Genetic population structure of the Swordfish (Xiphias gladius) in the southwest Indian Ocean: Sex-biased differentiation, congruency between markers and its incidence in a way of stock assessment Auteur(s) : Muths, Delphine Grewe, R. Jean, Claire Bourjea, Jerome Éditeur(s) : Elsevier Résumé : Genetic variation was surveyed at 11 microsatellite loci and at 517 bp of the mitochondrial control region to investigate the presence of genetic stock structure in swordfish (Xiphias gladius) in four proximal localities of the southwest Indian Ocean. One aim of this study was to serve as a preliminary examination for congruency of structure detected by these two genetic markers, prior to conducting a more comprehensive basin-wide survey of the Indian Ocean and nearby surrounding areas. Analyses of multilocus microsatellite genotypes and mitochondrial control region sequences both revealed a great homogeneity between samples. Genetic diversity detected at the regional scale was not significantly higher than detected at the local scale. Results suggest that the southwest Indian Ocean globally functions as a unique panmictic population. However, some discrete genetic differences appeared that could possibly indicate influence from a second genetic pool in the northern part of the Indian Ocean. This structure appeared to be sex-dependent with genetic differences higher among female than among male samples. This result may indicate a higher level of spawning area fidelity for females with a subsequent sampling bias tending to homogenise male genotypic distributions. (c) 2009 Elsevier B.V. All rights reserved. Fisheries Research (0165-7836) (Elsevier), 2009-05 , Vol. 97 , N. 3 , P. 263-269 Droits : 2009 Elsevier B.V. All rights reserved. http://archimer.ifremer.fr/doc/2009/publication-6455.pdf DOI:10.1016/j.fishres.2009.03.004 http://archimer.ifremer.fr/doc/00000/6455/ | Partager |
Genetic structure of the reef grouper Epinephelus merra in the West Indian Ocean appears congruent with biogeographic and oceanographic boundaries Auteur(s) : Muths, Delphine Tessier, Emmanuel Bourjea, Jerome Éditeur(s) : Wiley-blackwell Résumé : The reef fauna connectivity of the West Indian Ocean (WIO) is one of the least studied globally. Here we use genetic analyses of the grouper Epinephelus merra (Bloch 1793) to determine patterns of connectivity and to identify barriers to dispersal in this WIO marine area. Phylogeographic and population-level analyses were conducted on cytochrome b sequences and microsatellites (13 loci) from 557 individuals sampled in 15 localities distributed across the West Indian Ocean. Additional samples from the Pacific Ocean were used to benchmark the WIO population structure. The high level of divergence revealed between Indian and Pacific localities (of about 4.5% in sequences) might be the signature of the major tectonic and climatic changes operating at the Plio-Pleistocene transition, congruently with numerous examples of Indo-Pacific speciation. In comparison, the E. merra sequences from the Indian Ocean constitute a monophyletic clade with a low average genetic distance (d < 0.5%). However both genetic markers indicated some structure within this ocean. The main structure revealed was the isolation of the Maldives from the WIO localities (a different group signature identified by clustering analysis, great values of differentiation). Both marker types reveal further significant structure within the WIO, mainly the isolation of the Mascarene Islands (significant AMOVA and isolation-by-distance patterns) and some patchy structure between the northernmost localities and within the Mozambique Channel. The WIO genetic structure of E. merra appeared congruent with main biogeographic boundaries and oceanographic currents. Marine Ecology-an Evolutionary Perspective (0173-9565) (Wiley-blackwell), 2015-09 , Vol. 36 , N. 3 , P. 447-461 Droits : 2014 Blackwell Verlag GmbH http://archimer.ifremer.fr/doc/00189/30046/28566.pdf DOI:10.1111/maec.12153 http://archimer.ifremer.fr/doc/00189/30046/ | Partager |
