Abstract
Ground beetles in multiple species vary greatly in the expression of the shape on sexual traits, resulting in a sexual shape dimorphism as a consequence of sexual selection differences. The present research focuses on the study of inter and intrasexual sexual shape dimorphism of two generalist genera of ground beetles Pterostichus and Carabus. Geometric morphometric methods were applied to five generalist species of ground beetles Carabus exaratus, C. granulatus, Pterostichus melanarius, P. niger, and P. oblongopunctatus and several multivariate analyses were applied for two different traits, abdomen and elytra. Three of the five species analyzed showed high levels of sex-based shape dimorphism. However, the most generalist species, P. melanarius and P. oblongopunctatus, did not evidence shape-based sexual dimorphism differentiation in both of the analyzed traits, as statistically confirmed based on the permutation of pairwise comparison of the Mahalanobis distances of a sex–species classifier. It is generally known that environmental stress in natural populations can affect the fitness expression, principally related to sexual fecundity, being that this pattern is more evident in non-generalist species. In our results, the contrary pattern was found, with the absence of sexual shape dimorphism for two of the three generalist species analyzed. On the other hand, the interspecies shape variation was clearly identified using principal component analysis of both of the analyzed traits. Finally, this research is the first to analyze the relationship between sexual shape dimorphism in Russian ground beetles, evidencing the lack of understanding of the mechanism underlying the sexual dimorphism, especially in species living in extreme environments.
Highlights
The direction and degree of sexual differences in body shape vary greatly among animal taxa.This phenomenon has launched a large number of studies devoted to explaining the evolutionary mechanisms underlying among-species patterns of sexual dimorphism
Adult ground beetles were collected from different areas in Russia; the specimens collected belong to five species of two different genera [Carabus Linnaeus, 1758 and Pterostichus Bonelli, 1810 (Coleoptera, Carabidae)], C. exaratus Quensel, 1806, C. granulatus Linnaeus, 1758, P. melanarius (Illiger, 1798), P. niger (Schaller, 1783) and P. oblongopunctatus (Fabricius, 1787)
The results showed that P. melanarius and P. oblongopunctatus were the only species where points became mixed between one another for dimensions one and two of the shape space (Figures 5E,F,I,J)
Summary
The direction and degree of sexual differences in body shape vary greatly among animal taxa.This phenomenon has launched a large number of studies devoted to explaining the evolutionary mechanisms underlying among-species patterns of sexual dimorphism. Insects 2020, 11, 361 intraspecific competition, and reproductive output [1,2,3,4,5] These functions are in turn selected upon by natural and sexual selection; studying the size and shape differences among and between species and individuals of a species can reveal important information about evolutionary pressures acting on that species [6]. Sexual size dimorphism (SSD) is defined as the significant differentiation between size traits, the body size of a species, between males and females [7]. This phenomenon is mostly related to sex differences and their relationship between body size and fitness (fecundity and mating success). Mating success regarding sexual dimorphism has been shown to be under selection in numerous comparative studies [8,9,10,11,12]
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