Clonal selection prevents tragedy of the commons when neighbors compete in a rock-paper-scissors game

Jeppe Søgaard Juul; Kim Sneppen; Joachim Mathiesen

doi:10.1103/PhysRevE.85.061924

Clonal selection prevents tragedy of the commons when neighbors compete in a rock-paper-scissors game

Jeppe Søgaard Juul, Kim Sneppen, Joachim Mathiesen

Biokompleksitet

22 Citationer (Scopus)

Abstract

The rock-paper-scissors game is a model example of the ongoing cyclic turnover typical of many ecosystems, ranging from the terrestrial and aquatic to the microbial. Here we explore the evolution of a rock-paper-scissors system where three species compete for space. The species are allowed to mutate and change the speed by which they invade one another. In the case when all species have similar mutation rates, we observe a perpetual arms race where no single species prevails. When only two species mutate, their aggressions increase indefinitely until the ecosystem collapses and only the nonmutating species survives. Finally we show that when only one species mutates, group selection removes individual predators with the fastest growth rates, causing the growth rate of the species to stabilize. We explain this group selection quantitatively.

Originalsprog	Engelsk
Tidsskrift	Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)
Vol/bind	85
Udgave nummer	6
Sider (fra-til)	061924
Antal sider	4
ISSN	1539-3755
DOI	https://doi.org/10.1103/PhysRevE.85.061924
Status	Udgivet - 26 jun. 2012

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10.1103/PhysRevE.85.061924

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abstract = "The rock-paper-scissors game is a model example of the ongoing cyclic turnover typical of many ecosystems, ranging from the terrestrial and aquatic to the microbial. Here we explore the evolution of a rock-paper-scissors system where three species compete for space. The species are allowed to mutate and change the speed by which they invade one another. In the case when all species have similar mutation rates, we observe a perpetual arms race where no single species prevails. When only two species mutate, their aggressions increase indefinitely until the ecosystem collapses and only the nonmutating species survives. Finally we show that when only one species mutates, group selection removes individual predators with the fastest growth rates, causing the growth rate of the species to stabilize. We explain this group selection quantitatively.",

author = "Juul, {Jeppe S{\o}gaard} and Kim Sneppen and Joachim Mathiesen",

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AU - Juul, Jeppe Søgaard

AU - Sneppen, Kim

AU - Mathiesen, Joachim

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N2 - The rock-paper-scissors game is a model example of the ongoing cyclic turnover typical of many ecosystems, ranging from the terrestrial and aquatic to the microbial. Here we explore the evolution of a rock-paper-scissors system where three species compete for space. The species are allowed to mutate and change the speed by which they invade one another. In the case when all species have similar mutation rates, we observe a perpetual arms race where no single species prevails. When only two species mutate, their aggressions increase indefinitely until the ecosystem collapses and only the nonmutating species survives. Finally we show that when only one species mutates, group selection removes individual predators with the fastest growth rates, causing the growth rate of the species to stabilize. We explain this group selection quantitatively.

AB - The rock-paper-scissors game is a model example of the ongoing cyclic turnover typical of many ecosystems, ranging from the terrestrial and aquatic to the microbial. Here we explore the evolution of a rock-paper-scissors system where three species compete for space. The species are allowed to mutate and change the speed by which they invade one another. In the case when all species have similar mutation rates, we observe a perpetual arms race where no single species prevails. When only two species mutate, their aggressions increase indefinitely until the ecosystem collapses and only the nonmutating species survives. Finally we show that when only one species mutates, group selection removes individual predators with the fastest growth rates, causing the growth rate of the species to stabilize. We explain this group selection quantitatively.

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DO - 10.1103/PhysRevE.85.061924

M3 - Journal article

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JO - Physical Review E

JF - Physical Review E

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Clonal selection prevents tragedy of the commons when neighbors compete in a rock-paper-scissors game

Abstract

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