Pleistocene non-passeriform landbirds from Shiriya, northeast Japan

• Autorzy: Watanabe J. , Matsuoka H. , Hasegawa Y.
• Języki publikacji: EN

Abstrakty

EN

Located on the eastern margin of Eurasia, the Japanese Archipelago hosts a unique modern fauna of terrestrial vertebrates including landbirds which show a high proportion of endemic species/subspecies. Despite its potential importance in taxonomy and biogeography, the Pleistocene landbird fossil record has been scarce on Japanese islands, providing little information on the history of the unique fauna in the region. In this study, fossil remains of non-passeriform landbirds from the Middle–Late Pleistocene (Marine Isotope Stages [MIS] 9 and 5e) of Shiriya, northernmost Honshu Island, Japan, are revised with extensive osteological comparisons. As a result, the presence of at least six non-passeriform landbird species, represented by 71 specimens, was confirmed: Syrmaticus sp., Coturnicini gen. et sp. indet., Columbidae gen. et sp. indet., Apus sp., Haliaeetus sp., and Accipitridae gen. et sp. indet. The Shiriya paleoavifauna is the first substantial Pleistocene landbird fauna reported from the central Japanese islands so far, and suggests that the overall landbird fauna in northern Honshu in the last interglacial period (MIS 5e) was not drastically different from the present one, in contrast to the presence of several extinct land mammals and seabirds in the local fauna. The occurrence of Syrmaticus despite the supposedly colder climate in that time than today suggests that the distribution of modern S. soemmerringii might not be totally defined by climatic factors, but probably affected by a biogeographic barrier at the strait between Honshu and Hokkaido islands.

• Wydawca: -
• Czasopismo: Acta Palaeontologica Polonica
• Rocznik: 2018
• Tom: 63
• Numer: 3
• Opis fizyczny: p.469-491,fig.,ref.

Twórcy

autor

Watanabe J.

• Department of Geology and Mineralogy, Graduate School of Science, Kyoto University, Sakyoku Kitashirakawa Oiwakecho, Kyoto 606-8502, Japan

autor

Matsuoka H.

• Department of Geology and Mineralogy, Graduate School of Science, Kyoto University, Sakyoku Kitashirakawa Oiwakecho, Kyoto 606-8502, Japan

autor

Hasegawa Y.

• Gunma Museum of Natural History, 1674-1 Kamikuroiwa, Tomioka, Gunma 370-2345, Japan

