Adaptation to a geothermal soil mosaic shapes genome-wide pattern
➤ Gửi thông báo lỗi ⚠️ Báo cáo tài liệu vi phạmNội dung chi tiết: Adaptation to a geothermal soil mosaic shapes genome-wide pattern
Adaptation to a geothermal soil mosaic shapes genome-wide pattern
University of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201 Adaptation to a geothermal soil mosaic shapes genome-wide pattern19Adaptation to a geothermal soil mosaic shapes genome-wide patterns of diversity and differentiation in Yellowstone monkeyflowers (M. guttatus)Kory M. Koi is L'ltrwwffy af MontanaLet us know how access to this document benefits you.Follow this and additional works at: https://scholarworks.umt.edu/e Adaptation to a geothermal soil mosaic shapes genome-wide patterntdỦT Part of the Ecology and Evolutionary Biology CommonsRecommended CitationKdis, Kory M., 'Adaptation to a geothermal soil mosaic shapes genome-wideAdaptation to a geothermal soil mosaic shapes genome-wide pattern
patterns of diversit)- and differentiation in Yellowstone monkeyflowers (M. guttatus)’ (2019). Gntdruite Student Ihciif, DnartaMni, & Prafiiiwnal PapUniversity of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201 Adaptation to a geothermal soil mosaic shapes genome-wide patternlverslty of Montana. It has been accepted foe inclusion in Graduate Student theses Dissertations, íi Professional Papers by an authorized administrator ofScbolarUbrks at University of Montana.For more information, please contact scholarworksiSWMXumt.edu.ADAPTATION TO A GEOTHERMAL SOIL MOSAIC SHAPES Adaptation to a geothermal soil mosaic shapes genome-wide patternGENOME-WIDE DIVERSITY AND DIFFERENTIATION IN YELLOWSTONE MONKEYFLOWERS (MIMULUS GUTTATUS)ByKORY MICHAEL KOLISBA Gustavus Adolphus College, St Peter MNAdaptation to a geothermal soil mosaic shapes genome-wide pattern
. 2015Thesispresented in partial fulfillment of the requirements for the degree ofMaster of Science in Organismal Biology, Ecology and EvolutionThe UnUniversity of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201 Adaptation to a geothermal soil mosaic shapes genome-wide patterniron Division of Biological SciencesScott Miller Division of Biological SciencesKolis. Kory. M.S.. Spring 2019 Organismal Biology. Ecology, and Evolution Adaptation to a geothermal soil mosaic shapes genome-wide patterns of diversity and differentiation in Y ellowslonc monkey flow crs (A£ guttaltts) Adaptation to a geothermal soil mosaic shapes genome-wide patternChairperson or Co-Chairperson: Lila 1 islunan AbstractLocal adaptation across habitat mosaics can generate phenotypic div crgcncc in the lace of geneAdaptation to a geothermal soil mosaic shapes genome-wide pattern
flow; however, adaptive divergence in reproductive traits may also create barriers to genetic exchange within and among distinct habitats. In plants, University of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201 Adaptation to a geothermal soil mosaic shapes genome-wide pattern are likely to directly affect patterns of gene flow and genomic diversity. In tins study we combined field, common garden, and population genomic approaches to investigate phenotypic and genetic variation in ỵiimtthts giưraỉns (yellow monkeyflowers) adapted to a complex geothermal soil mosaic in Ye Adaptation to a geothermal soil mosaic shapes genome-wide patternllowstone National Park (YNP). A previously-identified major locus under lying life-history divergence (out6) strongly sorts by habitat (thermal annuaAdaptation to a geothermal soil mosaic shapes genome-wide pattern
l habitats [AH] vs. lion-thermal perennial habitats [PH]) across YNP. Plants fioin .All and PH were also differentiated for self-pollination potentialUniversity of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201 Adaptation to a geothermal soil mosaic shapes genome-wide patterneq) reveals one highly differentiated (and ecologically extreme) AH population (A11Q L), while the other All and PH plants form lour geographic populations. L’si between rhe geographic regions varied bur remained relatively high ( 0.10) across all comparisons. 1 'si between AH-AH sub-populations pan Adaptation to a geothermal soil mosaic shapes genome-wide patterns were marginally more differentiated than PH-PH pairs (E’st = 0.13 vs. 0.10, respectively). Slightly elevated differentiation of thermal annual populAdaptation to a geothermal soil mosaic shapes genome-wide pattern
ations minors the isolation of A11QT horn alliiUniversity of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201University of MontanaScholarWorks at University of MontanaGraduate Student lheses, Dissertations, &_ , _ - ,.— ..Graduate SchoolProfessional Papers201Gọi ngay
Chat zalo
Facebook