Role of ecology in shaping external nasal morphology in bats and implications for olfactory tracking

Brokaw, Alyson F.; Smotherman, Michael

doi:10.1371/journal.pone.0226689

Cited by 17 publications

(30 citation statements)

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“…diet and FG) and phylogeny, indicating that humeral morphological disparity has both an ecological and evolutionary signal. The magnitude of the effect of diet and FG in humeral shape mirrors patterns of cranial morphological disparity in bats, providing evidence for a correspondence between cranial and postcranial morphological disparity (Arbour et al, 2019;Brokaw & Smotherman, 2020;Hedrick et al, 2019;Leiser-Miller & Santana, 2020;Monteiro & Nogueira, 2011). Our results reveal differences between epiphyseal and diaphyseal shape in their relationship to ecology and phylogeny.…”

Section: Discussionsupporting

confidence: 57%

“…Both diet and echolocation have linked cranial phenotypic diversification and evolutionary adaptive radiations in bats (Arbour et al, 2019;Hedrick et al, 2019;Rossoni et al, 2017;Rossoni et al, 2019;Santana & Cheung, 2016;Santana et al, 2012), shedding light on the macroevolutionary trajectories that shaped modern bat diversity (Dumont et al, 2012;. Tooth row complexity, cranial shape and size, nose-leaf morphology and biomechanical performance have all been linked to the colonisation of dietary and echolocating niches during major diversification events (Arbour et al, 2019;Brokaw & Smotherman, 2020;Monteiro & Nogueira, 2011;Rossoni et al, 2019;Santana et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Phylogeny and foraging behaviour shape modular morphological variation in bat humeri

et al. 2020

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Bats show a remarkable ecological diversity that is reflected both in dietary and foraging guilds (FGs). Cranial ecomorphological adaptations linked to diet have been widely studied in bats, using a variety of anatomical, computational and mathematical approaches. However, foraging-related ecomorphological adaptations and the concordance between cranial and postcranial morphological adaptations remain unexamined in bats and limited to the interpretation of traditional aerodynamic properties of the wing (e.g. wing loading [WL] and aspect ratio [AR]). For this reason, the postcranial ecomorphological diversity in bats and its drivers remain understudied. Using 3D virtual modelling and geometric morphometrics (GMM), we explored the phylogenetic,

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Section: Discussionsupporting

confidence: 57%

Section: Introductionmentioning

confidence: 99%

Phylogeny and foraging behaviour shape modular morphological variation in bat humeri

et al. 2020

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“…Functional demands associated with the biomechanical processing of food has been linked to morphological adaptations of the feeding apparatus and sensory organs in bats (Arbour et al 2019, Brokaw and Smotherman 2020, Jacobs et al 2014, Leiser-Miller and Santana 2020, Nogueira et al 2009, Rossoni et al 2019, Santana et al 2010).…”

Section: Dta and Dietary Specialisations In Batsmentioning

confidence: 99%

“…Traditionally, most studies on dietary ecomorphology in bats have focused on skull morphology to study the form-function link, providing crucial information to understand the range of morphological specialisations (Aguirre et al 2002, Arbour et al 2019, Monteiro and Nogueira 2011, Rossoni et al 2019, Santana and Cheung 2016, Santana and Portugal 2016. Some studies have also provided insights on the role of diet in the diversification of the postcranial skeleton (Gaudioso et al 2020, Louzada et al 2019, Norberg and Rayner 1987, Vaughan 1959) and external sensory organs (Brokaw andSmotherman 2020, Leiser-Miller andSantana 2020).…”

Section: Introductionmentioning

confidence: 99%

Dietary and body mass reconstruction of the Miocene neotropical batNotonycteris magdalenensis(Phyllostomidae) from La Venta, Colombia

