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Improving the Design Stage of Air Pollution Studies Based On Wind Patterns

Author

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  • Zabrocki, Léo

    (Paris School of Economics - EHESS)

  • Alari, Anna
  • Benmarhnia, Tarik

Abstract

A growing literature in economics and epidemiology has exploited changes in wind patterns as a source of exogenous variation to better measure the acute health effects of air pollution. Since the distribution of wind components is not randomly distributed over time and related to other weather parameters, multivariate regression models are used to adjust for these confounding factors. However, this type of analysis relies on its ability to correctly adjust for all confounding factors and extrapolate to units without empirical counterfactuals. As an alternative to current practices and to gauge the extent of these issues, we propose to implement a causal inference pipeline to embed this type of observational study within an hypothetical randomized experiment. We illustrate this approach using daily data from Paris, France, over the 2008-2018 period. Using the Neyman-Rubin potential outcomes framework, we first define the treatment of interest as the effect of North-East winds on particulate matter concentrations compared to the effects of other wind directions. We then implement a matching algorithm to approximate a pairwise randomized experiment. It adjusts nonparametrically for observed confounders while avoiding model extrapolation by discarding treated days without similar control days. We find that the effective sample size for which treated and control units are comparable is surprisingly small. It is however reassuring that results on the matched sample are consistent with a standard regression analysis of the initial data. We finally carry out a quantitative bias analysis to check whether our results could be altered by an unmeasured confounder: estimated effects seem robust to a relatively large hidden bias. Our causal inference pipeline is a principled approach to improve the design of air pollution studies based on wind patterns.

Suggested Citation

  • Zabrocki, Léo & Alari, Anna & Benmarhnia, Tarik, 2021. "Improving the Design Stage of Air Pollution Studies Based On Wind Patterns," OSF Preprints 85jq9_v1, Center for Open Science.
    • Handle: RePEc:osf:osfxxx:85jq9_v1
    DOI: 10.31219/osf.io/85jq9_v1
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    References listed on IDEAS

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