Respiratory turbinates of canids and felids: a quantitative comparison

Blaire Van Valkenburgh; Jessica Theodor; Anthony Friscia; Ari Pollack; Timothy Rowe

doi:10.1017/S0952836904005771

Abstract

The respiratory turbinates of mammals are complex bony plates within the nasal chamber that are covered with moist epithelium and provide an extensive surface area for the exchange of heat and water. Given their functional importance, maxilloturbinate size and structure are expected to vary predictably among species adapted to different environments. Here the first quantitative analysis is provided of maxilloturbinate structure based on high-resolution computed tomography (CT) scans of the skulls of eight canid and seven felid species. The key parameters examined were the density of the maxilloturbinate bones within the nasal chamber and how that density varied along the air pathway. In both canids and felids, total maxilloturbinate chamber volume and bone volume increased with body size, with canids having c. 1.5–2.0 times the volume of maxilloturbinate than felids of similar size. In all species, the volume of the maxilloturbinates varies from rostral to caudal, with the peak volume occurring approximately midway, close to where airway cross-sectional area is greatest. Interspecific differences among canids or felids in maxilloturbinate density were not consistent with adaptive explanations, i.e. the densest maxilloturbinates were not associated with species living in arid or cold habitats. Some of the observed variation in maxilloturbinate form might reflect a need for both low- and high-resistance pathways for airflow under alternative conditions.

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Rowe, Timothy B. Eiting, Thomas P. Macrini, Thomas E. and Ketcham, Richard A. 2005. Organization of the Olfactory and Respiratory Skeleton in the Nose of the Gray Short-Tailed Opossum Monodelphis domestica. Journal of Mammalian Evolution, Vol. 12, Issue. 3-4, p. 303.

Craven, Brent A. Neuberger, Thomas Paterson, Eric G. Webb, Andrew G. Josephson, Eleanor M. Morrison, Edward E. and Settles, Gary S. 2007. Reconstruction and Morphometric Analysis of the Nasal Airway of the Dog (Canis familiaris) and Implications Regarding Olfactory Airflow. The Anatomical Record, Vol. 290, Issue. 11, p. 1325.

Smith, Timothy D. Bhatnagar, Kunwar P. Rossie, James B. Docherty, Beth A. Burrows, Anne M. Cooper, Gregory M. Mooney, M.P. and Siegel, M.I. 2007. Scaling of the first ethmoturbinal in nocturnal strepsirrhines: Olfactory and respiratory surfaces. The Anatomical Record, Vol. 290, Issue. 3, p. 215.

Macrini, Thomas E. De Muizon, Christian Cifelli, Richard L. and Rowe, Timothy 2007. Digital cranial endocast ofPucadelphys andinus, a Paleocene metatherian. Journal of Vertebrate Paleontology, Vol. 27, Issue. 1, p. 99.

Rasmussen, Gregory S. A. Gusset, Markus Courchamp, Franck and Macdonald, David W. 2008. Achilles' Heel of Sociality Revealed by Energetic Poverty Trap in Cursorial Hunters. The American Naturalist, Vol. 172, Issue. 4, p. 508.

Craven, Brent A. Paterson, Eric G. and Settles, Gary S. 2010. The fluid dynamics of canine olfaction: unique nasal airflow patterns as an explanation of macrosmia. Journal of The Royal Society Interface, Vol. 7, Issue. 47, p. 933.

Torregrosa, Vanessa Petrucci, Mauro Pérez-Claros, Juan A. and Palmqvist, Paul 2010. Nasal aperture area and body mass in felids: Ecophysiological implications and paleobiological inferences. Geobios, Vol. 43, Issue. 6, p. 653.

Van Valkenburgh, Blaire Curtis, Abigail Samuels, Joshua X. Bird, Deborah Fulkerson, Brian Meachen-Samuels, Julie and Slater, Graham J. 2011. Aquatic adaptations in the nose of carnivorans: evidence from the turbinates. Journal of Anatomy, Vol. 218, Issue. 3, p. 298.

Miyashita, Tetsuto Arbour, Victoria M. Witmer, Lawrence M. and Currie, Philip J. 2011. The internal cranial morphology of an armoured dinosaur Euoplocephalus corroborated by X-ray computed tomographic reconstruction. Journal of Anatomy, Vol. 219, Issue. 6, p. 661.

Holton, Nathan E. Yokley, Todd R. and Franciscus, Robert G. 2011. Climatic adaptation and Neandertal facial evolution: A comment on Rae et al. (2011). Journal of Human Evolution, Vol. 61, Issue. 5, p. 624.

Smith, Timothy D. Eiting, Thomas P. and Bhatnagar, Kunwar P. 2012. A Quantitative Study of Olfactory, Non-Olfactory, and Vomeronasal Epithelia in the Nasal Fossa of the Bat Megaderma lyra. Journal of Mammalian Evolution, Vol. 19, Issue. 1, p. 27.

Macrini, Thomas E. 2012. Comparative Morphology of the Internal Nasal Skeleton of Adult Marsupials Based on X-ray Computed Tomography. Bulletin of the American Museum of Natural History, Vol. 365, Issue. , p. 1.

Giannini, Norberto P. Macrini, Thomas E. Wible, John R. Rowe, Timothy B. and Simmons, Nancy B. 2012. The Internal Nasal Skeleton of the BatPteropus lyleiK.Andersen, 1908 (Chiroptera: Pteropodidae). Annals of Carnegie Museum, Vol. 81, Issue. 1, p. 1.

Godfrey, Stephen J. Geisler, Jonathan and Fitzgerald, Erich M.G. 2013. On the Olfactory Anatomy in an Archaic Whale (Protocetidae, Cetacea) and the Minke Whale Balaenoptera acutorostrata (Balaenopteridae, Cetacea). The Anatomical Record, Vol. 296, Issue. 2, p. 257.

Holton, Nathan Yokley, Todd and Butaric, Lauren 2013. The Morphological Interaction Between the Nasal Cavity and Maxillary Sinuses in Living Humans. The Anatomical Record, Vol. 296, Issue. 3, p. 414.

Coppola, David and Craven, Brent 2013. The effects of naris occlusion on mouse nasal turbinate development. Journal of Experimental Biology,

Ranslow, Allison N. Richter, Joseph P. Neuberger, Thomas Van Valkenburgh, Blaire Rumple, Christopher R. Quigley, Andrew P. Pang, Benison Krane, Michael H. and Craven, Brent A. 2014. Reconstruction and Morphometric Analysis of the Nasal Airway of the White‐Tailed Deer (Odocoileus virginianus) and Implications Regarding Respiratory and Olfactory Airflow. The Anatomical Record, Vol. 297, Issue. 11, p. 2138.

Bird, Deborah J. Amirkhanian, Arsineh Pang, Benison and Van Valkenburgh, Blaire 2014. Quantifying the Cribriform Plate: Influences of Allometry, Function, and Phylogeny in Carnivora. The Anatomical Record, Vol. 297, Issue. 11, p. 2080.

Macrini, Thomas E. 2014. Development of the Ethmoid in Caluromys philander (Didelphidae, Marsupialia) With a Discussion on the Homology of the Turbinal Elements in Marsupials. The Anatomical Record, Vol. 297, Issue. 11, p. 2007.

Ruf, Irina 2014. Comparative Anatomy and Systematic Implications of the Turbinal Skeleton in Lagomorpha (Mammalia). The Anatomical Record, Vol. 297, Issue. 11, p. 2031.

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Respiratory turbinates of canids and felids: a quantitative comparison

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