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Published: 2017-03-15
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Exceptionally preserved Leptolepidae (Actinopterygii, Teleostei) from the late Early Jurassic Fossil-Lagerstätten of Grimmen and Dobbertin (Mecklenburg-Western Pomerania, Germany)

Institut für Geographie und Geologie, Ernst-Moritz-Arndt-Universität Greifswald, Friedrich-Ludwig-Jahn-Straße 17A, 17489 Greifs-wald, Germany.
Institut für Geographie und Geologie, Ernst-Moritz-Arndt-Universität Greifswald, Friedrich-Ludwig-Jahn-Straße 17A, 17489 Greifs-wald, Germany.
Pisces Leptolepis Proleptolepis Toarcian “Green Series” Grimmen Dobbertin

Abstract

Exceptionally well-preserved fishes of the family Leptolepidae (Actinopterygii, Teleostei) from the late Early Jurassic Fossil-Lagerstätten of Grimmen and Dobbertin (Mecklenburg-Western Pomerania, NE Germany) are reported and detailed anatomical descriptions are given. The described material specifically derives from the “Green Series”, which represents a specific facies that falls within the lower part of the early Toarcian Harpoceras falciferum ammonite Zone. Complete skeletons are rare, and most specimens are represented by isolated skulls. Most of the skulls are fully articulated and show only a low degree of compaction, while some specimens are almost three-dimensionally preserved. The leptolepid fauna comprises Leptolepis coryphaenoides, L. normandica, L. jaegeri, a possible Proleptolepis, and two other taxa, which are described in open nomenclature. Several anatomical characters, such as the shape of premaxilla, maxilla, dentary, preopercle, the cephalic sensory canals, and the dentition of the jaws, are discussed and compared to former studies. The new material provides novel insights into morphology, diversity and palaeobiogeography of leptolepid fishes. The records of Leptolepis coryphaenoides, L. normandica and L. jaegeri from Grimmen and Dobbertin represent the northeastern-most occurrences of these species from Europe, suggesting that they inhabited the whole central European epicontinental sea during the early Toarcian. The possible occurrence of Proleptolepis in the lower Toarcian of Grimmen suggests that this genus might have had a much wider palaeobiogeographical and temporal distribution, since specimens attributed to Proleptolepis have previously been reported only from the Sinemurian of western Europe.

 

References

  1. Agassiz, L. (1832) Untersuchungen über die fossilen Fische der Lias-Formation—Aus einem Briefe des Vfs. an Professor Bronn. Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, 3, 139–149.

    Agassiz, L. (1833–1844) Recherches sur les Poissons Fossiles. Petitpierre, Neuchâtel and Soleure, 1420 pp.

    Ansorge, J. (2003) Insects from the Lower Toarcian of Middle Europe and England. Proceedings of the Second Palaeoentomological Congress, Kraków 2001, Acta Zoologica Cracoviensia, 46 (Suppl. Fossil Insects), 291–310.

    Ansorge, J. (2007) Lower Jurassic clay pit of Klein Lehmhagen near Grimmen. In: Niedermeyer, R.-O., Dobracki, R. & Schütze, K. (Eds.), Geo-Pomerania – Excursion guide, Biuletyn Państowowego Instytutu Geologicznego, 424, pp. 37–41.

    Ansorge, J. & Obst, K. (2015) Lias-Tongrube bei Dobbertin. In: Börner, A., Niedermeyer, R.-O. & Schütze, K. (Eds.), 79. Tagung der Arbeitsgemeinschaft Norddeutscher Geologen – Tagungsband und Exkursionsführer, Schriftenreihe des Landesamtes für Umwelt, Naturschutz und Geologie Mecklenburg-Vorpommern, 1, pp. 227–240.

    Antunes, M.T., Rocha, R.B. & Wenz, S. (1981) Faunule ichthyologique du Lias inférieur de S. Pedro de Muel, Portugal. Ciências da Terra (UNL), 6, 101–116.

    Arratia, G. (1984) Some osteological features of Varasichthyes ariasi Arratia (Pisces, Teleostei) from the Late Jurassic of Chile. Paläontologische Zeitschrift, 58, 149–163.
    http://dx.doi.org/10.1007/BF02990335

    Arratia, G. (1987) Jurassic fishes from Chile and critical comments. In: Volkheimer, W. & Musacchio, E.A. (Eds.), Bioestratigrafía de los Sistemas Regionales del Jurásico y Cretácico de América del Sur. Comité Sudamericano del Jurásico y Cretácico, Mendoza, pp. 257–286.

