Out of Africa: The Slow Train to Australasia

Out of Africa: The Slow Train to Australasia

We used mitochondrial DNA (mtDNA) sequences to test biogeographic hypotheses for Patiriella exigua (Asterinidae), one of the world's most widespread coastal sea stars. This small intertidal species has an entirely benthic life history and yet occurs in southern temperate waters of the Atlantic,...

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Bibliographic Details
Published in:Systematic biology Vol. 53; no. 1; pp. 18 - 24
Main Authors: Waters, Jonathan M., Roy, Michael S., Crandall, Keith
Format: Journal Article
Language:English
Published: England Society of Systematic Zoology 01-02-2004
Taylor and Francis
Oxford University Press
Subjects:
Animals
Aquatic life
Asterinid
Base Sequence
Biogeography
Biological taxonomies
Dispersal
DNA Primers
DNA, Mitochondrial - genetics
Evolution
Evolution, Molecular
Evolutionary genetics
Geography
Haplotypes
Marine
Marine biology
Models, Genetic
Molecular Sequence Data
Movement
Oceanic islands
Oceans
Oceans and Seas
Phylogeny
phylogeography
Rafting
Sea water
Sequence Analysis, DNA
Starfish
Starfish - genetics
vicariance
Australia
Africa
dispersal
Asterinid
rafting
vicariance
marine
phylogeography
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Summary:We used mitochondrial DNA (mtDNA) sequences to test biogeographic hypotheses for Patiriella exigua (Asterinidae), one of the world's most widespread coastal sea stars. This small intertidal species has an entirely benthic life history and yet occurs in southern temperate waters of the Atlantic, Indian, and Pacific oceans. Despite its abundance around southern Africa, southeastern Australia, and several oceanic islands, P. exigua is absent from the shores of Western Australia, New Zealand, and South America. Phylogenetic analysis of mtDNA sequences (cytochrome oxidase I, control region) indicates that South Africa houses an assemblage of P. exigua that is not monophyletic (P = 0.04), whereas Australian and Lord Howe Island specimens form an interior monophyletic group. The placement of the root in Africa and small genetic divergences between eastern African and Australian haplotypes strongly suggest Pleistocene dispersal eastward across the Indian Ocean. Dispersal was probably achieved by rafting on wood or macroalgae, which was facilitated by the West Wind Drift. Genetic data also support Pleistocene colonization of oceanic islands (Lord Howe Island, Amsterdam Island, St. Helena). Although many biogeographers have speculated about the role of long-distance rafting, this study is one of the first to provide convincing evidence. The marked phylogeographic structure evident across small geographic scales in Australia and South Africa indicates that gene flow among populations may be generally insufficient to prevent the local evolution of monophyly. We suggest that P. exigua may rely on passive mechanisms of dispersal.
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ISSN:1063-5157
1076-836X
DOI:10.1080/10635150490264671