OVert: Open Exploration of Vertebrate Diversity in 3D: Difference between revisions

Jump to navigation Jump to search

OVert: Open Exploration of Vertebrate Diversity in 3D (view source)

Revision as of 17:03, 15 August 2021

2,951 bytes added ,  15 August 2021
no edit summary
No edit summary
No edit summary
Line 164: Line 164:


=== Publications ===
=== Publications ===
Bardua, C., Bon, M., Fabre, A.-C., Clavel, J., Das, K., Herrel, A., Stanley, E.L., Blackburn, D.C., & Goswami, A. (2021). Size, microhabitat, and loss of larval feeding drive cranial diversification in frogs. Nature Communications, 12, 2503.<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>
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>


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>
Blackburn, D.C., Morales, C.A.H., Paluh, D.J., & Stanley, E.L. (2021). Predation on a gymnopthlamid lizard by the Brazilian Dumpy Frog, ''Stereocyclops incrassatus'' (Microhylidae, Gastrophryninae). Herpetology Notes, 14, 847–849.<br>


Bock, A., Doraiswamy, H., Summers, A., & Silva, C. (2018). Topoangler: Interactive topology-based extraction of fishes. IEEE transactions on visualization and computer graphics, 24(1), 812-821.<br>
Bock, A., Doraiswamy, H., Summers, A., & Silva, C. (2018). Topoangler: Interactive topology-based extraction of fishes. IEEE transactions on visualization and computer graphics, 24(1), 812-821.<br>
Bolet, A., Stanley, E.L., Daza, J.D., Arias, J.S., Čerňanský, A., Vidal-García, M., Bauer, A.M., Bevitt, J.J., Peretti, A., & Evans, S.E. (2021). Unusual morphology in the mid-Cretaceous lizard ''Oculudentavis''. Current Biology, 31, 3303–3314.e3.<br>


Boyer, D.M. & Harrington, A.R. (2018). Scaling of bony canals for encephalic vessels in euarchontans: Implications for the role of the vertebral artery and brain metabolism. Journal of Human Evolution, 114, 85-101.<br>
Boyer, D.M. & Harrington, A.R. (2018). Scaling of bony canals for encephalic vessels in euarchontans: Implications for the role of the vertebral artery and brain metabolism. Journal of Human Evolution, 114, 85-101.<br>
Line 181: Line 186:
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>


Conway, K.W, King, C. D. Summers A.P. Kim, D. Hastings, P.A. Moore, G.I. Iglésias, S.P Erdmann, M.V., Short, G. Fujiwara, K. Trnski, T. Voelker, G. and Rüber L.  (2020). Molecular phylogenetics of the clingfishes (Teleostei: Gobiesocidae) – Implications for Classification.  Copeia, in press.<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, Well, H.I., Westneat, M.W., & Summers, A.P. (2020). The evolutionary continuum of functional homodonty to heterodonty in the dentition of ''Halichoeres'' wrasses. Integrative and Comparative Biology, icaa137.<br>
 
Conway, K.W, King, C. D. Summers A.P. Kim, D. Hastings, P.A. Moore, G.I. Iglésias, S.P Erdmann, M.V., Short, G. Fujiwara, K. Trnski, T. Voelker, G. and Rüber L.  (2020). Molecular phylogenetics of the clingfishes (Teleostei: Gobiesocidae) – Implications for Classification.  Copeia, 108, 886–906.<br>


Conway, K.W., Mateos, M., & Vrijenhoek, R.C. (2019). A new species of the live-bearing fish genus ''Poeciliopsis'' from northern Mexico (Cyprinodontiformes, Poeciliidae). ZooKeys, 883, 91.<br>
Conway, K.W., Mateos, M., & Vrijenhoek, R.C. (2019). A new species of the live-bearing fish genus ''Poeciliopsis'' from northern Mexico (Cyprinodontiformes, Poeciliidae). ZooKeys, 883, 91.<br>