    Arratia, G. (1991) The caudal skeleton of Jurassic teleosts; a phylogenetic analysis. In: Chang, M.-M., Liu, H. & Zhang, G-R. (Eds.), Early Vertebrates and Related Problems in Evolutionary Biology. Science Press, Beijing, pp. 249–340.

    Arratia, G. (1996a) Reassessment of the phylogenetic relationships of certain Jurassic teleosts and their implications on teleostean phylogeny. In: Arratia, G. & Viohl, G. (Eds.), Mesozoic Fishes – Systematics and Paleoecology. Verlag Dr. F. Pfeil, München, pp. 219–242.

    Arratia, G. (1996b) The Jurassic and the early history of teleosts. In: Arratia, G. & Viohl, G. (Eds.), Mesozoic Fishes – Systematics and Paleoecology. Verlag Dr. F. Pfeil, München, pp. 243–259.

    Arratia, G. (1997) Basal teleosts and teleostean phylogeny. Palaeo Ichthyologica, 7, 1–168.

    Arratia, G. (1999) The monophyly of Teleostei and stem-group teleosts. Consensus and disagreements. In: Arratia, G. & Schultze, H.-P. (Eds.), Mesozoic Fishes 2 – Systematics and Fossil Record, Verlag Dr. F. Pfeil, Munich, pp. 265–334.

    Arratia, G. (2003) Leptolepis, Paraleptolepis (Teleostei) and a new fish name. Mitteilungen aus dem Museum für Naturkunde, Berlin, Geowissenschaftliche Reihe, 6, 157–159.
    http://dx.doi.org/10.1002/mmng.20030060108

    Arratia, G. (2004) Mesozoic halecostomes and the early radiation of teleosts. In: Arratia, G. & Tintori, A. (Eds.), Mesozoic Fishes 3 – Systematics, Paleoenvironments and Biodiversity. Verlag Dr. F. Pfeil, Munich, pp. 279–315.

    Arratia, G. (2008) Actinopterygian postcranial skeleton with special reference to the diversity of fin ray elements, and the problem of identifying homologies. In: Arratia, G., Schultze, H.-P. & Wilson, W.V.H. (Eds.), Mesozoic fishes 4 – Homologie and Phylogeny. Verlag Dr. F. Pfeil, München, pp. 49–101.

    Arratia, G. (2009) Identifying patterns of diversity of the actinopterygian fulcra. Acta Zoologica, 90, 220–235.
    http://dx.doi.org/10.1111/j.1463-6395.2008.00375.x

    Arratia, G. (2013) Morphology, taxonomy, and phylogeny of Triassic pholidophorid fishes (Actinopterygii, Teleostei). Journal of Vertebrate Paleontology, 33 (S1), 1–138.
    http://dx.doi.org/10.1080/02724634.2013.835642

    Arratia, G. (2015a) Complexities of early Teleostei and the evolution of particular morphological structures through time. Copeia, 103 (4), 999–1025.
    http://dx.doi.org/10.1643/CG-14-184

    Arratia, G. (2015b) Los peces osteíctios fósiles de Chile y su importancia en los contextos paleobiogeográfico y evolutivo. In: Rubilar-Rogers, D., Otero, R., Vargas, A. & Sallaberry, M. (Eds.), Vertebrados Fósiles de Chile. Publicación Ocasional del Museo Nacional de Historia Natural, Chile, 63, pp. 35–83.

    Arratia, G. (2016) New remarkable Late Jurassic teleosts from southern Germany: Ascalaboidae n. fam., its content, morphology, and phylogenetic relationships. Fossil Record, 19, 31–59.
    https://doi.org/10.5194/fr-19-31-2016

    Arratia, G. & Herzog, A. (2007) A new Halecomorph fish from the middle Triassic of Switzerland and its systematic implications. Journal of Vertebrate Paleontology, 27 (4), 838–849.
    http://dx.doi.org/10.1671/0272-4634(2007)27[838:ANHFFT]2.0.CO;2

    Arratia, G. & Hikuroa, D.C.H. (2010) Jurassic fishes from the Latady Group, Antarctic Peninsula, and the oldest teleosts from Antarctica. Journal of Vertebrate Paleontology, 30 (5), 1331–1342.
    http://dx.doi.org/10.1080/02724634.2010.501448

    Arratia, G. & Lambers, P. (1996) The caudal skeleton of pachycormiforms: Parallel evolution? In: Arratia, G. & Viohl, G. (Eds.), Mesozoic Fishes – Systematics and Paleoecology. Verlag Dr. F. Pfeil, München, pp. 191–218.

