Parallel ecoclinal evolution and taxonomy of F'rankenia (Frankeniaceae) in the Cape Verde Islands, W Africa

One species, the Macaronesian and N African Frankeniaericifolia, with three subspeciesis recognized in the Cape VerdeIslands: ssp. ericifolia (a coastal, xerophytic ecotype), ssp. caboverdeana ssp. nov. (a coastal, mesophytic ecotype), and ssp. montana ssp. nov. (a montane, hygrophytic ecotype). Subspeciescaboverdeana and ssp. montana are endemic to the Cape VerdeIslands. In addition, ssp. latifolia comb. et stat. nov. is tentatively recognized as endemic to the Canary Islands. Reproductive data suggest that the Capeverdean plants are self-compatible but mainly outcrossing. Mor-phometric analyses of field-collected material and progeny families cultivated under uniform conditions demonstrate that there is genetically based, clinal morphological variation connecting ssp. ericifolia and ssp. caboverdeana in several coastal areas that vary in humidity conditions because of varying exposures to the trade wind. Clinal variation was observed in leaf-, calyx-, petal-, and seed characters, probably caused by one or a few genetic factors that control organ size and are subjected to differential selection with respect to drought tolerance. The variation in progeny families derived from morphologically intermediate parents was no higher than the variation in progeny families derived from parents belonging to the “pure” subspecies. It is thus likely that the clinal variation is caused by primary evolution along continuous humidity gradients rather than hybridization. The existence of similar ecoclines in different islands and the potentially simple genetic basis of such clinality suggest that ssp. caboverdeana has evolved several times in mesic environments from xerophytic, ericifolia-like ancestors.