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Mitochondrial-DNA variation and the evolutionary affinities of the Peromyscus maniculatus complex from western North AmericaWalker, Mindy Lynn 12 April 2006 (has links)
Intraspecific phylogeography and the phylogenetic relationships of recently-diverged taxa are best assessed with the use of a genetic marker that coalesces rapidly and thus provides phylogenetically informative characters for closely-related taxa. Mitochondrial DNA (mtDNA) fits these criteria and was thereby ideal for analyzing genetic variation within and among the youngest taxonomic members of the Peromyscus maniculatus species group, P. sejugis (restricted to two islands in the Sea of CortÃÂés), P. maniculatus (distributed throughout North and Central America) and P. keeni (a coastal species restricted to the Pacific Northwest of North America). The approach utilized in this research involved sequencing a 1439 base-pair (bp) region of mtDNA for a total of 581 specimens representing 45 different geographic localities from along the west coast of North America. The sequences obtained were used to assess the partitioning of genetic diversity within and among these taxa, address phylogenetic and taxonomic concerns about the western representatives of the P. maniculatus species group and discuss the post-Pleistocene biogeography of the west coast of North America. Analysis of mtDNA sequence variation, considered within the framework of a phylogenetic species concept, revealed the existence of two evolutionarily significant units of P. sejugis as well as a previously unrecognized sibling species nested within the Pacific coastal range of P. maniculatus. Moreover, analysis of intraspecific sequence divergence allowed for the identification of the ice-free refugium thought to harbor P. keeni throughout glaciation during the Pleistocene epoch. This work will establish the foundation for additional examination of cryptic genetic variation in different morphotypes of P. maniculatus and continue the precedent for recognizing P. maniculatus-group taxa that reflect true evolutionary entities.
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Mitochondrial-DNA variation and the evolutionary affinities of the Peromyscus maniculatus complex from western North AmericaWalker, Mindy Lynn 12 April 2006 (has links)
Intraspecific phylogeography and the phylogenetic relationships of recently-diverged taxa are best assessed with the use of a genetic marker that coalesces rapidly and thus provides phylogenetically informative characters for closely-related taxa. Mitochondrial DNA (mtDNA) fits these criteria and was thereby ideal for analyzing genetic variation within and among the youngest taxonomic members of the Peromyscus maniculatus species group, P. sejugis (restricted to two islands in the Sea of CortÃÂés), P. maniculatus (distributed throughout North and Central America) and P. keeni (a coastal species restricted to the Pacific Northwest of North America). The approach utilized in this research involved sequencing a 1439 base-pair (bp) region of mtDNA for a total of 581 specimens representing 45 different geographic localities from along the west coast of North America. The sequences obtained were used to assess the partitioning of genetic diversity within and among these taxa, address phylogenetic and taxonomic concerns about the western representatives of the P. maniculatus species group and discuss the post-Pleistocene biogeography of the west coast of North America. Analysis of mtDNA sequence variation, considered within the framework of a phylogenetic species concept, revealed the existence of two evolutionarily significant units of P. sejugis as well as a previously unrecognized sibling species nested within the Pacific coastal range of P. maniculatus. Moreover, analysis of intraspecific sequence divergence allowed for the identification of the ice-free refugium thought to harbor P. keeni throughout glaciation during the Pleistocene epoch. This work will establish the foundation for additional examination of cryptic genetic variation in different morphotypes of P. maniculatus and continue the precedent for recognizing P. maniculatus-group taxa that reflect true evolutionary entities.
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Influences of marine subsidies on coastal mammal ecologyDavidson, Katie 01 February 2018 (has links)
The marine ecosystem provides key resources to terrestrial organisms inhabiting oceanic islands. These subsidies of marine resources have the potential to affect species richness, ecology and productivity, especially on islands with high perimeter-area ratios. I investigated the impact and importance of marine subsidies on mammal diversity and diet on islands of British Columbia’s Central Coast. Insular mammal species richness was significantly correlated with island area and quantity of marine subsidy (wrack). However, mink and river otter island occupancy was unaffected by island-level covariates, whereas small mammals were more likely to occupancy islands closer together. Keen’s mice and food items were subsidized directly (i.e., consumption) and indirectly (i.e., fertilization) by marine resources. Beach-dwelling arthropods composed 33% of mouse diets. Furthermore, mouse and terrestrial arthropod abundances and stable isotope signatures (d13C and d15N) of food items were depleted moving inland from the beach. Finally, reproductive male mice consumed up to twice the marine-derived prey as females. Collectively, this work demonstrates that insular mammalian richness, as mediated by island-level factors, may be complex due to variation within populations and the recipient ecosystem (e.g., prey biomass). / Graduate
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