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Literature DB >> 22814475

Evolutionary shift dynamics on a cycle.

Abstract

We present a new model of evolutionary dynamics in one-dimensional space. Individuals are arranged on a cycle. When a new offspring is born, another individual dies and the rest shift around the cycle to make room. This rule, which is inspired by spatial evolution in somatic tissue and microbial colonies, has the remarkable property that, in the limit of large population size, evolution acts to maximize the payoff of the whole population. Therefore, social dilemmas, in which some individuals benefit at the expense of others, are resolved. We demonstrate this principle for both discrete and continuous games. We also discuss extensions of our model to other one-dimensional spatial configurations. We conclude that shift dynamics in one dimension is an unusually strong promoter of cooperative behavior.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22814475 PMCID： PMC3434466 DOI： 10.1016/j.jtbi.2012.07.006

Source DB: PubMed Journal: J Theor Biol ISSN： 0022-5193 Impact factor: 2.691

85 in total

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Evolutionary shift dynamics on a cycle.

1. A dynamic model of social network formation.

2. Evolution of resistance during clonal expansion.

3. The evolutionary origin of cooperators and defectors.

4. A simple rule for the evolution of cooperation on graphs and social networks.

5. Competition and cooperation in one-dimensional stepping-stone models.

6. Spatial structure increases the waiting time for cancer.

7. Dynamic social networks promote cooperation in experiments with humans.

Review 8. Somatic evolution of cancer cells.

Review 9. Cancer as an evolutionary and ecological process.

10. Linear model of colon cancer initiation.

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2. Effects of motion in structured populations.

3. Evolution of cooperation in an epithelium.

4. Population genetics in microchannels.

5. Cellular cooperation with shift updating and repulsion.