The frugivorous insectivores? Functional morphological analysis of molar topography for inferring diet in extant treeshrews (Scandentia)

dc.contributor.author

Selig, KR

dc.contributor.author

Sargis, EJ

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Silcox, MT

dc.contributor.editor

Scheibe, John

dc.date.accessioned

2022-09-21T00:36:18Z

dc.date.available

2022-09-21T00:36:18Z

dc.date.issued

2019

dc.date.updated

2022-09-21T00:35:58Z

dc.description.abstract

<jats:title>Abstract</jats:title><jats:p>The ecology, and particularly the diet, of treeshrews (order Scandentia) is poorly understood compared to that of their close relatives, the primates. This stems partially from treeshrews having fast food transit times through the gut, meaning fecal and stomach samples only represent a small portion of the foodstuffs consumed in a given day. Moreover, treeshrews are difficult to observe in the wild, leading to a lack of observational data in the literature. Although treeshrews are mixed feeders, consuming both insects and fruit, it is currently unknown how the relative importance of these food types varies across Scandentia. Previous study of functional dental morphology has provided an alternative means for understanding the diet of living euarchontans. We used dental topographic metrics to quantify aspects of functional dental morphology in a large sample of treeshrews (n = 58). We measured relief index, Dirichlet normal energy, and three-dimensional orientation patch count rotated, which quantify crown relief, occlusal curvature, and complexity, respectively. Our results suggest that treeshrews exhibit dental morphology consistent with high levels of insectivory relative to other euarchontans. They also suggest that taxa such as Dendrogale melanura and Tupaia belangeri appear to be best suited to insectivory, whereas taxa such as T. palawanensis and T. gracilis appear to be best adapted to frugivory. Our results suggest that Ptilocercus lowii is characterized by a dentition better adapted to insectivory than the early primate Purgatorius. If P. lowii represents a good modern analogue for primitive euarchontans, this contrast would support models of primate origins that include a shift to greater frugivory.</jats:p>

dc.identifier.issn

0022-2372

dc.identifier.issn

1545-1542

dc.identifier.uri

https://hdl.handle.net/10161/25735

dc.language

en

dc.publisher

Oxford University Press (OUP)

dc.relation.ispartof

Journal of Mammalogy

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10.1093/jmammal/gyz151

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Dirichlet normal energy (DNE)

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Euarchonta

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Ptilocercidae

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relief index (RFI)

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three-dimensional orientation patch count rotated (3D-OPCR)

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Tupaiidae

dc.title

The frugivorous insectivores? Functional morphological analysis of molar topography for inferring diet in extant treeshrews (Scandentia)

dc.type

Journal article

duke.contributor.orcid

Selig, KR|0000-0001-5850-4779

pubs.begin-page

1901

pubs.end-page

1917

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6

pubs.organisational-group

Duke

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Trinity College of Arts & Sciences

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Evolutionary Anthropology

pubs.publication-status

Published online

pubs.volume

100

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