Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).

Delineating populations of pantropical marine fish is a difficult process, due to widespread geographic ranges and complex life history traits in most species. Exocoetus volitans, a species of two-winged flyingfish, is a good model for understanding large-scale patterns of epipelagic fish population...

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Main Authors: Eric A Lewallen, Andrew J Bohonak, Carolina A Bonin, Andre J van Wijnen, Robert L Pitman, Nathan R Lovejoy
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5063402?pdf=render
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spelling doaj-8656a261f77d495b861382cb47c470e62020-11-24T22:07:25ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-011110e016319810.1371/journal.pone.0163198Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).Eric A LewallenAndrew J BohonakCarolina A BoninAndre J van WijnenRobert L PitmanNathan R LovejoyDelineating populations of pantropical marine fish is a difficult process, due to widespread geographic ranges and complex life history traits in most species. Exocoetus volitans, a species of two-winged flyingfish, is a good model for understanding large-scale patterns of epipelagic fish population structure because it has a circumtropical geographic range and completes its entire life cycle in the epipelagic zone. Buoyant pelagic eggs should dictate high local dispersal capacity in this species, although a brief larval phase, small body size, and short lifespan may limit the dispersal of individuals over large spatial scales. Based on these biological features, we hypothesized that E. volitans would exhibit statistically and biologically significant population structure defined by recognized oceanographic barriers. We tested this hypothesis by analyzing cytochrome b mtDNA sequence data (1106 bps) from specimens collected in the Pacific, Atlantic and Indian oceans (n = 266). AMOVA, Bayesian, and coalescent analytical approaches were used to assess and interpret population-level genetic variability. A parsimony-based haplotype network did not reveal population subdivision among ocean basins, but AMOVA revealed limited, statistically significant population structure between the Pacific and Atlantic Oceans (ΦST = 0.035, p<0.001). A spatially-unbiased Bayesian approach identified two circumtropical population clusters north and south of the Equator (ΦST = 0.026, p<0.001), a previously unknown dispersal barrier for an epipelagic fish. Bayesian demographic modeling suggested the effective population size of this species increased by at least an order of magnitude ~150,000 years ago, to more than 1 billion individuals currently. Thus, high levels of genetic similarity observed in E. volitans can be explained by high rates of gene flow, a dramatic and recent population expansion, as well as extensive and consistent dispersal throughout the geographic range of the species.http://europepmc.org/articles/PMC5063402?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Eric A Lewallen
Andrew J Bohonak
Carolina A Bonin
Andre J van Wijnen
Robert L Pitman
Nathan R Lovejoy
spellingShingle Eric A Lewallen
Andrew J Bohonak
Carolina A Bonin
Andre J van Wijnen
Robert L Pitman
Nathan R Lovejoy
Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
PLoS ONE
author_facet Eric A Lewallen
Andrew J Bohonak
Carolina A Bonin
Andre J van Wijnen
Robert L Pitman
Nathan R Lovejoy
author_sort Eric A Lewallen
title Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
title_short Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
title_full Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
title_fullStr Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
title_full_unstemmed Population Genetic Structure of the Tropical Two-Wing Flyingfish (Exocoetus volitans).
title_sort population genetic structure of the tropical two-wing flyingfish (exocoetus volitans).
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description Delineating populations of pantropical marine fish is a difficult process, due to widespread geographic ranges and complex life history traits in most species. Exocoetus volitans, a species of two-winged flyingfish, is a good model for understanding large-scale patterns of epipelagic fish population structure because it has a circumtropical geographic range and completes its entire life cycle in the epipelagic zone. Buoyant pelagic eggs should dictate high local dispersal capacity in this species, although a brief larval phase, small body size, and short lifespan may limit the dispersal of individuals over large spatial scales. Based on these biological features, we hypothesized that E. volitans would exhibit statistically and biologically significant population structure defined by recognized oceanographic barriers. We tested this hypothesis by analyzing cytochrome b mtDNA sequence data (1106 bps) from specimens collected in the Pacific, Atlantic and Indian oceans (n = 266). AMOVA, Bayesian, and coalescent analytical approaches were used to assess and interpret population-level genetic variability. A parsimony-based haplotype network did not reveal population subdivision among ocean basins, but AMOVA revealed limited, statistically significant population structure between the Pacific and Atlantic Oceans (ΦST = 0.035, p<0.001). A spatially-unbiased Bayesian approach identified two circumtropical population clusters north and south of the Equator (ΦST = 0.026, p<0.001), a previously unknown dispersal barrier for an epipelagic fish. Bayesian demographic modeling suggested the effective population size of this species increased by at least an order of magnitude ~150,000 years ago, to more than 1 billion individuals currently. Thus, high levels of genetic similarity observed in E. volitans can be explained by high rates of gene flow, a dramatic and recent population expansion, as well as extensive and consistent dispersal throughout the geographic range of the species.
url http://europepmc.org/articles/PMC5063402?pdf=render
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