Heterogeneous networks do not promote cooperation when humans play a Prisoner’s Dilemma

It is not fully understood why we cooperate with strangers on a daily basis. In an increasingly global world, where interaction networks and relationships between individuals are becoming more complex, different hypotheses have been put forward to explain the foundations of human cooperation on a la...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 109; no. 32; pp. 12922 - 12926
Main Authors Gracia-Lázaro, Carlos, Ferrer, Alfredo, Ruiz, Gonzalo, Tarancón, Alfonso, Cuesta, José A, Sánchez, Angel, Moreno, Yamir
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 07.08.2012
National Acad Sciences
Subjects
Adolescent
Behavior
Biological Sciences
Connectivity
Cooperation
Cooperative Behavior
Evolutionary games
Game Theory
Games, Experimental
Histograms
Humans
Internet
motivation
Neighborhoods
Population structure
prediction
Prisoners dilemma
Public goods
Ridges
Social Environment
Social networks
Social Sciences
Spain
Spain
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Summary:It is not fully understood why we cooperate with strangers on a daily basis. In an increasingly global world, where interaction networks and relationships between individuals are becoming more complex, different hypotheses have been put forward to explain the foundations of human cooperation on a large scale and to account for the true motivations that are behind this phenomenon. In this context, population structure has been suggested to foster cooperation in social dilemmas, but theoretical studies of this mechanism have yielded contradictory results so far; additionally, the issue lacks a proper experimental test in large systems. We have performed the largest experiments to date with humans playing a spatial Prisoner’s Dilemma on a lattice and a scale-free network (1,229 subjects). We observed that the level of cooperation reached in both networks is the same, comparable with the level of cooperation of smaller networks or unstructured populations. We have also found that subjects respond to the cooperation that they observe in a reciprocal manner, being more likely to cooperate if, in the previous round, many of their neighbors and themselves did so, which implies that humans do not consider neighbors’ payoffs when making their decisions in this dilemma but only their actions. Our results, which are in agreement with recent theoretical predictions based on this behavioral rule, suggest that population structure has little relevance as a cooperation promoter or inhibitor among humans.
Bibliography:http://dx.doi.org/10.1073/pnas.1206681109
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Edited by Simon A. Levin, Princeton University, Princeton, NJ, and approved June 8, 2012 (received for review April 24, 2012)
Author contributions: A.T., J.A.C., A.S., and Y.M. designed research; C.G.-L., A.F., G.R., A.T., J.A.C., A.S., and Y.M. performed research; C.G.-L., J.A.C., A.S., and Y.M. analyzed data; A.F. and G.R. designed and were in charge of the experimental platform; and J.A.C., A.S., and Y.M. wrote the paper.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1206681109