Published July 3, 2023 | Version v1
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The shape of water: adaptations of cochlea morphology in seals and oưers

  • 1. Institute of Zoology and Evolutionary Research, Friedrich Schiller University, Jena Erbertstrasse 1, 07743 Jena, Germany
  • 2. Institute of Zoology and Evolutionary Research, Friedrich Schiller University, Jena Erbertstrasse 1, 07743 Jena, Germany & Department of Archaeogenetics, Max Planck Institute for Evolutionary Anthropology, Deutscher Platz 6, 04103 Leipzig, Germany

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Taszus, Roxana, Rio, Joaquin del, Stoessel, Alexander, Nowotny, Manuela (2023): The shape of water: adaptations of cochlea morphology in seals and oưers. Zoological Journal of the Linnean Society 199 (1): 45-59, DOI: 10.1093/zoolinnean/zlad014, URL: http://dx.doi.org/10.1093/zoolinnean/zlad014

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urn:lsid:plazi.org:pub:DA38FFCAF77BFFAF7F541211FFA80424

References

  • Adams DC, Otarola-Castillo E. Geomorph: an R package for the collection and analysis of geometric morphometric shape data. Methods in Ecology and Evolution 2013;4:393-99.
  • Aphalo PJ. 'Ggpmisc: Miscellaneous Extensions to "Ggplot2". R Package Version 0.3. 6hups '. Cran. r-Project. Org/Web/Packages/Ggpmisc/ Index. Html, 2020.
  • Berta A. Pinniped Evolution. In: Wursig B, Thewissen JGM, Kovacs KM, eds.Encyclopedia of Marine Mammals (Third Edition), 2018. Academic Press, 712-722.
  • Blomberg SP, Garland T, Ives AR. Testing for phylogenetic signal in comparative data: behavioral traits are more labile. Evolution 2003;57:717-45.
  • Carss DN. Foraging behaviour and feeding ecology of the ouer Lutra lutra: a selective review. Hystrix, the Italian Journal of Mammalogy 1995;7:179-94.
  • Cherin M. New material of Lutra simplicidens (Carnivora, Mustelidae, Lutrinae), a key taxon for understanding the evolution of European ouers. Rivista Italiana di Paleontologia e Stratigrafia 2017;123:433-41.
  • Churchill M, Martinez-Caceres M, de Muizon C et al. The origin of high-frequency hearing in whales. Current Biology 2016;26:2144-49.
  • Costeur L, Grohe C, Aguirre-Fernandez G et al. The bony labyrinth of toothed whales reflects both phylogeny and habitat preferences. Scientific Reports 2018;8:8-13.
  • Davis RW, Bodkin JL. Sea Ouer Foraging Behavior. In: Davis RW, Pagano AM, eds. Ethology and Behavioral Ecology of Marine Mammals. Ethology and Behavioral Ecology of Sea Otters and Polar Bears, 2021. Cham: Springer International Publishing, 57-81.
  • Domning DP. Sirenian Evolution. In: Wursig B, Thewissen JGM, Kovacs KM, eds. Encyclopedia of Marine Mammals (Third Edition) 2018. Academic Press, 856-59.
  • Duplaix N. Observations on the ecology and behavior of the giant river ouer Pteronura brasiliensis in Suriname. Revue d'Ecologie (La Terre et La Vie) 1980;34:495-620.
  • Ekdale EG. Comparative anatomy of the bony labyrinth (inner ear) of placental mammals. PLoS One 2013;8:137149.
  • Ekdale EG. Morphological variation among the inner ears of extinct and extant baleen whales (Cetacea: Mysticeti). Journal of Morphology 2016;277:1599-615.
  • Fay S, Burns JJ, Fay FH. Comparative morphology of the skull of the ribbon seal, Histriophoca fasciata, with remarks on systematics of Phocidae. J Zool 1970;161:363-94.
  • Fleischer G. Evolutionary principles of the mammalian middle ear. Advances in Anatomy Embryology and Cell Biology 1978.
  • Ghoul A, Reichmuth C. Hearing in sea ouers (Enhydra lutris): audible frequencies determined from a controlled exposure approach. Aquat Mamm 2014;40:243-51.
  • Grohe C, Tseng ZJ, Lebrun R et al. Bony labyrinth shape variation in extant Carnivora:a case study of Musteloidea.J Anat 2016;228:366-83.
  • de Haan FW. Some aspects of mammalian hearing under water. Proceedings of the Royal Society of London. Series B. Biological Sciences 1960;152:54-62.
  • Ho J, Tumkaya T, Aryal S, Choi H, Claridge-Chang A. Moving beyond P values: data analysis with estimation graphics. Nat Met 2019;16: 565-566.
  • Hocking DP, Marx FG, Wang S et al. Convergent evolution of forelimbpropelled swimming in seals. Curr Biol 2021;31:2404-09.e2.
  • Jones KE, Bielby J, Cardillo M et al. PanTHERIA:a species-level database of life history, ecology, and geography of extant and recently extinct mammals. Ecology 2009;90:2648-2648.
  • Kassambara, A, Kassambara MA.Package 'ggpubr'.R package version 0.1 6 (R Foundation for Statistical Computing, 2020).
  • Kastak D, Schusterman RJ. Low-frequency amphibious hearing in pinnipeds: methods, measurements, noise, and ecology. The Journal of the Acoustical Society of America 1998;103:2216-28.
