Research article2012Peer reviewedOpen access
Very high genetic fragmentation in a large marine fish, the meagre Argyrosomus regius (Sciaenidae, Perciformes): impact of reproductive migration, oceanographic barriers and ecological factors
Haffray, Pierrick; Malha, Rachid; Sidi, Mahfoud Ould Taleb; Prista, Nuno; Hassan, Moshira; Castelnaud, Gerard; Karahan-Nomm, Bilge; Gamsiz, Kutsal; Sadek, Sherif; Bruant, Jean-Sebastien; Balma, Philippe; Bonhomme, Francois
Abstract
The meagre Argyrosomus regius is a large Sciaenid fish known to reproduce in the eastern Atlantic and Mediterranean Sea in just five distinct and restricted geographic areas: along the Mauritanian coast and at estuary openings (Gironde, Tagus, Guadalquivir and Nile). The biological traits of A. regius (high dispersal capabilities, high fecundity, long larval phase, overlapping generations, reproduction until 40 years of age) are, in principle, favourable to high gene flow, which should lead to genetic homogeneity over large geographic scales. Nevertheless, the high geographic distances between the few reproductive areas leads one ask whether there is genetic differentiation in this species. In the present study, the genetic differentiation of the wild A. regius was investigated across most of its natural range from the Atlantic Ocean (France, Portugal, Spain, Mauritania) to the Mediterranean Sea (Egypt, Turkey), using 11 microsatellite markers previously identified in another Sciaenid, the red drum Sciaenops ocellatus. At least two very distinct groups could be identified, separated by the Gibraltar Strait. Genetic divergences (F-ST values) were intermediate between the Atlantic samples (0.012-0.041), high between Egypt and the Atlantic (0.06-0.107) or Aegean Sea (0.081) and extremely high between the Aegean Sea and the Atlantic (0.098-0.168). A. regius exhibited a very high level of genetic differentiation rarely reported in marine fishes. These results also demonstrate the existence of a sixth independent spawning area in the Menderes delta (Turkey). Factors potentially involved in this very high genetic fragmentation are discussed, including physical barriers, glaciation pulses and biological traits.
Keywords
Genetic variation; Population differentiation; Linkage disequilibrium; Microsatellites; Sciaenids; Drum; Umbrina; Pseudotolithus; Argyrosomus
Published in
Aquatic Living Resources
2012, Volume: 25, number: 2, pages: 173-183 Publisher: EDP SCIENCES S A
UKÄ Subject classification
Fish and Aquacultural Science
Fish and Wildlife Management
Publication identifier
DOI: https://doi.org/10.1051/alr/2012016
Permanent link to this page (URI)
https://res.slu.se/id/publ/87167