Conway, K.W., Moore, G.I., & Summers, A.P. (2019). A new genus and two new species of miniature clingfishes from temperate southern Australia (Teleostei, Gobiesocidae). ZooKeys, 864, 35.<br>
Conway, K.W., Moore, G.I., & Summers, A.P. (2019). A new genus and two new species of miniature clingfishes from temperate southern Australia (Teleostei, Gobiesocidae). ZooKeys, 864, 35.<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., 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>
Line 193: Line 204:
Corn, K.A., Farina, S.C., Summers, A.P., & Gibb, A.C. (2018). Effects of organism and substrate size on burial mechanics of English sole, Parophrys vetulus. Journal of Experimental Biology, 221, jeb176131.<br>
Corn, K.A., Farina, S.C., Summers, A.P., & Gibb, A.C. (2018). Effects of organism and substrate size on burial mechanics of English sole, Parophrys vetulus. Journal of Experimental Biology, 221, jeb176131.<br>


Crawford, C.H., Z.S. Randall, P.B. Hart, L.M. Page, P. Chakrabarty, A. Suvarnaraksha, and B.E. Flammang. (2020). Skeletal and muscular pelvic morphology of hillstream loaches (Cypriniformes: Balitoridae). Journal of Morphology, DOI:10.1002/jmor.21247.<br>
Crawford, C.H., Z.S. Randall, P.B. Hart, L.M. Page, P. Chakrabarty, A. Suvarnaraksha, and B.E. Flammang. (2020). Skeletal and muscular pelvic morphology of hillstream loaches (Cypriniformes: Balitoridae). Journal of Morphology, 281, 1280–1295.<br>
 
Donatelli, C.M., Roberts, A.S., Scott, E., DeSmith, K., Summers, D., Abu-Bader, L.,  Baxter, D., Standen, E.M., Porter, M.E., Summers, A.P., & Tytell, E.D. (2021). Foretelling the flex—vertebral shape predicts behavior and ecology of fishes. Integrative and Comparative Biology, icab110.<br>
 
Early, C.M., Iwaniuk, A.N., Ridgely, R.C., & Witmer, L.M. (2020). Endocast structures are reliable proxies for the sizes of corresponding regions of the brain in extant birds. Journal of Anatomy, 237, 1162–1176. <br>


Early, C.M., R.C. Ridgely, and L.M. Witmer. (2020). Beyond endocasts: using predicted brain-structure volumes of extinct birds to assess neuroanatomical and behavioral inferences. Diversity, 12, 34.<br>
Early, C.M., R.C. Ridgely, and L.M. Witmer. (2020). Beyond endocasts: using predicted brain-structure volumes of extinct birds to assess neuroanatomical and behavioral inferences. Diversity, 12, 34.<br>


Fabre, A.-C., Bardua, C., Bon, M., Clavel, J., Felice, R.N., Streicher, J.W., Bonnel, J., Stanley, E.L., Blackburn, D.C., & Goswami, A. (2020). Metamorphosis shapes cranial diversity and rate of evolution in salamanders. Nature Ecology & Evolution, https://doi.org/10.1038/s41559-020-1225-3.<br>
Fabre, A.-C., Bardua, C., Bon, M., Clavel, J., Felice, R.N., Streicher, J.W., Bonnel, J., Stanley, E.L., Blackburn, D.C., & Goswami, A. (2020). Metamorphosis shapes cranial diversity and rate of evolution in salamanders. Nature Ecology & Evolution, 4, 1129–1140.<br>


Farina, S.C.,Knope, M.L., Corn, K.A., Summers, A.P., & Bemis, W.B. (2019).  Functional coupling in the evolution of suction feeding and gill ventilation of sculpins (Perciformes: Cottoidei), Integrative and Comparative Biology, icz022.<br>
Farina, S.C.,Knope, M.L., Corn, K.A., Summers, A.P., & Bemis, W.B. (2019).  Functional coupling in the evolution of suction feeding and gill ventilation of sculpins (Perciformes: Cottoidei), Integrative and Comparative Biology, icz022.<br>
Line 204: Line 219:


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>
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>