    Arratia, G. & Schultze, H.-P. (1990) The Urohyal: Development and Homology within Osteichthyans. Journal of Morphology, 203, 247–282.
    http://dx.doi.org/10.1002/jmor.1052030302

    Arratia, G. & Schultze, H.-P. (1991) Palatoquadrate and its ossifications: development and homology within osteichthyans. Journal of Morphology, 208, 1–81.
    http://dx.doi.org/10.1002/jmor.1052080102

    Arratia, G. & Schultze, H.-P. (1992) Reevaluation of the caudal skeleton of certain actinopterygian fishes: III. Salmonidae. Homologization of caudal skeletal structures. Journal of Morphology, 214, 1–63.
    http://dx.doi.org/10.1002/jmor.1052140209

    Arratia, G. & Schultze, H.-P. (1999) Mesozoic fishes from Chile. In: Arratia, G. & Schultze, H.-P. (Eds.), Mesozoic Fishes 2 – Systematics and Fossil Record. Verlag Dr. F. Pfeil, München, pp. 565–593.

    Arratia, G. & Schultze, H.-P. (2015) Knochenfische im engeren Sinne. In: Arratia, G. Schultze, H.-P., Tischlinger, H. & Viohl, G. (Eds.), Solnhofen Ein Fenster in die Jurazeit, Band 2. Verlag Dr. Friedrich Pfeil, München, pp. 389–409.

    Arratia, G. & Thies, D. (2001) A new teleost (Osteichthyes, Actinopterygii) from the Early Jurassic Posidonia shale of Northern Germany. Mitteilungen aus dem Museum für Naturkunde in Berlin, Geowissenschaftliche Reihe, 4, 167–187.
    http://dx.doi.org/10.1002/mmng.20010040111

    Bean, L.B. (2006) The leptolepid fish Cavenderichthys talbragarensis (Woodward, 1895) from the Talbragar Fish Bed (Late Jurassic) near Gulgong, New South Wales. Records of the Western Australian Museum, 23, 43–76.
    https://doi.org/10.18195/issn.0312-3162.23(1).2006.043-076

    Blainville, H.M.D. de (1818) Poissons fossils. Nouveau Dictionnaire d'Histoire Naturelle, appliquée aux arts, à l'économie rurale et domestique, à la Médicine, etc. Nouvelle Édition, 27. 310–395.

    Bronn, H. (1830) Ueber zwei fossile Fischarten: Cyprinus coryphaenoides und Tetragonilepis semicinctus aus dem Gryphitenkalke bei Donau-Eschingen. Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, 1, 14–30.

    Caswell, B.A. & Coe, A.L. (2014) The impact of anoxia on pelagic macrofauna during the Toarcian Oceanic Anoxic Event (Early Jurassic). Proceedings of the Geologists Association, 125, 383–391.
    http://dx.doi.org/10.1016/j.pgeola.2014.06.001

    Caswell, B.A., Coe, A.L. & Cohen, A.S. (2009) New range data for marine invertebrate species across the early Toarcian (Early Jurassic) mass extinction. Journal of the Geological Society, 166, 859–872.
    http://dx.doi.org/10.1144/0016-76492008-0831

    Cope, E.D. 1887. Zittel’s Manual of Palaeontology. American Naturalist, 21, 1014–1019.

    Delsate, D. 1997. Actinoptérygiens du Toarcien inférieur du Grand Duché de Luxembourg: Présence de Leptolepis normandica Nybelin 1962 (Téléostéen) avec otolithes in situ. Travaux scientifiques du Musée d'Histoire Naturelle de Luxembourg, 27, 105–129.

    Dera, G., Neige, P., Dommergues, J.-L. & Brayard, A. (2011) Ammonite palaeobiogeography during the Pliensbachian-Toarcian crisis (Early Jurassic) reflecting paleoclimate, eustasy, and extinctions. Global and Planetary Change, 78, 92–105.
    http://dx.doi.org/10.1016/j.gloplacha.2011.05.009

    Dera, G., Neige, P., Dommergues, J.-L., Fara, E., Laffont, R. & Pellenard, P. (2010) High-resolution dynamics of Early Jurassic marine extinctions: the case of Pliensbachian–Toarcian ammonites (Cephalopoda). Journal of the Geological Society, London, 167, 21–33.

