Affiliation:
1. Department of Botany and Biodiversity Research University of Vienna Rennweg 14 Vienna 1030 Austria
2. Vienna Doctoral School of Ecology and Evolution (VDSEE) University of Vienna Djerassiplatz 1 Vienna 1030 Austria
3. Department of Botany University of Innsbruck Sternwartestr. 15 Innsbruck 6020 Austria
4. Institute of Botany of the Czech Academy of Sciences Zámek 1 Průhonice 252 43 Czech Republic
Abstract
AbstractAimOur knowledge of Pleistocene refugia and post‐glacial recolonization routes of forest understorey plants is still very limited. The geographical ranges of these species are often rather narrow and show highly idiosyncratic, often fragmented patterns indicating either narrow and species‐specific ecological tolerances or strong dispersal limitations. However, the relative roles of these factors are inherently difficult to disentangle.LocationCentral and south‐eastern Europe.Time period17,100 BP – present.Major taxa studiedFive understorey herbs of European beech forests: Aposeris foetida, Cardamine trifolia, Euphorbia carniolica, Hacquetia epipactis and Helleborus niger.MethodsWe used spatio‐temporally explicit modelling to reconstruct the post‐glacial range dynamics of the five forest understorey herbs. We varied niche requirements, demographic rates and dispersal abilities across plausible ranges and simulated the spread of species from potential Pleistocene refugia identified by phylogeographical analyses. Then we identified the parameter settings allowing for the most accurate reconstruction of their current geographical ranges.ResultsWe found a largely homogenous pattern of optimal parameter settings among species. Broad ecological niches had to be combined with very low but non‐zero rates of long‐distance dispersal via chance events and low rates of seed dispersal over moderate distances by standard dispersal vectors. However, long‐distance dispersal events, although rare, led to high variation among replicated simulation runs.Main conclusionsSmall and fragmented ranges of many forest understorey species are best explained by a combination of broad ecological niches and rare medium‐ and long‐distance dispersal events. Stochasticity is thus an important determinant of current species ranges, explaining the idiosyncratic distribution patterns of the study species despite strong similarities in refugia, ecological tolerances and dispersal abilities.
Subject
Ecology,Ecology, Evolution, Behavior and Systematics,Global and Planetary Change
Cited by
2 articles.
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