review of the Middle Eocene (Lutetian) selachian fauna of Jebal eth Thuleithuwat, east Jordan. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 237(3), 399–422
Adnet, S. (2006)
Biometric analysis of the teeth of fossil and Recent hexanchid sharks and its taxonomic implications. Acta Palaeontologica Polonica, 51(3), 477–488
Adnet, S. (2006)
Biometric analysis of the teeth of fossil and Recent hexanchid sharks and its taxonomic implications. Acta Palaeontologica Polonica, 51(3), 477–488
Adnet, S. (2006)
Nouvelles faunes de sélaciens (Elasmobranchii, Neoselachii) de l'Éocène des Landes (Sud-Ouest, France). Implication dans les connaissances des communautés d'eaux profondes. Palaeo Ichthyologica, 10, 1–128
Malyshkina, T.P. (2006)
(Elasmobranchs of the western margin of the West Siberian Paleogene basin.) «in russian». Ekaterinburg: IGG UB RAS, 2006, 224 p., ICC 5–94332–048–2
Tanaka, T. & Fujita, Y. & Morinobu, S. (2006)
Fossil shark teeth from the Namigata Formation in Ibara City, Okayama Prefecture, Central Japan and their biostratigraphical significance. Bulletin of the Mizunami Fossil Museum, 33, 103–109
Adnet, S. & Martin, R.A. (2007)
Increase of body size in sixgill sharks with change in diet as a possible background of their evolution. Historical Biology, 19(4), 279–289
DOI: 10.1080/08912960701194461
Adnet, S. & Martin, R.A. (2007)
Increase of body size in sixgill sharks with change in diet as a possible background of their evolution. Historical Biology, 19(4), 279–289
DOI: 10.1080/08912960701194461
Adnet, S. & Cappetta, H. & Reynders, J. (2008)
Contribution of Eocene sharks and rays from southern France to the history of deep-sea selachians. Acta Geologica Polonica, 58(2), 257–260
Rodríguez, A.C. & Oyarzún, J.L. (2008)
Identificación de Especies Fósiles de la Zona de Sierra Baguales, Provincia de Última Esperanza, Región de Magallanes, Patagonia. Graduate Thesis(Unpublished), Universidad de Magallanes: 67 p.
Timmerman, J. & Chandler, R.E. (2008)
Cretaceous and Paleogene Fossils of North Carolina, A Field Guide. North Carolina Fossil Club, Durham, 70 p.
Rayner, D. & Mitchell, T. & Rayner, M. (2009)
London Clay Fossils of Kent and Essex. Rochester, Kent, Medway Fossil and Mineral Society, 228 p, ISBN: 978–0–9538243–1–1
Rayner, D. & Mitchell, T. & Rayner, M. (2009)
London Clay Fossils of Kent and Essex. Rochester, Kent, Medway Fossil and Mineral Society, 228 p, ISBN: 978–0–9538243–1–1
Antar, M.S.M. (2011)
Paleo-environments of the exposed Eocene Sediments between Wadi El-Hitan and east Siwa in the Egyptian Western Desert based on their faunal content especially the vertebrates. Thesis, Zagazig University, Faculty of Science, Geology Department
Underwood, C.J. & Ward, D.J. & King, C. & Antar, S.M. & Zalmout, I.S. & Gingerich, P.D. (2011)
Shark and ray faunas in the Middle and Late Eocene of the Fayum Area, Egypt. Proceedings of the Geologists' Association, 122(1), 47–66
DOI: 10.1016/j.pgeola.2010.09.004
Zalmout, I.S. & Antar, S.M. & Abd-El Shafy, E. & Metwally, M.H. & Hatab, E.-B.E. & Gingerich, P.D. (2012)
Priabonian sharks and rays (late Eocene: Neoselachii) from Minqar Tabaghbagh in the Western Qattara Depression, Egypt. Contributions from the Museum of Paleontology, University of Michigan, 32(6): 71–90
King, C. & Iakovleva, A. & Steurbaut, E. & Heilmann-Clausen, C. & Ward, D. (2013)
The Aktulagay section, west Kazakhstan: a key site fornorthern mid-latitude Early Eocene stratigraphy. Stratigraphy, 10(3): 171–209
Otero, R.A. & Oyarzún, J.L. & Soto-Acuña, S. & Yury-Yáñez, R.E. & Gutierrez, N.M. & Le Roux, J.P. & Torres, T. & Hervé, F. (2013)
Neoselachians and Chimaeriformes (Chondrichthyes) from the latest Cretaceous-Paleogene of Sierra Baguales, southernmost Chile. Chronostratigraphic, paleobiogeographic and paleoenvironmental implications. Journal of South American Earth Sciences, 48, 13–30
DOI: 10.1016/j.jsames.2013.07.013
Schultz, O. (2013)
Pisces. In PILLER, W.E.(Ed.) Catalogus Fossilium Austriae, Band 3 - Verlag der Österreichischen Akademie der Wissenschaften, Wien, ISBN13: 978-3-7001-7238-3, 576 pp.
