Evidence of recent and continuous speciation in a biodiversity hotspot: a population genetic approach in southern African gladioli (Gladiolus; Iridaceae).

There has been much debate over the origin of species diversity in biodiversity hotspots, particularly the rate of speciation over extinction and the geographic mode of speciation. Here, we looked at speciation with varying degrees of sympatry in a biodiversity hotspot, focusing on a distinct morphological clade in the Cape Floristic Region in southern Africa, the Gladiolus carinatus species complex (Iridaceae). We investigate the mechanisms involved in population and species differentiation through a combination of ecological and genomic approaches. We estimated spatial and phenological overlap, differences in floral morphology, genetic isolation and genomic selection. A genetic coalescent analysis estimated that the time of divergence between lineages followed the establishment of available habitat in the Cape littoral plain where these species currently overlap geographically. Marked shifts in flowering time and morphology, which act as barriers to gene flow, have developed to varying degrees over the last 0.3-1.4 million years. An amplified fragment length polymorphism genome scan revealed signatures of divergent and balancing selection, although half of the loci consistently behaved neutrally. Divergent species outliers (1%) and floral morph outliers (3%) represent a small proportion of the genome, but these loci produced clear genetic clusters of species and significant associations with floral traits. These results indicate that the G. carinatus complex represents a continuum of recent speciation. We provide further evidence for ecological adaptation in the face of gene flow.