1. Comparative analysis reveals the complex role of histoblast nest size in the evolution of novel insect abdominal appendages in Sepsidae (Diptera)
- Author
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Dacotah Melicher, Rudolf Meier, Kathy F.Y. Su, and Julia H. Bowsher
- Subjects
Male ,0106 biological sciences ,0301 basic medicine ,Entomology ,Sepsidae ,Histoblast ,Evolution ,media_common.quotation_subject ,Cell Count ,Insect ,Biology ,010603 evolutionary biology ,01 natural sciences ,03 medical and health sciences ,Evolutionary history ,Species Specificity ,Nest ,Abdomen ,QH359-425 ,Animals ,Body Size ,Mating ,Phylogeny ,Ecology, Evolution, Behavior and Systematics ,media_common ,Appendage ,Sex Characteristics ,Diptera ,fungi ,Novelty ,biology.organism_classification ,Biological Evolution ,Sexual dimorphism ,Imaginal disc ,030104 developmental biology ,Evolutionary biology ,Larva ,Female ,Comparative morphology ,Research Article - Abstract
Background The males of some sepsid species (Sepsidae: Diptera) have abdominal appendages that are remarkable in several ways. They are sexually dimorphic, have a complex evolutionary history of gain and loss, and can be jointed and thus highly mobile. The sternite brushes are used extensively in complex courtship behaviors that differ considerably between species and during mating. The abdominal appendages have a novel developmental pathway developing from histoblast nests rather than imaginal discs. Results We focus on the evolution of cell number, nest area, and segment length in both sexes to understand how this tissue relates to the formation of novel abdominal appendages. We map histoblast nest size of wandering-phase larvae of 17 species across 10 genera to a phylogenetic tree of Sepsidae and demonstrate that abdominal appendages require significant increases of histoblast nest size and cell number in most species while one species produces small appendages even without such modifications. In species with particularly large appendages, not only the nests on the fourth, but nests in neighboring segments are enlarged (Themira biloba, Themira putris). The loss of abdominal appendages corresponds to the loss of an enlarged fourth histoblast nest, although one species showed an exception to this pattern. One species that constitutes an independent origin of abdominal appendages (Perochaeta dikowi) uses an unusual developmental mechanism in that the histoblast nest sizes are not sexually dimorphic. Conclusions The surprisingly high diversity in histoblast size and degree of sexual dimorphism suggests that the developmental mechanism used for abdominal appendage formation in sepsids is highly adaptable. The presence of appendages usually correlate with increased histoblast cell number and in most cases appendage loss results in a return to ancestral histoblast morphology. However, we also identify several exceptions that indicate the abdominal appendages have a malleable developmental origin that is responsive to selection. Electronic supplementary material The online version of this article (10.1186/s12862-018-1265-3) contains supplementary material, which is available to authorized users.
- Published
- 2018
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