Early warning of complex climate risk with integrated artificial intelligence

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Abstract

As climate change accelerates, human societies face growing exposure to disasters and stress, highlighting the urgent need for effective early warning systems (EWS). These systems monitor, assess, and communicate risks to support resilience and sustainable development, but challenges remain in hazard forecasting, risk communication, and decision-making. This perspective explores the transformative potential of integrated Artificial Intelligence (AI) modeling. We highlight the role of AI in developing multi-hazard EWSs that integrate Meteorological and Geospatial foundation models (FMs) for impact prediction. A user-centric approach with intuitive interfaces and community feedback is emphasized to improve crisis management. To address climate risk complexity, we advocate for causal AI models to avoid spurious predictions and stress the need for responsible AI practices. We highlight the FATES (Fairness, Accountability, Transparency, Ethics, and Sustainability) principles as essential for equitable and trustworthy AI-based Early Warning Systems for all. We further advocate for decadal EWSs, leveraging climate ensembles and generative methods to enable long-term, spatially resolved forecasts for proactive climate adaptation.

Abstract

In the era of climate change, human societies face growing exposure to disasters and complex climate risks. This perspective explores the transformative potential of integrated Artificial Intelligence in developing multi-hazard Early Warning Systems for all.

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Most cited references 62

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The ERA5 Global Reanalysis

Hans Hersbach, Bill D. Bell, Paul Berrisford … (2020)

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Deep learning and process understanding for data-driven Earth system science

Markus Reichstein, Gustau Camps-Valls, Bjorn Stevens … (2019)

Machine learning approaches are increasingly used to extract patterns and insights from the ever-increasing stream of geospatial data, but current approaches may not be optimal when system behaviour is dominated by spatial or temporal context. Here, rather than amending classical machine learning, we argue that these contextual cues should be used as part of deep learning (an approach that is able to extract spatio-temporal features automatically) to gain further process understanding of Earth system science problems, improving the predictive ability of seasonal forecasting and modelling of long-range spatial connections across multiple timescales, for example. The next step will be a hybrid modelling approach, coupling physical process models with the versatility of data-driven machine learning.

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The quiet revolution of numerical weather prediction.

Peter Bauer, Alan Thorpe, Gilbert Brunet (2015)

Advances in numerical weather prediction represent a quiet revolution because they have resulted from a steady accumulation of scientific knowledge and technological advances over many years that, with only a few exceptions, have not been associated with the aura of fundamental physics breakthroughs. Nonetheless, the impact of numerical weather prediction is among the greatest of any area of physical science. As a computational problem, global weather prediction is comparable to the simulation of the human brain and of the evolution of the early Universe, and it is performed every day at major operational centres across the world.

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Author and article information

Contributors

Markus Reichstein:

ORCID: http://orcid.org/0000-0001-5736-1112

mreichstein@bgc-jena.mpg.de

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group UK (London )

ISSN (Electronic): 2041-1723

Publication date (Electronic): 15 March 2025

Publication date PMC-release: 15 March 2025

Publication date Collection: 2025

Volume: 16

Electronic Location Identifier: 2564

Affiliations

[1 ]Amazon Web Services, ( https://ror.org/04mv4n011) Seattle and Santa Clara, WA and CA USA

[2 ]ELLIS Unit Jena, Jena, Germany

[3 ]Max-Planck-Institute for Biogeochemistry, ( https://ror.org/051yxp643) Jena, Germany

[4 ]ETH Zurich, ( https://ror.org/05a28rw58) Zurich, Switzerland

[5 ]University of Jena, ( https://ror.org/05qpz1x62) Jena, Germany

[6 ]University of Valencia, ( https://ror.org/043nxc105) Valencia, Spain

[7 ]Potsdam Institute for Climate Impact Research, ( https://ror.org/03e8s1d88) Potsdam and Berlin, Germany

[8 ]University of Sussex, ( https://ror.org/00ayhx656) Sussex, UK

[9 ]University College London, ( https://ror.org/02jx3x895) London, UK

[10 ]Lamont-Doherty Earth Observatory, Columbia University, ( https://ror.org/00hj8s172) New York, NY USA

[11 ]International Institute for Applied Systems Analysis (IIASA), ( https://ror.org/02wfhk785) Laxenburg, Austria

[12 ]Max-Planck-Institute for Intelligent Systems, ( https://ror.org/04fq9j139) Tübingen, Germany

[13 ]ELLIS Institute Tübingen, Tübingen, Germany

[14 ]KTH Royal Institute of Technology, ( https://ror.org/026vcq606) Stockholm, Sweden

[15 ]German Red Cross, ( https://ror.org/02y3dtg29) Berlin, Germany

[16 ]World Food Program, ( https://ror.org/04kx2vh28) Rome, Italy

[17 ]Kenya Red Cross, Nairobi, Kenya

Author information

Markus Reichstein http://orcid.org/0000-0001-5736-1112

Vitus Benson http://orcid.org/0000-0003-4760-5501

Jan Blunk http://orcid.org/0009-0001-7037-3545

Gustau Camps-Valls http://orcid.org/0000-0003-1683-2138

Felix Creutzig http://orcid.org/0000-0002-5710-3348

Carina J. Fearnley http://orcid.org/0000-0003-0102-1391

Boran Han http://orcid.org/0000-0001-9567-7062

Kai Kornhuber http://orcid.org/0000-0001-5466-2059

Bernhard Schölkopf http://orcid.org/0000-0002-8177-0925

José María Tárraga http://orcid.org/0000-0002-3723-1692

Ricardo Vinuesa http://orcid.org/0000-0001-6570-5499

Joachim Denzler http://orcid.org/0000-0002-3193-3300

Giulia Martini http://orcid.org/0000-0002-9611-2191

Article

Publisher ID: 57640

DOI: 10.1038/s41467-025-57640-w

PMC ID: 11910612

PubMed ID: 40089483

SO-VID: c02e905f-dbc5-4134-93e7-adcaaaf7121e

License:

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

History

Date received : 12 May 2024

Date accepted : 27 February 2025

Funding

Funded by: FundRef https://doi.org/10.13039/100010663, EC | EU Framework Programme for Research and Innovation H2020 | H2020 Priority Excellent Science | H2020 European Research Council (H2020 Excellent Science - European Research Council);

Award ID: 855187

Award Recipient : Markus Reichstein

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ScienceOpen disciplines: Uncategorized

Keywords: environmental impact,natural hazards

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ScienceOpen disciplines: Uncategorized

Keywords: environmental impact, natural hazards

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Early warning of complex climate risk with integrated artificial intelligence

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Climate Change: Open Access

Most cited references 62

The ERA5 Global Reanalysis

Deep learning and process understanding for data-driven Earth system science

The quiet revolution of numerical weather prediction.

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