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Journal of Vertebrate Paleontology Volume 41, 2021 - Issue 1
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The earliest recorded fossil pelican, recovered from the late Eocene of Wadi Al-Hitan, Egypt

Joseph J. El Adli1 Paleontology Program, Statistical Research Inc., 21 W Stuart Ave., Redlands, CA92373, U.S.A., [email protected];2 Museum of Paleontology and Department of Earth and Environmental Sciences, University of Michigan, 1105 North University Avenue, Ann ArborMI48109-1085, U.S.A., [email protected], [email protected]ORCID Iconhttps://orcid.org/0000-0002-3989-5409
ORCID Icon,
Jeffrey A. Wilson Mantilla2 Museum of Paleontology and Department of Earth and Environmental Sciences, University of Michigan, 1105 North University Avenue, Ann ArborMI48109-1085, U.S.A., [email protected], [email protected]ORCID Iconhttps://orcid.org/0000-0003-2469-7028
ORCID Icon,
Mohammed Sameh M. Antar3 Egyptian Environmental Affairs Agency, Wadi Al-Hitan World Heritage Site, Fayum, Egypt; [email protected]
&
Philip D. Gingerich2 Museum of Paleontology and Department of Earth and Environmental Sciences, University of Michigan, 1105 North University Avenue, Ann ArborMI48109-1085, U.S.A., [email protected], [email protected]ORCID Iconhttps://orcid.org/0000-0002-1550-2674
ORCID Icon
Article: e1903910 | Received 24 Apr 2020, Accepted 08 Jan 2021, Published online: 02 Jun 2021

LITERATURE CITED

  • Andrews, C. W. 1901a. Preliminary note on some recently discovered extinct vertebrates from Egypt, Part I. Geological Magazine 8(9):400–409.
  • Andrews, C. W. 1901b. Über das Vorkommen von Proboscidiern in untertertiären Ablagerungen Aegyptens: Tagesblatt des V Internationalen Zoologischen-Kongresses, Berlin 6:4–5.
  • Baumel, J. J., and L. M. Witmer. 1993. Osteologia; pp. 45–132 in J. J. Baumel, A. S. King, J. E. Breazile, H. E. Evans, and J. C. Vanden Berge (eds.), Handbook of Avian Anatomy: Nomina Anatomica Avium, 2nd edition. Publications of the Nuttall Ornithological Club, Cambridge, Massachusetts.
  • Beadnell, H. J. L. 1905. The relations of the Eocene and Cretaceous systems in the Esna-Aswan reach of the Nile Valley. Quarterly Journal of the Geological Society 61:667–678.
  • Bourdon, E. 2005. Osteological evidence for sister group relationship between pseudo-toothed birds (Aves: Odontopterygiformes) and waterfowls (Anseriformes). Naturwissenschaften 92:586–591.
  • Bourdon, E., M. Amaghzaz, and B. Bouya. 2010. Pseudotoothed birds (Aves, Odontopterygiformes) from the Early Tertiary of Morocco. American Museum Novitates 3704:1–71.
  • Bowerbank, J. S. 1854. On the remains of a gigantic bird (Lithornis emuinus) from the London Clay of Sheppey. Annals and Magazine of Natural History 14:263–264.
  • Brunet, J. 1970. Oiseaux de l'Eocène supérieur du Bassin Parisien. Annales de Paléontologie 56:3–57.
  • Cheneval, J. 1984. Les oiseaux aquatiques (Gaviiformes à Ansériformes) du gisement aquitanien de Saint-Gérand-le-Puy (Allier, France): Révision systématique. Palaeovertebrata 14:3–115.
  • Cracraft, J., F. K. Barker, M. Braun, J. Harshman, G. J. Dyke, J. Feinstein, S. Stanley, A. Cibois, P. Schikler, P. Beresford, and J. García-Moreno. 2004. Phylogenetic relationships among modern birds (Neornithes). Assembling the tree of life; pp. 468–489 in J. Cracraft and M.J. Donoghue (eds.), Assembling the Tree of Life. Oxford University Press, New York, New York.
  • Cuvier, G. 1812. Sur les ossemens d'oiseaux qui se trouvent dans les carrières de pierres à plâtre des environs de Paris; pp. 1–21 in C. Cuvier (ed.) Recherches Sur Les Ossemens Fossiles de Quadrupèdes, ou l’on Rétablit les Charactères de Plusieurs Espèces d’Animaux que les Révolutions du Globe Paroissent Avoir Détruites. Tome III, Contenent les os fossiles des environs de Paris. Chez Deterville, Libraire, Paris.
