Abstract
The ability to build upon previous knowledge—cumulative cultural evolution (CCE)—is a hallmark of human societies. While CCE depends on the interaction between social systems, cognition and the environment, there is increasing evidence that CCE is facilitated by larger and more structured societies. However, the relative importance of social network architecture as an additional factor shaping CCE remains unclear. By simulating innovation and diffusion of cultural traits in populations with stereotyped social structures, we disentangle the relative contributions of network architecture from those of population size and connectivity. We demonstrate that while multilevel societies can promote the recombination of cultural traits into high-value products, they also hinder spread and make products more likely to go extinct. We find that transmission mechanisms are therefore critical in determining the outcomes of CCE. Our results highlight the complex interaction between population size, structure and transmission mechanisms, with important implications for future research.
Competing Interest Statement
The authors have declared no competing interest.