Bibliografia

• Baird, R.F. 1991. Avian fossils from the Quaternary of Australia. In: P. Vickers-Rich, J.M. Monaghan, R.F. Baird, and T.H. Rich (eds.), Vertebrate Palaeontology of Australasia, 809–870. Pioneer Design Studio, Melbourne.
• Ballmann, P. 1976. Fossile Vögel aus dem Neogen der Halbinsel Gargano (Italien), zweiter Teil. Scripta Geologica 38: 1–59.
• Baumel, J.J. and Witmer, L.M. 1993. Osteologia. 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 23, 45–132. The Nuttall Ornithological Club, Cambridge.
• Becker, J.J. 1987a. Neogene Avian Localities of North America. 171 pp. Smithsonian Institution Press, Washington, D.C.
• Becker, J.J. 1987b. The fossil birds of the late Miocene and early Pliocene of Florida. I. Geology, correlation, and systematic overview. In: C. Mourer-Chauviré (ed.), L’Évolution des Oiseaux d’Aprés le Témoignage des Fossiles. Documents des Laboratoires de Géologie de la Faculté des Sciences de Lyon 99: 159–171.
• Bever, G.S. 2005. Variation in the ilium of North American Bufo (Lissamphibia; Anura) and its implications for species-level identification of fragmentary anuran fossils. Journal of Vertebrate Paleontology 25: 548–560.
• Bintaja, R., van de Wal, R.S.W., and Oerlemans, J. 2005. Modelled atmospheric temperatures and global sea levels over the past million years. Nature 437: 125–128.
• Blakiston, T.W. 1883. Zoological indications of ancient connection of the Japan Islands with the continent. Transactions of the Asiatic Society of Japan 11: 126–140.
• Blakiston, T.W. and Pryer, H. 1880. Catalogue of the birds of Japan. Transactions of the Asiatic Society of Japan 8: 172–241.
• Boev, Z. 2000. The presence of Apus baranensis Janossy, 1977 (Aves: Apodidae) in the late Pliocene of Bulgaria. Acta Zoologica Bulgarica 52: 43–52.
• Brodkorb, P. 1960. How many species of birds have existed. Bulletin of the Florida State Museum, Biological Science 5: 41–53.
• Brodkorb, P. 1964. Catalogue of fossil birds, Part 2 (Anseriformes through Galliformes). Bulletin of the Florida State Museum, Biological Science 8: 195–335.
• Chinzei, K. 1991. Late Cenozoic zoogeography of the Sea of Japan area. Episodes 14: 231–235.
• Chinzei, K. and Machida, H. 2001. Historical development of geomorphology of the Japanese islands [in Japanese]. In: N. Yonekura, S. Kaizuka, M. Nogami, and K. Chinzei (eds.), Regional Geomorphology of the Japanese Islands, Volume 1: Introduction to Japanese Geomorphology, 297–322. University of Tokyo Press, Tokyo.
• Dawson, E.W. 1961. An extinct sea eagle in the Chatham Islands. Notornis 9: 171–172.
• Dickinson, E.C. and Remsen, J.V., Jr. (eds.) 2013. The Howard and Moore Complete Checklist of the Birds of the World, 4th Edition, Volume 1. l + 461 pp. Aves Press, Eastbourne.
• Dobson, M. 1994. Patterns of distribution in Japanese mammals. Mammal Review 24: 91–111.
• Emslie, S.D. 1998. Avian community, climate, and sea-level changes in the Plio-Pleistocene of the Florida Peninsula. Ornithological Monographs 50: 1–113.
• Ennouchi, E. 1930. Contribution à l’étude de la faune du Tortonien de la Grive-Saint-Alban (Isère). 135 pp., 6 pls. Presses Modernes, Paris.
• Ericson, P.G. 1987. Osteology of the Eider Somateria mollissima (L.). A Study of Sexual, Geographic and Temporal Morphometric Variation in the Eider Skeleton. 142 pp. Statens Historiska Museum, Stockholm.
• Finlayson, G., Finlayson, C., Giles Pacheco, F., Rodriguez Vidal, J., Carrión, J.S., and Recio Espejo, J.M. 2008. Caves as archives of ecological and climatic changes in the Pleistocene—the case of Gorham’s cave, Gibraltar. Quaternary International 181: 55–63.
• Fleischer, R.C., Olson, S.L., James, H.F., and Cooper, A.C. 2000. Identification of the extinct Hawaiian eagle (Haliaeetus) by mtDNA sequence analysis. Auk 117: 1051–1056.
• Friedmann, H. 1935. Avian bones from prehistoric ruins on Kodiak Island, Alaska. Journal of the Washington Academy of Sciences 25: 44–51.
• Garrod, A.H. 1874. On certain muscles [of the thigh] of birds and their value in classification. Part II. Proceedings of the Zoological Society of London 42: 111–124.
• Guerra, C., McMinn, M., and Alcover, J.A. 2013. The Upper Pleistocene–Holocene raptorial bird guild from Eivissa Island (Pityusic Archipelago, Western Mediterranean Sea). Geobios 46: 491–502.
