Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach

An improved understanding of how behavior influences the genetic structure of populations would offer insight into the inextricable link between ecological processes and evolutionary patterns. This dissertation aims to demonstrate the need to consider behavior alongside genetics by examining the pop...

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Main Author: Kershaw, Francine Lindsay Anne
Format: Thesis
Language:English
Published: 2015
Subjects:
Ecology
Indian
Pacific
Southern Ocean
baleen whales
Online Access:https://doi.org/10.7916/D8736QBP
id ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8736QBP
record_format openpolar
spelling ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8736QBP 2023-05-15T15:37:17+02:00 Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach Kershaw, Francine Lindsay Anne 2015 https://doi.org/10.7916/D8736QBP English eng https://doi.org/10.7916/D8736QBP Ecology Theses 2015 ftcolumbiauniv https://doi.org/10.7916/D8736QBP 2019-04-04T08:13:19Z An improved understanding of how behavior influences the genetic structure of populations would offer insight into the inextricable link between ecological processes and evolutionary patterns. This dissertation aims to demonstrate the need to consider behavior alongside genetics by examining the population genetic structure of two species of highly migratory cetacean across multiple scales and presenting an exploration of some potential lines of enquiry into the behavioral mechanisms underlying the patterns of genetic population structure observed. The first empirical chapter presents a population genetic analysis conducted on a data set of new and existing samples of Bryde’s whale (Balaenoptera edeni spp.) collected from the Western and Central Indo-Pacific and the Northwest Pacific Ocean. Levels of evolutionary divergence between two subspecies (B. e. brydei and B. e. edeni) and the degree of population structure present within each subspecies were explored. The subsequent three empirical chapters represent a series of population- and individual-level genetic analyses on a data set of more than 4,000 individual humpback whales (Megaptera novaengliae) sampled from across the South Atlantic and Western and Northern Indian Oceans over two decades. Patterns of genetic population structure and connectivity between breeding populations are examined across the region, and are complemented by an assessment of genetic structure on shared feeding areas for these populations in the Southern Ocean. Collectively, these studies demonstrate that a hierarchy of behavioral processes operating at different spatial scales is likely influencing patterns of genetic population structure in highly migratory baleen whales. Notably, for humpback whales, the widely assumed model of maternal fidelity to feeding areas and natal philopatry to breeding areas was found not to be applicable at all spatial scales. From an applied perspective, the complex population patterns observed are not currently accounted for in current management designation and recommendations for applying these findings to the management and protection of these species are presented. As these empirical studies highlight the importance of behavior as a potential mechanism for shaping the genetic structure of species, the final chapter offers a research prospectus describing how behavioral and genetic data may be integrated using new individual-based modeling techniques to integrate data and information from the fields of behavioral ecology and population genetics. Thesis baleen whales Southern Ocean Columbia University: Academic Commons Indian Pacific Southern Ocean
institution Open Polar
collection Columbia University: Academic Commons
op_collection_id ftcolumbiauniv
language English
topic Ecology
spellingShingle Ecology
Kershaw, Francine Lindsay Anne
Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
topic_facet Ecology
description An improved understanding of how behavior influences the genetic structure of populations would offer insight into the inextricable link between ecological processes and evolutionary patterns. This dissertation aims to demonstrate the need to consider behavior alongside genetics by examining the population genetic structure of two species of highly migratory cetacean across multiple scales and presenting an exploration of some potential lines of enquiry into the behavioral mechanisms underlying the patterns of genetic population structure observed. The first empirical chapter presents a population genetic analysis conducted on a data set of new and existing samples of Bryde’s whale (Balaenoptera edeni spp.) collected from the Western and Central Indo-Pacific and the Northwest Pacific Ocean. Levels of evolutionary divergence between two subspecies (B. e. brydei and B. e. edeni) and the degree of population structure present within each subspecies were explored. The subsequent three empirical chapters represent a series of population- and individual-level genetic analyses on a data set of more than 4,000 individual humpback whales (Megaptera novaengliae) sampled from across the South Atlantic and Western and Northern Indian Oceans over two decades. Patterns of genetic population structure and connectivity between breeding populations are examined across the region, and are complemented by an assessment of genetic structure on shared feeding areas for these populations in the Southern Ocean. Collectively, these studies demonstrate that a hierarchy of behavioral processes operating at different spatial scales is likely influencing patterns of genetic population structure in highly migratory baleen whales. Notably, for humpback whales, the widely assumed model of maternal fidelity to feeding areas and natal philopatry to breeding areas was found not to be applicable at all spatial scales. From an applied perspective, the complex population patterns observed are not currently accounted for in current management designation and recommendations for applying these findings to the management and protection of these species are presented. As these empirical studies highlight the importance of behavior as a potential mechanism for shaping the genetic structure of species, the final chapter offers a research prospectus describing how behavioral and genetic data may be integrated using new individual-based modeling techniques to integrate data and information from the fields of behavioral ecology and population genetics.
format Thesis
author Kershaw, Francine Lindsay Anne
author_facet Kershaw, Francine Lindsay Anne
author_sort Kershaw, Francine Lindsay Anne
title Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
title_short Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
title_full Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
title_fullStr Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
title_full_unstemmed Understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
title_sort understanding the evolution of two species of highly migratory cetacean at multiple scales and the potential value of a mechanistic approach
publishDate 2015
url https://doi.org/10.7916/D8736QBP
geographic Indian
Pacific
Southern Ocean
geographic_facet Indian
Pacific
Southern Ocean
genre baleen whales
Southern Ocean
genre_facet baleen whales
Southern Ocean
op_relation https://doi.org/10.7916/D8736QBP
op_doi https://doi.org/10.7916/D8736QBP
_version_ 1766367743964086272

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