Zusammenfassung
In this study, we analysed the impact of population size and isolation on the genetic variation of the short-lived alpine plant species Gentianella campestris ssp. campestris from two study regions (Allgau and Karwendel) in the Northern calcareous Alps in Germany. We determined the size and isolation of the study populations and analysed genetic variation using amplified fragment length ...
Zusammenfassung
In this study, we analysed the impact of population size and isolation on the genetic variation of the short-lived alpine plant species Gentianella campestris ssp. campestris from two study regions (Allgau and Karwendel) in the Northern calcareous Alps in Germany. We determined the size and isolation of the study populations and analysed genetic variation using amplified fragment length polymorphisms. Genetic variation of G. campestris ssp. campestris differed significantly between the two study regions. Genetic variation did not depend on population size. However, the level of genetic variation within populations was about three times lower in the Karwendel, where the species is much more isolated than in the Allgau. Conversely, genetic variation among populations was much stronger in the Karwendel than in the Allgau. Our results support the observation that the level of genetic variation within populations of alpine plant species may not only be affected by population size, but also by population isolation. Depending on the distance among populations, gene flow by exchange of pollen and seeds triggers the influx of genetic variation, thereby sometimes superimposing the effects of population size. Our results suggest that for seed collections in conservation projects, not only population size, but also isolation should be considered.
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