    http://dx.doi.org/10.1144/0016-76492009-068

    Ebert, M., Kölbl-Ebert, M. & Lane, J. (2015) Fauna and Predator-Prey Relationships of Ettling, an Actinopterygian Fish-Dominated Konservat-Lagerstätte from the Late Jurassic of Southern Germany. PLoS ONE, 10 (1), e0116140.
    http://dx.doi.org/10.1371/journal.pone.0116140

    Egerton, Sir P. (1845) On some new species of fossil fish from the Oxford clay of Christian Malford. Quarterly Journal of the Geological Society of London, 1, 229–232.
    https://doi.org/10.1144/GSL.JGS.1845.001.01.61

    Egerton, Sir P. (in Brodie, P.B.) (1849) Notice on the discovery of a Dragon-fly and a new species of Leptolepis in the Upper Lias near Cheltenham, with a few remarks on that Formation in Gloucestershire. The Quarterly Journal of the Geological Society of London, 5, 31–37.
    https://doi.org/10.1144/GSL.JGS.1849.005.01-02.13

    Ernst, W. (1967) Die Liastongrube Grimmen. Sediment, Makrofauna und Stratigraphie. Ein Überblick. Geologie, 16 (5), 550–569.

    Ernst, W. (1991) Der Lias im Ton-Tagebau bei Grimmen (Vorpommern). Fundgrube, 27 (4), 171–183.

    Ernst, W. (1992) Der Lias der Scholle von Dobbertin (Mecklenburg). Fundgrube, 28 (2), 56–70.

    Forey, P.L., Longbottom, A. & Mulley, J. (2010) Fishes – Bony Fishes. In: Lord, A.R. & Davis, P.G. (Eds.), Palaeontological Association Field Guides to Fossils: Number 13. Fossils from the Lower Lias of the Dorset Coast, Henry Ling Ltd. Dorset Press, Dorchester, pp. 341–371.

    Gardiner, B.G. (1960) A Revision of certain Actinopterygian and Coelacanth fishes, chiefly from the lower Lias. Bulletin of the British Museum (Natural History), Geology, 4 (7), 239–384.

    Geinitz, F.E. (1884) Über die Fauna des Dobbertiner Lias. Zeitschrift der Deutschen Geologischen Gesellschaft, 36 (3), 566–583.

    Handlirsch, A. (1920) Kapitel 7 Palaeontologie. In: Schröder, C. (Ed.), Handbuch der Entomologie, III. G. Fischer, Jena, pp. 117–304.

    Hauff, B. (1921) Untersuchung der Fossilfundstätten von Holzmaden im Posidonienschiefer des oberen Lias Württembergs. Palaeontographica, 64, 1–42.

    Hauff, B. & Hauff, R.B. (1981) Das Holzmadenbuch. Holzmaden, 136 pp.

    Hauff, R.B., Heunisch, C., Hochsprung, U., Ilger, J.-M., Joger, U., Klopschar, M., Kosma, R., Krüger, F.J., Thies, D. & Zellmer, H. (2014) Jurameer. Niedersachsens versunkene Urwelt. Verlag Dr. F. Pfeil, Munich, 96 pp.

    Jaekel, O. (1929) Lepidotus und Leptolepis aus dem oberen Lias von Dobbertin, Mecklenburg. Mitteilungen aus der Mecklenburgischen Landesanstalt, Heft XXXVIII, Neue Folge 3, 14–25.

    Keller, T. (1976) Magen- und Darminhalte von Ichthyosauriern des süddeutschen Posidonienschiefers. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 1976 (5), 266–283.

    Konwert, M. (2011) Ontogenese und innerartliche Variation von Orthogonikleithrus hoelli (Osteichthyes: Teleostei) aus den oberjurassischen Plattenkalken von Ettling (Markt Pförring). Archaeopteryx, 29, 31–40.

    Kriwet, J. (2001) A comprehensive Study of Pycnodont Fishes (Neopterygii, Pycnodontiformes) – Morphology, Taxonomy, Functional Morphology, and Palaeobiogeography. PhD Thesis, Humbold-Universität, Berlin, 582 pp.

    Lehmkuhl, U. (1970) Makropaläozoologische Untersuchungen im Unter-Toarc des Nordteils der DDR. Ein Beitrag zur Stratigraphie der ‘Grünen Serie’. Jahrbuch für Geologie, 3, 243–250.

