台灣更新世馬來鱷類化石的形態與親緣分析

Yi-Yang Cho; 卓義揚

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/79351

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蔡政修(Cheng-Hsiu Tsai)
dc.contributor.author	Yi-Yang Cho	en
dc.contributor.author	卓義揚	zh_TW
dc.date.accessioned	2022-11-23T08:58:40Z	-
dc.date.available	2024-09-14
dc.date.available	2022-11-23T08:58:40Z	-
dc.date.copyright	2021-11-02
dc.date.issued	2021
dc.date.submitted	2021-10-27
dc.identifier.citation	Adams, A. J. (2016). A reassessment of the late Eocene-early Oligocene crocodylids Crocodylus megarhinus Andrews 1905 and Crocodylus articeps Andrews 1905 from the Fayúm Province, Egypt. MS (Master of Science) thesis, University of Iowa. Adams, A. J. (2020). Reassessment of Cenozoic Longirostrine Crocodiles of East Africa. Doctoral dissertation, University of Iowa. Andrews, C. W. 1905. Notes on some new Crocodilia from the Eocene of Egypt. The Geological Magazine 2(11), 481-484. Andrews, C. W. 1906. A descriptive catalogue of the Tertiary vertebrata of the Fayúm, Egypt. London, England, 261-275 pp. Antunes, M.T. 1961. Tomistoma lusitanica, crocodilien du Miocène du Portugal.Revista da faculdade de Ciências de Lisboa, Série IIc 9, 5–88. Aoki, R. (1983). A new generic allocation of Tomistoma machikanense, a fossil crocodilian from the Pleistocene of Japan. Copeia, 89-95. Asahara, M., Chang, C. H., Kimura, J., Son, N. T., Takai, M. (2015). Re-examination of the fossil raccoon dog (Nyctereutes procyonoides) from the Penghu channel, Taiwan, and an age estimation of the Penghu fauna. Anthropological Science, 150710. Bailleul, A. M., Scannella, J. B., Horner, J. R., Evans, D. C. (2016). Fusion patterns in the skulls of modern archosaurs reveal that sutures are ambiguous maturity indicators for the Dinosauria. PLoS One, 11(2), e0147687. Balaguera‐Reina, S. A., Venegas‐Anaya, M., Beltrán‐López, V., Cristancho, A., Densmore III, L. D. (2018). Food habits and ontogenetic dietary partitioning of American crocodiles in a tropical Pacific Island in Central America. Ecosphere, 9(9), e02393. Benton, M. J., Clark, J. M. (1988). Archosaur phylogeny and the relationships of the Crocodylia. The phylogeny and classification of the tetrapods, 1, 295-338. Berg DE 1966. Die Krokodile, insbesondere Asiatosuchus und aff. Sebecus? aus dem Eozän von Messel bei Darmstadt/Hessen. Abhandlungen des Hessischen Landesamtes für Bodenforschung 52: 1–105. Blainville De HMD 1855. Ostéographie. Atlas du genre Crocodilus. Explication des plances. Paris. Boggs, S. (1979). Sediment properties and water characteristics of the Taiwan shelf and slope. Acta Oceanogr. Taiwan., 10, 10-49. Brochu, C. A. (1997a). A review of “Leidyosuchus”(Crocodyliformes, Eusuchia) from the Cretaceous through Eocene of North America. Journal of Vertebrate Paleontology, 17(4), 679-697. Brochu, C. A. (1997b). Phylogenetic systematics and taxonomy of Crocodylia. PhD dissertation. Austin (TX): University of Texas, 467. Brochu, C. A. (1999). Phylogenetics, taxonomy, and historical biogeography of Alligatoroidea. Journal of Vertebrate Paleontology, 19(S2), 9-100. Brochu, C. A. (2000). Phylogenetic relationships and divergence timing of Crocodylus based on morphology and the fossil record. Copeia, 2000(3), 657-673. Brochu, C. A., Gingerich, P. D. (2000). New tomistomine crocodylian from the middle Eocene (Bartonian) of Wadi Hitan, Fayum Province, Egypt. Brochu, C. A. (2003). Phylogenetic approaches toward crocodylian history. Annual Review of Earth and Planetary Sciences, 31(1), 