Life history, larval dispersal, and connectivity in coral reef fish among the Scattered Islands of the Mozambique Channel
Résumé
The Western Indian Ocean harbors one of the
world’s most diverse marine biota yet is threatened by
exploitation with few conservation measures in place.
Primary candidates for conservation in the region are the
Scattered Islands (Iles Eparses), a group of relatively
pristine and uninhabited islands in the Mozambique
Channel. However, while optimal conservation strategies
depend on the degree of population connectivity among
spatially isolated habitats, very few studies have been
conducted in the area. Here, we use highly variable
microsatellite markers from two damselfishes (Amphiprion
akallopisos and Dascyllus trimaculatus) with differing life
history traits [pelagic larval duration (PLD), adult habitat]
to compare genetic structure and connectivity among these
islands using classic population structure indices as well as
Bayesian clustering methods. All classical fixation indexes
FST, RST, G0
ST, and Jost’s D show stronger genetic differentiation
among islands for A. akallopisos compared to D.
trimaculatus, consistent with the former species’ shorter
PLD and stronger adult site attachment, which may restrict
larval dispersal potential. In agreement with these results,
the Bayesian analysis revealed clear genetic differentiation
among the islands in A. akallopisos, separating the southern
group (Bassas da India and Europa) from the center
(Juan de Nova) and northern (Iles Glorieuses) islands, but
not for D. trimaculatus. Local oceanographic patterns such
as eddies that occur along the Mozambique Channel appear
to parallel the results reported for A. akallopisos, but such
features seem to have little effect on the genetic differentiation
of D. trimaculatus. The contrasting patterns of
genetic differentiation between species within the same
family highlight the importance of accounting for diverse
life history traits when assessing community-wide connectivity,
an increasingly common consideration in conservation
planning.