  • Ericson, P. G., C. L. Anderson, T. Britton, A. Elzanowski, U. S. Johansson, M. Källersjö, J. I. Ohlson, T. J. Parsons, D. Zuccon, and G. Mayr. 2006. Diversification of Neoaves: integration of molecular sequence data and fossils. Biology Letters 2:543–547.
  • Gibb, G. C., M. Kennedy, and D. Penny. 2013. Beyond phylogeny: pelecaniform and ciconiiform birds, and long-term niche stability. Molecular Phylogenetics and Evolution 68:229–238.
  • Gingerich, P. D. 1992. Marine mammals (Cetacea and Sirenia) from the Eocene of Gebel Mokattam and Fayum, Egypt: stratigraphy, age, and paleoenvironments. University of Michigan Papers in Paleontology 30:1–84.
  • Gingerich, P. D., M. S. M. Antar, I. S. Zalmout. 2019. Aegicetus gehennae, a new late Eocene protocetid (Cetacea, Archaeoceti) from Wadi Al Hitan, Egypt, and the transition to tail-powered swimming in whales. PLoS ONE 14:e0225391.
  • Gould, J. 1850. The Athenæum: Journal of Literature, Science, and the Fine Arts 1207:1315.
  • Hackett, S. J., R. T. Kimball, S. Reddy, R. C. Bowie, E. L. Braun, M. J. Braun, J. L. Chojnowski, W. A. Cox, K. L. Han, J. Harshman, and C. J. Huddleston. 2008. A phylogenomic study of birds reveals their evolutionary history. Science 320:1763–1768.
  • Hardenbol J. A., J. Thierry, M. B. Farley, T. Jacquin, P.-Cd. Graciansky, and P. R. Vail. 1998. Mesozoic and Cenozoic sequence chronostratigraphic framework of European basins; pp. 3–13 in P.-Cd. Graciansky, J. A. Hardenbol, T. Jacquin, and P. R. Vail (eds.), Mesozoic and Cenozoic Sequence Stratigraphy of European Basins: SEPM Society for Sedimentary Geology, Special Publication 60.
  • Harrison, C. J. O. 1979. The upper Eocene birds of the Paris Basin: a brief re-appraisal. Tertiary Research 2:105–109.
  • IUCN. 2020. The IUCN Red List of Threatened Species. Version 2020-1. https://www.iucnredlist.org. Downloaded on 23 March 2020.
  • Kennedy, M., S. A. Taylor, P. Nádvorník, and H. G. Spencer. 2013. The phylogenetic relationships of the extant pelicans inferred from DNA sequence data. Molecular Phylogenetics and Evolution 66:215–222.
  • Kovalchuk, O. M., L. V. Gorobets, E. V. Syromyatnikova, I. G. Danilov, V. V. Titov, T. V. Krakhmalnaya, L. I. Rekovets, and N. V. Zelenkov. 2017. Vertebrates from the Pontian of the Shkodova Gora locality (northwestern Black Sea region, upper Miocene). Paleontological Journal 51:414–429.
  • Linnaeus, C. 1758. Systema Naturae, tenth edition (Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I. Editio decima, reformata). 824 pp. Laurentii Salvii, Holmiae (Stockholm).
  • Louchart, A., N. Tourment, and J. Carrier. 2011. The earliest known pelican reveals 30 million years of evolutionary stasis in beak morphology. Journal of Ornithology 152:15–20.
  • Mayr, G. 2005. The Paleogene fossil record of birds in Europe. Biological Reviews 80:515–542.
  • Mayr, G. 2009. Paleogene Fossil Birds. 262 pp. Springer, Berlin.
  • Mayr, G. 2014. The origins of crown group birds: molecules and fossils. Palaeontology 57:231–242.
  • Mayr, G., and D. Rubilar-Rogers. 2010. Osteology of a new giant bony-toothed bird from the Miocene of Chile, with a revision of the taxonomy of Neogene Pelagornithidae. Journal of Vertebrate Paleontology 30:1313–1330.
  • Mayr, G., and E. Zvonok. 2011. Middle Eocene Pelagornithidae and Gaviiformes (Aves) from the Ukrainian Paratethys. Palaeontology 54:1347–1359.
  • Mayr, G., and E. Zvonok. 2012. A new genus and species of Pelagornithidae with well-preserved pseudodentition and further avian remains from the middle Eocene of the Ukraine. Journal of Vertebrate Paleontology 32:914–925.