• Guthrie, D.A. 1992. A Late Pleistocene avifauna from San Miguel Island, California. In: K.E. Campbell, Jr. (ed.), Papers in Avian Paleontology Honoring Pierce Brodkorb. Natural History Museum of Los Angeles County Science Series 36: 319–327.
• Hailer, F., James, H.F., Olson, S.L., and Fleischer, R.C. 2015. Distinct and extinct: genetic differentiation of the Hawaiian eagle. Molecular Phylogenetics and Evolution 83: 40–43.
• Harrison, C.J.O. 1984. A revision of the fossil swifts (Vertebrata, Aves, suborder Apodi), with descriptions of three new genera and two new species. Mededelingen van de Werkgroep voor Tertiaire en Kwartaire Geologie 21: 157–177.
• Harrison, C.J.O. and Walker, C.A. 1973. An undescribed extinct fish-eagle from the Chatham Islands. Ibis 115: 274–277.
• Harvati, K., Darlas, A., Bailey, S.E., Rein, T.R., El Zaatari, S., Fiorenza, L., Kullmer, O., and Psathi, E. 2013. New Neanderthal remains from Mani peninsula, Southern Greece: the Kalamakia Middle Paleolithic cave site. Journal of Human Evolution 64: 486–499.
• Hasegawa, Y. 1964. Preliminary report on the Gansuiji Formation and its fauna [in Japanese, with English summary]. Science Reports of the Yokohama National University, Section II: Biological and Geological Sciences 11: 71–78.
• Hasegawa, Y. 1972. The Nauman’s elephant, Palaeoloxodon naumanni (Makiyama) from the Late Pleistocene off Shakagahama, Shodoshima Is. in Seto Inland Sea, Japan. Bulletin of the National Science Museum, Tokyo 15: 513–599.
• Hasegawa, Y., Tomida, Y., Kohno, N., Ono, K., Nokariya, H., and Uyeno, T. 1988. Quaternary vertebrates from Shiriya area, Shimokita Peninsula, northeastern Japan [in Japanese, with English summary]. Memoirs of the National Science Museum (Tokyo) 21: 17–36.
• Holm, S.R. and Svenning, J.-C. 2014. 180,000 years of climate change in Europe: avifaunal responses and vegetation implications. PLoS ONE 9: e94021.
• Holt, B.G., Lessard, J.-P., Borregaard, M.K., Fritz, S.A., Araújo, M.B., Dimitrov, D., Fabre, P.-H., Graham, C.H., Graves, G.R., Jønsson, K.A., Nogués-Bravo, D., Wang, Z., Whittaker, R.J., Fjeldså, J., and Rahbek, C. 2013a. An update of Wallace’s zoogeographic regions of the world. Science 339: 74–78.
• Holt, B.G., Lessard, J.-P., Borregaard, M.K., Fritz, S.A., Araújo, M.B., Dimitrov, D., Fabre, P.-H., Graham, C.H., Graves, G.R., Jønsson, K.A., Nogués-Bravo, D., Wang, Z., Whittaker, R.J., Fjeldså, J., and Rahbek, C. 2013b. Response to comment on “An update of Wallace’s zoogeographic regions of the world”. Science 341: 343.
• Horsfield, T. 1821. Systematic arrangement and description of birds from the Island of Java. Transactions of the Linnean Society of London 13: 133–200.
• Hosner, P.A., Faircloth, B.C., Glenn, T.C., Braun, E.L., and Kimball, R.T. 2016. Avoiding missing data biases in phylogenetic inference: an empirical study in the landfowl (Aves: Galliformes). Molecular Biology and Evolution 33: 1110–1125.
• Hou, L. 1993. Avian fossils of Pleistocene from Zhoukoudian [in Chinese, with English summary]. Memoirs of Institute of Vertebrate Palaeontology and Palaeoanthropology, Academia Sinica 19: 165–297.
• Howard, H. 1929. The avifauna of Emeryville Shellmound. University of California Publications in Zoology 32: 301–394.
• del Hoyo, J. and Collar, N.J. 2014. HBW and BirdLife International Illustrated Checklist of the Birds of the World, Volume 1. 903 pp. Lynx Edicions, Barcelona.
• Huguet, R., Vallverdú, J., Rodríguez-Álvarez, X.P., Terradillos-Bernal, M., Bargalló, A., Lombera-Hermida, A., Menéndez, L., Modesto-Mata, M., Van der Made, J., Soto, M., Blain, H.-A., García, N., Cuenca-Bescoós, G., Gómez-Merino, G., Pérez-Martínez, R., Expósito, I., Rofes, E.A.J., Burjachs, F., Canals, A., Bennaàsar, M., Nuñez-Lahuerta, C., Bermúdes de Castro, J.M., and Carbonell, E. 2017. Level TE9c of Sima del Elefante (Sierra de Atapuerca, Spain): a comprehensive approach. Quaternary International 433: 278–295.
• Iwase, A., Hashizume, J., Izuho, M., Takahashi, K., and Sato, H. 2012. Timing of megafaunal extinction in the late Late Pleistocene on the Japanese Archipelago. Quaternary International 255: 114–124.
• Jánossy, D. 1972. Die mittelpleistozäne Vogelfauna der Stránská Skála. Anthropos (Brno) 20: 35–64.
• Jánossy, D. 1974. Die mittelpleistozäne Vogelfauna von Hundsheim (Niederösterreich). Sitzungsberichte (Österreichische Akademie der Wissenschaften, Mathematisch-naturwissenschaftliche Klasse), Abteilung I: Biologie, Mineralogie, Erdkunde und verwandte Wissenschaften 182: 211–257.
