Olfactory epithelium and ontogeny of the nasal chambers in the bowhead whale (<scp><i>Balaena mysticetus</i></scp>)

Farnkopf, Ian C.; George, J. C.; Kishida, Takushi; Hillmann, Daniel J.; Suydam, Robert; Thewissen, J. G. M.

doi:10.1002/ar.24682

Cited by 13 publications

(23 citation statements)

References 98 publications

(192 reference statements)

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“…Determining this is a conservation priority because biofouling on floating plastic debris emits DMS, which may predispose seabirds to plastic ingestion [44]. If some baleen whales are similarly attracted to DMS, it could lead to plastic ingestion or disruption to foraging attempts [45]. Behavioural studies investigating olfaction have focused on humpback whales which respond to odorants [9] and orientate into wind more often than by chance, in the presence of odorants [42].…”

Section: Discussionmentioning

confidence: 99%

“…The recent finding that tactile hairs may have a role in the sensory ecology of North Atlantic right whales serves to highlight that our fundamental understanding of these sensory processes in whales is still evolving [46]. In addition to orthonasal olfaction, it has been theorized that baleen whales may employ retronasal olfaction, whereby odorants from ingested food or water could be passed from the oral cavity to the nasal chambers [45].…”

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Morphology of nares associated with stereo-olfaction in baleen whales

Ryan,

Martins,

Healy

et al. 2024

Biol. Lett.

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The sensory mechanisms used by baleen whales (Mysticeti) for locating ephemeral, dense prey patches in vast marine habitats are poorly understood. Baleen whales have a functional olfactory system with paired rather than single blowholes (nares), potentially enabling stereo-olfaction. Dimethyl sulfide (DMS) is an odorous gas emitted by phytoplankton in response to grazing by zooplankton. Some seabirds use DMS to locate prey, but this ability has not been demonstrated in whales. For 14 extant species of baleen whale, nares morphometrics (imagery from unoccupied aerial systems, UAS) was related to published trophic level indices using Bayesian phylogenetic mixed modelling. A significant negative relationship was found between nares width and whale trophic level ( β = −0.08, lower 95% CI = −0.13, upper 95% CI = −0.03), corresponding with a 39% increase in nares width from highest to lowest trophic level. Thus, species with nasal morphology best suited to stereo-olfaction are more zooplanktivorous. These findings provide evidence that some baleen whale species may be able to localize odorants e.g. DMS. Our results help direct future behavioural trials of olfaction in baleen whales, by highlighting the most appropriate species to study. This is a research priority, given the potential for DMS-mediated plastic ingestion by whales.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Morphology of nares associated with stereo-olfaction in baleen whales

Ryan,

Martins,

Healy

et al. 2024

Biol. Lett.

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“…Early during the embryonic period, cetaceans appear similar to other mammals with processes like somite formation, forelimb bud development, and patterning of organ primordia (Štĕrba et al, 2000 ; Thewissen & Heyning, 2007 ). As development progresses, these embryos begin to diverge from this mammotypical plan and take on cetacean‐specific traits including loss of external hindlimbs (Guldberg & Nansen, 1894 ; Ogawa, 1953 ; Sedmera et al, 1997a ; Thewissen et al, 2006 ), the formation of a soft‐tissue fluke for tail‐based propulsion (Buchholtz, 2007 ; Fish, 1998 ; Ryder, 1885 ; Thewissen, 2018 ), blowhole formation on the dorsum of the skull (Farnkopf et al, 2021 ; Haddad et al, 2012 ; H. H. A. Oelschläger, 2000 ; Roston & Roth, 2019 , 2021 ), and hyperphalangy (Cooper et al, 2007 , 2011 , 2017 ; Richardson & Chipman, 2003 ; Richardson et al, 2009 ; Richardson & Oelschlager, 2002 ; Sedmera et al, 1997b ). Although other aquatic mammals such as Sirenia (manatees and dugongs) also lack external hindlimbs and display adaptations for tail‐powered swimming (Buchholtz et al, 2007 ; Domning, 2018 ), only cetaceans evolved a blowhole on the top of their heads and hyperphalangy.…”

