Browsing by Subject "Sexual Selection"
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Item Genomic Insights into Sexual Selection and the Evolution of Reproductive Genes in Teleost Fishes(2012-10-19) Small, ClaytonSexual selection has long been a working explanation for the elaboration of appreciable traits in plants and animals, but the idea that it is an equally potent agent of change at the level of individual molecules is relatively recent. Indications that genes associated with reproductive biology evolve especially rapidly planted this notion, but many details about the genomics of sex remain elusive. Numerous studies have characterized rapid sequence and expression divergence of sex-related molecules, but few if any have demonstrated convincingly that these patterns exist as a result of sexual selection. This dissertation describes several genome-scale studies related to reproduction and the sexes in teleost fishes, a group of animals underexploited in regard to this topic. Using commercial microarrays I measured the extent of sexually dimorphic gene expression in the zebrafish, Danio rerio. Sex-biased patterns of gene expression in this species are similar to those described in other animals. A number of genes expressed at high levels in ovaries and testes relative to the body were identified as a product of the study, and these data may be useful for future studies of reproductive genes in Danio fishes. In a second study, the recent advent of high throughput cDNA pyrosequencing was leveraged to characterize the relationships between tissue-, sex-, and species-specific expression patterns of genes and rates of sequence evolution in swordtail fishes (Xiphophorus). I discovered ample evidence for expression biases of all three types, and a generally positive but idiosyncratic relationship between the magnitude of expression bias and rates of protein-coding sequence evolution. Pyrosequencing of cDNA was also used to explore the possibility that postcopulatory sexual selection drives the rapid evolution of male pregnancy genes, a novel class of reproductive molecules unique to syngnathid fishes (seahorses and pipefishes). Genes differentially expressed in the male brooding tissues as a function of pregnancy status evolve more rapidly at the amino acid level than genes exhibiting static expression. Brooding tissue genes expressed during male pregnancy have evolved especially rapidly in polyandrous lineages, a finding that supports the hypothesized relationship between postcopulatory sexual selection and the adaptive evolution of reproductive molecules.Item Geographic and temporal variation in the genetic mating systems of pipefish(2009-06-02) Mobley, Kenyon BriceUnderstanding the processes that govern mating behaviors is a fundamental goal of evolutionary biology and behavioral ecology. Population-level patterns of mate acquisition and offspring production, otherwise known as the genetic mating system, play a central role in the sexual selection on morphological and behavioral traits and may facilitate speciation. The central hypothesis of this research is that variation in environmental conditions, such as temperature, turbidity, and habitat, and demographic influences such as population density, sex ratios and temporal availability of mates, may limit mating and reproductive success in a predictive manner. Therefore the goal of this dissertation is to examine the contributions of geographic and temporal variation on the plasticity of the genetic mating system in two species of pipefish. The first study examined whether meaningful variation in the genetic mating system exists between two natural populations of the dusky pipefish, Syngnathus floridae. Results of this investigation provide evidence that the genetic mating system differs among different geographic locations. The second study considered the relative contributions of environmental conditions and population demographics on differences in the genetic mating system of dusky pipefish from five natural populations. The results of this investigation show strong trends for demographic and environmental factors to strongly influence the genetic mating system between populations. The third study considered how variation in the number of available mates predicts the outcome of sexual selection during the course of a breeding season in the broad-nosed pipefish, Sygnathus typhle. The results of this study indicate a strong influence of the operational sex ratio on the genetic mating system. In addition to these studies, a study was conducted to investigate whether phylogeographic relationships may be responsible for geographic variation in the genetic mating system of the dusky pipefish of pipefish. Mitochondrial DNA analysis does not substantiate subspecies designations for this species and microsatellite analysis show a clear pattern of isolation by distance. Taken together, these studies significantly enhance the understanding of how mating systems are organized over broad environmental gradients and temporal/spatial scales and to the evolution of sexual selection on the whole.Item Sexual Dimorphism in the Sceloporus undulatus Species Complex(2012-10-19) Dittmer, DrewThe Fence Lizard (Sceloporus undulatus complex) is a wide ranging North American species complex occurring from the eastern seaboard westward through the great plains and central Rocky Mountains and into the American Southwest. A recent phylogeny suggests four species lineages occur within S. undulatus. Traits within an interbreeding species that are influenced by sexual selection are under different selection pressures and may evolve independently from the selective forces of habitat. Sceloporus lizards have several characters that are influenced by sexual selection. I investigated sexual size dimorphism and allometric relationships of body size (snout vent length), torso length, rear leg length and three measurements of head size in 12 populations from the four species in the S. undulatus complex (N=352) specifically looking for variation among the 4 species. Additionally I investigated the size of signal patches between males and females in three species (N=339 specimens of S. consobrinus, S. cowlesi, S. tristichus) of the S. undulatus complex. Sexual confusion, was recently described in a population of the Sceloporus undulatus complex occurring in White Sands, New Mexico and the behavior is correlated with variation in badge size between male and female lizards. To make inferences about sexual confusion at the species level I investigated the presence and absence of signal patches in female lizards, and compare the sizes of signal patches between males and females. My analyses suggest that torso length and head size are significant sources of sexual size dimorphism but the findings differ from earlier published investigations of sexually dimorphic characters in the species complex. I also find support for the S. undulatus complex being generally a female larger species complex. However two of the 12 populations I investigated displayed male biased sexual size dimorphism. Analysis of signal patches across three species of the S. undulatus complex suggests that sexual dimorphism in signal patch size for S. cowlesi and S. tristichus may not prevent sexual confusion. While the near total absence of signal patches in female S. consobrinus is evidence that sexual confusion is not possible with regards to signal patches.