Cyclic transitions in simulated food-web evolution
Authored by Ulf Dieckmann, Daisuke Takahashi, Ake Brannstrom, Rupert Mazzucco, Atsushi Yamauchi
Date Published: 2011
DOI: 10.1080/17429145.2011.552794
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Abstract
Eco-evolutionary food-web models help elucidate the processes
responsible for the emergence and maintenance of complex community
structures. Using an individual-based model of evolving trophic and
competitive interactions, we highlight a pattern of community
macroevolution involving two meta-stable states, corresponding to a
plant-herbivore community and a plant community, respectively. On the
evolutionary timescale, our model exhibits cyclic transitions between
these alternative community states. The model also helps understand the
eco-evolutionary mechanisms underlying these recurrent rapid
transitions, which end intermittent periods of near-stasis or punctuated
equilibrium.
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