357-397. Brochu, C. A. (2004). A new Late Cretaceous gavialoid crocodylian from eastern North America and the phylogenetic relationships of thoracosaurs. Journal of Vertebrate Paleontology, 24(3), 610-633. Brochu, C. A. (2007). Morphology, relationships, and biogeographical significance of an extinct horned crocodile (Crocodylia, Crocodylidae) from the Quaternary of Madagascar. Zoological Journal of the Linnean Society, 150(4), 835-863. Cidade, G. M., Fortier, D., Hsiou, A. S. (2019). The crocodylomorph fauna of the Cenozoic of South America and its evolutionary history: a review. Journal of South American Earth Sciences, 90, 392-411. Chang, C. H., Kaifu, Y., Takai, M., Kono, R. T., Grün, R., Matsu’ura, S., ... Lin, L. K. (2015). The first archaic Homo from Taiwan. Nature communications, 6, 6037. Chen, F., Welker, F., Shen, C. C., Bailey, S. E., Bergmann, I., Davis, S., ... Hublin, J. J. (2019). A late middle pleistocene denisovan mandible from the tibetan plateau. Nature, 569(7756), 409-412. Chi, W. R., Huang, H. M. (1982). Nannofossil biostratigraphy of sediments of the Chiutsenglin Anticline, Tainan Area. Chinese Petroleum Corporation Exploration and Development Research Center Report (Tan-tsai yen-jiu hui-bao) 5, 39e56 (in Chinese, with English Abstract). Cho, Y. Y., Tsai, C. H., (2021). Eurasian or East Asian? The taxonomic status of Tomistoma taiwanicus and its implication. 2021 Congress of Animal Behavior and Ecology, O-C09 (Abstract in Chinese). Cope, E. D. (1882). The reptiles of the American Eocene. American Naturalist 16, 979-93. Cossette, A. P., Brochu, C. A. (2020). A systematic review of the giant alligatoroid Deinosuchus from the Campanian of North America and its implications for the relationships at the root of Crocodylia. Journal of Vertebrate Paleontology, 40(1), e1767638. Darwin, C. (1859). On the Origin of Species by Means of Natural Selection Or the Preservation of Favoured Races in the Struggle for Life. International Book Company. De Celis, A., Narváez, I., Ortega, F. (2020). Spatiotemporal palaeodiversity patterns of modern crocodiles (Crocodyliformes: Eusuchia). Zoological Journal of the Linnean Society, 189(2), 635-656. Delfino, M., De Vos, J. (2010). A revision of the Dubois crocodylians, Gavialis bengawanicus and Crocodylus ossifragus, from the Pleistocene Homo erectus beds of Java. Journal of Vertebrate Paleontology, 30(2), 427-441. Delfino, M., Smith, T. (2009). A reassessment of the morphology and taxonomic status of ‘Crocodylia’depressifrons (Crocodylia, Crocodyloidea) based on the Early Eocene remains from Belgium. Zoological Journal of the Linnean Society, 156(1), 140-167. Ellis, T. M. (1981). Tolerance of sea water by the American crocodile, Crocodylus acutus. Journal of Herpetology, 187-192. Gao, J.W. (1982). Penghu fauna. Journal of Marine Science 27, 123–132 (in Chinese with English abstract). Gatesy, J., Amato, G., Norell, M., DeSalle, R., Hayashi, C. (2003). Combined support for wholesale taxic atavism in gavialine crocodylians. Systematic Biology, 52(3), 403-422. Ginsburg, L., Buffetaut, É. (1978). Euthecodon arambourgi n. sp., et l'évolution du genre Euthecodon, Crocodilien du Néogène d'Afrique. Géologie méditerranéenne, 5(2), 291-301. Gmelin, J. F. (1789). Caroli a Linné systema naturae per regna tri naturae: secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus 1, Pars III. Editio decima tertia, aucta, reformata. Impensis Georg. Emanuel. Beer. Godoy, P. L., Bronzati, M., Eltink, E., Júlio, C. D. A., Cidade, G. M., Langer, M. C., Montefeltro, F. C. (2016). Postcranial