Genetic divergence, phylogeography and conservation units of giant tortoises from Santa Cruz and Pinzón, Galápagos Islands

Abstract

Island radiations can offer challenging systemsfor the implementation of conservation policiesbecause descendent populations may exhibitdifferent levels of adaptive divergence,reproductive isolation, and phylogeneticdistinctiveness. This seems particularly truefor the endangered Galapagos gianttortoises (Geochelone nigra), whichcomprise a lineage that radiated rapidly andconcomitantly with the evolution of thearchipelago. We used mitochondrial DNAsequences and microsatellite markers toinvestigate the genetic structure, and toreconstruct genealogical relationships and thehistory of population colonization of gianttortoises from the Islands of Santa Cruz andPinzon, including samples of a basal taxonfrom the Island of San Cristobal.Populations displayed marked geneticdivergence, contrasting demographic histories,and deep phylogeographic structure. The patternof diversification among populations wasconsistent with geological and biogeographichistory, and to some extent, with adaptive andmorphological divergence. Results stronglyindicate the presence of a minimum of fourconservation units with long-standingevolutionary separation: two in Santa Cruz, onein Pinzon, and one in San Cristobal. Wepropose that these findings be effectivelyintegrated with other existing data by theappropriate environmental agencies to evaluatecurrent conservation efforts and implement newstrategies aimed at protecting the integrityand diversity of giant tortoise populations.