Pushing the frontiers in climate modelling and analysis with machine learning

Veronika Eyring; William D. Collins; Pierre Gentine; Elizabeth A. Barnes; Marcelo Barreiro; Tom Beucler; Marc Bocquet; Christopher S. Bretherton; Hannah M. Christensen; Katherine Dagon; David John Gagne; David Hall; Dorit Hammerling; Stephan Hoyer; Fernando Iglesias-Suarez; Ignacio Lopez-Gomez; Marie C. McGraw; Gerald A. Meehl; Maria J. Molina; Claire Monteleoni; Juliane Mueller; Michael S. Pritchard; David Rolnick; Jakob Runge; Philip Stier; Oliver Watt-Meyer; Katja Weigel; Rose Yu; Laure Zanna

doi:10.1038/s41558-024-02095-y

Pushing the frontiers in climate modelling and analysis with machine learning

Veronika Eyring, William D. Collins, Pierre Gentine, Elizabeth A. Barnes, Marcelo Barreiro, Tom Beucler, Marc Bocquet, Christopher S. Bretherton, Hannah M. Christensen, Katherine Dagon, David John Gagne, David Hall, Dorit Hammerling, Stephan Hoyer, Fernando Iglesias-Suarez, Ignacio Lopez-Gomez, Marie C. McGraw, Gerald A. Meehl, Maria J. Molina, Claire MonteleoniJuliane Mueller, Michael S. Pritchard, David Rolnick, Jakob Runge, Philip Stier, Oliver Watt-Meyer, Katja Weigel, Rose Yu, Laure Zanna

Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

Climate modelling and analysis are facing new demands to enhance projections and climate information. Here we argue that now is the time to push the frontiers of machine learning beyond state-of-the-art approaches, not only by developing machine-learning-based Earth system models with greater fidelity, but also by providing new capabilities through emulators for extreme event projections with large ensembles, enhanced detection and attribution methods for extreme events, and advanced climate model analysis and benchmarking. Utilizing this potential requires key machine learning challenges to be addressed, in particular generalization, uncertainty quantification, explainable artificial intelligence and causality. This interdisciplinary effort requires bringing together machine learning and climate scientists, while also leveraging the private sector, to accelerate progress towards actionable climate science.

Original language	English (US)
Pages (from-to)	916-928
Number of pages	13
Journal	Nature Climate Change
Volume	14
Issue number	9
DOIs	https://doi.org/10.1038/s41558-024-02095-y
State	Published - Sep 2024

ASJC Scopus subject areas

Environmental Science (miscellaneous)
Social Sciences (miscellaneous)

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Eyring, V., Collins, W. D., Gentine, P., Barnes, E. A., Barreiro, M., Beucler, T., Bocquet, M., Bretherton, C. S., Christensen, H. M., Dagon, K., Gagne, D. J., Hall, D., Hammerling, D., Hoyer, S., Iglesias-Suarez, F., Lopez-Gomez, I., McGraw, M. C., Meehl, G. A., Molina, M. J., ... Zanna, L. (2024). Pushing the frontiers in climate modelling and analysis with machine learning. Nature Climate Change, 14(9), 916-928. https://doi.org/10.1038/s41558-024-02095-y

Eyring, V, Collins, WD, Gentine, P, Barnes, EA, Barreiro, M, Beucler, T, Bocquet, M, Bretherton, CS, Christensen, HM, Dagon, K, Gagne, DJ, Hall, D, Hammerling, D, Hoyer, S, Iglesias-Suarez, F, Lopez-Gomez, I, McGraw, MC, Meehl, GA, Molina, MJ, Monteleoni, C, Mueller, J, Pritchard, MS, Rolnick, D, Runge, J, Stier, P, Watt-Meyer, O, Weigel, K, Yu, R & Zanna, L 2024, 'Pushing the frontiers in climate modelling and analysis with machine learning', Nature Climate Change, vol. 14, no. 9, pp. 916-928. https://doi.org/10.1038/s41558-024-02095-y

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abstract = "Climate modelling and analysis are facing new demands to enhance projections and climate information. Here we argue that now is the time to push the frontiers of machine learning beyond state-of-the-art approaches, not only by developing machine-learning-based Earth system models with greater fidelity, but also by providing new capabilities through emulators for extreme event projections with large ensembles, enhanced detection and attribution methods for extreme events, and advanced climate model analysis and benchmarking. Utilizing this potential requires key machine learning challenges to be addressed, in particular generalization, uncertainty quantification, explainable artificial intelligence and causality. This interdisciplinary effort requires bringing together machine learning and climate scientists, while also leveraging the private sector, to accelerate progress towards actionable climate science.",

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AU - Bocquet, Marc

AU - Bretherton, Christopher S.

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AU - Gagne, David John

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AU - Meehl, Gerald A.

AU - Molina, Maria J.

AU - Monteleoni, Claire

AU - Mueller, Juliane

AU - Pritchard, Michael S.

AU - Rolnick, David

AU - Runge, Jakob

AU - Stier, Philip

AU - Watt-Meyer, Oliver

AU - Weigel, Katja

AU - Yu, Rose

AU - Zanna, Laure

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Pushing the frontiers in climate modelling and analysis with machine learning

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