Ecomorphological analysis of the astragalo-calcaneal complex in rodents and inferences of locomotor behaviours in extinct rodent species

Samuel Ginot,Lionel Hautier,Monique Vianey-Liaud,Laurent Marivaux

doi:10.7717/peerj.2393

Samuel Ginot, Lionel Hautier + Show 2 more

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https://doi.org/10.7717/peerj.2393

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Abstract

Studies linking postcranial morphology with locomotion in mammals are common. However, such studies are mostly restricted to caviomorphs in rodents. We present here data from various families, belonging to the three main groups of rodents (Sciuroidea, Myodonta, and Ctenohystrica). The aim of this study is to define morphological indicators for the astragalus and calcaneus, which allow for inferences to be made about the locomotor behaviours in rodents. Several specimens were dissected and described to bridge the myology of the leg with the morphology of the bones of interest. Osteological characters were described, compared, mechanically interpreted, and correlated with a “functional sequence” comprising six categories linked to the lifestyle and locomotion (jumping, cursorial, generalist, fossorial, climber and semi-aquatic). Some character states are typical of some of these categories, especially arboreal climbers, fossorial and “cursorial-jumping” taxa. Such reliable characters might be used to infer locomotor behaviours in extinct species. Linear discriminant analyses (LDAs) were used on a wider sample of species and show that astragalar and calcaneal characters can be used to discriminate the categories among extant species whereas a posteriori inferences on extinct species should be examined with caution.

Highlights

Rodents (Rodentia, Mammalia) are by far the most diverse and speciose mammalian order (e.g., Wilson & Reeder, 2005)
The head of the astragalus is rather wide and round, but the astragalo-navicular facet is saddle-shaped in both S. vulgaris and P. volans
Rodents are generally very versatile in this regard, we showed that the bones of the ankle are good indicators of their main locomotor mode, in specialized taxa

Summary

Introduction

Rodents (Rodentia, Mammalia) are by far the most diverse and speciose mammalian order (e.g., Wilson & Reeder , 2005). Aside from this specific diversity, rodents occupy a wide array of ecological niches, from aquatic environments to desert areas, and this is notably reflected in the diversity of their locomotor and positional behaviours, which are associated with various types of locomotory apparatus. Despite their geographical and taxonomic distance, some rodent communities converge in morphology and types of locomotion. One striking example is that of desert rodents, which display the same types of morphological adaptations on different continents, due to adaptive convergence linked to similar ecological and environmental constraints (Eisenberg, 1975)

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