Griffing, A.H., Sanger, T.J., Daza, J.D., Nielsen, S.V., Pinto, B.J., Stanley, E.L., & Gamble, T. (2019). Embryonic development of a parthenogenetic vertebrate, the mourning gecko (''Lepidodactylus lugubris''). Developmental Dynamics, 248, 1070–1090.<br>
Griffing, A.H., Sanger, T.J., Daza, J.D., Nielsen, S.V., Pinto, B.J., Stanley, E.L., & Gamble, T. (2019). Embryonic development of a parthenogenetic vertebrate, the mourning gecko (''Lepidodactylus lugubris''). Developmental Dynamics, 248, 1070–1090.<br>
Line 215: Line 232:
Hedrick, B.P., Heberling, J.M., Meineke, E.K., Turner, K.G., Grassa, C.J., Park, D.S., Kennedy, J., Clarke, J.A., Cook, J.A., Blackburn, D.C. & Edwards, S.V. (2020). Digitization and the future of natural history collections. BioScience, 70, 243–251.<br>
Hedrick, B.P., Heberling, J.M., Meineke, E.K., Turner, K.G., Grassa, C.J., Park, D.S., Kennedy, J., Clarke, J.A., Cook, J.A., Blackburn, D.C. & Edwards, S.V. (2020). Digitization and the future of natural history collections. BioScience, 70, 243–251.<br>


Hilton, E.J., G.J. Watkins-Colwell, & S.K. Huber. (2020). The expanding role of natural history collections. Copeia, in press.<br>
Hilton, E.J., G.J. Watkins-Colwell, & S.K. Huber. (2021). The expanding role of natural history collections. Ichthyology & Herpetology, 109, 379–391.<br>


Hoke, K.L., Adkins-Regan, E., Bass, A.H., McCune, A.R., & Wolfner, M.F. (2019). Co-opting evo-devo concepts for new insights into mechanisms of behavioural diversity. Journal of Experimental Biology, 222, jeb190058.<br>
Hoke, K.L., Adkins-Regan, E., Bass, A.H., McCune, A.R., & Wolfner, M.F. (2019). Co-opting evo-devo concepts for new insights into mechanisms of behavioural diversity. Journal of Experimental Biology, 222, jeb190058.<br>
Line 225: Line 242:
Huie, J.M., Thacker, C., & Tornabene, L. (2019). Co‐evolution of cleaning and feeding morphology in the western Atlantic and eastern Pacific gobies. Evolution, 74, 419–433.<br>
Huie, J.M., Thacker, C., & Tornabene, L. (2019). Co‐evolution of cleaning and feeding morphology in the western Atlantic and eastern Pacific gobies. Evolution, 74, 419–433.<br>


Hulsey, C.D., K.E. Cohen, Z. Johanson, N. Karagic, A. Meyer, C.T. Miller, A. Sadier, A.P. Summers, and G.J. Fraser. (2020). Grand challenges in comparative tooth biology. Integrative & Comparative Biology, in press. https://doi.org/10.1093/icb/icaa038<br>
Hulsey, C.D., Cohen, K.E., Johanson, Z., Karagic, N., Meyer, A., Miller, C.T., Sadier, A., Summers, A.P., & Fraser, G.J. (2020). Grand challenges in comparative tooth biology. Integrative & Comparative Biology, 60, 563–580.<br>
 
Ingle, D.N., & Porter, M.E. (2021). Microarchitecture of cetacean vertebral trabecular bone among swimming modes and diving behaviors. Journal of Anatomy, 238, 643–652.<br>


Keeffe, R., and D.C. Blackburn. (2020). Comparative morphology of the humerus in forward-burrowing frogs. Biological Journal of the Linnean Society, in press.<br>
Keeffe, R., & Blackburn, D.C. (2020). Comparative morphology of the humerus in forward-burrowing frogs. Biological Journal of the Linnean Society, 131, 291–303.<br>


Kolmann, M.A. K.E. Cohen, K. Bemis, A.P. Summers, Adam, F. Irish, and L.P. Hernandez (2019). Tooth and consequences: heterodonty and dental replacement in piranhas and pacus (Serrasalmidae). Evolution and Development, 21, 247-262.<br>
Kolmann, M.A. K.E. Cohen, K. Bemis, A.P. Summers, Adam, F. Irish, and L.P. Hernandez (2019). Tooth and consequences: heterodonty and dental replacement in piranhas and pacus (Serrasalmidae). Evolution and Development, 21, 247-262.<br>
Line 233: Line 252:
Kolmann, M.A., Huie, J.M., Evans, K., & Summers, A.P. (2018). Specialized specialists and the narrow niche fallacy: a tale of scale-feeding fishes. Royal Society Open Science, 5, 171581.<br>
Kolmann, M.A., Huie, J.M., Evans, K., & Summers, A.P. (2018). Specialized specialists and the narrow niche fallacy: a tale of scale-feeding fishes. Royal Society Open Science, 5, 171581.<br>


