Complex response of beta diversity to dispersal in meta-community models
Lu, M.
Show abstract
Dispersal is one of the most important drivers of community assembly. The conventional belief that dispersal leads to biotic homogenization (lower beta diversity) has been recently challenged by an experiment conducted in nectar microbes (Vannette & Fukami, 2017), showing that dispersal could lead to community divergence. In this paper, I re-examined the relationship between beta diversity and local dispersal in a range of theoretical models: from the classic island biogeography model and meta-population model to a meta-community model that incorporates biotic interactions. I find that the emergence of hump-shaped beta diversity-dispersal relationship is closely related to local dispersal (rather than global dispersal), non-neutrality and biotic interactions. The results reveal rich metacommunity dynamics in relation to dispersal types and biotic interactions which might be overlooked in previous theoretical and empirical studies. The findings call for more realistic experimental manipulations on dispersals in future community assembly studies.
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