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Coexistence and community structure in a consumer resource model with implicit stoichiometry

Paul A. Orlando, Joel S. Brown and David H. Wise

Theoretical Population Biology, 2012, vol. 82, issue 2, 77-84

Abstract: We combine stoichiometry theory and optimal foraging theory into the MacArthur consumer–resource model. This generates predictions for diet choice, coexistence, and community structure of heterotroph communities. Tradeoffs in consumer resource-garnering traits influence community outcomes. With scarce resources, consumers forage opportunistically for complementary resources and may coexist via tradeoffs in resource encounter rates. In contrast to single currency models, stoichiometry permits multiple equilibria. These alternative stable states occur when tradeoffs in resource encounter rates are stronger than tradeoffs in elemental conversion efficiencies. With abundant resources consumers exhibit partially selective diets for essential resources and may coexist via tradeoffs in elemental conversion efficiencies. These results differ from single currency models, where adaptive diet selection is either opportunistic or selective. Interestingly, communities composed of efficient consumers share many of the same properties as communities based on substitutable resources. However, communities composed of relatively inefficient consumers behave similarly to plant communities as characterized by Tilman’s consumer resource theory. The results of our model indicate that the effects of stoichiometry theory on community ecology are dependent upon both consumer foraging behavior and the nature of resource garnering tradeoffs.

Keywords: Ecological stoichiometry; Foraging behavior; Coexistence; Consumer resource model (search for similar items in EconPapers)
Date: 2012
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Persistent link: https://EconPapers.repec.org/RePEc:eee:thpobi:v:82:y:2012:i:2:p:77-84

DOI: 10.1016/j.tpb.2012.05.005

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