Genetic structure of Dascyllus aruanus populations in French Polynesia

Abstract

Dascyllus aruanus were collected from 13 different locations in French Polynesia between 15 November 1990 and 15 February 1991 in order to examine larval dispersal on four spatial scales: within-feef, within-island, within-archipelago, among-archipelagoes. Average polymorphism was analysed by protein electrophoresis at two levels (P95=0.285 and P90=0.107) from 12 and 3 polymorphic loci, respectively. Spatial genetic variation displayed a low level of differentiation between populations among archipelagoes, and homogeneity at lower spatial scales. Two hypotheses are proposed to explain the genetic structure observed. The first suggests substantial gene flow between the islands during the pelagic larval phase, the second that the absence of differentiation is the result of recent colonisation. Genetic variation amongst size classes showed a significant heterozygote deficiencies at two loci (PGM* and EST-2*) in the smallest size class. This suggests a “cyclic selection” which affects larvae and adults differentially. The data revealed little differentiation among populations at the different localities, despite the short larval duration of D. aruanus; this suggests that larval duration is not the main factor presently affecting genetic structure in an insular model.