anatomy of Pissarrachampsa sera (Crocodyliformes, Baurusuchidae) from the Late Cretaceous of Brazil: insights on lifestyle and phylogenetic significance. PeerJ, 4, e2075. Goloboff, P. A., Farris, J. S., Nixon, K. C. (2008). TNT, a free program for phylogenetic analysis. Cladistics, 24(5), 774-786. Goloboff, P. A., Catalano, S. A. (2016). TNT version 1.5, including a full implementation of phylogenetic morphometrics. Cladistics, 32(3), 221-238. Griffin, C. T., Stocker, M. R., Colleary, C., Stefanic, C. M., Lessner, E. J., Riegler, M., ... Nesbitt, S. J. (2021). Assessing ontogenetic maturity in extinct saurian reptiles. Biological Reviews, 96(2), 470-525. Grigg, G. Kirshner, D. (2015). Biology and Evolution of Crocodylians. (Cornell University Press,). Hekkala, E., Gatesy, J., Narechania, A., Meredith, R., Russello, M., Aardema, M. L., ... Amato, G. (2021). Paleogenomics illuminates the evolutionary history of the extinct Holocene “horned” crocodile of Madagascar, Voay robustus. Communications biology, 4(1), 1-11. Ho, C. K., Qi, G. Q. Chang, C. H. (1996) A preliminary study and reconstruction of late Pleistocene megafauna Bubalus teilhardi Young from the Penghu Channel, Taiwan. Annual of Taiwan Museum 39, 1-16 (in Chinese with English abstract). Ho, C.K., Qi, G.Q., Chang, C.H. (1997). A preliminary study of late Pleistocene carnivore fossils from the Penghu Channel, Taiwan. Annual of Taiwan Museum 40, 195–224 (in Chinese with English abstract). Ho, C.K., Qi, G.Q., Chang, C.H. (2008). A Preliminary Study of Late Pleistocene Megafauna Cervus sp. from the Penghu Channel, Taiwan. Annual of Taiwan Museum 61, 1–16 (in Chinese with English abstract). Ho, H. C., Shea, K. S., Kao, M. C., Chen, H. W. (2005). Scale 1: 50,000 Geologic Map of Taiwan, Sheet 50,“Sinhua”, with Explanatory Text. Hocknull, S. A., Lewis, R., Arnold, L. J., Pietsch, T., Joannes-Boyau, R., Price, G. J., ... Lawrence, R. A. (2020). Extinction of eastern Sahul megafauna coincides with sustained environmental deterioration. Nature communications, 11(1), 1-14. Huang, Z. Y., Yu, H. S. (2003). Morphology and geologic implications of Penghu Channel off southwest Taiwan. Terrestrial, Atmospheric and Oceanic Sciences, 14(4), 469-485. Huxley, T. H. (1875). On Stagonolepis robertsoni, and on the evolution of the Crocodilia. Quarterly Journal of the Geological Society, 31(1-4), 423-438. Iijima, M. (2017). Assessment of trophic ecomorphology in non‐alligatoroid crocodylians and its adaptive and taxonomic implications. Journal of anatomy, 231(2), 192-211. Iijima, M. (2018). Evolution of Ecology in Crocodylians: Morphometric and Phylogenetic Approach. Ph.D. Thesis, Hokkaido University. Iijima, M., Kobayashi, Y. (2019). Mosaic nature in the skeleton of East Asian crocodylians fills the morphological gap between “Tomistominae” and Gavialinae. Cladistics. Iijima, M., Kubo, T. (2020). Vertebrae-based body length estimation in crocodylians and its implication for sexual maturity and the maximum sizes. Integrative Organismal Biology, 2(1), obaa042. Iijima, M., Momohara, A., Kobayashi, Y., Hayashi, S., Ikeda, T., Taruno, H., ... Furui, S. (2018). Toyotamaphimeia cf. machikanensis (Crocodylia, Tomistominae) from the Middle Pleistocene of Osaka, Japan, and crocodylian survivorship through the Pliocene-Pleistocene climatic oscillations. Palaeogeography, palaeoclimatology, palaeoecology, 496, 346-360. Iijima, M., Takai, M., Nishioka, Y., Thaung-Htike, Zin-Maung-Maung-Thein, Egi, N., ... Hirayama, R. (2021). Taxonomic