Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea

Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea

Abstract Following aquarium releases, invasive lionfishes have colonized large areas of the Caribbean and western Atlantic, resulting in an immense ecological damage. The early stages of that invasion are poorly known. Indeed, a lag of time between the introduction and detection often preclude genet...

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Main Authors: Michel Bariche, Periklis Kleitou, Stefanos Kalogirou, Giacomo Bernardi
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07326-1
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spelling doaj-d637d28f4a234158ab404ec4d59cc8c62020-12-08T01:54:48ZengNature Publishing GroupScientific Reports2045-23222017-07-01711610.1038/s41598-017-07326-1Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean SeaMichel Bariche0Periklis Kleitou1Stefanos Kalogirou2Giacomo Bernardi3Department of Biology, American University of BeirutMarine & Environmental Research (MER) LabHellenic Centre for Marine Research, Institute for marine biological Resources and Inland WatersDepartment of Ecology and Evolutionary Biology, University of California Santa CruzAbstract Following aquarium releases, invasive lionfishes have colonized large areas of the Caribbean and western Atlantic, resulting in an immense ecological damage. The early stages of that invasion are poorly known. Indeed, a lag of time between the introduction and detection often preclude genetic characterization of that crucial phase. With elevated awareness, the recent invasion of Pterois miles was quickly detected in the Mediterranean Sea. We hereby show that the very first individuals establishing populations in the Mediterranean Sea display haplotypes that nest within the large genetic diversity of Red Sea individuals, thus indicating an invasion via the Suez Canal. We also show that only two haplotypes are detected in the Mediterranean Sea, suggesting that few individuals may have been involved in the invasion. Thus, we conclude that the Mediterranean invasion is the result of a movement of individuals from the Red Sea, rather than from other means, and that low genetic diversity does not seem to have a negative effect on the success and spread of lionfish into the Mediterranean Sea.https://doi.org/10.1038/s41598-017-07326-1
collection DOAJ
language English
format Article
sources DOAJ
author Michel Bariche
Periklis Kleitou
Stefanos Kalogirou
Giacomo Bernardi
spellingShingle Michel Bariche
Periklis Kleitou
Stefanos Kalogirou
Giacomo Bernardi
Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
Scientific Reports
author_facet Michel Bariche
Periklis Kleitou
Stefanos Kalogirou
Giacomo Bernardi
author_sort Michel Bariche
title Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
title_short Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
title_full Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
title_fullStr Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
title_full_unstemmed Genetics reveal the identity and origin of the lionfish invasion in the Mediterranean Sea
title_sort genetics reveal the identity and origin of the lionfish invasion in the mediterranean sea
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract Following aquarium releases, invasive lionfishes have colonized large areas of the Caribbean and western Atlantic, resulting in an immense ecological damage. The early stages of that invasion are poorly known. Indeed, a lag of time between the introduction and detection often preclude genetic characterization of that crucial phase. With elevated awareness, the recent invasion of Pterois miles was quickly detected in the Mediterranean Sea. We hereby show that the very first individuals establishing populations in the Mediterranean Sea display haplotypes that nest within the large genetic diversity of Red Sea individuals, thus indicating an invasion via the Suez Canal. We also show that only two haplotypes are detected in the Mediterranean Sea, suggesting that few individuals may have been involved in the invasion. Thus, we conclude that the Mediterranean invasion is the result of a movement of individuals from the Red Sea, rather than from other means, and that low genetic diversity does not seem to have a negative effect on the success and spread of lionfish into the Mediterranean Sea.
url https://doi.org/10.1038/s41598-017-07326-1
work_keys_str_mv AT michelbariche geneticsrevealtheidentityandoriginofthelionfishinvasioninthemediterraneansea
AT perikliskleitou geneticsrevealtheidentityandoriginofthelionfishinvasioninthemediterraneansea
AT stefanoskalogirou geneticsrevealtheidentityandoriginofthelionfishinvasioninthemediterraneansea
AT giacomobernardi geneticsrevealtheidentityandoriginofthelionfishinvasioninthemediterraneansea
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