Evidence for coral range expansión accompanied by reduced diversity of Symbiodinium genotypes
Grupstra, C. G. B.; Coma, R.; Ribes, M.; Leydet, K. P.; Parkinson, J. E.; McDonald, K.; Catllà, M.; Voolstra, C. R.; Hellberg, M. E.; Coffroth, M. A.
2017
Coral Reefs
DOI: 10.1007/s00338-017-1589-2
Zooxanthellate corals are threatened by climate
change but may be able to escape increasing temperatures
by colonizing higher latitudes. To determine the effect of
host range expansion on symbiont genetic diversity, we
examined genetic variation among populations of Symbiodinium
psygmophilum associated with Oculina patagonica,
a range-expanding coral that acquires its symbionts
through horizontal transmission. We optimized five
microsatellite primer pairs for S. psygmophilum and tested
them on Oculina spp. samples from the western North
Atlantic and the Mediterranean. We then used them to
compare symbiont genotype diversity between an Iberian
core and an expansion front population of O. patagonica.
Only one multilocus S. psygmophilum genotype was
identified at the expansion front, and it was shared with the
core population, which harbored seven multilocus genotypes. This pattern suggests that O. patagonica range
expansion is accompanied by reduced symbiont genetic
diversity, possibly due to limited dispersal of symbionts or
local selection.