Second‐order cooperation: Cooperative offspring as a living public good arising from second‐order selection on non‐cooperative individuals
Copyright policy )Second‐order cooperation: Cooperative offspring as a living public good arising from second‐order selection on non‐cooperative individuals
Switching rate between cooperating and non-cooperating genotypes is a crucial social evolution factor, often neglected by game theory-inspired theoretical and experimental frameworks. We show that the evolution of alleles increasing the mutation or phenotypic switching rates toward cooperation is in itself a social dilemma. Although cooperative offspring are often unlikely to reproduce, due to high cost of cooperation, they can be seen both as a living public good and a part of the extended parental phenotype. The competition between individuals that generate cooperators and ones that do not is often more relevant than the competition between cooperators and non-cooperators. The dilemma of second-order cooperation we describe relates directly to eusociality, but can be also interpreted as a division of labor or a soma-germline distinction. The results of our simulations shine a new light on what Darwin had already termed a “special difficulty” of evolutionary theory and describe a novel type of cooperation dynamics.
Evolution, 71 (7)
ISSN:0014-3820
ISSN:1558-5646
- ETH Zurich Switzerland
- University of Paris France
- UNIVERSITE PARIS DESCARTES France
- COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES France
- French National Centre for Scientific Research France
mutation rate, Division of labor, phenotypic switching, Cooperation; Division of labor; mutation rate; mutational landscape; phenotypic switching; second-order evolution; soma-germline distinction, Biological Evolution, mutational landscape, Cooperation, Game Theory, Mutation, Animals, Interpersonal Relations, Cooperative Behavior, second-order evolution, soma-germline distinction
mutation rate, Division of labor, phenotypic switching, Cooperation; Division of labor; mutation rate; mutational landscape; phenotypic switching; second-order evolution; soma-germline distinction, Biological Evolution, mutational landscape, Cooperation, Game Theory, Mutation, Animals, Interpersonal Relations, Cooperative Behavior, second-order evolution, soma-germline distinction
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