• Jánossy, D. 1978. Plio-Pleistocene bird remains from the Carpathian Basin III. Strigiformes, Falconiformes, Caprimulgiformes, Apodiformes. Aquila 84: 9–36.
• Jánossy, D. 1983. Die mittelpleistozäne Vogelfauna von Přezletice bei Prag (ČSSR). In: W.-D. Heinrich (ed.), Wirbertier-Evolution und Faunenwandel in Känozoikum, 247–269. Akademie-Verlag, Berlin.
• Jánossy, D. 1991. Late Miocene bird remains from Polgárdi (W-Hungary). Aquila 98: 13–35.
• Jiang, L., Wang, G., Peng, R., Peng, Q., and Zou, F. 2014. Phylogenetic and molecular dating analysis of Taiwan blue pheasant (Lophura swinhoii). Gene 539: 21–29.
• Johnsgard, P.A. 1999. The Pheasants of the World: Biology and Natural History, 2nd Edition. xviii + 398 pp. Smithsonian Institution Press, Washington, D.C.
• Jolivet, L., Tamaki, K., and Fournier, M. 1994. Japan Sea, opening history and mechanism: a synthesis. Journal of Geophysical Research B: Solid Earth 99: 22237–22259.
• Kamada, K. 2000. Shiriya complex: pre-Tertiary accretional complex at Cape Shiriya, Northern Japan [in Japanese]. Bulletin of the Faculty of Education, Hirosaki University 83: 39–47.
• Kamei, T., Kawamura, Y., and Taruno, H. 1988. Mammalian stratigraphy of the Late Neogene and Quaternary in the Japanese islands [in Japanese, with English summary]. Memoirs of the Geological Society of Japan 30: 181–204.
• Kawamura, Y. 1998. Immigration of mammals into the Japanese islands during the Quaternary [in Japanese, with English summary]. Quaternary Research (Japan Association for Quaternary Research) 37: 251–357.
• Kawamura, Y. 2007. Last glacial and Holocene land mammals of the Japanese islands: their fauna, extinction and immigration. Quaternary Research (Japan Association for Quaternary Research) 46: 171–177.
• Kessler, J. 2010. Új eredmények a Kárpát-medence neogén és negyedidőszaki madárvilágához III. Földtani Közlöny 140: 53–72.
• Kigoshi, T., Kumon, F., Kawai, S., and Kanauchi, A. 2017. Quantitative reconstruction of paleoclimate in central Japan for the past 158,000 years based on a modern analogue technique of pollen composition. Quaternary International 455: 126–140.
• Kitamura, A. 2008. Paleoceanographic changes of the Sea of Japan during 3.5–0.8 Ma. In: H. Okada, S.F. Mawatari, N. Suzuki, and P. Gautam (eds.), Origin and Evolution of Natural Diversity. Proceedings of the International Symposium held from 1–5 October 2007 in Sapporo, Japan, 187–194. 21st Century Center of Excellence Program for Neo-Science of Natural History, Hokkaido University, Sapporo.
• Kitamura, A., Takano, O., Takata, H., and Omote, H. 2001. Late Pliocene–Early Pleistocene paleoceanographic evolution of the Sea of Japan. Palaeogeography, Palaeoclimatology, Palaeoecology 172: 81–98.
• Koike, K. and Machida, H. (eds.) 2001. Atlas of Quaternary Marine Terraces in the Japanese Islands [in Japanese]. 105 pp., 3 maps. University of Tokyo Press, Tokyo.
• Konishi, S. and Yoshikawa, S. 1999. Immigration times of the two proboscidean species, Stegodon orientalis and Palaeoloxodon naumanni, into the Japanese islands and the formation of land bridge [in Japanese, with English summary]. Earth Science (Chikyu Kagaku) 53: 125–134.
• Kreft, H. and Jetz, W. 2013. Comment on “An update of Wallace’s zoogeographic regions of the world”. Science 341: 343.
• Kurochkin, E.N. 1985. Birds of the central Asia in Pliocene [in Russian]. Joint Soviet-Mongolian Paleontological Expedition, Transactions 26: 1–120.
• Lambrecht, K. 1933. Handbuch der Palaeornithologie. 1024 pp. Gebründer Borntraeger, Berlin, Germany.
• Latham, J. 1801. Supplementum Indicis ornithologici sive Systematis ornithologiae. 74 pp. Leigh Sotherby and Son, London.
• Leach, W.E. 1820. Eleventh room. In: Synopsis of the Contents of the British Museum, 17th edition, 65–70. British Museum (Natural History), London.
• Linnaeus, C. 1758. Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus differentiis, synonymis, locis, Volume 1. 824 pp. Laurentii Salvii, Stockholm.
• Matsuoka, A. 1987. Radiolarian age of the Shiriya Group in Aomori Prefecture, northeast Japan [in Japanese, with English summary]. Fossils (The Palaeontological Society of Japan) 42: 7–13.
• Matsuoka, H. 2000. The Late Pleistocene fossil birds of the central and southern Ryukyu Islands, and their zoogeographical implications for the Recent avifauna of the archipelago. Tropics 10: 165–188.
