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Mitochondrial Control Region Diversity and Phylogeographic Patterns of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) Along the East Coast of the United States

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dc.contributor.advisor Parsons, E. Chris M.
dc.contributor.author Abrahams, Heather Anne
dc.creator Abrahams, Heather Anne
dc.date 2014-07-31
dc.date.accessioned 2014-10-21T19:26:59Z
dc.date.available 2014-10-21T19:26:59Z
dc.date.issued 2014-10-21
dc.identifier.uri http://hdl.handle.net/1920/9076
dc.description.abstract Lagenorhynchus acutus, the Atlantic white-sided dolphin, is a highly mobile marine species occupying temperate and sub-polar pelagic waters across the entire North Atlantic Ocean. Currently managed as a single population, three stocks have been proposed in the western North Atlantic waters off of New England and Canada. However, over the past few years their distribution seems to be changing in this region with increasing numbers of the species found in waters as far south as North Carolina in the United States. This species greatest threats are derived from anthropogenic sources and it is important to know if any division is forming in the newly expanded region for proper management. This study had two main objectives: to assess genetic diversity of Atlantic white-sided dolphins found along the east coast of the United States in the western North Atlantic, and to identify geographic patterns of haplotype frequency to serve as a basis of comparison by which to identify the origin of individual dolphins found in the southern part of the range. This was in order to see if this species, which is adapted to the pelagic habitat, will show panmixia across a broad geographic range or display finer scale north/south geographic isolations. The evolutionary history and population structure of L. acutus was assessed using a fragment of the control region of the mitochondrial DNA (d-loop). This marker is hypervariable and was selected due to its relatively fast mutation rate, the availability of primers, and for easy comparison to previous published sequences for this species in other parts of their range. This region was successfully amplified and sequenced from 110 total samples for L. acutus in two geographic areas along the east coast (North, N = 89; South, N = 21). The species displayed moderate haplotypic diversity (0.896) but very low nucleotide diversity (0.00706). These findings suggest that this species was affected by historical bottleneck events that reduced their population size in the past and that the population is currently in expansion. The star-like shape of the haplotype phylogeny, which may be indicative of recent population expansion, provided further support for the bottleneck hypothesis. When addressing the population division, the FST value (-0.00697) suggests the existence of one continuous population of L. acutus along the east coast of the United States. These results correspond with other studies on the species throughout its entire geographic range. Future studies should utilize higher resolution molecular markers such as microsatellites or a panel of highly polymorphic SNPs to elucidate fine spatial genetic structure and make possible determining whether or not this species is separating into stocks or can be managed as one panmictic population. Research should also focus on the spatial temporal relationship in order to determine if a portion of the population is migrating south during a specific time frame, or if there is more year round presence indicating an expansion into the range due to climatic or other explanations. en_US
dc.language.iso en_US en_US
dc.rights Copyright 2014 Heather Anne Abrahams en_US
dc.subject Atlantic white-sided dolphin en_US
dc.subject control region en_US
dc.subject phylogeography en_US
dc.subject Lagenorhynchus acutus en_US
dc.subject mitochondrial DNA en_US
dc.title Mitochondrial Control Region Diversity and Phylogeographic Patterns of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) Along the East Coast of the United States en_US
dc.type Thesis en
thesis.degree.name Master of Science in Environmental Science and Policy en_US
thesis.degree.level Master's en
thesis.degree.discipline Environmental Science and Policy en
thesis.degree.grantor George Mason University en


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