overview of Neogene crocodylians in Myanmar. Journal of Vertebrate Paleontology, e1879100. Iordansky, N. N. (1973). The skull of the Crocodilia. Biology of the Reptilia, 4, 201-262. Ito, A., Aoki, R., Hirayama, R., Yoshida, M., Kon, H., Endo, H. (2018). The rediscovery and taxonomical reexamination of the longirostrine crocodylian from the Pleistocene of Taiwan. Paleontological Research, 22(2), 150-155. Jackson, J. B., Erwin, D. H. (2006). What can we learn about ecology and evolution from the fossil record?. Trends in Ecology Evolution, 21(6), 322-328. Jiang, H. Wu, X. 2018. Alligator sinensis. The IUCN Red List of Threatened Species 2018: e.T867A3146005. http://dx.doi.org/10.2305/IUCN.UK.2018-1.RLTS.T867A3146005.en. Jouve, S. (2004). Etude des Crocodyliformes fini Crétacé-Paléogène du Bassin des Oulad Abdoun (Maroc) et comparaison avec les faunes africaines contemporaines: systématique, phylogénie et paléobiogéographie (Doctoral dissertation, Paris, Muséum national d'histoire naturelle). Jouve, S., Bouya, B., Amaghzaz, M., Meslouh, S. (2015). Maroccosuchus zennaroi (Crocodylia: Tomistominae) from the Eocene of Morocco: phylogenetic and palaeobiogeographical implications of the basalmost tomistomine. Journal of Systematic Palaeontology, 13(5), 421-445. Jouve, S. (2016). A new basal tomistomine (Crocodylia, Crocodyloidea) from Issel (Middle Eocene; France): palaeobiogeography of basal tomistomines and palaeogeographic consequences. Zoological Journal of the Linnean Society, 177(1), 165-182. Jouve, S., Jalil, N. E. (2020). Paleocene resurrection of a crocodylomorph taxon: Biotic crises, climatic and sea level fluctuations. Gondwana Research, 85, 1-18. Kälin, J. A. (1955). Zur Stammesgeschichte der Crocodilia. Revue suisse de Zoologie, 62, 347–356. Kawamura, A., Chang, C. H., Kawamura, Y. (2016). Middle Pleistocene to Holocene mammal faunas of the Ryukyu Islands and Taiwan: An updated review incorporating results of recent research. Quaternary international, 397, 117-135. Kobayashi, Y., Tomida, Y., Kamei, T., Eguchi, T. (2006). Anatomy of a Japanese tomistomine crocodylian, Toyotamaphimeia machikanensis (Kamei et Matsumoto, 1965), from the middle Pleistocene of Osaka Prefecture: the reassessment of its phylogenetic status within Crocodylia. National Science Museum Monographs, 35, i-121. Lambe, L. M. (1907). On a new crocodilian genus and species from the Judith River Formation of Alberta. Transactions of the Royal Society of Canada, 4, 219-244. Lee, M. S., Yates, A. M. (2018). Tip-dating and homoplasy: reconciling the shallow molecular divergences of modern gharials with their long fossil record. Proceedings of the Royal Society B, 285(1881), 20181071. Liang, W. D., Tang, T. Y., Yang, Y. J., Ko, M. T., Chuang, W. S. (2003). Upper-ocean currents around Taiwan. Deep Sea Research Part II: Topical Studies in Oceanography, 50(6-7), 1085-1105. Liaw, Y. L., Tsai, C. H. (2021). Fossil or extant species? Taxonomy of Chinemys pani and its revelations. 2021 Congress of Animal Behavior and Ecology, O-C08 (Abstract in Chinese). Lin, C. H., Chien, C. W., Lee, S. W., Chang, C. W. (2019). Fish fossils of Taiwan: a review and prospection. Historical Biology, 1-11. Loomis, F. B. (1904). ART. XLIII.