Communications Earth & Environment (Oct 2024)

The ozone radiative forcing of nitrogen oxide emissions from aviation can be estimated using a probabilistic approach

  • Pratik Rao,
  • Richard Dwight,
  • Deepali Singh,
  • Jin Maruhashi,
  • Irene Dedoussi,
  • Volker Grewe,
  • Christine Frömming

DOI
https://doi.org/10.1038/s43247-024-01691-2
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 12

Abstract

Read online

Abstract Reliable prediction of aviation’s environmental impact, including the effect of nitrogen oxides on ozone, is vital for effective mitigation against its contribution to global warming. Estimating this climate impact however, in terms of the short-term ozone instantaneous radiative forcing, requires computationally-expensive chemistry-climate model simulations that limit practical applications such as climate-optimised planning. Existing surrogates neglect the large uncertainties in their predictions due to unknown environmental conditions and missing features. Relative to these surrogates, we propose a high-accuracy probabilistic surrogate that not only provides mean predictions but also quantifies heteroscedastic uncertainties in climate impact estimates. Our model is trained on one of the most comprehensive chemistry-climate model datasets for aviation-induced nitrogen oxide impacts on ozone. Leveraging feature selection techniques, we identify essential predictors that are readily available from weather forecasts to facilitate the implementation therein. We show that our surrogate model is more accurate than homoscedastic models and easily outperforms existing linear surrogates. We then predict the climate impact of a frequently-flown flight in the European Union, and discuss limitations of our approach.