The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity

Elena Miu; Luke Rendell; Sam Bowles; Rob Boyd; Daniel Cownden; Magnus Enquist; Kimmo Eriksson; Marcus W. Feldman; Timothy Lillicrap; Richard McElreath; Stuart Murray; James Ounsley; Kevin N. Lala

doi:10.1371/journal.pcbi.1012436

The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity

Elena Miu^*, Luke Rendell^*, Sam Bowles, Rob Boyd, Daniel Cownden, Magnus Enquist, Kimmo Eriksson, Marcus W. Feldman, Timothy Lillicrap, Richard McElreath, Stuart Murray, James Ounsley, Kevin N. Lala^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Social learning is common in nature, yet cumulative culture (where knowledge and technology increase in complexity and diversity over time) appears restricted to humans. To understand why, we organized a computer tournament in which programmed entries specified when to learn new knowledge and when to refine (i.e. improve) existing knowledge. The tournament revealed a ‘refinement paradox’: refined behavior afforded higher payoffs as individuals converged on a small number of successful behavioral variants, but refining did not generally pay. Paradoxically, entries that refined only in certain conditions did best during behavioral improvement, while simple copying entries thrived when refinement levels were high. Cumulative cultural evolution may be rare in part because sophisticated strategies for improving knowledge and technology are initially advantageous, yet complex culture, once achieved, favors conformity, blind imitation and hyper-credulity.

Original language	English
Article number	e1012436
Number of pages	21
Journal	PLoS Computational Biology
Volume	20
Issue number	9
DOIs	https://doi.org/10.1371/journal.pcbi.1012436
Publication status	Published - 26 Sept 2024

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10.1371/journal.pcbi.1012436Licence: CC BY

Miu-2024-Refinement-paradox-and-PCompBiol-20-9-e1012436-CCBY
Copyright: © 2024 Miu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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EVOCULTURE: The Evolution of Culture
Lala, K. (PI)
European Research Council
1/04/09 → 31/03/15
Project: Standard

The refinement paradox and cumulative cultural evolution: complex products of collective improvement favour conformity and hyper-credulity (dataset)
Lala, K. (Creator), OSF, 2024
https://osf.io/kw3v6/?view_only=5fa1998ffcc841fd895b40132309e55b
Dataset

Cite this

Miu, E., Rendell, L., Bowles, S., Boyd, R., Cownden, D., Enquist, M., Eriksson, K., Feldman, M. W., Lillicrap, T., McElreath, R., Murray, S., Ounsley, J., & Lala, K. N. (2024). The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity. PLoS Computational Biology, 20(9), Article e1012436. https://doi.org/10.1371/journal.pcbi.1012436

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title = "The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity",

abstract = "Social learning is common in nature, yet cumulative culture (where knowledge and technology increase in complexity and diversity over time) appears restricted to humans. To understand why, we organized a computer tournament in which programmed entries specified when to learn new knowledge and when to refine (i.e. improve) existing knowledge. The tournament revealed a {\textquoteleft}refinement paradox{\textquoteright}: refined behavior afforded higher payoffs as individuals converged on a small number of successful behavioral variants, but refining did not generally pay. Paradoxically, entries that refined only in certain conditions did best during behavioral improvement, while simple copying entries thrived when refinement levels were high. Cumulative cultural evolution may be rare in part because sophisticated strategies for improving knowledge and technology are initially advantageous, yet complex culture, once achieved, favors conformity, blind imitation and hyper-credulity.",

author = "Elena Miu and Luke Rendell and Sam Bowles and Rob Boyd and Daniel Cownden and Magnus Enquist and Kimmo Eriksson and Feldman, {Marcus W.} and Timothy Lillicrap and Richard McElreath and Stuart Murray and James Ounsley and Lala, {Kevin N.}",

note = "Funding: Research supported in part by an European Research Council Advanced grant to KNL (EVOCULTURE, ref. 232823).",

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Miu, E, Rendell, L, Bowles, S, Boyd, R, Cownden, D, Enquist, M, Eriksson, K, Feldman, MW, Lillicrap, T, McElreath, R, Murray, S, Ounsley, J & Lala, KN 2024, 'The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity', PLoS Computational Biology, vol. 20, no. 9, e1012436. https://doi.org/10.1371/journal.pcbi.1012436

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T2 - complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity

AU - Miu, Elena

AU - Rendell, Luke

AU - Bowles, Sam

AU - Boyd, Rob

AU - Cownden, Daniel

AU - Enquist, Magnus

AU - Eriksson, Kimmo

AU - Feldman, Marcus W.

AU - Lillicrap, Timothy

AU - McElreath, Richard

AU - Murray, Stuart

AU - Ounsley, James

AU - Lala, Kevin N.

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AB - Social learning is common in nature, yet cumulative culture (where knowledge and technology increase in complexity and diversity over time) appears restricted to humans. To understand why, we organized a computer tournament in which programmed entries specified when to learn new knowledge and when to refine (i.e. improve) existing knowledge. The tournament revealed a ‘refinement paradox’: refined behavior afforded higher payoffs as individuals converged on a small number of successful behavioral variants, but refining did not generally pay. Paradoxically, entries that refined only in certain conditions did best during behavioral improvement, while simple copying entries thrived when refinement levels were high. Cumulative cultural evolution may be rare in part because sophisticated strategies for improving knowledge and technology are initially advantageous, yet complex culture, once achieved, favors conformity, blind imitation and hyper-credulity.

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DO - 10.1371/journal.pcbi.1012436

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The refinement paradox and cumulative cultural evolution: complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity

Abstract

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EVOCULTURE: The Evolution of Culture

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The refinement paradox and cumulative cultural evolution: complex products of collective improvement favour conformity and hyper-credulity (dataset)

Cite this