The aim of this project is to understand and quantify the roles of sociocultural and biophysical factors in the evolution of linguistic diversity using an agent-based modelling approach. The spatial agent-based model should simulate how and where languages (agents) change, merge, and split over time. You will use linguistics theory in combination with large datasets of environmental, demographic, sociocultural and linguistic variables to define the model rules.
Your job The project is a geoinformation and data science challenge and at the same time uses domain-specific knowledge from linguistics. In this project, you will:
- analyse data on biophysical and demographic variables across South America since 20,000 years ago;
- develop a spatial agent-based simulation model of language evolution;
- use this model to quantify the relative role of biophysical and sociocultural factors in shaping language diversity in South America.
You will work in a multi-disciplinary team consisting of modellers, data scientists, research software engineers, linguists, and geographers from the Faculty of Geosciences, Utrecht University. You will closely cooperate with a PhD candidate in linguistics at Leiden University. Both of you will work on the same case studies in South America.
To support academic and personal development, PhD candidates follow courses and assist in teaching at Bachelor's and Master's level. Together these activities amount to twenty percent of the contracted time.
Language is a unique proxy for culture. A language family arises as a result of the diversification over time of the speech variants of groups that once spoke one and the same language but followed differential historical trajectories. These socio-historical processes took place all over the world, but they have led to radically different patterns of linguistic diversity from one area to another. This fully-funded NWO Open Competition L project is a collaboration between Utrecht University faculty of Geosciences and Leiden Centre for Linguistics to understand the interplay between
the biophysical environment and the social processes of diversification to explain the patterns of linguistic diversity we see today.