Early Effect of Inbreeding as Revealed by Microsatellite Analyses on Ostrea edulis Larvae

Early Effect of Inbreeding as Revealed by Microsatellite Analyses on Ostrea edulis Larvae

Nicolas Bierne^a,b, Sophie Launey^b, Yamama Naciri-Graven^b, and François Bonhomme^a
^a Laboratoire Génome et Populations, Centre National de la Recerche Scientifique UPR 9060, Université Montpellier II, F-34095 Montpellier, France,
^b Laboratoire Génétique, Aquaculture et Pathologie, Institut Français pour la Recherche et l'Exploitation de la Mer (Ifremer), F-17390 La Tremblade, France

Corresponding author: François Bonhomme, Laboratoire Génome et Populations, Station Méditerranéenne de l’Environnement Littoral, 1 quai de la Daurade, 34200 Sète, France, bonhomme{at}crit.univ-montp2.fr (E-mail).

Communicating editor: A. G. CLARK

This paper reports new experimental evidence on the effect ofinbreeding on growth and survival in the early developmentalphase of a marine bivalve, the flat oyster Ostrea edulis. Twocrosses between full sibs were analyzed using four microsatellitemarkers. Samples of 96 individuals were taken just after spawning(day 1), at the end of the larval stage before metamorphosis(day 10) and at the postlarval stage (day 70). Significant departurefrom Mendelian expectation was observed at two loci in the firstcross and two loci in the second. Departure from 1:1 segregationoccured in one parent of the first cross at three loci and genotypicselection, which resulted in highly significant heterozygoteexcesses, was recorded at three out of four loci in cross C1and at two out of three loci in cross C2. Across the four markers,there were similar significant excesses of multilocus heterozygosity,and significant multilocus heterozygosity–growth correlationswere recorded for both crosses at all stages. These resultssuggest that microsatellite markers, often assumed to be neutral,cosegregated with fitness-associated genes, the number of whichis estimated to be between 15 and 38 in the whole genome, andthat there is a potentially high genetic load in Ostrea edulisgenome. This load provides a genetic basis for heterosis inmarine bivalves.

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