The independent evolution of the sexes may often be constrained if male and female homologous traits share a similar genetic architecture. Thus, cross-sex genetic covariance is assumed to play a key role in the evolution of sexual dimorphism (SD) with consequent impacts on sexual selection, population dynamics and the speciation process. I used quantitative genetics tools to assess the importance of sex-specific genetic variance in facilitating the evolution of body mass and horn size SD in wild bighorn sheep from Ram Mountain, Alberta. I also developed a bighorn sheep genetic linkage map composed of 247 microsatellite markers to gain insights about the genetic architecture of trait variation. Finally, I conducted systematic reviews and meta-analyses of published cross-sex genetic correlations (rMF, a standardized estimate of cross-sex genetic covariance) to test basic hypotheses about the importance of sex-specific genetic variance in the evolution of SD and mechanisms responsible for generating such variance. My results demonstrated that sex-specific genetic variance was present in bighorn sheep and that it likely played an important role in alleviating intralocus sexual conflicts. The quantitative trait locus (QTL) mapping analysis resulted in the identification of numerous loci influencing body mass and horn dimensions, some of which had apparent sex-specific effects. An analysis of 553 rMF estimates recovered from 114 published sources allowed demonstrating that 1) the evolution of SD was generally constrained by positive cross-sex genetic covariance, 2) levels of SD were often sub-optimal, and 3) sex-specific genetic variance was an important mechanism allowing the evolution of SD. In addition, I confirmed the long-standing hypothesis of a general decline in rMF with age. Sexual dimorphism is an important evolutionary phenomenon, but our understanding of its evolution is still limited. After decades of speculation, my research has provided clear empirical evidence for the importance of sex-specific genetic variance in allowing its evolution. / Ecology
| Identifer | oai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:AEU.10048/1773 |
| Date | 06 1900 |
| Creators | Poissant, Jocelyn |
| Contributors | Coltman, David (Biological Sciences), Good, Allen (Biological Sciences), Cahill, James (Biological Sciences), Moore, Stephen (Agricultural, Food and Nutritional Science), Moore, Allen (BioSciences) |
| Source Sets | Library and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada |
| Language | English |
| Detected Language | English |
| Type | Thesis |
| Format | 1966910 bytes, application/pdf |
| Relation | Poissant J, Wilson AJ, Festa-Bianchet M, Hogg JT, Coltman DW (2008) Proceedings of the Royal Society B 275, 623-628., Poissant J, Wilson AJ, Coltman DW (2010) Evolution 64, 97-107., Poissant J, Coltman DW (2009) Journal of Evolutionary Biology 22, 2558-2562., Poissant J, Shafer ABA, Davis CS, Mainguy J, Hogg JT, Cot SD, Coltman DW (2009) Molecular Ecology Resources 9, 1121-1126., Poissant J, Hogg JT, Davis CS, Miller JM, Maddox JF, Coltman DW (2010) BMC Genomics 11, 524. |
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