    Maisch, M.W. & Ansorge, J. (2004) The Liassic ichthyosaur Stenopterygius cf. quadriscissus from the lower Toarcian of Dobbertin (northeastern Germany) and some considerations on lower Toarcian marine reptile palaeobiogeography. Paläontologische Zeitschrift, 78 (1), 161–171.
    http://dx.doi.org/10.1007/BF03009136

    Malzahn, E. (1963) Lepidotes elvensis BLAINVILLE aus dem Posidonienschiefer der Dobbertiner Liasscholle mit speziellen Untersuchungen zur Histologie des Operculums. Geologisches Jahrbuch, 80, 539–560.

    Müller, J. (1845) Über den Bau und die Grenzen der Ganoiden, und über das natürliche System der Fische. Archiv für Naturgeschichte, 11 (1), 91–141.

    Nelson, J.S. (2006) Fishes of the World. Fourth Edition. J. Wiley & Sons, New York, 601 pp.

    Nybelin, O. (1962) Preliminary note on two species previously named Leptolepis bronni Agassiz. Arkiv för Zoologi, Band 15, 18, 303–306.

    Nybelin, O. (1963) Zur Morphologie und Terminologie des Schwanzskelettes der Actinopterygier. Arkiv för Zoologi, Serie 2, 15, 35, 485–516.

    Nybelin, O. (1974) A Revision of the Leptolepid fishes. Acta Regiae Societatis Scientiarum et Litterarum Gothoburgensis Zoologica, 9, 1–202.

    Nybelin, O. (1976) On the so-called Postspiracular bones in Crossopterygians, Brachiopterygians and Actinopterygians. Acta Regiae Societatis Scientiarum et Litterarum Gothoburgensis Zoologica, 10, 1–31.

    Oertel, W. (1921) Der Lias von Mecklenburg. Archiv des Vereins der Freunde der Naturgeschichte in Mecklenburg, 74. 1–12.

    Patterson, C. (1968) The Caudal Skeleton in Lower Liassic Pholidophorid fishes. Bulletin of the British Museum (Natural History) Geology, 16 (5), 22–239.

    Patterson, C. (1975) The braincase of Pholidophorid fishes, with a review of the Actinopterygian braincase. Philosophical Transactions of the Royal Society of London B, 269, 275–579.
    http://dx.doi.org/10.1098/rstb.1975.0001

    Patterson, C. & Rosen, D.E. (1977) Review of Ichthyodectiform and other Mesozoic Teleost Fishes and the Theory and Practice of classifying fossils. Bulletin of the American Museum of Natural History, 158 (2), 81–172.

    Pictet, F.J. (1854) Traité de Paléontologie du Histoire Naturelle des Animaux Fossiles, Second edition, Paris, pp. 727.

    Pieńkowski, G. (2004) The epicontinental Lower Jurassic of Poland. Polish Geological Institute Special Papers, 12, 1–122.

    Quenstedt, F. (1858) Der Jura. Verlag der Laupp´schen Buchhandlung, Tübingen, pp. 842.

    Rayner, D.H. (1937) On Leptolepis bronni Agassiz. Annals and Magazine of Natural History, Series 10, 19, 46–74.
    http://dx.doi.org/10.1080/00222933708655239

    Röhl, H.J. & Schmid-Röhl, A. (2005) Lower Toarcian (Upper Liassic) black shales of the central European epicontinental Basin: a sequence stratigraphic case study from the SW German Posidonia Shale. Society for Sedimentary Geology Special Publication, 82, 165–189.

    Schultze, H.-P. (2008) Nomenclature and homologization of cranial bones in actinopterygians. In: Arratia, G., Schultze, H.-P. & Wilson, M.V.H. (Eds.), Mesozoic Fishes 4 -Homology and Phylogeny. Dr. F. Pfeil, Munich, pp. 23–48,

    Schultze, H.-P. & Arratia, G. (2013) The caudal skeleton of basal teleosts, its conventions and some of its major novelties in a temporal dimension. In: Arratia, G., Schultze, H.-P. & Wilson, M.V.H. (Eds.), Mesozoic Fishes 5–Global Diversity and Evolution. Dr. F. Pfeil, München, pp. 187–246.

    Schumacher, K.-H. & Sonntag, H. (1964) Zur Stratigraphie und Ausbildung des Lias im Norden der Deutschen Demokratischen Republik. Geologie, 13, 303–315.

    Sauvage, M.H.-E. (1874) Les poissons du Lias supérieur de la Lozère et de la Bourgogne. Revenue des Sciences Naturelles, 2 (1), 416–432.

