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OVert: Open Exploration of Vertebrate Diversity in 3D: Difference between revisions
OVert: Open Exploration of Vertebrate Diversity in 3D (view source)
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Bardua, C., Fabre, A.C., Bon, M., Das, K., Stanley, E.L., Blackburn, D.C., & Goswami, A. (2020). Evolutionary integration of the frog cranium. Evolution, 74, 1200–1215.<br> | Bardua, C., Fabre, A.C., Bon, M., Das, K., Stanley, E.L., Blackburn, D.C., & Goswami, A. (2020). Evolutionary integration of the frog cranium. Evolution, 74, 1200–1215.<br> | ||
Bell, C.J., J.D. Daza, E.L. Stanley, and R.J. Laver. 2021. Unveiling the elusive: X‐rays bring scolecophidian snakes out of the dark. The Anatomical Record, 304, 2110–2117.<br> | |||
Blackburn, D.C., R.M. Keeffe, M.C. Vallejo-Pareja, and J. Vélez-Juarbe. (2020). The earliest record of Caribbean frogs: a fossil coquí from Puerto Rico. Biology Letters, 16, 20190947.<br> | Blackburn, D.C., R.M. Keeffe, M.C. Vallejo-Pareja, and J. Vélez-Juarbe. (2020). The earliest record of Caribbean frogs: a fossil coquí from Puerto Rico. Biology Letters, 16, 20190947.<br> | ||
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Buser, T.J., Finnegan, D.L., Summers, A.P., & Kolmann, M.A. (2019). Have niche, will travel. New means of linking diet and ecomorphology reveals niche conservatism in freshwater cottoid fishes. Integrative Organismal Biology, 1, obz023.<br> | Buser, T.J., Finnegan, D.L., Summers, A.P., & Kolmann, M.A. (2019). Have niche, will travel. New means of linking diet and ecomorphology reveals niche conservatism in freshwater cottoid fishes. Integrative Organismal Biology, 1, obz023.<br> | ||
Carr, E.M., A.P. Summers, and K.E. Cohen. 2021. The moment of tooth: rate, fate and pattern of Pacific lingcod dentition revealed by pulse-chase. Proceedings of the Royal Society B, 288, 20211436.<br> | |||
Cohen, K.E., Weller, H.I., & Summers, A.P. (2020). Not your father’s homodonty—stress, tooth shape, and the functional homodont. Journal of Anatomy, 237, 837–848.<br> | Cohen, K.E., Weller, H.I., & Summers, A.P. (2020). Not your father’s homodonty—stress, tooth shape, and the functional homodont. Journal of Anatomy, 237, 837–848.<br> | ||
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Conway, K.W., Pinion, A.K., & Kottelat, M. (2021). Two new species of ''Pethia'' (Teleostei: Cyprinidae), representing asympatric species pair, from the Ayeyarwady drainage, Myanmar. Raffles Bulletin of Zoology, 69, 80–101.<br> | Conway, K.W., Pinion, A.K., & Kottelat, M. (2021). Two new species of ''Pethia'' (Teleostei: Cyprinidae), representing asympatric species pair, from the Ayeyarwady drainage, Myanmar. Raffles Bulletin of Zoology, 69, 80–101.<br> | ||
Conway, K.W., K. Fujiwara, H. Motomura, and A.P. Summers. 2021. ''Erdmannichthys'', a new genus of Gobiesocidae (Teleostei: Gobiesociformes), and notes on the rare clingfish ''E. alorensis'' (Allen & Erdmann, 2012), new combination. Raffles Bulletin of Zoology, 69, 428–437.<br> | |||
Conway, K.W., Stewart, A.L., & Summers, A.P. (2018). A new species of sea urchin associating clingfish of the genus ''Delllichthys'' from New Zealand (Teleostei, Gobeisocidae). ZooKeys, 740, 77–95.<br> | Conway, K.W., Stewart, A.L., & Summers, A.P. (2018). A new species of sea urchin associating clingfish of the genus ''Delllichthys'' from New Zealand (Teleostei, Gobeisocidae). ZooKeys, 740, 77–95.<br> | ||
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Fried, P., Woodward, J., Brown, D., Harvell, D., & Hanken, J. (2020). 3D scanning of antique glass by combining photography and computed tomography. Digital Applications in Archaeology and Cultural Heritage, 18, e00147.<br> | Fried, P., Woodward, J., Brown, D., Harvell, D., & Hanken, J. (2020). 3D scanning of antique glass by combining photography and computed tomography. Digital Applications in Archaeology and Cultural Heritage, 18, e00147.<br> | ||
Fujiwara, K., K.W. Conway, and H. Motomura. 2021. Description of a new genus and two new species of Indo-Pacific clingfishes (Gobiesocidae: Diademichthyinae) with redescription and reassignment of two species previously assigned to ''Lepadichthys'' Waite, 1904. Ichthyology & Herpetology, 109, 753–784.<br> | |||
Gerringer, M.E., Dias, A.S., von Hagel, A.A., Orr, J.W., Summers, A.P., & Farina, S. (2021). Habitat influences skeletal morphology and density in the snailfishes (family Liparidae). Frontiers in Zoology, 18, 16.<br> | Gerringer, M.E., Dias, A.S., von Hagel, A.A., Orr, J.W., Summers, A.P., & Farina, S. (2021). Habitat influences skeletal morphology and density in the snailfishes (family Liparidae). Frontiers in Zoology, 18, 16.<br> | ||
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Westeen, E.P., Durso, A.M., Grundler, M.C., Rabosky, D.L., & Rabosky, A.R. (2020). What makes a fang? Phylogenetic and ecological controls on tooth evolution in rear-fanged snakes. BMC Evolutionary Biology, 20, 80.<br> | Westeen, E.P., Durso, A.M., Grundler, M.C., Rabosky, D.L., & Rabosky, A.R. (2020). What makes a fang? Phylogenetic and ecological controls on tooth evolution in rear-fanged snakes. BMC Evolutionary Biology, 20, 80.<br> | ||
Womack, M.C., E. Steigerwald, D.C. Blackburn, D.C. Cannatella, A. Catenazzi, J. Che, M.S. Koo, J.A. McGuire, S. Ron, C. Spencer, V.T. Vredenburg, and R.D. Tarvin. (2021, December 16). State of Amphibia 2020: Five years of amphibian research, diversity and resources. EcoEvoRxiv Preprints. https://doi.org/10.32942/osf.io/r9qga <br> | |||
Woodruff, E.C., J.M. Huie, A.P. Summers, and K.E. Cohen. 2021. Pacific Spiny Lumpsucker armor‐development, damage, and defense in the intertidal. Journal of Morphology.<br> | |||
Yapuncich, G.S., Feng, H.J., Dunn, R.H., Seiffert, E.R., & Boyer, D.M. (2019). Vertical support use and primate origins. Scientific reports, 9, 1-10.<br> | Yapuncich, G.S., Feng, H.J., Dunn, R.H., Seiffert, E.R., & Boyer, D.M. (2019). Vertical support use and primate origins. Scientific reports, 9, 1-10.<br> | ||