--Two New River Reptiles from the Titanothere Beds. American Journal of Science (1880-1910), 18(108), 427. MacPhee, R. D. (2018). End of the Megafauna: The Fate of the World's Hugest, Fiercest, and Strangest Animals. WW Norton Company. Mannion, P. D., Benson, R. B., Carrano, M. T., Tennant, J. P., Judd, J., Butler, R. J. (2015). Climate constrains the evolutionary history and biodiversity of crocodylians. Nature Communications, 6(1), 1-9. Markwick, P. J. (1998). Fossil crocodilians as indicators of Late Cretaceous and Cenozoic climates: implications for using palaeontological data in reconstructing palaeoclimate. Palaeogeography, Palaeoclimatology, Palaeoecology, 137(3-4), 205-271. Markwick, P. J. (2007). The palaeogeographic and palaeoclimatic significance of climate proxies for data-model comparisons. Deep-time perspectives on climate change: marrying the signal from computer models and biological proxies, 251-312. Marsh, O. C. 1871. Notice of some fossil mammals from the Tertiary Formation. American Journal of Science 2, 34–45. Martin, J. E., Buffetaut, E., Naksri, W., Lauprasert, K., Claude, J. (2012). Gavialis from the Pleistocene of Thailand and its relevance for drainage connections from India to Java. PLoS One, 7(9), e44541. Martin, J. E., Smith, T., Salaviale, C., Adrien, J., Delfino, M. (2020). Virtual reconstruction of the skull of Bernissartia fagesii and current understanding of the neosuchian–eusuchian transition. Journal of Systematic Palaeontology, 18(13), 1079-1101. McDermott, A. (2020). Science and Culture: Dinosaur art evolves with new discoveries in paleontology. Proceedings of the National Academy of Sciences, 117(6), 2728-2731. Mead, J. I., Steadman, D. W., Bedford, S. H., Bell, C. J., Spriggs, M. (2002). New extinct mekosuchine crocodile from Vanuatu, South Pacific. Copeia, 2002(3), 632-641. Molnar, R. E. (1981). Pleistocene ziphodont crocodilians of Queensland. Records of the Australian Museum, 33(19), 803-834. Mook, C. C., Sellards, E. H. (1921). Skull characters and affinities of the extinct Florida gavial Gavialosuchus americana (Sellards). Bulletin of the AMNH; v. 44, article 5. Mook, C. C. (1940). A new fossil crocodilian from Mongolia. American Museum of Natural History. 1097:1–3 Mook, C. C. (1941). A new crocodilian from the Lance Formation. American Museum of Natural History. 1128:1–5. Nicola, M. P., Matzke, N. J. (2019). Trait‐based range expansion aided in the global radiation of Crocodylidae. Global Ecology and Biogeography, 28(9), 1244-1258. Nicholl, C. S., Rio, J. P., Mannion, P. D., Delfino, M. (2020). A re-examination of the anatomy and systematics of the tomistomine crocodylians from the Miocene of Italy and Malta. Journal of Systematic Palaeontology, 1-38. Nojima, K., Itoigawa, J. (2017). Tomistominae gen. et sp. indet.(Crocodylia: Crocodylidae) from the Lower Yage Formation (Middle Pleistocene) in Hamamatsu City, Shizuoka Prefecture, Japan. In Bulletin of the Mizunami Fossil Museum (Vol. 43, pp. 35-46). Norell, M. A., Novacek, M. J. (1992). The fossil record and evolution: comparing cladistic and paleontologic evidence for vertebrate history. Science, 255(5052), 1690-1693. O’Brien, H. D., Lynch, L. M., Vliet, K. A., Brueggen, J., Erickson, G. M., Gignac, P. M. (2019). Crocodylian head width allometry and phylogenetic prediction of body size in extinct crocodyliforms. Integrative Organismal Biology, 1(1), obz006. Oaks, J. R. (2011). A time‐calibrated species tree of Crocodylia reveals a recent radiation of the true crocodiles. Evolution: International Journal of Organic Evolution, 65(11), 3285-3297. Otsuka, H., 1984. Stratigraphic position of the Chochen vertebrate fauna of the T'ouk'oushan Group in the environs of the Chochen District, southwest