• Matsuoka, H. and Hasegawa, Y. 2018. Birds around the Minatogawa Man: the Late Pleistocene avian fossil assemblage of the Minatogawa Fissure, southern part of Okinawa Island, Central Ryukyu Islands, Japan. Bulletin of the Gunma Museum of Natural History 22: 1–21.
• McKay, B.D. 2012. A new timeframe for the diversification of Japan’s mam mals. Journal of Biogeography 39: 1134–1143.
• Meijer, H.J.M., Tocheri, M.W., Due, R.A., Sutikna, T., Saptomo, E.W., and James, H.F. 2015. Continental-style avian extinctions on an oceanic island. Palaeogeography, Palaeoclimatology, Palaeoecology 429: 163–170.
• Millener, P.R. 1999. The history of the Chatham Island’s bird fauna of the last 7000 years—a chronicle of change and extinction. In: S.L. Olson (ed.), Avian Paleontology at the Close of the 20th Century. Proceedings of the 4th International Meeting of the Society of Avian Paleontology and Evolution, Washington, D.C., 4–7 June 1996. Smithsonian Contributions to Paleobiology 89: 85–109.
• Milne, J. 1881. Evidence of the glacial period in Japan. Transactions of the Asiatic Society of Japan 9: 53–86.
• Milne-Edwards, M.A. 1867–1871. Recherches anatomiques et paléontologiques pour servir à l’histoire des oiseaux fossiles de la France, 4 volumes [2 texts + 2 plates]. 575 + 627 pp, 200 pls. Victor Masson, Paris.
• Mlíkovský, J. 1989. A new swift (Aves: Apodidae) from the late Eocene of France. Annalen des Naturhistorischen Museums in Wien. Serie A: Mineralogie und Petrographie, Geologie und Palaontologie, Anthropologie und Prahistorie 90: 59–62.
• Mlíkovský, J. 1997. Taxonomic identity of Haliaeetus angustipes Jánossy, 1983 (Aves: Accipitridae) from the Early Pleistocene of the Czech Republic. Buteo 9: 51–56.
• Mlíkovský, J. 2002. Cenozoic Birds of the World, Part 1: Europe. 417 pp. Ninox Press, Praha.
• Mourer-Chauviré, C. 1975. Les oiseaux du Pléistocène moyen et supérieur de France. Documents des Laboratoires de Géologie de la Faculté des Sciences de Lyon 64: 1–624.
• Murata, M. 1962. The Upper Jurassic of Cape Shiriya, Aomori Prefecture, Japan. Science Reports of the Tohoku University, 2nd Series (Geology) 5 (Special Volume): 119–126.
• Nakajima, Z. 1958. On the occurrence of the Quaternary mammalian fauna from the limestone fissures near Shiriya-zaki, Shimokita Peninsula, Aomori Prefecture, Japan (No. 2) [in Japanese, with English summary]. Miscellaneous Reports of the Research Institute for Natural Resources, Tokyo 46–47: 37–39.
• Nakajima, Z. and Kuwano, Y. 1957. On the occurrence of the Quaternary mammalian fauna from the limestone fissures near Shiriya-zaki, Shimokita Peninsula, Aomori Prefecture, Japan [in Japanese, with English summary]. Miscellaneous Reports of the Research Institute for Natural Resources, Tokyo 43–44: 153–159.
• Nakazawa, Y. and Bae, C.J. (in press). Quaternary paleoenvironmental variation and its impact on initial human dispersals into the Japanese Archipelago. Palaeogeography, Palaeoclimatology, Palaeoecology.
• Nesbitt, S.J. and Stocker, M.R. 2008. The vertebrate assemblage of the Late Triassic Canjilon Quarry (northern New Mexico, USA), and the importance of apomorphy-based assemblage comparisons. Journal of Vertebrate Paleontology 28: 1063–1072.
• Nishiumi, I. and Kim, C.-H. 2015. Assessing the potential for reverse colonization among Japanese birds by mining DNA barcode data. Journal of Ornithology 156 (Supplement 1): S325–S331.
• Nokariya, H. and Ono, K. 1980. Amphibian and avian remains from Taishaku- Kannondo cave site [in Japanese]. Annual Bulletin of Hiroshima University Taishaku-kyo Sites Research Centre 3: 75–84.
• Northcote, E.M. 1981. Size differences between limb bones of Recent and subfossil Mute Swans Cygnus olor. Journal of Archaeological Science 8: 89–98.
• Oba, T. and Irino, T. 2012. Sea level at the Last Glacial Maximum, constrained by oxygen isotopic curves of planktonic foraminifera in the Japan Sea. Journal of Quaternary Science 27: 941–947.
• Olphe-Galliard, L. 1887. Contributions a la faune ornithologique de l’Europe occidentale: recueil comprenant les espèces d’oiseaux que se reproduisent dans cette région ou qui s’y montrent régulièrement de passage, augmenté de la description des principales espèces exotiques les plus voisines des indigènes ou susceptibles d’ètre confondues avec elles, ainsi que l’énumération des races domestiques, Fascicle 22. 110 pp. Veuve Cadoret, Bordeaux.
