The evolution of cooperation by the Hankshaw effect

Sarah P. Hammarlund, Brian D. Connelly, Katherine J. Dickinson, Benjamin Kerr

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

The evolution of cooperation-costly behavior that benefits others-faces one clear obstacle. Namely, cooperators are always at a competitive disadvantage relative to defectors, individuals that reap the benefits, but evade the cost of cooperation. One solution to this problem involves genetic hitchhiking, where the allele encoding cooperation becomes linked to a beneficial mutation, allowing cooperation to rise in abundance. Here, we explore hitchhiking in the context of adaptation to a stressful environment by cooperators and defectors with spatially limited dispersal. Under such conditions, clustered cooperators reach higher local densities, thereby experiencing more mutational opportunities than defectors. Thus, the allele encoding cooperation has a greater probability of hitchhiking with alleles conferring stress adaptation. We label this probabilistic enhancement the "Hankshaw effect" after the character Sissy Hankshaw, whose anomalously large thumbs made her a singularly effective hitchhiker. Using an agent-based model, we reveal a broad set of conditions that allow the evolution of cooperation through this effect. Additionally, we show that spite, a costly behavior that harms others, can evolve by the Hankshaw effect. While in an unchanging environment these costly social behaviors have transient success, in a dynamic environment, cooperation and spite can persist indefinitely.

Original languageEnglish (US)
Pages (from-to)1376-1385
Number of pages10
JournalEvolution; international journal of organic evolution
Volume70
Issue number6
DOIs
StatePublished - Jun 1 2016
Externally publishedYes

Bibliographical note

Funding Information:
We thank P. Conlin, C. Lee, W. Shou, A. Waite, and the ShoKer and SQuEE groups for discussion during the early stages of this work. We thank A. Pakanti for assistance with running simulations and R. Azevedo, J. Cooper, S. Estrela, K. Foster, C. Glenney, H. Jordt, W. Shou, S. Singhal, A. Titus, K. van Raay, L. Zaman, and three anonymous reviewers for helpful comments on the manuscript. We thank Pete Hammarlund for his legwork in finding apparent references on how changing environments allow cooperating kin to avoid defeat. This material is based upon research supported by the National Science Foundation under Grant DBI-1309318 (Postdoctoral Research Fellowship in Biology to B.D.C.), Cooperative Agreement DBI-0939454 (BEACON STC) and Grant DEB-0952825 (CAREER Award to B.K.). Computational resources were provided by an award from Google Inc. (to B.D.C. and B.K.). The doi for our data is 10.6084/m9.figshare.2056563.

Publisher Copyright:
© 2016 The Author(s). Evolution © 2016 The Society for the Study of Evolution.

Keywords

  • Adaptation
  • hitchhiking
  • models/simulations
  • mutations
  • population structure
  • social evolution

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