Abstract
Heavy metals can affect the morphology, physiology and evolution of plants. Asplenium viride is a diploid species, belonging to the largest genus of the cosmopolitan fern family Aspleniaceae, and occurring on various types of alkaline rocks. It is known to colonize sites with high concentrations of heavy metals, exhibiting changes in frond morphology. Microevolutionary processes, manifesting as changes in genome size and new genotype formation, can ultimately lead to the formation of new subspecies and speciation. This study aimed to evaluate the morphological and genetic diversity of A. viride, and to test for a potential correlation between variability and heavy metal concentration. Analysis of A. viride specimens, from one metalliferous site and five non-metalliferous localities, showed no apparent variation in genome size between plants from affected and non-affected sites. There was no significant correlation between genetic variability and heavy metal concentration. This was possibly due to intragametophytic selfing, caused by patchy habitats and subsequent founder effects, resulting from long-distance colonization by single spores.