Impact of weather factors on migration intention using machine learning algorithms
This research provides insights into the complex drivers of migration for individuals in climate-vulnerable, agriculture-dependent economies, which is crucial for policymakers addressing climate change and human mobility.
This paper investigates the impact of weather factors on individual migration intentions in six agriculture-dependent West African countries using tree-based machine learning models. It found that while socioeconomic characteristics are more influential, weather features do improve prediction performance, and the influence of weather varies by migration type and country.
A growing attention in the empirical literature has been paid to the incidence of climate shocks and change in migration decisions. Previous literature leads to different results and uses a multitude of traditional empirical approaches. This paper proposes a tree-based Machine Learning (ML) approach to analyze the role of the weather shocks towards an individual's intention to migrate in the six agriculture-dependent-economy countries such as Burkina Faso, Ivory Coast, Mali, Mauritania, Niger, and Senegal. We perform several tree-based algorithms (e.g., XGB, Random Forest) using the train-validation-test workflow to build robust and noise-resistant approaches. Then we determine the important features showing in which direction they are influencing the migration intention. This ML-based estimation accounts for features such as weather shocks captured by the Standardized Precipitation-Evapotranspiration Index (SPEI) for different timescales and various socioeconomic features/covariates. We find that (i) weather features improve the prediction performance although socioeconomic characteristics have more influence on migration intentions, (ii) country-specific model is necessary, and (iii) international move is influenced more by the longer timescales of SPEIs while general move (which includes internal move) by that of shorter timescales.