Section: Introductionmentioning

confidence: 99%

“…Other knowledge about prenatal cetaceans is based on material from commercial whaling operations (Guldberg & Nansen, 1894 ; Kükenthal, 1889 ; Ogawa, 1953 ; Roston et al, 2013 ; Roston & Roth, 2021 ; Ryder, 1885 ; Stump et al, 1960 ), collaboration with indigenous communities that harvest cetaceans for subsistence (Armfield et al, 2011 ; Farnkopf et al, 2021 ; Heide‐Jørgensen & Garde, 2011 ; Thewissen et al, 2017 ), strandings (Berta et al, 2015 ; Roston & Roth, 2021 ), and from cetacean bycatch during commercial fishing (Armfield et al, 2011 ; Cooper et al, 2017 ; Moran et al, 2011 ; Roston & Roth, 2021 ; Sedmera et al, 1997a , 2003 ; Štĕrba et al, 2000 ; Thewissen et al, 2006 ; Thewissen & Heyning, 2007 ). Many of these reports focus on morphological descriptions of fetal specimens.…”

Section: Introductionmentioning

confidence: 99%

Comparative embryology of Delphinapterus leucas (beluga whale), Balaena mysticetus (bowhead whale), and Stenella attenuata (pan‐tropical spotted dolphin) (Cetacea: Mammalia)

Gavazzi

Cooper

Usip

et al. 2023

Journal of Morphology

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Embryogenesis of cetaceans (whales, dolphins, porpoises) is best known inStenella attenuata, the pan-tropical spotted dolphin, based on a remarkably complete and well-studied prenatal ontogenetic series. Our study expands understanding of cetacean embryology by adding two additional cetacean taxa: the beluga whale (Delphinapterus leucas, Odontoceti), and the bowhead whale (Balaena mysticetus, Mysticeti). We identify key features that characterize these taxa at specific stages and highlight heterochrony between the odontocetes and mysticetes. The toothed whales are more similar in developmental timing to each other than either is to Balaena. The two odontocete taxa, Stenella and Delphinapterus, share similar developmental trajectories while early Balaena specimens differ from the odontocetes. This developmental variation proves challenging to ascribe to the existing Carnegie staging system. Most notably, flippers, hindlimbs, and flukes all provide morphological traits for characterization within the Carnegie staging system. A presomitic Delphinapterus embryo is also described. This study applies the Carnegie staging system to two more cetacean taxa and forms a framework for future research on cetacean developmental genetics and the modeling of fetal growth.

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Marine mammal sensory systems: Special issue overview

Reidenberg

Hanke

2022

The Anatomical Record

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Marine mammals are a unique group of organisms that are secondarily adapted to the aquatic environment. Their specific lifestyle requires numerous adaptations of anatomy and physiology in general, and sensory physiology in particular. During the course of evolution, marine mammal senses changed to fit with the specific requirements of underwater sensing, while at the same time retaining aerial sensing to various degrees. In this special issue, state of the art science in the field of marine mammal sensory research is reported for representatives of all marine mammal groups, unfortunately with the exclusion of the polar bear. The articles focus on somatosensation of the glabrous skin of cetaceans and mechanoreception, including haptics, hydrodynamics, and acoustics, to chemoreception. Articles even deal with electroreception, highlighting that the bottlenose dolphin can perceive weak electric stimuli, and vision, indicating that harbor seals are able to derive temporal information from an optical stimulus. Altogether this special issue illustrates the diversity of research in the field regarding sensory systems, species, or experimental approaches. The strength of this special issue lies in the combination of carefully conducted anatomical studies paired with observations and behavioral studies attempting to relate "form" and "function" as well as in the many impulses and future avenues mentioned by numerous contributions.

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Olfactory epithelium and ontogeny of the nasal chambers in the bowhead whale (Balaena mysticetus)

Cited by 13 publications

References 98 publications

Morphology of nares associated with stereo-olfaction in baleen whales

Morphology of nares associated with stereo-olfaction in baleen whales

Comparative embryology of Delphinapterus leucas (beluga whale), Balaena mysticetus (bowhead whale), and Stenella attenuata (pan‐tropical spotted dolphin) (Cetacea: Mammalia)

Marine mammal sensory systems: Special issue overview

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