Taiwan, with special reference to its geologic age. Journal of Taiwan Museum 37 (1), 37e55. Pan, T., Miao, J. S., Zhang, H. B., Yan, P., Lee, P. S., Jiang, X. Y., ... Wu, X. B. (2021). Near-complete phylogeny of extant Crocodylia (Reptilia) using mitogenome-based data. Zoological Journal of the Linnean Society, 191(4), 1075-1089. Pickford, M. (1994). Late Cenozoic crocodiles (Reptilia: Crocodylidae) from the Western Rift, Uganda. Geology and palaeobiology of the Albertine rift valley, Uganda-Zaire, 2, 137-155. Platt, S. G., Rainwater, T. R., Finger, A. G., Thorbjarnarson, J. B., Anderson, T. A., McMurry, S. T. (2006). Food habits, ontogenetic dietary partitioning and observations of foraging behaviour of Morelet's crocodile (Crocodylus moreletii) in northern Belize. The Herpetological Journal, 16(3), 281-290. Ristevski, J., Price, G. J., Weisbecker, V., Salisbury, S. W. (2021). First record of a tomistomine crocodylian from Australia. Scientific reports, 11(1), 1-14. Rio, J. P., Mannion, P. D. (2021). Phylogenetic analysis of a new morphological dataset elucidates the evolutionary history of Crocodylia and resolves the long-standing gharial problem. PeerJ, 9, e12094. Rohling, E. J., Fenton, M. J. J. F., Jorissen, F. J., Bertrand, P., Ganssen, G., Caulet, J. P. (1998). Magnitudes of sea-level lowstands of the past 500,000 years. Nature, 394(6689), 162. Salas-Gismondi, R., Flynn, J. J., Baby, P., Tejada-Lara, J. V., Claude, J., Antoine, P. O. (2016). A new 13 million year old gavialoid crocodylian from proto-Amazonian mega-wetlands reveals parallel evolutionary trends in skull shape linked to longirostry. PloS one, 11(4), e0152453. Salas-Gismondi, R., Moreno-Bernal, J. W., Scheyer, T. M., Sánchez-Villagra, M. R., Jaramillo, C. (2019). New Miocene Caribbean gavialoids and patterns of longirostry in crocodylians. Journal of Systematic Palaeontology, 17(12), 1049-1075. Schroeder, K., Lyons, S. K., Smith, F. A. (2021). The influence of juvenile dinosaurs on community structure and diversity. Science, 371(6532), 941-944. Shan, H. Y., Wu, X. C., Cheng, Y. N., Sato, T. (2009). A new tomistomine (Crocodylia) from the Miocene of Taiwan. Canadian Journal of Earth Sciences, 46(7), 529-555. Shan, H. Y., Cheng, Y. N., Wu, X. C., (2013). The first fossil skull of Alligator sinensis from the Pleistocene, Taiwan, with a paleogeographic implication of the species. Journal of Asian Earth Sciences, 69, 17-25. Shan, H. Y., Wu, X. C., Cheng, Y. N., Sato, T. (2017). Maomingosuchus petrolica, a restudy of ‘Tomistoma’petrolica Yeh, 1958. Palaeoworld, 26(4), 672-690. Shikama, T. (1972). Fossil Crocodilia from Tsochin, southwestern Taiwan. Science reports of the Yokohama National University Section 2 Biology and geology (19), 125-131 Shikama, T., Otsuka, H., Tomida, Y. (1975). Fossil Proboscidea from Taiwan. Science Reports of Yokohama National University 22:125-131. Sookias, R. B. (2020). Exploring the effects of character construction and choice, outgroups and analytical method on phylogenetic inference from discrete characters in extant crocodilians. Zoological Journal of the Linnean Society, 189(2), 670-699. Staniewicz, A., Behler, N., Dharmasyah, S., Jones, G. (2018). Niche partitioning between juvenile sympatric crocodilians in Mesangat Lake, East Kalimantan, Indonesia. Raffles Bulletin of Zoology, 66. Svenning, J. C., Eiserhardt, W. L., Normand, S., Ordonez, A., Sandel, B. (2015). The influence of paleoclimate on present-day patterns in biodiversity and ecosystems. Annual Review of Ecology, Evolution, and Systematics, 46, 551-572. Tao, H. J. (1985). NEW FOSSIL TURTLES, Chinemys pani n. sp.