Abstract
Simple SummaryIn recent years, the numerical increase of the roe deer population in Italy has shifted attention to new tools for the management of these populations. The use of biometric data for a correct assessment of the status of ungulate populations is now a standardized and commonly used procedure. In this study, we tried to verify whether, in addition to biometric analyses, morphometrics could be used as a supplementary tool for roe deer management. The study of geometric morphometry has made a major impact by aiding technological and methodological advances. By using Cartesian coordinates of reference points, this method is capable of capturing morphologically distinct shape variables, which can be used as rapid indicators of the status of populations, and thus have the potential to be very useful for wildlife management.The analysis of body shape variability has always been a central element in biology. More recently, geometric morphometry has developed as a new field in shape analysis, with the aim to study body morphological variations and the identification of their causes. In wildlife management, geometric morphometry could be a useful tool to compare the anatomical structures of an organism and quantify its geometric information in order to relate them to environmental factors, thus identifying the causes and effects of the variation and acting management and/or conservation plans. The aim of our study is to evaluate the relationship between roe deer mandible shape and trophic resources available during autumn and winter. We applied a geometric morphometry approach consisting of a Relative Warp analysis of landmark data in 26 roe deer fawn mandibles. Each sample was assigned to an age category and to an environmental category based on the territory carrying capacity. The mandible shape of samples under 8 months of age is likely influenced by the availability of trophic resources. Our findings suggest that the mandible shape is a reliable instrument to assess resource availability. Geometric morphometry could thus represent an additional tool for roe deer management.
Highlights
IntroductionMorphological characteristics have been key for taxonomic classification and for understanding biological diversity; more recently, geometric morphometry has developed as a new field in shape analysis to study morphological variation and identify its causes, combining plentiful statistical theories [1,2,3,4]
The analysis of body shape plays a fundamental role in many biological studies
Geometric morphometry could be a useful tool to compare the anatomical structures of an organism and quantify its geometric information in order to relate them to environmental factors, identifying the likely causes and effects of the variation and acting management and/or conservation plans
Summary
Morphological characteristics have been key for taxonomic classification and for understanding biological diversity; more recently, geometric morphometry has developed as a new field in shape analysis to study morphological variation and identify its causes, combining plentiful statistical theories [1,2,3,4]. Wildlife management still relies heavily on ‘traditional’ methods and could benefit from adopting more advanced analyses. For this reason, geometric morphometry could be a useful tool to compare the anatomical structures of an organism and quantify its geometric information in order to relate them to environmental factors (e.g., trophic resources), identifying the likely causes and effects of the variation and acting management and/or conservation plans
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