Unknotting the interactive effects of learning processes on cultural evolutionary dynamics

Lauren A Scanlon; Andrew Lobb; Jamshid J Tehrani; Jeremy R Kendal

doi:10.1017/ehs.2019.17

Unknotting the interactive effects of learning processes on cultural evolutionary dynamics

Evol Hum Sci. 2019 Dec 23:1:e17. doi: 10.1017/ehs.2019.17. eCollection 2019.

Authors

Lauren A Scanlon^{1

2}, Andrew Lobb¹, Jamshid J Tehrani², Jeremy R Kendal^{2

3}

Affiliations

¹ Department Of Mathematics, Durham University, Durham, UK.
² Department Of Anthropology And Durham Cultural Evolution Research Centre, Durham University, Durham, UK.
³ Durham Research Methods Centre.

Abstract

Forms of non-random copying error provide sources of inherited variation yet their effects on cultural evolutionary dynamics are poorly understood. Focusing on variation in granny and reef knot forms, we present a mathematical model that specifies how these variant frequencies are affected by non-linear interactions between copying fidelity, mirroring, handedness and repetition biases. Experiments on adult humans allowed these effects to be estimated using approximate Bayesian computation and the model is iterated to explain the prevalence of granny over reef knots in the wild. Our study system also serves to show conditions under which copying fidelity drives heterogeneity in cultural variants at equilibrium, and that interaction between unbiased forms of copying error can skew cultural variation.

Keywords: Approximate Bayesian computation; copying error; cultural evolution; knots; social learning.