Tooth and Long Bone Scaling in Sardinian Ochotonids (Early Pleistocene-Holocene): Evidence for Megalodontia and Its Palaeoecological Implications

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Tooth and Long Bone Scaling in Sardinian Ochotonids (Early Pleistocene-Holocene): Evidence for Megalodontia and Its Palaeoecological ImplicationsDate
2021-09-09Citation
Moncunill-Solé, B., Tuveri, C., Arca, M., Angelone, C., 2021. Tooth and long bone scaling in Sardinian ochotonids (Early Pleistocene-Holocene): Evidence for megalodontia and its palaeoecological implications. Palaeogeography, Palaeoclimatology, Palaeoecology 582, 110645. DOI: 10.1016/j.palaeo.2021.110645
Abstract
[Abstract] Body size is a useful character to unravel the biology of fossil taxa and, indirectly, the palaeoenvironment in which they lived. However, the reliability of size proxies is debated, particularly among insular endemics in which large teeth relative to body size have been observed. To shed light on this issue, here we compute statistical models to assess: (i) teeth and long bone scaling and (ii) dentition size evolutionary dynamics in the anagenetic lineage Prolagus figaro-P. sardus from the late Early Pleistocene-Holocene of Sardinia, Italy. Postcranial bones, particularly tibial epiphyses, are shown to be the most suitable parameters for prediction of body mass in Prolagus and other lagomorph taxa. By contrast, p3 should not be used for size reconstructions, whereas m1 width provided the highest correlation with long bones. On the other hand, the postcanine occlusal surface of Sardinian Prolagus (m1 and toothrow area) appeared significantly larger than those of extant lagomorphs, pointing to a higher resistance to tooth wear and a more durable permanent dentition. It seems likely that megalodontia might have evolved in Sardinian Prolagus to cope with the abrasive diet found on islands (food habit hypothesis). Nonetheless, we cannot exclude that other biological features, such as long longevity, could be co-driving forces in this fossil lineage (life history hypothesis). The results achieved throw light on size and scale evolution in lagomorphs, as well as refine the eco-evolutionary responses of small mammals to insular regimes.
Keywords
Body size
Dental abrasion
Eco-evolutionary adaptations
Life-history theory
Postcanine occlusal surface
Prolagus
Dental abrasion
Eco-evolutionary adaptations
Life-history theory
Postcanine occlusal surface
Prolagus
Description
Financiado para publicación en acceso aberto: Universidade da Coruña/CISUG
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Rights
Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)
ISSN
0031-0182