    Sauvage, M.H.-E. (1892) Recherches sur les Poissons du Lias supérieur de L´Yonne Zone a Ciment de Vassy. Société d´Histoire Naturelle d´Autun, 15, 387–399.

    Sferco, E, López-Arbarello, A. & Báez, A.M. (2015) Phylogenetic relationships of Luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana. BMC Evolutionary Biology, 15, pp. 15.
    http://dx.doi.org/10.1186/s12862-015-0551-6

    Simpson, M. (1855) The fossils of the Yorkshire Lias described from nature, with a carefully section of the strata, and intended as a guide to strangers. Whittaker, London, pp. 149.

    Stoermer, N. & Wienholz, E. (1965) Mikrobiostratigraphie an der Lias/Dogger-Grenze in Bohrungen nördlich der Mitteldeutschen Hauptscholle. Jahrbuch für Geologie, 1, 533–591.

    Stumpf, S. (2016) New information on the marine reptile fauna from the lower Toarcian (Early Jurassic) “Green Series” of North-Eastern Germany. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 280 (1), 87–105.
    http://dx.doi.org/10.1127/njgpa/2016/0567

    Stumpf, S., Ansorge, J. & Krempien, W. (2015) Gravisaurian sauropod remains from the marine late Early Jurassic (Lower Toarcian) of North-Eastern Germany. Geobios, 48 (3), 271–279.
    http://dx.doi.org/10.1016/j.geobios.2015.04.001

    Smith, A.G., Smith, D.G. & Funnell, B.M. (1994) Atlas of Mesozoic and Cenozoic Coastlines.: Cambridge University Press, Cambridge.

    Taverne, L. (1975) Considérations sur la position systématique des genres fossils Leptolepis et Allothrissops au sein des Téléostéens primitives et sur l´origine et le polyphylétisme des Poissons Téléostéens. Académie Royale de Belgique, Bulletin de la Classe des Sciences, série 5, 61, 336–371.

    Thies, D. (1989) Sinneslinien bei dem Knochenfisch Lepidotes elvensis (BLAINVILLE 1818) (Actinopterygii, Semionotiformes) aus dem Oberlias (Unter-Toarcium) von Grimmen in der DDR. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte, 1989 (11), 692–704.

    Tintori, A. (1977) Toarcian fishes from the lombardian basin. Bolletino della Società Paleontologica Italiana, 16 (2),. 143–152.

    Viohl, G. (2015) Die lithographischen Plattenkalke im engeren Sinne – Erklärungsbedürftige Befunde und ihre Deutung (Sedimentologie und Taphonomie). In: Arratia, G., Schultze, H.-P., Tischlinger, H. & Viohl, G. (Eds.), Solnhofen Ein Fenster in die Jurazeit, Band 1. Verlag Dr. F. Pfeil, München, pp. 78–95.

    Waldman, M. (1971) Fish from the freshwater Lower Cretaceous of Victoria, Australia, with comments on the Palaeo-Environment. Special Papers in Palaeontology, 9, 1–124.

    Wenz, S. (1968) Compléments à l’étude des poissons actinoptérygiens du Jurassique français. Éditions du Centre National de la Recherche Scientifique, Paris, 15, 1–276.

    Wild, R. (1994) Die Wirbeltiere des Posidonien-Schiefers. In: Urlichs, M., Wild, R., Ziegler, B. (Eds.), Der Posidonienschiefer des unteren Juras und seine Fossilien. Stuttgarter Beiträge zur Naturkunde Serie C 36, Stuttgart, 65–92.

    Williams, M., Benton, M.J. & Ross, A. (2015) The Strawberry Bank Lagerstätte reveals insights into Early Jurassic life. Journal of the Geological Society, 172 (6), 683–692.
    http://dx.doi.org/10.1144/jgs2014-144

    Woodward, A.S. (1895) Catalogue of the Fossil Fishes in the British Museum (Natural History). Part III. Taylor and Francis, London, 544 pp.

    Woodward, A.S. (1900) Notes on Fossil Fish-Remains collected in Spitzbergen by the Swedish Arctic Expedition 1898, Kungliga Svenska Vetenskaps-Akademiens Handlingar, 25 (5), 1–7.

    Zessin, W. & Krempien, W. (2010) Bemerkenswerte Saurier-, Krokodil- und Fischfunde aus dem Lias von Grimmen, Vorpommern. Geschiebekunde aktuell, Sonderheft, 8, 5–18.