López‐Aguirre

Czaplewski

Link

et al. 2020

Preprint

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The middle Miocene La Venta bat fauna is the most diverse bat palaeocommunity in South America, with at least 14 species recorded. They include the oldest plant-visiting bat in the New World, and some of the earliest representatives of the extant families Phyllostomidae, Thyropteridae and Noctilionidae. La Venta’s Notonycteris magdalenensis is an extinct member of the subfamily Phyllostominae, a group of modern Neotropical animalivorous and omnivorous bats, and is commonly included in studies of the evolution of Neotropical bats, but aspects of its biology remain unclear. In this study, we used a multivariate dental topography analysis (DTA) to reconstruct the likely diet of N. magdalenensis by quantitatively comparing measures of molar complexity with that of 25 modern phyllostomid and noctilionid species representing all major dietary habits in bats. We found clear differences in molar complexity between dietary guilds, indicating that DTA is potentially an informative tool to study bat ecomorphology. Our results suggest N. magdalenensis was probably an omnivore or insectivore, rather than a carnivore like its modern relatives Chrotopterus auritus and Vampryum spectrum. Also, we reconstructed the body mass of N. magdalenensis to be ∼50 g, which is larger than most insectivorous bats, but smaller than most carnivorous bats. Our results confirm that Notonycteris magdalenensis was probably not a specialised carnivore. It remains to be demonstrated that the specialised carnivory ecological niche was occupied by the same lineage of phyllostomines from at least the middle Miocene. Combining our diet and body mass reconstructions, we suggest that N. magdalenensis exhibits morphological pre-adaptations crucial for the evolution of specialised carnivory.

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“…Closer to the source, where the odor gradient becomes steeper, animals can also exploit the simultaneous comparisons of odor intensity ( Catania, 2013 ; Takasaki et al, 2012 ) or arrival timing ( Gardiner and Atema, 2010 ) between two or more spatially segregated receptors (tropotaxis). Morphological comparisons of nostril widths in bats suggest that the nasal emission echolocation pulses may impose an important constraint on leaf-nosed bats' abilities to exploit tropotactic mechanisms ( Brokaw and Smotherman, 2020 ), leading us to hypothesize that they may rely more heavily on different behavioral strategies to track odors.…”

Section: Introductionmentioning

confidence: 99%

Olfactory tracking strategies in a neotropical fruit bat

Brokaw

Smotherman

2021

Journal of Experimental Biology

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Many studies have characterized olfactory-tracking behaviors in animals, and it has been proposed that search strategies may be generalizable across a wide range of species. Olfaction is important for fruit and nectar feeding bats, but it is uncertain if existing olfactory search models can predict the strategies of flying mammals that emit echolocation pulses through their nose. Quantitative assessments of how well echolocating bats track and localize odor sources are lacking, so we developed a behavioral assay to characterize the olfactory detection and tracking behavior of crawling northern yellow-shouldered bats (Sturnira parvidens), a common Neotropical frugivore. Trained bats were presented with a choice between control and banana odor-infused solutions in a series of experiments that confirmed bats are able to locate a reward based on odor cues alone and examined the effect of odor concentration on olfactory search behaviors. Decision distance (the distance from which bats made their change in direction before directly approaching the target) was distinctly bimodal, with an observed peak that coincided with an inflection point in the odor concentration gradient. We observed two main search patterns which are consistent with both serial sampling and learned route-following strategies. These results support the hypothesis that bats can combine klinotaxis with spatial awareness of experimental conditions to locate odor sources, similar to terrestrial mammals. Contrary to existing models, bats did not display prominent head scanning behaviors during their final approach, which may reflect a constraint arising from fixation of the sonar beam on target for echolocation.

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Role of ecology in shaping external nasal morphology in bats and implications for olfactory tracking

Cited by 17 publications

References 87 publications

Phylogeny and foraging behaviour shape modular morphological variation in bat humeri

Phylogeny and foraging behaviour shape modular morphological variation in bat humeri

Dietary and body mass reconstruction of the Miocene neotropical batNotonycteris magdalenensis(Phyllostomidae) from La Venta, Colombia

Olfactory tracking strategies in a neotropical fruit bat

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