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New late Eocene and Oligocene plotopterid fossils from Washington State (USA), with a revision of “Tonsalabuchanani (Aves, Plotopteridae)

Published online by Cambridge University Press:  06 September 2021

Gerald Mayr Open the ORCID record for Gerald Mayr [Opens in a new window]  and
James L. Goedert
Gerald Mayr*
Affiliation:
Senckenberg Research Institute and Natural History Museum Frankfurt, Ornithological Section, Senckenberganlage 25, D-60325 Frankfurt am Main, Germany
James L. Goedert
Affiliation:
Burke Museum of Natural History and Culture, University of Washington, Box 353010, Seattle, Washington 98195, USA
*
*Corresponding author
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Abstract

We report new specimens of the Plotopteridae from Washington State (USA), an area where these flightless seabirds underwent significant diversification during the late Eocene and Oligocene. To date, five plotopterid species from western Washington have been formally named. Specimens previously assigned to Tonsala buchanani Dyke, Wang, and Habib, 2011 belong to at least two, but probably even three, different species. One of these, the large-sized “Whiskey Creek specimen” from late Eocene deposits mapped as the Makah Formation, is the oldest known plotopterid and is here tentatively assigned to ?Klallamornis clarki Mayr and Goedert, 2016. Another specimen originally referred to T. buchanani is also likely to belong to a different species and is among the most substantial records for North American plotopterids. We formally transfer T. buchanani to the taxon Klallamornis and show that the only unambiguously identified specimen of the species—the holotype—is currently poorly diagnosed from Klallamornis abyssa Mayr and Goedert, 2016, which is from coeval strata of the Pysht Formation. Although the holotype of K. abyssa is larger than that of K. buchanani, there remains a possibility that plotopterids were sexually dimorphic in size. We describe the first ungual phalanx of a plotopterid, which is referred to K. buchanani, and report previously unknown elements of the large ?K. clarki and the first records of this species from the Lincoln Creek Formation. Current data indicate that plotopterids originated in the middle or late Eocene on islands off western North America, and we hypothesize that the radiation of these birds in the North Pacific Basin may have been related to the evolution of kelp forests.

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Articles
Information
Journal of Paleontology , Volume 96 , Issue 1 , January 2022 , pp. 224 - 236
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Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of The Paleontological Society