Kruppert, S., Chu, F., Stewart, M.C., Schmitz, L., & Summers, A.P. (2020) Ontogeny and potential function of poacher armor (Actinopterygii: Agonidae). Journal of Morphology, in press. DOI: 10.1002/jmor.21223.<br>
Kruppert, S., Chu, F., Stewart, M.C., Schmitz, L., & Summers, A.P. (2020) Ontogeny and potential function of poacher armor (Actinopterygii: Agonidae). Journal of Morphology, 281, 1018–1028.<br>
 
Laver, R.J., Daza, J.D., Ellis, R.J, Stanley, E.L., & Bauer, A.M. (2021). Underground down under: skull anatomy of the southern blind snake ''Anilios australis'' Gray, 1845 (Typhlopidae: Serpentes: Squamata). Anatomical Record. In press.<br>


Leão, M.D.V., Carvalho, T.P., Reis, R.E., & Wosiacki, W.B. (2019). A new species of ''Pseudobunocephalus'' Friel, 2008 (Siluriformes: Aspredinidae) from the lower Tocantins and Mearim river drainages, North and Northeast of Brazil. Zootaxa, 4586, 109–126.<br>
Leão, M.D.V., Carvalho, T.P., Reis, R.E., & Wosiacki, W.B. (2019). A new species of ''Pseudobunocephalus'' Friel, 2008 (Siluriformes: Aspredinidae) from the lower Tocantins and Mearim river drainages, North and Northeast of Brazil. Zootaxa, 4586, 109–126.<br>
Line 246: Line 267:


Matthews, T., Keeffe, R., & Blackburn, D.C. (2019) An identification guide to fossil frog assemblages of southern Africa based on ilia of extant taxa. Zoologischer Anzeiger, 283, 46–57.<br>
Matthews, T., Keeffe, R., & Blackburn, D.C. (2019) An identification guide to fossil frog assemblages of southern Africa based on ilia of extant taxa. Zoologischer Anzeiger, 283, 46–57.<br>
McFarland, E.P., Baldwin, C.C., Robertson, D.R., Rocha, L.A., & Tornabene, L. (2020). A new species of ''Chromis'' damselfish from the tropical western Atlantic (Teleostei, Pomacentridae). ZooKeys, 1008, 107–128.<br>


Page, L.M., J.M. Pfeiffer, S. Suksri, Z.S. Randall, and D.A. Boyd (2020). Variation in the Arrow Loach, ''Nemacheilus masyae'' (Cypriniformes: Nemacheilidae), in mainland southeast Asia with description of a new species. Copeia, 108, 392–402.<br>
Page, L.M., J.M. Pfeiffer, S. Suksri, Z.S. Randall, and D.A. Boyd (2020). Variation in the Arrow Loach, ''Nemacheilus masyae'' (Cypriniformes: Nemacheilidae), in mainland southeast Asia with description of a new species. Copeia, 108, 392–402.<br>


Page, L.M., Ray, B.C., Tongnunui, S., Boyd, D.A., & Randall, Z.S. (2019). ''Garra surinbinnani'', a new species of labeonine from the Mae Khlong basin of Thailand (Teleostei: Cyprinidae). Ichthyological Exploration of Freshwaters, 1–15. http://doi.org/10.23788/IEF-1117.<br>
Page, L.M., Ray, B.C., Tongnunui, S., Boyd, D.A., & Randall, Z.S. (2019). ''Garra surinbinnani'', a new species of labeonine from the Mae Khlong basin of Thailand (Teleostei: Cyprinidae). Ichthyological Exploration of Freshwaters, 1–15.<br>
 
Paluh, D.J., Riddell, K., Early, CM., Hantak, M.M., Jongsma, G.F.M., Keeffe, R.M., Magalhães Silva, F., Nielsen, S.V., Vallejo-Pareja, M.C., Stanley, E.L., & Blackburn, D.C. (2021). Rampant tooth loss across 200 million years of frog evolution. eLife, 10, e66926.<br>


