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Abstract
The phenotype of organisms is the net result of various evolutionary forces acting upon their lineages over time. When an innovative trait arises that confers a substantial advantage in terms of survival and reproduction, the evolution of adaptive complexes between such an innovation and other traits may constrain diversification of that lineage. The specialized echolocation system of the Rhinolophidae may represent such an innovation which affects other parts of the phenotype. We investigated a potential constraint on the diversity of phenotypes of several species of horseshoe bats within a phylogenetic framework. If phenotypic convergence stems from stasis as a result of the specialized echolocation system, phenotypes should converge not only among members of the same species and between sexes but also among species. We analyzed the phenotypic diversity of >800 individuals of 13–16 species. The phenotypes in the horseshoe bats did indeed converge. There was no sexual size dimorphism in mass, forearm length and wingspan within species and there was marked interspecific similarity in both wing and echolocation variables but marked variability in body mass. Furthermore, correlations of wing and echolocation variables with mass suggest that variability within horseshoe bats was largely the result of selection on body size with allometric responses in wing and echolocation parameters, a potential consequence of constraints imposed by their specialized echolocation.
Highlights
One of the major questions in biology is why do some clades consist of a single species and others of hundreds of species [1]
We investigated the within species phenotypic variation between males and females which, again, may show convergence if high-duty-cycle echolocation (HDC) echolocation constrains the diversification of associated traits
The tailored phylogeny is based on a supertree constructed from phylogenies of each of the three overlap between the marker sets. was Thechosen phylogenetic reconstruction of the mitochondrial marker markers
Summary
One of the major questions in biology is why do some clades consist of a single species and others of hundreds of species [1]. Certain general traits (e.g., having a skeleton or living in a terrestrial habitat) have been identified as predisposing certain phyla to diversify into many different species [1]. Less is known about the causes of diversity within families or genera where all lineages are likely to share traits that favour or retard diversification. The bat family Rhinolophidae is a monogeneric (Rhinolophus) family of about 78 species compared to the family Vespertilionidae which includes several genera and more than 300 species [4]. One of these genera, the genus Myotis, has about
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