How much genetic variation in fern populations is stored in the spore banks? A study of Athyrium filix‐femina (L.) Roth

The genetic variation within spore banks of Athyrium filix‐femina (L.) Roth from three sites in north‐eastern Switzerland was investigated. At two sites spore banks were located beneath sporophyte populations. One collection site was 10Om away from a sporophyte population. The gametophytes grown from the soil samples, the dimensions of which were 4 × 4 × 1.5 cm, and sporophytes from each site were analysed electrophoretically for either three or four variable allozyme loci. The spore banks from the different soil samples within and between populations revealed a considerable amount of genetic diversity. The most frequent alleles within the two sporophyte populations were, with a few exceptions, also the most frequent within the spore banks. The influence of single sporophytic individuals on the genetic composition of microsites seems to be considerably reduced by stochastic processes such as soil movement or the action of earthworms, which promote the mixing of spores from different spatial and temporal origins. It was shown that spores remain viable after passing through the gut of earthworms and that spore banks from even small soil samples revealed genetic diversity and could lead to a large number of genetically distinct sporophytes. The results suggest that fertilization seems to be close to random because the sporophyte populations sampled were in Hardy‐Weinberg equilibrium and had fixation index ( F is ) close to zero.