  • Miller, A. H. 1966. The fossil pelicans of Australia. Memoirs of the Queensland Museum 14:181–190.
  • Olson, S. L. 1977. A lower Eocene frigatebird from the Green River Formation of Wyoming (Pelecaniformes, Fregatidae). Smithsonian Contributions to Paleobiology 35:1–33.
  • Olson, S. L. 1984. A hamerkop from the Early Pliocene of South Africa (Aves, Scopidae). Proceedings of the Biological Society of Washington 97:736–740.
  • Olson, S. L. 1985. The fossil record of birds. pp. 7–238 in, D. S. Farner, J. R. King, and K. C. Parkes (eds.), Avian Biology. Academic Press, New York.
  • Olson, S. L., and Y. Hasegawa. 1996. A new genus and two new species of gigantic Plotopteridae from Japan (Aves: Pelecaniformes). Journal of Vertebrate Paleontology 16:742–751.
  • Owen, R. 1873. Description of the skull of a dentigerous bird (Odontopteryx toliapicus, Ow.) from the London Clay of Sheppey. Quarterly Journal of the Geological Society of London 29:511–522.
  • Peters, S. E., M. S. M. Antar, I. S. Zalmout, and P. D. Gingerich. 2009. Sequence stratigraphic control on preservation of late Eocene whales and other vertebrates at Wadi Al-Hitan, Egypt. Palaios 24:290–302.
  • Peters, S. E., A. E. Carlson, D. C. Kelly, and P. D. Gingerich. 2010. Large-scale glaciation and deglaciation of Antarctica during the late Eocene. Geology 38:723–726.
  • Prum, R. O., J. S. Berv, A. Dornburg, D. J. Field, J. P. Townsend, E. M. Lemmon, and A. R. Lemmon. 2015. A comprehensive phylogeny of birds (Aves) using targeted next-generation DNA sequencing. Nature 526:569–573.
  • Rafinesque, C. S. 1815. Analyse de la nature ou tableau de l’univers et des corps organisés. 223 pp. Published privately, Palermo.
  • Rasmussen, D. T., S. L. Olson, and E. L. Simons. 1987. Fossil birds from the Oligocene Jebel Qatrani Formation, Fayum Province, Egypt. Smithsonian Contributions to Paleobiology 62:1–20.
  • Reichenbach, L. 1852. Das natürliche System der Vögel. Friedrich Hofmeister, Leipzig, 35 pp.
  • Rich P. V. 1972. A fossil avifauna from the Upper Miocene, Beglia Formation of Tunisia. Notes du Service géologique, Travaux de Géologie de Tunisie 35:29–66.
  • Smith, N. A. 2013. Avian fossils from the early Miocene Moghra Formation of Egypt. Ostrich 84:181–189.
  • Smith, N. D. 2010. Phylogenetic analysis of Pelecaniformes (Aves) based on osteological data: implications for waterbird phylogeny and fossil calibration studies PLoS One 5:e13354.
  • Tumarkin-Deratzian, A. R., D. R. Vann, and P. Dodson. 2006. Bone surface texture as an ontogenetic indicator in long bones of the Canada goose Branta canadensis (Anseriformes: Anatidae). Zoological Journal of the Linnean Society 148:133–168.
  • Wade, B. S., P. N. Pearson, W. A. Berggren, and H. Pälike. 2011. Review and revision of Cenozoic tropical planktonic foraminiferal biostratigraphy and calibration to the geomagnetic polarity and astronomical time scale. Earth-Science Reviews 104:111–142.
  • Watanabe, J. 2017. Ontogeny of macroscopic morphology of limb bones in modern aquatic birds and their implications for ontogenetic ageing. Contribuciones del Museo Argentino de Ciencias Naturales 7:83–220.
  • Watanabe, J. 2018. Ontogeny of surface texture of limb bones in modern aquatic birds and applicability of textural ageing. Anatomical Record 301:1026–1045.
  • Watanabe, J., and H. Matsuoka. 2013. Ontogenetic change of morphology and surface texture of long bones in the Gray Heron (Ardea cinerea, Ardeidae); pp. 279–306 in U. B. Gohlich and A. Kroh (eds.), Paleornithological Research 2013: Proceedings of the 8th International Meeting of the Society of Avian Paleontology and Evolution, Vienna, 2012 Naturhistorisches Museum Wien. Vienna, Austria.

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