Taxonomic identification using geometric morphometric approach and limited data: an example using the upper molars of two sympatric species of Calomys (Cricetidae: Rodentia)

Natália Lima Boroni,Gisele Lessa,Pedro Seyferth R Romano,Leonardo Souza Lobo

doi:10.3897/zoologia.34.e19864

Natália Lima Boroni, Gisele Lessa + Show 2 more

Open Access

https://doi.org/10.3897/zoologia.34.e19864

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Journal: Zoologia (Curitiba)	Publication Date: Aug 22, 2017
Citations: 10	License type: CC BY 4.0

Affiliation: Universidade Federal de Minas Gerais

Abstract

The taxonomic identification of micromammals might be complicated when the study material is fragmented, as it is the case with pellets and fossil material. On the other hand, tooth morphology generally provides accurate information for species identification. Teeth preserve notably well, retaining their original morphology, unlike skulls and mandibles, which can get crushed or have missing parts. Here, we explored a geometric morphometrics approach (GM) to identify fragmented specimens of two sympatric Calomys Waterhouse, 1837 species – Calomys tener (Winge, 1888) and Calomys expulsus (Lund, 1841) – using the morphology of intact molars as the basis for identification. Furthermore, we included some specimens of uncertain taxonomic identification to test their affinities and the utility of the shape of the molar to identify incomplete specimens. We evaluated the variations in the shape of the first upper molar (M1) among 46 owl pellets specimens of Calomys, including C. expulsus (n = 15), C. tener (n = 15), and unidentified specimens treated as Calomys sp. (n = 16) through GM analysis using 17 landmarks. The data was explored using PCA, PERMANOVA, and Discriminant analyses over the Procrustes residuals matrix were applied to evaluate inter- and intraspecific shape differences. Also, we evaluated whether allometric shape differences could impact the data, but found no evidence of a correlation between size and shape. Our results support that shape differences in the M1 are effective for discriminating between C. tener and C. expulsus. Moreover, the unidentified specimens do not represent a third shape but could be identified with confidence either as C. tener or C. expulsus. Our results show that even with fragmentary materials, GM is a feasible and useful tool for exploring inter-specific shape differences and assisting in taxonomic identification as a complement to traditional qualitative description of diagnostic features in poorly preserved specimens.

Highlights

The complex morphology of the molars is a source of information for the study of cricetid rodent taxonomy, as these structures provide diagnostic characteristics for subfamilies (Reig 1977)
Calomys tener and C. expulsus are grouped into different clades (Almeida et al 2007), neither species has discrete craniodental characters for species diagnosis (Hershkovitz 1962, Cordeiro-Estrela et al 2006), and commonly used morphometric measures overlapped
The main criterion for distinguishing C. tener from C. expulsus by traditional morphometrics is the size of the body (Bonvicino and Almeida 2000)

Summary

Introduction

The complex morphology of the molars (with the cones, flexes, and lophs) is a source of information for the study of cricetid rodent taxonomy, as these structures provide diagnostic characteristics for subfamilies (Reig 1977). Enamel hardness protects the molars so they often are the only intact structure of a fragmented skull and form the only known elements of several extinct taxa in the fossil record (Reig 1977). Among the genera with complicated taxonomy and great morphological similarity between some species is Calomys Waterhouse, 1837 (Almeida et al 2007). They are small cricetid rodents distributed mainly in areas of dry vegetation, with wide distribution in South America (Bonvicino et al 2010). The Brazilian species can be separated into two major groups, based

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