• Olson, S.L. 1984. The relationships of the extinct Chatham Island eagle. Notornis 31: 273–277.
• Olson, S.L. 2005. Correction of erroneous records of the cormorant from archeological sites in Alaska. Condor 107: 930–933.
• Olson, S.L. 2010. Stasis and turnover in small shearwaters on Bermuda over the last 400 000 years (Aves: Procellariidae: Puffinus lherminieri group). Biological Journal of the Linnean Society 99: 699–707.
• Olson, S.L. and James, H.F. 1991. Descriptions of thirty-two new species of birds from the Hawaiian Islands: Part I. Non-Passeriformes. Ornithological Monographs 45: 3–88.
• Ono, K. 1980. Fossil birds from the Nojiri-ko Formation [in Japanese, with English summary]. Memoirs of the Geological Society of Japan 19: 161–166.
• Ono, K. and Hasegawa, Y. 1985. Preliminary report on Late Pleistocene avifauna from Pinza-Abu Cave, Miyako Island, Okinawa, Japan [in Japanese]. In: Department of Education, Okinawa Prefectural Government (ed.), Pinaza-Abu, Reports on Excavations of the Pinza-Abu Cave, 115–137. Department of Education, Okinawa Prefectural Government, Naha.
• Ota, Y. and Machida, H. 1987. Quaternary sea-level changes in Japan. In: M.J. Tooley and I. Shennan (eds.), Sea-level Changes, 182–224. Basil Blackwell, Oxford.
• Ota, Y. and Yonekura, N. 1987. Coastlines [in Japanese]. In: Japan Association for Quaternary Research (ed.), Quaternary Maps of Japan, 70–72. University of Tokyo Press, Tokyo.
• Otufuji, Y.-I. 1996. Large tectonic movement of the Japan Arc in late Cenozoic times inferred from paleomagnetism: review and synthesis. Island Arc 5: 229–249.
• Pallas, P. 1811. Zoographia Rosso-Asiatica, sistens omnium animalium in extenso Imperio Rossico et adjacentibus maribus observatorum recesionem, domicilia, mores et descriptiones, anatomen atque icones plurimorum, Volume 1. xxii + 568 pp., 25 pls. Imperial Academy of Sciences, Petropoli.
• Park, S.-C., Yoo, D.-G., Lee, C.-W., and Lee, E.-I. 2000. Last glacial sea-level changes and paleogeography of the Korea (Tsushima) Strait. Geo-Marine Letters 20: 64–71.
• Peters, J.L. 1940. Check-list of Birds of the World, Volume 4. xii + 291 pp. Harvard University Press, Cambridge.
• Phillips, J.L. 1988. The Upper Paleolithic of the Wadi Feiran, Southern Sinai. Paléorient 14: 183–200.
• Päckert, M., Martens, J., Wink, M., Feigl, A., and Tietze, D.T. 2012. Molecular phylogeny of Old World swifts (Aves: Apodiformes, Apodidae, Apus and Tachymarptis) based on mitochondrial and nuclear markers. Molecular Phylogenetics and Evolution 63: 606–616.
• Rasmussen, D.T., Olson, S.L., and Simons, E.L. 1987. Fossil birds from the Oligocene Jebel Qatrani Formation, Fayum Province, Egypt. Smithsonian Contributions to Paleobiology 62: 1–20.
• Reichenbach, H.G.L. 1848 [1849]. Avium systema naturale das natürliche System der Vögel, Part 5, Die vollständigste Naturgeschichte des Inund Auslandes, Abteilung II. Vögel. Band III. Synopsis Avium. 10 pp. Expedition der vollständigsten naturgeschlichte, Dresden.
• Rich, P.V., Hou, L.H., Ono, K., and Baird, R.F. 1986. A review of the fossil birds of China, Japan and Southeast Asia. Geobios 19: 755–772.
• Rueda, M., Rodríguez, M.Á., and Hawkins, B.A. 2013. Identifying global zoogeographical regions: lessons from Wallace. Journal of Biogeography 40: 2212–2225.
• Sano, S., Sugisawa, N., and Shimaguchi, T. 2009. Discovery of megalodontoid bivalves in the Shiriya area, northern Honshu, Northeast Japan, and its geological implications [in Japanese, with English summary]. Memoir of the Fukui Prefectural Dinosaur Museum 8: 51–57.
• Savigny, J.-C. 1809. Système des oiseaux de l’Égypte et de la Syrie. In: Description de l’Égypte, ou recueil des observations et des recherches qui ont été faites en Égypte pendant l’expédition de l’armée Française, histoire naturelle, Volume 1, 63–114, 14 pls. Imprimerie impériale, Paris.
• Sawaura, R., Sawada, J., Sato, T., Suzuki, T., and Sasaki, K. 2018. Late Pleistocene hares of the Japanese archipelago: paleobiogeographic implication at the Last Glacial Maximum. International Journal of Osteoarchaeology 28: 179–187.
• Scopoli, G.A. 1777. Introductio ad historiam naturalem sistens genera lapi dum, plantarum, et animalium: hactenus detecta, caracteribus essentialibus donata, in tribus divisa, subinde ad leges naturae. 506 pp. Wolfgangum Gerle, Prague.