CAMP – Connectivité des Aires Marines Protégées - Période Mars 2009 – Février 2010. Rapport intermédiaire Auteur(s) : Muths, Delphine Bourjea, Jerome Résumé : The main aim of the CAMP project (2009-2011) is to estimate the efficient connectivity between the Marine Protected Areas (MPA) of the South-West Indian Ocean (SWIO). For that purpose, we use a population genetics approach on 3 reef fishes: Epinephelus merra, Lutjanus kasmira et Myripristis berndti. The overall goal of the project is to provide new elements to MPA managers that will contribute to design the best network of MPAs in the SWIO. In the first year of the project, most of the time was spent to sample fishes. Based on collaborations with 5 international and national partners, we succeed to sample more than 1100 fishes within 12 sites of the SWIO. More than 850 of the 1100 fishes were already sequenced. The development of third microsatellite libraries is under-going and should be available for the 2nd part of the year 2010. The second year of the project (2010) will focus on the end of the sampling in the SWIO as well as doing most of the genetic analysis of the samples collected in 2009 (microsatellit analysis) and in 2010 (mtDNA sequencing). At the end of the second year, we expect to be able to do a first regional analysis of the genetic structure of these reef fishes population. Then, in 2011, the project team will elaborate some recommendations to MPAs managers on the basis of the whole genetic dataset L’objectif principal du projet CAMP (2009-2011) est d’estimer la connectivité effective entre les Aires Marines Protégées (AMP) du sud ouest de l’océan Indien (SOOI) par le biais de la génétique des populations de 3 modèles biologiques : Epinephelus merra, Lutjanus kasmira et Myripristis berndti. L’objectif final est de fournir des éléments de réflexion aux gestionnaires afin de contribuer significativement au dessin du réseau des AMPs dans le SOOI. La première année du projet a été consacrée essentiellement à l’échantillonnage. Basé sur une coopération avec nos 5 partenaires nationaux et internationaux, cet échantillonnage a permis de collecter plus de 1100 échantillons de tissus de ces 3 espèces de poissons répartis dans 12 sites du SOOI. Sur ces 1100 poissons, plus de 850 séquences d’ADN mitochondrial ont d’ores et déjà été effectuées. En parallèle, le développement des banques microsatellites pour les 3 espèces est en cours et devrait être disponible pour à la mi 2010. La deuxième année du projet (2010) aura pour objectif de poursuivre l’échantillonnage sur l’ensemble du SOOI et de réaliser les analyses microsatellites des échantillons collectés en 2009 ainsi que les séquences des échantillons collectés en 2010. Au terme de cette deuxième année, une analyse de la structure génétique de ces populations de poissons de récifs pourra être menée, suivie en 2011 de l’élaboration d’aides à la gestion sur la base de l’ensemble des données acquises dans le cadre de ce projet. Droits : 2010 Ifremer http://archimer.ifremer.fr/doc/00100/21086/18710.pdf http://archimer.ifremer.fr/doc/00100/21086/ | Partager Voir aussi Aires marines protégées génétique connectivité poissons de récif échantillonnage Sud Ouest Océan Indien connectivité Télécharger |
Genetic connectivity of the reef fish Lutjanus kasmira at the scale of the western Indian Ocean Auteur(s) : Muths, Delphine Gouws, G. Mwale, M. Tessier, Emmanuel Bourjea, Jerome Éditeur(s) : Canadian Science Publishing, Nrc Research Press Résumé : Examining the genetic structure of species allows an estimate of the level of evolutionary connectivity between localities; this information is important for marine biodiversity protection, in particular, for the delineation of marine protected areas. In this context, a total of 601 Lutjanus kasmira (Forsskal, 1775) were sampled in 16 localities of the western Indian Ocean and analyzed with both mitochondrial cytochrome b sequencing and eight microsatellite loci genotyping. Both genetic markers indicate that differentiation was not significant even between samples separated by more than 4000 km. This absence of genetic differentiation among samples was favored by ecological plasticity of the species and is now ensured by resultant high levels of dispersal. Nevertheless, some significant genetic structure was detected for the areas of Mauritius and Moroni, as well as within populations in all localities, which will have to be explained by additional studies on local processes. Canadian Journal Of Fisheries And Aquatic Sciences (0706-652X) (Canadian Science Publishing, Nrc Research Press), 2012-05 , Vol. 69 , N. 5 , P. 842-853 Droits : 2012 Published by NRC Research Press http://archimer.ifremer.fr/doc/00079/19044/16647.pdf DOI:10.1139/F2012-012 http://archimer.ifremer.fr/doc/00079/19044/ | Partager |