Abstract
Filipendula vulgaris is a characteristic species of dry nonacidic grasslands in Denmark. This habitat type occurs only on marginal areas not suitable for agriculture or urbanization and that are by their nature fragmented. The population genetic structure of F. vulgaris was investigated in 17 populations within two regions of Denmark, using isozyme electrophoresis. Small populations were found to have significantly fewer polymorphic loci than larger populations, but all populations maintained the same common allelic variants. The degree of isolation of individual populations did not affect the amount of genetic variation. Offspring arrays revealed a very high outcrossing rate (0.96). The field study demonstrated a very high level of gene flow between populations considering that small insects are thought to be the main pollinators of this species. An experiment to verify whether pollen transport by wind could explain the results from the field study demonstrated long-distance transport from isolated plants to bagged plants. Filipendula vulgaris pollen grains are very small and this explains why outcrossed progeny were found using pollination bags with small pore sizes. We conclude that wind pollination is indeed possible and together with insect pollination is causing the observed patterns of genetic variation. The substantial gene flow between populations may be reducing the effects of genetic drift in the small fragmented populations of F. vulgaris.
Paper version not known (
Free)
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call