Femoral morphology of sciuromorph rodents in light of scaling and locomotor ecology

Wölfer, Jan; Amson, Eli; Arnold, Patrick; Botton‐Divet, Léo; Fabre, Anne‐Claire; Heteren, Anneke H. van; Nyakatura, John A.

doi:10.1111/joa.12980

Cited by 23 publications

(65 citation statements)

References 89 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This might indicate that forces acting in any direction increase disproportionately with increasing body mass, necessitating adjustments in the femoral CSP. Furthermore, as Wölfer et al () found isometric scaling for the size of the femoral head in Sciuromorpha, we assume that apposition of compact bone within but not outside of the femoral head is playing a major role in increasing robustness in this region. Concordantly, Mielke et al () discovered positive allometry in the proportion of trabecular volume of overall bone volume in the femoral head in Sciuromorpha.…”

Section: Discussionmentioning

confidence: 68%

“…It should be noted that at approximately 20% femoral length, cross‐sections already represent the diaphysis instead of these two trochanters in some larger aerial species as the one displayed in Figure . This can be explained by the femoral length scaling with 0.39 in relation to body mass in the aerial group, whereas the distances of the third and lesser trochanters from the center of the femoral head (i.e., the in‐levers of the attaching muscles) only scale with 0.35 and 0.36, respectively (Wölfer et al, ). In comparison, all three variables scale with 0.36 in the arboreal group, whereas the lesser trochanter is located even more distal along the midshaft in the fossorial group (its distance scales with 0.36, the femoral length and the distance of the third trochanter with 0.29 and 0.30, respectively; Wölfer et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…Figure depicts the phylogenetic tree used in this study. According to Wölfer et al (), the fossorial lifestyle has evolved three times independently and the most recent common ancestor most likely had an arboreal lifestyle. The clade of all aerial species (Pteromyini) is monophyletic and descended from an arboreal ancestor (Rocha, Leite, Costa, & Rojas, ; Steppan, Storz, & Hoffmann, ).…”

Section: Methodsmentioning

confidence: 99%

“…Afterward, it was tested whether the residuals contain a phylogenetic signal. We took the fully dichotomous molecular phylogenetic tree displayed in figure S2 from Wölfer et al () that is based on the phylogeny provided by Zelditch et al () and complemented with species from the TimeTree database (Kumar et al, ; see supplementary material in Wölfer et al, for more details). This tree was pruned so that it only contained the species of our data set.…”

Section: Methodsmentioning

confidence: 99%

“…In these differing ecological niches, several preferentially exhibited locomotor behaviors have evolved (termed “lifestyles” in this study). Following the argumentation of Wölfer et al (), we categorized the lifestyles of sciuromorph taxa as arboreal, fossorial, or aerial (i.e., gliding; see Section 2). Table provides a summary of the species and corresponding lifestyle categories used in this study.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

The evolution of femoral cross‐sectional properties in sciuromorph rodents: Influence of body mass and locomotor ecology

Scheidt

Wölfer

Nyakatura

2019

Journal of Morphology

Self Cite

View full text Add to dashboard Cite

In several groups of mammals, adaptation to differing functional demands is reflected in long bone cross‐sectional properties (CSP), which relate to the resistance to compression and to bending loads in the craniocaudal and mediolateral directions. Members of the Sciuromorpha (“squirrel‐like” rodents) display a diversity of locomotor ecologies and span three orders of magnitude in terms of body size. The availability of robust phylogenies is rendering them a suitable group to further substantiate the relationship of long bone CSP with locomotor ecology and body mass while taking the phylogenetic non‐independence among species into account. Here, we studied 69 species of Sciuromorpha belonging to three lifestyle categories, “arboreal,” “fossorial,” and “aerial” (i.e., gliding). We hypothesized locomotor category specific loading regimes that act on femora during predominant or, in terms of gliding, critical locomotor behaviors of each category. High resolution computed tomography scans of the specimens' femora were obtained and cross‐sections in 5% increments were analyzed. Cross‐sectional area, the craniocaudal second moment of area (SMAcc), and the mediolateral second moment of area were quantified. Further, a scaling analysis was conducted for each bone cross‐section to examine how the CSP scale with body mass. Body mass accounted for variances in CSP with mainly positive allometry. The aerial sciuromorphs showed lower values of CSP compared to the arboreal and fossorial species in the distal epiphysis for all quantified parameters and along the bone for SMAcc. In contrast to previous studies on other mammalian lineages, no differences in CSP were found between the fossorial and the arboreal lifestyles.