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References

Ando, T., and Fukata, K., 2018, A well-preserved partial scapula from Japan and the reconstruction of the triosseal canal of plotopterids: PeerJ, v. 6, e5391, https://doi.org/10.7717/peerj.5391CrossRefGoogle ScholarPubMed
Barnes, L.G., and Goedert, J.L., 2001, Stratigraphy and paleoecology of Oligocene and Miocene desmostylian occurrences in western Washington State, USA: Bulletin of Ashoro Museum of Paleontology, v. 2, p. 722.Google Scholar
Dyke, G.J., Wang, X., and Habib, M.B., 2011, Fossil plotopterid seabirds from the Eo-Oligocene of the Olympic Peninsula (Washington State, USA): Descriptions and functional morphology: PLoS ONE, v. 6, n. 25672, https://doi.org/10.1371/journal.pone.0025672CrossRefGoogle ScholarPubMed
Goedert, J.L., 1988, A new late Eocene species of Plotopteridae (Aves: Pelecaniformes) from northwestern Oregon: Proceedings of the California Academy of Sciences, v. 45, p. 97102.Google Scholar
Goedert, J.L., and Cornish, J., 2002, A preliminary report on the diversity and stratigraphic distribution of the Plotopteridae (Pelecaniformes) in Paleogene rocks of Washington State, USA, in Zhou, Z., and Zhang, F., eds., Proceedings of the 5th Symposium of the Society of Avian Paleontology and Evolution, Beijing, 1–4 June 2000: Beijing, Science Press, p. 6376.Google Scholar
Hasegawa, Y., Okumura, Y., and Okazaki, Y., 1977, A Miocene bird fossil from Mizunami, central Japan: Bulletin of the Mizunami Fossil Museum, v. 4, p. 169171.Google Scholar
Howard, H., 1969, A new avian fossil from Kern County, California: Condor, v. 71, p. 6869.CrossRefGoogle Scholar
Kaiser, G., Watanabe, J., and Johns, M., 2015, A new member of the family Plotopteridae (Aves) from the late Oligocene of British Columbia, Canada: Palaeontologia Electronica, 18.3.52A, 18 p.Google Scholar
Linnaeus, C., 1758, Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis (tenth edition): Holmiae, Laurentius Salvius, 824 p.Google Scholar
Maruyama, S., Isozaki, Y., Kimura, G., and Terabayashi, M., 1997, Paleogeographic maps of the Japanese Islands: plate tectonic synthesis from 750 Ma to the present: The Island Arc, v. 6, p. 121142.CrossRefGoogle Scholar
Mayr, G., 2005, Tertiary plotopterids (Aves, Plotopteridae) and a novel hypothesis on the phylogenetic relationships of penguins (Spheniscidae): Journal of Zoological Systematics and Evolutionary Research, v. 43, p. 6171.CrossRefGoogle Scholar
Mayr, G., 2009, Paleogene Fossil Birds: Heidelberg, Springer, 262 p.CrossRefGoogle Scholar
Mayr, G., and Goedert, J.L., 2016, New late Eocene and Oligocene remains of the flightless, penguin-like plotopterids (Aves, Plotopteridae) from western Washington State, USA: Journal of Vertebrate Paleontology, v. 36, e1163573, https://doi.org/10.1080/02724634.2016.1163573CrossRefGoogle Scholar
Mayr, G., and Goedert, J.L., 2018, First record of a tarsometatarsus of Tonsala hildegardae (Plotopteridae) and other avian remains from the late Eocene/early Oligocene of Washington State (USA): Geobios, v. 51, p. 5159.CrossRefGoogle Scholar
Mayr, G., Goedert, J.L., and Vogel, O., 2015, Oligocene plotopterid skulls from western North America and their bearing on the phylogenetic affinities of these penguin-like seabirds: Journal of Vertebrate Paleontology, v. 35, e943764, https://doi.org/10.1080/02724634.2014.943764CrossRefGoogle Scholar
Mayr, G., Scofield, R.P., De Pietri, V.L., and Tennyson, A.J.D., 2017, A Paleocene penguin from New Zealand substantiates multiple origins of gigantism in fossil Sphenisciformes: Nature Communications, v. 8, n. 1927, https://doi.org/10.1038/s41467-017-01959-6CrossRefGoogle ScholarPubMed
Mayr, G., Goedert, J.L., De Pietri, V., and Scofield, R.P., 2021, Comparative osteology of the penguin-like mid-Cenozoic Plotopteridae and the earliest true fossil penguins, with comments on the origins of wing-propelled diving: Journal of Zoological Systematics and Evolutionary Research, v. 59, p. 264276.CrossRefGoogle Scholar
Mori, H., and Miyata, K., 2021, Early Plotopteridae specimens (Aves) from the Itanoura and Kakinoura Formations (latest Eocene to early Oligocene), Saikai, Nagasaki Prefecture, western Japan: Paleontological Research, v. 25, p. 145159.CrossRefGoogle Scholar
Nesbitt, E.A., Martin, R.A., Carroll, N.P., and Grieff, J., 2010, Reassessment of the Zemorrian foraminiferal stage and Juanian molluscan stage north of the Olympic Mountains, Washington State and Vancouver Island: Newsletter on Stratigraphy, v. 43, p. 275291.CrossRefGoogle Scholar
Ohashi, T., and Hasegawa, Y., 2020, New species of Plotopteridae (Aves) from the Oligocene Ashiya Group of Northern Kyushu, Japan: Paleontological Research, v. 24, p. 285297.CrossRefGoogle Scholar
Olson, S.L., 1980, A new genus of penguin-like pelecaniform bird from the Oligocene of Washington (Pelecaniformes: Plotopteridae): Natural History Museum of Los Angeles County, Contributions in Science, v. 330, p. 5157.Google Scholar
Olson, S.L., and Hasegawa, Y., 1985, A femur of Plotopterum from the early middle Miocene of Japan (Pelecaniformes: Plotopteridae): Bulletin of the National Science Museum, ser. C, v. 11, p. 137140.Google Scholar
Olson, S.L., and Hasegawa, Y., 1996, A new genus and two new species of gigantic Plotopteridae from Japan (Aves: Plotopteridae): Journal of Vertebrate Paleontology, v. 16, p. 742751.CrossRefGoogle Scholar
Sakurai, K., Kimura, M., and Katoh, T., 2008, A new penguin-like bird (Pelecaniformes: Plotopteridae) from the Late Oligocene Tokoro Formation, northeastern Hokkaido, Japan: Oryctos, v. 7, p. 8394.Google Scholar
Shimada, K., Welton, B.J., and Long, D.J., 2014, A new megamouth shark (Lamniformes: Megachasmidae) from the Oligocene–Miocene of the western United States: Journal of Vertebrate Paleontology, v. 34, p. 281290.CrossRefGoogle Scholar
Smith, N.D., 2010, Phylogenetic analysis of Pelecaniformes (Aves) based on osteological data: implications for waterbird phylogeny and fossil calibration studies: PLoS ONE, v. 5, e13354, https://doi.org/10.1371/journal.pone.0013354CrossRefGoogle ScholarPubMed
Snavely, P.D. Jr., and Wagner, H.C., 1963, Report of Investigations No. 22: Tertiary Geologic History of Western Oregon and Washington: Olympia, Washington, State of Washington, Department of Mines and Geology, 23 p.Google Scholar
Snavely, P.D. Jr., and Wells, R.E., 1996, Cenozoic evolution of the continental margin of Oregon and Washington: U.S. Geological Survey Professional Paper no. 1560, p. 161182.Google Scholar
Starko, S., Gomez, M.S., Darby, H., Demes, K.W., Kawai, H., Yotsukura, N., Lindstrom, S.C., Keeling, P.J., Graham, S.W., and Martone, P.T., 2019, A comprehensive kelp phylogeny sheds light on the evolution of an ecosystem: Molecular Phylogenetics and Evolution, v. 136, p. 138150.CrossRefGoogle ScholarPubMed
Vermeij, G.J., 2018, Comparative biogeography: innovations and the rise to dominance of the North Pacific biota: Proceedings of the Royal Society B, v. 285, n. 20182027, https://doi.org/10.1098/rspb.2018.2027Google ScholarPubMed
Vermeij, G.J., Banker, R., Capece, L.R., Hernandez, E.S., Salley, S.O., Vriesman, V.P., and Wortham, B.E., 2019, The coastal North Pacific: origins and history of a dominant marine biota: Journal of Biogeography, v. 46, p. 118.CrossRefGoogle Scholar
Warheit, K.I., and Lindberg, D.R., 1988, Interactions between seabirds and marine mammals through time: interference competition at breeding sites, in Burger, J., ed., Seabirds and Other Marine Vertebrates: Competition, Predation and Other Interactions: New York, Columbia University Press, p. 292328.Google Scholar
Wells, R.E., and Coe, R.S., 1985, Paleomagnetism and geology of Eocene volcanic rocks of southwest Washington, implications for mechanisms of tectonic rotation: Journal of Geophysical Research, v. 90, p. 19251947.CrossRefGoogle Scholar