  • Klingenberg CP. MorphoJ: an integrated sohware package for geometric morphometrics. Molecular ecology resources 2011;11: 353-357. hups://morphometrics.uk/MorphoJ_page.html
  • Koepfli KP, Wayne RK. Phylogenetic relationships of ouers (Carnivora: Mustelidae) based on mitochondrial cytochrome b sequences. Journal of Zoology 1998;246:401-16.
  • Koper L, Koretsky IA, Rahmat SJ. Can you hear me now? A comparative survey of pinniped auditory apparatus morphology. Zoodiversity 2021;55:63-86.
  • Koretsky IA, Barnes LG, Rahmat SJ. Re-evaluation of morphological characters questions current views of pinniped origins. Vestnik Zoologii 2016;50:327-54.
  • Kuhn C, Frey E. Walking like caterpillars, flying like bats- pinniped locomotion. Palaeobiodiversity and Palaeoenvironments 2012;92:197-210.
  • Kumar S, Stecher G, Suleski M et al. TimeTree: a resource for timelines, timetrees, and divergence times. Molecular Biology and Evolution 2017;34:1812-19.
  • Lariviere S. Aonyx capensis. Mammalian Species 2001;671:1-6.
  • Loza CM, Scarano AC, Soibelzon LH et al. Morphology of the tympanicbasicranial region in Mirounga leonina (Phocidae, Carnivora), postnatal ontogeny and sexual dimorphism. Journal of Anatomy 2015;226:354-72.
  • March D, Brown D, Gray R et al. Auditory anatomy of beaked whales and other odontocetes: potential for cochlear stimulation via a 'vibroacoustic duct mechanism'. Marine Mammal Science 2016;32:552-67.
  • Miueroecker P, Gunz P, Windhager S et al. A brief review of shape, form, and allometry in geometric morphometrics, with applications to human facial morphology. Hystrix, the Italian Journal of Mammalogy 2013;24:59-66.
  • Mori K, Suzuki S, Koyabu D et al. Comparative functional anatomy of hindlimb muscles and bones with reference to aquatic adaptation of the sea otter. Journal of Veterinary Medical Science 2015;77:571-78.
  • Mourlam MJ, Orliac MJ. Infrasonic and ultrasonic hearing evolved aher the emergence of modern whales. Current Biology 2017;27:1776-81. e9.
  • Mumm CAS, Knornschild M. The vocal repertoire of adult and neonate giant ouers (Pteronura brasiliensis). PLoS One 2014;9:e112562.
  • Murphy CJ, Bellhorn RW, Williams T et al. Refractive state, ocular anatomy, and accommodative range of the sea ouer (Enhydra lutris). Vision Research 1990;30:23-32.
  • Nummela S. Scaling of the mammalian middle ear. Nat Hist 1995;85:18-30.
  • Nummela S, Thewissen JGM, Bajpal S et al. Eocene evolution of whale hearing. Nature 2004;430:776-78.
  • Nummela S. 13. Hearing in aquatic mammals. In: Thewissen JGM 'Hans', Nummela S (eds.), Sensory Evolution on the Threshold: Adaptations in Secondarily Aquatic Vertebrates. London: University of California Press, 2008, 211-24
  • Nummela S, Thewissen JGM. 11. The physics of sound in air and water. In: Thewissen JGM 'Hans', Nummela S (eds), Sensory Evolution on the Threshold: Adaptations in Secondarily Aquatic Vertebrates. London: University of California Press, 2008, 175-82.
  • Odend'Hal S, Poulter TC. Pressure regulation in the middle ear cavity of sea lions: a possible mechanism. Science 1966;153:768-69.
  • Owen MA, Keating JL, Denes SK et al. Hearing sensitivity in context: conservation implications for a highly vocal endangered species. Global Ecology and Conservation 2016;6:121-31.
  • Pagel M. Inferring the historical pauerns of biological evolution. Nature 1999;401:877-84.
  • Peng R, Zeng B, Meng X et al. The complete mitochondrial genome and phylogenetic analysis of the giant panda (Ailuropoda melanoleuca). Gene 2007;397:76-83.
  • R Core Team. R: a language and environment for statistical computing. Vienna: R Foundation for Statistical Computing. www.R-project. org/, 2013.
  • Racicot R.Evolution of whale sensory ecology:frontiers in nondestructive anatomical investigations. Anatomical Record 2022;305:736-52.
  • Racicot T, Preucil VE. Bony labyrinths of the blackfish (Delphinidae: Globicephalinae). Marine Mammal Science 2022;38:29-41.
  • Ramprashad F, Corey S, Ronald K. Anatomy of the seal's ear (Pagophilus groenlandicus) (Erxleben, 1777). In: Harrison RJ (ed.), Functional Anatomy of Marine Mammals, London. Academic Press Inc. Vol. 1, 1972, 263-305.
  • Reichmuth C, Holt MM, Mulsow J et al. Comparative assessment of amphibious hearing in pinnipeds. Journal of Comparative Physiology. A, Neuroethology, Sensory, Neural, and Behavioral Physiology 2013;199:491-507.
  • Repenning CA. Underwater hearing in seals: functional morphology. In: Harrison RJ (ed.), Functional Anatomy of Marine Mammals. London. Academic Press Inc 1972;1:307-331.
  • Revell LJ. phytools: an R package for phylogenetic comparative biology (and other things). Methods in Ecology and Evolution 2012;3:217-23.
  • RStudio, Team. 'RStudio: Integrated Development for R'. Rstudio Team, PBC, Boston, MA hup://www. Rstudio. Com, 2020.