show abstract

Section: Discussionmentioning

confidence: 68%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The evolution of femoral cross‐sectional properties in sciuromorph rodents: Influence of body mass and locomotor ecology

Scheidt

Wölfer

Nyakatura

2019

Journal of Morphology

Self Cite

View full text Add to dashboard Cite

show abstract

The role of desmosomes in the ear plug formation in the bowhead whale (Balaena mysticetus)

Rehorek

Stimmelmayr

George

et al. 2019

The Anatomical Record

View full text Add to dashboard Cite

The external acoustic meatus (EAM) of most baleen whales accumulates cellular debris annually in the lumen as whales age, forming a lamellated ear plug. The bowhead whale ear plug is formed from annually molting lining of the EAM as the entire epithelium releases at the level of the stratum basale during the spring migration. Epithelial regeneration is mostly completed by the fall migration, remaining intact for 6-7 months before being torn off the following spring. Desmosomes are integral to cell-cell adhesion with connecting desmosomal cadherins desmoglein (dsg) and desmocollin (dsc). Paraffin sections of the oral cavity and EAM lining of spring and fall adult bowhead whales, as well as the EAM of spring-caught juvenile, were immunohistochemically examined for the presence of these cadherins. In all fall specimens, both cadherins occurred in all layers except the superficial keratinous layer of the oral cavity. In spring, three different conditions existed: (a) oral cavity of spring-caught adults had reduced cadherins, with superficial fissuring in its keratinized layer and vacuolation in the upper stratum spinosum; (b) EAM of juvenile spring-caught whales displayed fissuring with accompanying reduction of both cadherins in its superficial lining; and (c) EAM lining of springcaught adults displayed deep fissures, reduced cadherins, and absence of dsc1 in the fissuring zone. These results suggest that shedding of skin layers in mammals, whether normal molting, pathological, or the result of injury and wound repair all revolve around desmosome function. The specific role, structure, and location of these two cadherins need to be further addressed.

show abstract

Scaling patterns of cerebellar petrosal lobules in Euarchontoglires: Impacts of ecology and phylogeny

Lang

Bertrand

Flores

et al. 2022

The Anatomical Record

View full text Add to dashboard Cite

The petrosal lobules (in whole or part homologous with the paraflocculi) of the cerebellum regulate functions associated with vision including smooth pursuit and velocity control of eye movements, suggesting a possible relationship between the petrosal lobules and behavioral adaptation. Previous studies have produced diverging conclusions regarding the lobules' ecological signal. The current study examines lobule scaling within an ecologically diverse but phylogenetically constrained sample of extant mammals to determine whether ecology influences relative petrosal lobule size. Using the endocasts of 140 Euarchontoglires (Primates,

show abstract

Femoral morphology of sciuromorph rodents in light of scaling and locomotor ecology

Cited by 23 publications

References 89 publications

The evolution of femoral cross‐sectional properties in sciuromorph rodents: Influence of body mass and locomotor ecology

The evolution of femoral cross‐sectional properties in sciuromorph rodents: Influence of body mass and locomotor ecology

The role of desmosomes in the ear plug formation in the bowhead whale (Balaena mysticetus)

Scaling patterns of cerebellar petrosal lobules in Euarchontoglires: Impacts of ecology and phylogeny

Contact Info

Product

Resources

About