Carlsen, A.W. & Cuny, G. (2014)
A study of the sharks and rays from the Lillebælt Clay (Early–Middle Eocene) of Denmark, and their palaeoecology. Bulletin of the Geological Society of Denmark, 62, 39–88
DOI: 10.37570/bgsd-2014-62-04
Reinecke, T. & Balsberger, M. & Beaury, B. & Pollerspöck, J. (2014)
The elasmobranch fauna of the Thalberg Beds, early Egerian (Chattian, Oligocene), in the Subalpine Molasse Basin near Siegsdorf, Bavaria, Germany. Palaeontos, 26, 1–127
Maisch, H.M. & Becker, M.A. & Chamberlain, J.A. (2015)
Chondrichthyans from a lag deposit between the Shark River Formation (Middle Eocene) and Kirkwood Formation (Early Miocene), Monmouth county, New Jersey. Paludicola, 10(3), 149–183
Suárez, M.E. (2015)
Tiburones, Rayas y Quimeras (Chondrichthyes) Fósiles de Chile. Publicación Ocasional del Museo Nacional de Historia Natural, Chile, 63: 17–33
Szabó, M. & Kocsis, L. (2016)
A preliminary report on the early Oligocene (Rupelian, Kiscellian) selachians from the Kiscell Formation (Buda Mts, Hungary), with the re-discovery of Wilhelm Weiler’s shark teeth. Fragmenta Palaeontologica Hungarica, 33, 31–64
DOI: 10.17111/FragmPalHung.2016.33.1
Zalat, A.A. & Khalil, H.M. & Fathy, M.S. & Tarek, R.M. (2017)
Taxonomy and morphological study on the vertebrate remains of Shark and rays fauna from the Middle and Late Eocene succession, Fayoum Depression, Egypt. Delta Journal of Science, 38, 202–217
Szabó, M. (2018)
First record of the hexanchoid shark genus Crassodontidanus (Chondrichthyes: Hexanchiformes) from the Jurassic of Hungary (Mecsek Mts, Southern Hungary), with a summary of the hexanchiform fossil record of Hungary. Fragmenta Palaeontologica Hungarica, 35, 87–102
Feichtinger, I. & Kranner, M. & Rupp, C. & Harzhauser, M. (2019)
A new outer neritic elasmobranch assemblage from the Egerian (late Oligocene) of the North Alpine Foreland Basin (Austria). Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 293(1), 19–35
DOI: 10.1127/njgpa/2019/0828
Feichtinger, I. & Kranner, M. & Zeitlinger, F. & Pollerspöck, J. & Harzhauser, M. (2019)
New data on the elasmobranch fauna of the Eferding Formation (Egerian, North Alpine Foreland Basin) of Austria [Abstract]. Book of Abstracts, 25. Jahrestagung ÖPG, Bad Vöslau, 11.-13.10.2019
Polkowsky, S. & Ladwig, J. (2019)
Nachweise der Selachier-Gattung Hexanchus RAFINESQUE, 1810, aus paläogenen Geschieben Norddeutschlands. Arbeitskreis Paläontologie Hannover, 47, 97–116
Timmerman, J. & Chandler, R.E. (2019)
Cretaceous and Paleogene Fossils of North Carolina, A Field Guide. North Carolina Fossil Club, Durham, 70 p. 2019 Edition
Fialho, P.R. & Balbino, A.C. & Legoinha, P. & Antunes, M.T. (2020)
Shark fossil diversity (Squalomorphii, Squatinomorphii, and Galeomorphii) from the Langhian of Brielas (Lower Tagus Basin, Portugal). Geological Journal, 56, 405–421
DOI: 10.1002/gj.3965
Adnet, S. & Feichtinger, I. & Harzhauser, M. & Pollerspöck, J. (2021)
A mesopelagic selachian fauna from the middle Eocene of St. Pankraz (Austria) reveals homogeneity in deep-marine environments during the warm period in Europe. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 301(1), 25–63
DOI: 10.1127/njgpa/2021/0996
Feichtinger, I. & Bracher, H. & Unger, E. & Lüdi, B. & Pollerspöck, J. (2021)
Haie und Rochen der Molasse. www.molasse-haie-rochen.de, accesed 01.11.2021
Feichtinger, I. & Pollerspöck, J. (2021)
Haie im Alpenvorland - Fossile Zeugen eines verschwundenen Paradieses. Verlag Anton Pustet, Salzburg, ISBN-10: ‎3702510230
Fialho, P.R. & Balbino, A.C. & Antunes, M.T. (2021)
Fossil Chondrichthyes from the Neogene of Portugal: Diversity and Occurrence. Anuário do Instituto de Geociências, 44, Article 43395
DOI: 10.11137/1982-3908_2021_44_43395
Migom, F. & Christiaens, Y. & Deceuckeleire, M. (2021)
The Lower Eocene (Ypresian) Chondrichthyes from Egem, Belgium. Part 1, Orders: Hexanchiformes, Squaliformes, Squatiniformes, Heterodontiformes and Orectolobiformes. Palaeo Ichthyologica, 15, 1–55
Rudebeck, B. & Riehmann, H. (2022)
Fossile hajtaender fra Trelde Naes. Self-published
Kovalchuk, O. & Kriwet, J. & Shimada, K. & Ryabokon, T. & Barkaszi, Z. & Dubikovska, A. & Anfimova, G. & Davydenko, S. (2023)
Middle Eocene cartilaginous fishes (Vertebrata: Chondrichthyes) of the Dnieper–Donets Basin, northern Ukraine. Palaeontologia Electronica, 26(2), Article a32