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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Ecological, Physiological and Molecular Population Genetics of a Single-locus Leaf Shape Cline in Ivyleaf Morning Glory, Ipomoea hederacea

Campitelli, Brandon Emilio 02 August 2013 (has links)
Leaf shape is remarkably variable among plants, and hence likely has major consequence for ecological function and fitness. My thesis addresses the ecological significance of clinal variation for a leaf shape polymorphism in Ipomoea hederacea (lobed leaves dominate the north, entire-shaped leaves restricted to the south), and investigates the role of adaptation and demography in shaping its evolutionary history in its eastern North American range. To evaluate the adaptive value of the cline, I surveyed leaf shape genotypes from 77 populations , and found a steep latitudinal leaf shape cline that was not reflected in 173 neutral genetic markers. Furthermore, the leaf shape locus was a genomic outlier, implicating divergent selection in generating or maintaining the cline. I investigated the thermoregulatory and freezing tolerance properties of the leaf shape genotypes, and discovered that lobed leaves remain marginally warmer at night, and a 1°C decrease separated mildly damaged and severely frost damaged tissue, potentially suggesting that a critical ambient temperature could drive differential leaf shape damage. I further explored three additional hypothesized selective agents (insect herbivores, flowering phenology and growth), and showed that these putative agents impose selection on I. hederacea, but do not differentiate between leaf shapes. These studies highlighted the challenge of identifying selective agents, even for a polymorphic trait with hypothesized selective mechanisms. To understand the contribution of adaptation and demography in shaping I. hederacea’s evolutionary history, I sequenced 7 nuclear loci from 192 individuals sampled from 24 populations and characterized patterns of nucleotide diversity. I demonstrated that I. hederacea is genetically structured in patches consistent with long-distance dispersal, genetically depauperate, and undergoing range expansion, suggesting a recent founder event or metapopulation dynamics. My thesis represents a comprehensive evaluation of the key processes affecting a polymorphism that influences plant morphology, geographical distribution, and population history.
2

Ecological, Physiological and Molecular Population Genetics of a Single-locus Leaf Shape Cline in Ivyleaf Morning Glory, Ipomoea hederacea

Campitelli, Brandon Emilio 02 August 2013 (has links)
Leaf shape is remarkably variable among plants, and hence likely has major consequence for ecological function and fitness. My thesis addresses the ecological significance of clinal variation for a leaf shape polymorphism in Ipomoea hederacea (lobed leaves dominate the north, entire-shaped leaves restricted to the south), and investigates the role of adaptation and demography in shaping its evolutionary history in its eastern North American range. To evaluate the adaptive value of the cline, I surveyed leaf shape genotypes from 77 populations , and found a steep latitudinal leaf shape cline that was not reflected in 173 neutral genetic markers. Furthermore, the leaf shape locus was a genomic outlier, implicating divergent selection in generating or maintaining the cline. I investigated the thermoregulatory and freezing tolerance properties of the leaf shape genotypes, and discovered that lobed leaves remain marginally warmer at night, and a 1°C decrease separated mildly damaged and severely frost damaged tissue, potentially suggesting that a critical ambient temperature could drive differential leaf shape damage. I further explored three additional hypothesized selective agents (insect herbivores, flowering phenology and growth), and showed that these putative agents impose selection on I. hederacea, but do not differentiate between leaf shapes. These studies highlighted the challenge of identifying selective agents, even for a polymorphic trait with hypothesized selective mechanisms. To understand the contribution of adaptation and demography in shaping I. hederacea’s evolutionary history, I sequenced 7 nuclear loci from 192 individuals sampled from 24 populations and characterized patterns of nucleotide diversity. I demonstrated that I. hederacea is genetically structured in patches consistent with long-distance dispersal, genetically depauperate, and undergoing range expansion, suggesting a recent founder event or metapopulation dynamics. My thesis represents a comprehensive evaluation of the key processes affecting a polymorphism that influences plant morphology, geographical distribution, and population history.

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