(Testudinidae) From the Chi-Ting Formation (Pleistocene), Tainan District, Taiwan Island. Journal of Taiwan Museum, 38(1), 43-52. Taplin, L. E., Grigg, G. C. (1981). Salt glands in the tongue of the estuarine crocodile Crocodylus porosus. Science, 212(4498), 1045-1047. Toula, F., Kail, J. A. (1885). Über einen Krokodil-Schädel aus den Tertiärablagerungen von Eggenburg in Niederösterreich: eine paläontologische Studie. Kaiserl. Königl. Staatsdr.. Tokunaga, S., 1936: Discovery of fossil crocodile in Japan. Journal of the Geological Society of Japan, vol. 43, p. 432. (in Japanese) Tsai C. H. (2011), Morphology and phylogenetic relationships of gray whale-like fossils from Taiwan. MSc. Thesis, Tunghai University Tsai, C. H., Fordyce, R. E., Chang, C. H., Lin, L. K. (2013). A review and status of fossil cetacean research in Taiwan. Taiwan Journal of Biodiversity. 2013;15(2):113–24. Tsai, C. H., Fordyce, R. E., Chang, C. H., Lin, L. K. (2014). Quaternary fossil gray whales from Taiwan. Paleontological Research, 18(2), 82-94. Tsai, C. H., Chang, C. H. (2019). A right whale (Mysticeti, Balaenidae) from the Pleistocene of Taiwan. Zoological Letters, 5(1), 1-7. Tsai, C. H., Mayr, G. (2021). A phasianid bird from the Pleistocene of Tainan: the very first avian fossil from Taiwan. Journal of Ornithology, 1-5. Tseng, Z. J., Chang, C. H. (2007). A study of new material of Crocuta crocuta ultima (Carnivora: Hyaenidae) from the Quaternary of Taiwan. Collection and Research, 20, 9-19. Waelbroeck, C., Labeyrie, L., Michel, E., Duplessy, J. C., McManus, J. F., Lambeck, K., ... Labracherie, M. (2002). Sea-level and deep water temperature changes derived from benthic foraminifera isotopic records. Quaternary Science Reviews, 21(1-3), 295-305. Weems, R. E. (2018). Crocodilians of the Calvert Cliffs. The geology and vertebrate paleontology of Calvert Cliffs, Maryland, USA. Smithsonian Contributions to Paleobiology, 100, 213-240. Weigelt, P., Steinbauer, M. J., Cabral, J. S., Kreft, H. (2016). Late Quaternary climate change shapes island biodiversity. Nature, 532(7597), 99-102. Wilberg, E. W., Turner, A. H., Brochu, C. A. (2019). Evolutionary structure and timing of major habitat shifts in Crocodylomorpha. Scientific Reports, 9(1), 1-10. Willis, P. M. A., Murray, P. F., Megirian, D. (1990). Baru darrowi gen. et sp. nov., a large, broad-snouted crocodyline (Eusuchia: Crocodylidae) from mid-Tertiary freshwater limestones in Northern Australia. Memoirs of the Queensland Museum, 29(2), 521-540. Whiting, E. T., Steadman, D. W., Krigbaum, J. (2016). Paleoecology of Miocene crocodylians in Florida: insights from stable isotope analysis. Palaeogeography, palaeoclimatology, palaeoecology, 451, 23-34. Wu, X. C., Brinkman, D. B. (2015). A new crocodylian (Eusuchia) from the uppermost Cretaceous of Alberta, Canada. Canadian Journal of Earth Sciences, 52(8), 590-607. Zhao, K., Zong, Y., Ma, J., 1986. On the ancient crocodiles of Guangdong Province. Acta Herpetol. Sin. 5, 161–165.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/79351	-
dc.description.abstract	馬來鱷亞科(Tomistominae)，一個包含許多長吻部鱷類的亞科，是個多樣且廣布於全世界的支系，但目前只有一個現生種馬來長吻鱷(Tomistoma schlegelii)生存於東南亞。對於馬來鱷類多樣性的衰亡仍所知甚少。在本論文中，我描述一件從澎湖和台灣之間海底所打撈的馬來鱷類標本。這件標本的地層層位不明，但根據先前研究很有可能來自中至晚更新世。該標本屬於頭骨的後部，並保留了馬來鱷類的獨特特徵組合，像是後結節凸起可見於背側、方骨的內側半球踝膨大、額骨頂骨縫合線可完全見於頭蓋骨表面等。此外，該標本的其他特徵，包括外枕骨的腹側突粗壯且參與枕骨結節形成、基蝶骨前後較長且暴露於腹側等，表明其分類與豐玉姬鱷(Toyotamaphimeia)相近。最有趣的是，該標本的幾個特徵與迄今唯一所知的物種待兼豐玉姬鱷(Toyotamaphimeia machikanensis)不同：頭蓋骨表面向腹側傾斜、頸外側開孔高於基蝶骨的側面暴露、上顳窩開孔的後緣與側緣等寬。為了進一步檢驗這件標本在鱷目中的親緣關係位置，我選擇了74個分類群和254個形態特徵，並使用最大簡約法進行親緣關係分析。結果顯示其與豐玉姬鱷形成姊妹群。結合其獨特的形態、親緣關係位置以及較為年輕的地質年代(中至晚更新世)，該標本不僅揭示豐玉姬鱷支系所隱藏的多樣性，還突顯了馬來鱷亞科在歐亞大陸東緣較為近期的生存。此外，這個台灣更新世豐玉姬鱷可能新種的出現有望提供相關後續研究，來闡述相當大體型的豐玉姬鱷的滅絕，並可望提供新證據來解決馬來鱷亞科在鱷類演化中的親緣關係難題。	zh_TW
