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Innovativeness, population size and cumulative cultural evolution

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  • Kobayashi, Yutaka
  • Aoki, Kenichi

Abstract

Henrich [Henrich, J., 2004. Demography and cultural evolution: how adaptive cultural processes can produce maladaptive losses—the Tasmanian case. Am. Antiquity 69, 197–214] proposed a model designed to show that larger population size facilitates cumulative cultural evolution toward higher skill levels. In this model, each newborn attempts to imitate the most highly skilled individual of the parental generation by directly-biased social learning, but the skill level he/she acquires deviates probabilistically from that of the exemplar (cultural parent). The probability that the skill level of the imitator exceeds that of the exemplar can be regarded as the innovation rate. After reformulating Henrich’s model rigorously, we introduce an overlapping-generations analog based on the Moran model and derive an approximate formula for the expected change per generation of the highest skill level in the population. For large population size, our overlapping-generations model predicts a much larger effect of population size than Henrich’s discrete-generations model. We then investigate by way of Monte Carlo simulations the case where each newborn chooses as his/her exemplar the most highly skilled individual from among a limited number of acquaintances. When the number of acquaintances is small relative to the population size, we find that a change in the innovation rate contributes more than a proportional change in population size to the cumulative cultural evolution of skill level.

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  • Kobayashi, Yutaka & Aoki, Kenichi, 2012. "Innovativeness, population size and cumulative cultural evolution," Theoretical Population Biology, Elsevier, vol. 82(1), pages 38-47.
    • Handle: RePEc:eee:thpobi:v:82:y:2012:i:1:p:38-47
    DOI: 10.1016/j.tpb.2012.04.001
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    1. Stefano Benazzi & Katerina Douka & Cinzia Fornai & Catherine C. Bauer & Ottmar Kullmer & Jiří Svoboda & Ildikó Pap & Francesco Mallegni & Priscilla Bayle & Michael Coquerelle & Silvana Condemi & Annam, 2011. "Early dispersal of modern humans in Europe and implications for Neanderthal behaviour," Nature, Nature, vol. 479(7374), pages 525-528, November.
    2. Aoki, Kenichi & Lehmann, Laurent & Feldman, Marcus W., 2011. "Rates of cultural change and patterns of cultural accumulation in stochastic models of social transmission," Theoretical Population Biology, Elsevier, vol. 79(4), pages 192-202.
    3. Aoki, Kenichi & Nakahashi, Wataru, 2008. "Evolution of learning in subdivided populations that occupy environmentally heterogeneous sites," Theoretical Population Biology, Elsevier, vol. 74(4), pages 356-368.
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    Cited by:

    1. Nakamura, Mitsuhiro & Wakano, Joe Yuichiro & Aoki, Kenichi & Kobayashi, Yutaka, 2020. "The popularity spectrum applied to a cross-cultural question," Theoretical Population Biology, Elsevier, vol. 133(C), pages 104-116.
    2. Sally E. Street & Tuomas Eerola & Jeremy R. Kendal, 2022. "The role of population size in folk tune complexity," Palgrave Communications, Palgrave Macmillan, vol. 9(1), pages 1-12, December.
    3. Aoki, Kenichi & Feldman, Marcus W., 2014. "Evolution of learning strategies in temporally and spatially variable environments: A review of theory," Theoretical Population Biology, Elsevier, vol. 91(C), pages 3-19.
    4. Alexandre Bluet & François Osiurak & Emanuelle Reynaud, 2024. "Innovation rate and population structure moderate the effect of population size on cumulative technological culture," Palgrave Communications, Palgrave Macmillan, vol. 11(1), pages 1-12, December.
    5. Takahashi, Takuya & Ihara, Yasuo, 2022. "Application of a Markovian ancestral model to the temporal and spatial dynamics of cultural evolution on a population network," Theoretical Population Biology, Elsevier, vol. 143(C), pages 14-29.
    6. Kobayashi, Yutaka & Kurokawa, Shun & Ishii, Takuya & Wakano, Joe Yuichiro, 2021. "Time to extinction of a cultural trait in an overlapping generation model," Theoretical Population Biology, Elsevier, vol. 137(C), pages 32-45.
    7. Kobayashi, Yutaka & Ohtsuki, Hisashi, 2014. "Evolution of social versus individual learning in a subdivided population revisited: Comparative analysis of three coexistence mechanisms using the inclusive-fitness method," Theoretical Population Biology, Elsevier, vol. 92(C), pages 78-87.
    8. Mullon, Charles & Lehmann, Laurent, 2017. "Invasion fitness for gene–culture co-evolution in family-structured populations and an application to cumulative culture under vertical transmission," Theoretical Population Biology, Elsevier, vol. 116(C), pages 33-46.
    9. Ohtsuki, Hisashi & Wakano, Joe Yuichiro & Kobayashi, Yutaka, 2017. "Inclusive fitness analysis of cumulative cultural evolution in an island-structured population," Theoretical Population Biology, Elsevier, vol. 115(C), pages 13-23.
    10. Baldini, Ryan, 2013. "Two success-biased social learning strategies," Theoretical Population Biology, Elsevier, vol. 86(C), pages 43-49.
    11. Kobayashi, Yutaka & Ohtsuki, Hisashi & Wakano, Joe Y., 2016. "Population size vs. social connectedness — A gene-culture coevolutionary approach to cumulative cultural evolution," Theoretical Population Biology, Elsevier, vol. 111(C), pages 87-95.
    12. Takahashi, Takuya & Ihara, Yasuo, 2019. "Cultural and evolutionary dynamics with best-of-k learning when payoffs are uncertain," Theoretical Population Biology, Elsevier, vol. 128(C), pages 27-38.
    13. Aoki, Kenichi, 2015. "Modeling abrupt cultural regime shifts during the Palaeolithic and Stone Age," Theoretical Population Biology, Elsevier, vol. 100(C), pages 6-12.
    14. Wakano, Joe Yuichiro & Gilpin, William & Kadowaki, Seiji & Feldman, Marcus W. & Aoki, Kenichi, 2018. "Ecocultural range-expansion scenarios for the replacement or assimilation of Neanderthals by modern humans," Theoretical Population Biology, Elsevier, vol. 119(C), pages 3-14.

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