• Selander, R.K. 1965. Avian speciation in the Quaternary. In: H.E. Wright Jr. and D.G. Frey (eds.), The Quaternary of the United States: a Review Volume for the VII Congress of the International Association for Quaternary Research, 527–542. Princeton University Press, Princeton.
• Shaw, T.-H. 1935. Preliminary observations on the fossil birds from ChouKou-Tien. Bulletin of the Geological Society of China 14: 77–81.
• Stewart, J.R. 2002. The evidence for the timing of speciation of modern continental birds and the taxonomic ambiguity of the Quaternary fossil record. In: Z. Zhou and F. Zhang (eds.), Proceedings of the 5th Symposium of the Society of Avian Paleontology and Evolution, Beijing, 1–4 June 2000, 259–280. Science Press, Beijing.
• Stewart, J.R. 2005. The use of modern geographical ranges in the identification of archaeological bird remains. In: G. Grupe and J. Peters (eds.), Feathers, Grit and Symbolism: Birds and Humans in the Ancient Old and New Worlds. Proceedings of the 5th Meeting of the ICAZ Bird Working Group in Munich. Documenta Archaeobiologiae 3: 43–54.
• Stewart, J.R. 2007. An Evolutionary Study of Some Archaeologically Significant Avian Taxa in the Quaternary of the Western Palaearctic, BAR International Series, 1653. xx + 272 pp. Archaeopress, Oxford.
• Storer, R.W. 1992. Intraspecific variation and the identification of Pliocene and Pleistocene grebes. In: K.E. Campbell, Jr. (ed.), Papers in Avian Paleontology Honoring Pierce Brodkorb. Natural History Museum of Los Angeles County, Science Series 36: 419–422.
• Takai, F. 1962. Vertebrate fossils from the Tadaki Formation [in Japanese, with English summary]. Journal of the Anthropological Society of Nippon 70: 36–40.
• Tarasov, P.E., Nakagawa, T., Demske, D., Österle, H., Igarashi, Y., Kitagawa, J., Mokhova, L., Bazarova, V., Okuda, M., Gotanda, K., Miyoshi, N., Fujiki, T., Takemura, K., Yonenobu, H., and Fleck, A. 2011. Progress in the reconstruction of Quaternary climate dynamics in the Northwest Pacific: a new modern analogue reference dataset and its application to the 430-kyr pollen record from Lake Biwa. Earth-Science Reviews 108: 64–79.
• Temminck, C.-J. 1820. Manuel d’ornithologie, ou Tableau systématique des oiseaux qui se trouvent en Europe: précédé d’une analyse du sysème général d’ornithologie, et suivi d’une table alphabétique des espèces, 2nd Edition, Volume 1. cxv + 439 pp. H. Cousin, Paris.
• Temminck, C.J. 1830. [Faison Soemmerring. Phasianus soemmerringii. Temm.]. In: C.J. Temminck and M. Laugier de Chartrouse (eds.), Nouveau recueil de planches coloriées d’oiseaux, part 82, [6–8], pls. 487–488. Levrault, Paris.
• Temminck, C.-J. and Schlegel, H. 1844–1850. Aves. In: P.F. von Siebold (ed.), Fauna japonica, sive, Descriptio animalium, quae in itinere per Japoniam, jussu et auspiciis, superiorum, qui summum in India Batava Imperium tenent, suscepto, annis 1823–1830 collegit, notis observationibus et adumbrationibus illustravit, Volume 4. 141 pp, 91 pls. Lugduni Batavorum, Amsterdam.
• The Ornithological Society of Japan 1974. Check-list of Japanese Birds, 5th Edition, 2 volumes + addenda. xiii + 364 pp., x + 120 pp. The Ornithological Society of Japan, Sanda.
• The Ornithological Society of Japan. 2012. Check-list of Japanese Birds, 7th Edition. 438 pp. The Ornithological Society of Japan, Sanda.
• Tokuda, M. 1941. Biogeography of Japan [in Japanese]. 201 pp. Kokon Shoin, Tokyo.
• Tomida, S. 1978. On the Quaternary cave and fissure deposits and vertebrate fossils from Yagé Quarry, near lake Hamana, central Japan [in Japanese, with English summary]. Bulletin of the Mizunami Fossil Museum 5: 113–141.
• Tsushima, K. and Takizawa, F. 1977. Geology of the Shiriyazaki District, Quadrangle Series Scale 1:50,000, Aomori (5) No. 4 [in Japanese, with English summary]. 36 pp., 3 pls., 1 map. Geological Survey of Japan, Kawasaki.
• Tumarkin-Deratzian, A.R., Vann, D.R., and Dodson, P. 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.
• Tyrberg, T. 1998. Pleistocene Birds of the Palearctic: a Catalogue. Publication of the Nuttal Ornithological Club 27. ix + 720 pp. The Nuttal Ornithological Club, Cambridge.
