Data from: Species diversity rises exponentially with the number of available resources in a multi-trait competition model
Theoretical studies of ecosystem models have generally concluded that large numbers of species will not stably co-exist if the species are all competing for the same limited set of resources. Here we describe a simple multi-trait model of competition where the presence of $N$ resources will lead to...
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Zusammenfassung: | Theoretical studies of ecosystem models have generally concluded that
large numbers of species will not stably co-exist if the species are all
competing for the same limited set of resources. Here we describe a simple
multi-trait model of competition where the presence of $N$ resources will
lead to the stable co-existence of up to $2^N$ species. Our model also
predicts that the long-term dynamics of the population will lie on a
neutral attractor hyperplane. When the population shifts within the
hyperplane, its dynamics will behave neutrally, while shifts which occur
perpendicular to the hyperplane will be subject to restoring forces. This
provides a potential explanation of why complex ecosystems might exhibit
both niche-like and neutral responses to perturbations. Like the neutral
theory of biodiversity, our model generates good fits to species abundance
distributions in several datasets but does so without needing to evoke
inter-generational stochastic effects, continuous species creation or
immigration dynamics. Additionally, our model is able to explain species
abundance correlations between independent but similar ecosystems
separated by more than 1400 km inside the Amazonian forests. |
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DOI: | 10.5061/dryad.b06f3s2 |