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Ulna of Extant Xenarthrans: Shape, Size, and Function

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Xenarthra, one of the major clades of placentals, comprises two different lineages (sloths and anteaters, and armadillos) with extant representatives showing strongly different morphologies and life habits. Sloths are arboreal… Click to show full abstract

Xenarthra, one of the major clades of placentals, comprises two different lineages (sloths and anteaters, and armadillos) with extant representatives showing strongly different morphologies and life habits. Sloths are arboreal herbivores, anteaters are insectivores with digging/climbing abilities, and armadillos are terrestrial diggers with varied diets. The ulna is one of the forelimb elements that exhibits distinct morphological specializations for different abilities (e.g., digging and climbing). A sample of xenarthrans was analyzed in this work from a functional and ecological perspective, using 2-D geometric morphometry. The analyses performed were a Principal Components Analysis (PCA), a regression of the shape on the centroid size, and a PCA with the residuals from the regression. The first PCA shows that the morphospace is strongly influenced by differences in length of the olecranon with respect to the shaft between the three clades. Allometry was detected for the whole sample. In the residual PCA, the allometry-free morphospace allows the differentiation between the ecological categories of substrate preference: armadillos and giant anteaters (terrestrial) are located towards the negative side of PC1, while sloths and silky anteaters (arboreal) are located near the positive end, with collared anteaters (semiarboreal) placed near the center. The terrestrial taxa present a more robust diaphysis, and a comparatively long, diaphysis-aligned olecranon, while the arboreal taxa show a relatively long ulna with an anteriorly curved shaft and an anteriorly deflected carpal facet. The ulnar curvature has biomechanical implications in relation to the bone response to different loadings produced in the context of posture and locomotion in each substrate.

Keywords: extant xenarthrans; shape size; size; xenarthrans shape; ulna extant; size function

Journal Title: Journal of Mammalian Evolution
Year Published: 2020

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