Paluh, D.J., Stanley, E.L., & Blackburn, D.C. (2020). Evolution of hyperossification expands skull diversity in frogs. Proceedings of the National Academy of Sciences USA, 117, 8554-8562.<br>
Paluh, D.J., Stanley, E.L., & Blackburn, D.C. (2020). Evolution of hyperossification expands skull diversity in frogs. Proceedings of the National Academy of Sciences USA, 117, 8554-8562.<br>
Line 257: Line 282:
Prestridge, H.L., & Conway, K.L. (2019). TCWC – The Collection of Fishes at the Biodiversity Research and Teaching Collections, Texas A&M University. Boletim Sociedade Brasileira de Ictiologia, 129, 121-124.<br>
Prestridge, H.L., & Conway, K.L. (2019). TCWC – The Collection of Fishes at the Biodiversity Research and Teaching Collections, Texas A&M University. Boletim Sociedade Brasileira de Ictiologia, 129, 121-124.<br>


Robins, R.H., Brown, M.E., & Crutchfield, R.A. (2020). Identification of acara (Cichlidae: Cichlasoma) established in Florida, USA. BioInvasions Record, 9(1), 133-145.<br>
Robins, R.H., Brown, M.E., & Crutchfield, R.A. (2020). Identification of acara (Cichlidae: Cichlasoma) established in Florida, USA. BioInvasions Record, 9, 133-145.<br>


Rutledge, K.M., Summers, A.P., & Kolmann, M.A. (2019). Killing them softly: Ontogeny of jaw mechanics and stiffness in mollusk‐feeding freshwater stingrays. Journal of Morphology.<br>
Rutledge, K.M., Summers, A.P., & Kolmann, M.A. (2019). Killing them softly: Ontogeny of jaw mechanics and stiffness in mollusk‐feeding freshwater stingrays. Journal of Morphology, 280, 796–808.<br>


Sabaj, M.H. (2020). Codes for natural history collections in ichthyology and herpetology. Copeia, 108 (3), 593–669.<br>
Sabaj, M.H. (2020). Codes for natural history collections in ichthyology and herpetology. Copeia, 108, 593–669.<br>


Stocker, M.R., Nesbitt, S.J., Kligman, B.T., Paluh, D.J., Marsh, A.D., Blackburn, D.C., & Parker, W.G. (2019). The earliest equatorial record of frogs from the Late Triassic of Arizona. Biology Letters, 15(2), 20180922.<br>
Stocker, M.R., Nesbitt, S.J., Kligman, B.T., Paluh, D.J., Marsh, A.D., Blackburn, D.C., & Parker, W.G. (2019). The earliest equatorial record of frogs from the Late Triassic of Arizona. Biology Letters, 15, 20180922.<br>


Štrus, J., M. Tušek-Žnidarič, U. Repnik, A. Blejec, and A.P. Summers (2019) Microscopy of crustacean cuticle: formation of a flexible extracellular matrix in moulting sea slaters ''Ligia pallasii''. Journal of the Marine Biological Association of the United Kingdom, 99, 857-865.<br>
Štrus, J., M. Tušek-Žnidarič, U. Repnik, A. Blejec, and A.P. Summers (2019) Microscopy of crustacean cuticle: formation of a flexible extracellular matrix in moulting sea slaters ''Ligia pallasii''. Journal of the Marine Biological Association of the United Kingdom, 99, 857-865.<br>
Line 281: Line 306:
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>


Yapuncich, G.S., A.D. Kemp, D.M. Griffith, J.T. Gladman, E. Ehmke, and D.M. Boyer. (2019). A digital collection of rare and endangered lemurs and other primates from the Duke Lemur Center. PLoS ONE, 14, e0219411.<br>
Yapuncich, G.S., Kemp, A.D., Griffith, D.M., Gladman, J.T., Ehmke, E., & Boyer, D.M. (2019). A digital collection of rare and endangered lemurs and other primates from the Duke Lemur Center. PLoS ONE, 14, e0219411.<br>


Yopak, K.E., Carrier, J.C., & Summers, A.P. (2018). Imaging technologies in the field and laboratory. In Shark Research: Emerging Technologies and Applications for the Field and Laboratory. J.C. Carrier & M.R. Heithaus, eds.<br>
Yopak, K.E., Carrier, J.C., & Summers, A.P. (2018). Imaging technologies in the field and laboratory. In Shark Research: Emerging Technologies and Applications for the Field and Laboratory. J.C. Carrier & M.R. Heithaus, eds.<br>
Dcblackburn
52

edits

Retrieved from "http://www.idigbio.org/wiki/index.php/Special:MobileDiff/31825"

Navigation menu