Abstract
In contrast to male genitalia that typically exhibit patterns of rapid and divergent evolution among internally fertilizing animals, female genitalia have been less well studied and are generally thought to evolve slowly among closely-related species. As a result, few cases of male-female genital coevolution have been documented. In Drosophila, female copulatory structures have been claimed to be mostly invariant compared to male structures. Here, we re-examined male and female genitalia in the nine species of the D. melanogaster subgroup. We describe several new species-specific female genital structures that appear to coevolve with male genital structures, and provide evidence that the coevolving structures contact each other during copulation. Several female structures might be defensive shields against apparently harmful male structures, such as cercal teeth, phallic hooks and spines. Evidence for male-female morphological coevolution in Drosophila has previously been shown at the post-copulatory level (e.g., sperm length and sperm storage organ size), and our results provide support for male-female coevolution at the copulatory level.
Highlights
In most animal species with internal fertilization, male external genitalia are the most rapidly evolving organs and they usually are the first organs to diverge morphologically following speciation [1]
We provide below a detailed account of these female structures
Species-specific Evolution of Female Genitalia In contrast to previous reports [21,22], our detailed investigation of female external genitalia in the Drosophila melanogaster species subgroup shows them to be both species-specific and coevolving with the male structures that they contact during copulation
Summary
In most animal species with internal fertilization, male external genitalia are the most rapidly evolving organs and they usually are the first organs to diverge morphologically following speciation [1]. Because of their rapid evolution and species-specificity, their illustration is a common feature of taxonomic literature to discriminate closely-related species. The cryptic female choice (CFC) hypothesis postulates that male genitalia evolution is driven by the ‘aesthetic’ sense of females [1]. Morphological traits under SAC include male genitalia that cause damage to the female, in order to directly or indirectly maximize the use of the male’s own sperm, in particular by preventing females from remating [3,4,5]
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