• Tyrberg, T. 1999. Seabirds and Late Pleistocene marine environments in the Northeast Atlantic and the Mediterranean. In: S.L. Olson (ed.), Avian Paleontology at the Close of the 20th Century: Proceedings of the 4th International Meeting of the Society of Avian Paleontology and Evolution, Washington, D.C., 4–7 June 1996. Smithsonian Contributions to Paleobiology 89: 139–157.
• Tyrberg, T. 2002. Avian species turnover and species longevity in the Pleistocene of the Palearctic. In: Z. Zhou and F. Zhang (eds.), Proceedings of the 5th Symposium of the Society of Avian Paleontology and Evolution, Beijing, 1–4 June 2000, 281–289. Science Press, Beijing.
• Tyrberg, T. 2008a. Pleistocene birds of the Palearctic. Available at http://web.telia.com/~u11502098/pleistocene.pdf [accessed March 10, 2015]
• Tyrberg, T. 2008b. The Late Pleistocene continental avian extinction—an evaluation of the fossil evidence. Oryctos 7: 249–269.
• Val, A. 2016. New data on the avifauna from the Middle Stone Age layers of Sibudu Cave, South Africa: taphonomic and palaeoenvironmental implications. Quaternary International 421: 173–189.
• Vieillot, L.P. 1816. Analyse d’une nouvelle ornithologie élémentaire. 70 pp. Deterville, Paris.
• Vigors, N.A. 1824. Sketches in ornithology; or, observations on the leading affinities of some of the more extensive groups of birds. Zoological Journal 1: 308–346.
• Wagler, J.G. 1832. Neue Sippen und Gattungen der Säugthiere und Vögel. Isis von Oken 1832: 1218–1235.
• Wang, N., Kimball, R.T., Braun, E.L., Liang, B., and Zhang, Z. 2013. Assessing phylogenetic relationships among Galliformes: a multigene phylogeny with expanded taxon sampling in Phasianidae. PLoS ONE 8: e64312.
• Watanabe, J. 2018a. Ontogeny of macroscopic morphology of limb bones in modern aquatic birds and their implications for ontogenetic ageing. In: C. Acosta Hospitaleche, F.L. Agnolin, N. Haidr, J.I. Noriega, and C.P. Tambussi (eds.), Paleontología y Evolución de las Aves, Contribuciones del MACN 7, 183–220. Museo Argentino de Ciencias Naturales “Bernardino Rivadavia”, Buenos Aires.
• Watanabe, J. 2018b. Ontogeny of surface texture of limb bones in modern aquatic birds and applicability of textural ageing. Anatomical Record 301: 1026–1045.
• Watanabe, J. and Matsuoka, H. 2013. Ontogenetic change of morphology and surface texture of long bones in the gray heron (Ardea cinerea, Ardeidae). In: U.B. Göhlich and A. Kroh (eds.), Paleornithological Research 2013. Proceedings of the 8th International Meeting of the Society of Avian Paleontology and Evolution, Vienna 2012, 279–306. Naturhistorisches Museum Wien, Vienna.
• Watanabe, J. and Matsuoka, H. 2015. Flightless diving duck (Aves, Anatidae) from the Pleistocene of Shiriya, northeast Japan. Journal of Vertebrate Paleontology 35: e994745.
• Watanabe, J., Matsuoka, H., and Hasegawa, Y. 2016. Two species of Uria (Aves: Alcidae) from the Pleistocene of Shiriya, northeast Japan, with description and body mass estimation of a new species. Bulletin of the Gunma Museum of Natural History 20: 59–72.
• Watanabe, J., Matsuoka, H., and Hasegawa, Y. 2018. Pleistocene fossils from Japan show the recently extinct spectacled cormorant (Phalacrocorax perspicillatus) was a relict. Auk: Ornithological Advances 135: 895–907.
• Yamasaki, T. 2017. Biogeographic pattern of Japanese birds: a cluster analysis of faunal similarity and a review of phylogenetic evidence. In: M. Motokawa and H. Kajihara (eds.), Species Diversity of Animals in Japan, 117–134. Springer Japan, Tokyo.
• Zelenkov, N.V. 2013. New finds and revised taxa of early Pliocene birds from Western Mongolia. In: U.B. Göhlich and A. Kroh (eds.), Paleornithological Research 2013. Proceedings of the 8th International Meeting of the Society of Avian Paleontology and Evolution, Vienna 2012, 153–170. Naturhistorisches Museum Wien, Vienna.
• Zelenkov, N.V. 2016. Revision of non-passeriform birds from Polgárdi (Hungary, Late Miocene): 2. Galliformes. Paleontological Journal 50: 623–634.
• Zelenkov, N.V. 2017. Revision of non-passeriform birds from Polgárdi (Hungary, Upper Miocene): 3. Neoaves. Paleontological Journal 51: 203–213.
• Zelenkov, N.V. and Kurochkin, E.N. 2010. Neogene phasianids (Aves: Phasianidae) of Central Asia: 3. Genera Lophogallus gen. nov. and Syrmaticus. Paleontological Journal 44: 328–336.
• Zhan, X.-J. and Zhang, Z.-W. 2005. Molecular phylogeny of avian genus Syrmaticus based on the mitochondrial cytochrome b gene and control region. Zoological Science 22: 427–435.

Identyfikatory

DOI

10.4202/app.00509.2018