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dc.description.tableofcontents	目錄口試委員會審定書……………………………………………………………………i 誌謝(Acknowledgements)……………………………………………………………ii 中文摘要(Chinese abstract)…………………………………………………………iv 英文摘要(English abstract)…………………………………………………………v 前言(Introduction)……………………………………………………………………1 材料與方法(Material method)……………………………………………………8 標本與描述(Specimens description)………………………………………8 測量和體長估算(Measurement and size estimation)…………………………8 親緣關係分析(Phylogenetic analysis) ………………………………………9 機構單位簡寫(Institutional abbreviations)…………………………………10 地點與地質背景(Locality and geological settings)…………………………………11 系統古生物學(Systematic Paleontology)…………………………………………13 描述(Description)……………………………………………………………………18 親緣分析結果(Phylogenetic result)…………………………………………………25 討論(Discussion) ……………………………………………………………………28 NTUM-VP-200702的分類(Taxonomy of NTUM-VP-200702) ………………28 親緣分析結果的啟示(The phylogenetic implications) ………………………30 NTUM-VP-200702的生長與古生態學(Ontogeny and paleoecology of NTUM-VP-200702) ……………………………………………………………………33 馬來鱷類在東亞的近期生存(The late survival of tomistomines in East Asia) ……………………………………………………………………………36 結論(Conclusions) …………………………………………………………………39 參考文獻(References) ………………………………………………………………40 附圖(Figures) ………………………………………………………………………58 附表(Table) …………………………………………………………………………68 附錄(Appendix) ……………………………………………………………………69 Appendix 1. The list of characters used in the phylogenetic analysis…………69 Appendix 2. The data matrix and revised/rescored character coding in different taxa………………………………………………………………………………90 圖目錄 Figure 1. Locality of NTUM-VP-200702……………………………………………58 Figure 2. Dorsal view of NTUM-VP-200702………………………………………59 Figure 3. Posterior view of NTUM-VP-200702……………………………………60 Figure 4. Posterolateral view of NTUM-VP-200702………………………………61 Figure 5. Ventral view of NTUM-VP-200702………………………………………62 Figure 6. Lateral view of NTUM-VP-200702………………………………………63 Figure 7. The foramina in the medial parietal wall of supratemporal fenestra of NTUM-VP-200702…………………………………………………………………64 Figure 8. Strict consensus of 1190 tree in parsimony phylogenetic analysis including all characters…………………………………………………………………………65 Figure 9. Strict consensus of 1980 trees in parsimony phylogenetic analysis including only skull characters…………………………………………………………………66 Figure 10. The locality and timeline of Pleistocene tomistomines from East Asia…………………………………………………………………………………67 表目錄 Table 1. The measurement of NTUM-VP-200702…………………………………68
dc.language.iso	en
dc.title	台灣更新世馬來鱷類化石的形態與親緣分析	zh_TW
dc.title	Morphological and Phylogenetic Analyses of A Tomistomine Fossil from the Pleistocene of Taiwan	en
dc.date.schoolyear	109-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	小林快次(Hsin-Tsai Liu),張鈞翔(Chih-Yang Tseng)
dc.subject.keyword	鱷目,豐玉姬鱷,澎湖鱷,第四紀,澎湖水道,巨型動物群,分類學,古生物學,古脊椎動物學,	zh_TW
dc.subject.keyword	Crocodylia,Toyotamaphimeia,Penghusuchus,Quaternary,Penghu Channel,Megafauna,Taxonomy,Paleontology,Vertebrate Paleontology,	en
dc.relation.page	107
dc.identifier.doi	10.6342/NTU202104237
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2021-10-29
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	生態學與演化生物學研究所	zh_TW
dc.date.embargo-lift	2024-09-14	-
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