Do terrestrial ectoparasites disperse with penguins?
Dispersal plays a critical role in evolution. Rare long-distance movements can lead to allopatric speciation, whereas frequent movements can facilitate gene flow among disjunct populations and prevent divergence. Dispersal between populations of a species may be difficult to observe directly, and is...
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ftanucanberra:oai:openresearch-repository.anu.edu.au:1885/144227 2024-01-14T10:00:24+01:00 Do terrestrial ectoparasites disperse with penguins? Moon, Katherine Louise 1 vol. application/pdf http://hdl.handle.net/1885/144227 https://doi.org/10.25911/5d5143b5dfd48 https://openresearch-repository.anu.edu.au/bitstream/1885/144227/4/KatherineLouiseMoon%20Thesis%202018.pdf.jpg en_AU eng Canberra, ACT : The Australian National University b53507137 http://hdl.handle.net/1885/144227 doi:10.25911/5d5143b5dfd48 https://openresearch-repository.anu.edu.au/bitstream/1885/144227/4/KatherineLouiseMoon%20Thesis%202018.pdf.jpg Author retains copyright Sub-Antarctic phylogeography dispersal Ixodes ticks genomics host-associated movement physiological tolerances Thesis (PhD) ftanucanberra https://doi.org/10.25911/5d5143b5dfd48 2023-12-15T09:36:12Z Dispersal plays a critical role in evolution. Rare long-distance movements can lead to allopatric speciation, whereas frequent movements can facilitate gene flow among disjunct populations and prevent divergence. Dispersal between populations of a species may be difficult to observe directly, and is often inferred from indirect measures such as species occurrence data. Increasingly, however, high resolution genomic data are being used to clarify dispersal and gene flow, in many cases contradicting past assumptions. Islands are excellent model regions for investigating dispersal as they offer replicated habitats with clear geographic boundaries. The sub-Antarctic comprises some of the most geographically isolated island ecosystems in the world, representing an ideal model system for assessing the evolutionary consequences of long-distance dispersal. Strong winds, circumpolar oceanic currents, and extreme climatic cycles are thought to have effectively isolated many sub-Antarctic ecosystems, but a growing body of molecular evidence is beginning to question this rhetoric, with numerous species showing connectivity across the region. Connectivity patterns are, however, complex and are not always predictable from an organism’s inferred dispersal capacity. With environmental change placing unprecedented pressure on isolated ecosystems, there is a pressing need for improved understanding of dispersal processes and population connectivity via genomic analyses of diverse taxa. A number of sub-Antarctic species exhibit gene flow across the region despite lacking active long-distance dispersal capabilities. Brooding, sedentary crustaceans have, for example, rafted on buoyant kelp across thousands of kilometres of open ocean in the sub-Antarctic. The close symbiotic or parasitic relationships that such species maintain with the kelp has resulted in whole communities dispersing together. Indeed, active dispersal is often limited in parasites, which can depend almost entirely on mobile hosts for long-distance movement. A ... Doctoral or Postdoctoral Thesis Antarc* Antarctic Australian National University: ANU Digital Collections Antarctic |
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Australian National University: ANU Digital Collections |
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ftanucanberra |
language |
English |
topic |
Sub-Antarctic phylogeography dispersal Ixodes ticks genomics host-associated movement physiological tolerances |
spellingShingle |
Sub-Antarctic phylogeography dispersal Ixodes ticks genomics host-associated movement physiological tolerances Moon, Katherine Louise Do terrestrial ectoparasites disperse with penguins? |
topic_facet |
Sub-Antarctic phylogeography dispersal Ixodes ticks genomics host-associated movement physiological tolerances |
description |
Dispersal plays a critical role in evolution. Rare long-distance movements can lead to allopatric speciation, whereas frequent movements can facilitate gene flow among disjunct populations and prevent divergence. Dispersal between populations of a species may be difficult to observe directly, and is often inferred from indirect measures such as species occurrence data. Increasingly, however, high resolution genomic data are being used to clarify dispersal and gene flow, in many cases contradicting past assumptions. Islands are excellent model regions for investigating dispersal as they offer replicated habitats with clear geographic boundaries. The sub-Antarctic comprises some of the most geographically isolated island ecosystems in the world, representing an ideal model system for assessing the evolutionary consequences of long-distance dispersal. Strong winds, circumpolar oceanic currents, and extreme climatic cycles are thought to have effectively isolated many sub-Antarctic ecosystems, but a growing body of molecular evidence is beginning to question this rhetoric, with numerous species showing connectivity across the region. Connectivity patterns are, however, complex and are not always predictable from an organism’s inferred dispersal capacity. With environmental change placing unprecedented pressure on isolated ecosystems, there is a pressing need for improved understanding of dispersal processes and population connectivity via genomic analyses of diverse taxa. A number of sub-Antarctic species exhibit gene flow across the region despite lacking active long-distance dispersal capabilities. Brooding, sedentary crustaceans have, for example, rafted on buoyant kelp across thousands of kilometres of open ocean in the sub-Antarctic. The close symbiotic or parasitic relationships that such species maintain with the kelp has resulted in whole communities dispersing together. Indeed, active dispersal is often limited in parasites, which can depend almost entirely on mobile hosts for long-distance movement. A ... |
format |
Doctoral or Postdoctoral Thesis |
author |
Moon, Katherine Louise |
author_facet |
Moon, Katherine Louise |
author_sort |
Moon, Katherine Louise |
title |
Do terrestrial ectoparasites disperse with penguins? |
title_short |
Do terrestrial ectoparasites disperse with penguins? |
title_full |
Do terrestrial ectoparasites disperse with penguins? |
title_fullStr |
Do terrestrial ectoparasites disperse with penguins? |
title_full_unstemmed |
Do terrestrial ectoparasites disperse with penguins? |
title_sort |
do terrestrial ectoparasites disperse with penguins? |
publisher |
Canberra, ACT : The Australian National University |
url |
http://hdl.handle.net/1885/144227 https://doi.org/10.25911/5d5143b5dfd48 https://openresearch-repository.anu.edu.au/bitstream/1885/144227/4/KatherineLouiseMoon%20Thesis%202018.pdf.jpg |
geographic |
Antarctic |
geographic_facet |
Antarctic |
genre |
Antarc* Antarctic |
genre_facet |
Antarc* Antarctic |
op_relation |
b53507137 http://hdl.handle.net/1885/144227 doi:10.25911/5d5143b5dfd48 https://openresearch-repository.anu.edu.au/bitstream/1885/144227/4/KatherineLouiseMoon%20Thesis%202018.pdf.jpg |
op_rights |
Author retains copyright |
op_doi |
https://doi.org/10.25911/5d5143b5dfd48 |
_version_ |
1788065664753205248 |