An integrated model of gene-culture coevolution of language mediated by phenotypic plasticity
Authored by Reiji Suzuki, Takaya Arita, Tsubasa Azumagakito
Date Published: 2018
DOI: 10.1038/s41598-018-26233-7
Sponsors:
Japanese Society for the Promotion of Science (JSPS)
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Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
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Abstract
In this paper, we propose an agent-based model for investigating
possible scenarios of genetic and cultural language evolution based on
an integrated gene-culture coevolutionary framework. We focused on the
following problems: (1) how communicative ability can evolve
directionally under positive frequency-dependent selection and (2) how
much of the directional effect there is between language and biological
evolution. In our evolutionary experiments and analysis, we discovered a
coevolutionary scenario involving the biological evolution of phenotypic
plasticity and a cyclic coevolutionary dynamic between genetic and
cultural evolution that is mediated by phenotypic plasticity.
Furthermore, we discovered that the rates of cultural change are usually
faster than the biological rates and fluctuate on a short time scale; on
a long time scale, however, cultural rates tend to be slow. This implies
that biological evolution can maintain the pace with language evolution.
Finally, we analyzed the transfer entropy for a quantitative discussion
of the directional effects between both evolutions. The results showed
that biological evolution appears to be unable to maintain the pace with
language evolution on short time scales, while their mutual directional
effects are in the same range on long time scales. This implies that
language and the relevant biology could coevolve.
Tags
Evolution
Brain