Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8844862 | Ecological Complexity | 2017 | 8 Pages |
Abstract
We propose a model of multispecies populations surviving on distributed resources. System dynamics are investigated under changes in abiotic factors such as the climate, as parameterized through environmental temperature. In particular, we introduce a feedback between species abundances and resources via abiotic factors. This model is apparently the first of its kind to include a feedback mechanism coupling climate and population dynamics. Moreover, we take into account self-limitation effects. The model explains the coexistence of many species, yet also displays the possibility of catastrophic bifurcations, where all species become extinct under the influence of abiotic factors. We show that as these factors change there are different regimes of ecosystem behavior, including a possibly chaotic regime when abiotic influences are sufficiently strong.
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Authors
Ivan Sudakov, Sergey A. Vakulenko, Dubrava Kirievskaya, Kenneth M. Golden,