Climate science for 2050

Guy Brasseur; Detlef Stammer; Pierre Friedlingstein; Gabriele Hegerl; Tiffany Shaw; Kevin Trenberth; Jadwiga Richter; Carolina Vera; André Berger; Helen Cleugh; Steve Easterbrook; Paul Edwards; Daniela Jacob; Michael Mann; Valérie Masson-Delmotte; Gavin Schmidt; Mary Scholes; Thomas Stocker; Martin Visbeck; Guoxiong Wu

doi:10.3389/fclim.2025.1554685

Climate science for 2050

Guy Brasseur
, Detlef Stammer
, Pierre Friedlingstein
, Gabriele Hegerl
, Tiffany Shaw
, Kevin Trenberth
, Jadwiga Richter
, Carolina Vera
, André Berger
, Helen Cleugh
, Steve Easterbrook
, Paul Edwards
, Daniela Jacob
, Michael Mann
, Valérie Masson-Delmotte
, Gavin Schmidt
, Mary Scholes
, Thomas Stocker
, Martin Visbeck
, Guoxiong Wu

Max Planck Institute for Meteorology
National Center for Atmospheric Research
Universität Hamburg
University of Exeter
University of Edinburgh
Department of the Geophysical Sciences, The University of Chicago
University of Auckland
Conicet - Universidad de Buenos Aires
University of Louvain
Australian National University
University of Toronto
Stanford University
Helmholtz-Zentrum Hereon GmbH
University of Pennsylvania School of Arts and Sciences
Université Versailles-Saint Quentin
NASA Goddard Institute for Space Studies
University of the Witwatersrand, Johannesburg
University of Bern, Institute of Applied Physics
Christian-Albrechts-University Kiel
Institute of Atmospheric Physics Chinese Academy of Sciences

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

Abstract

Knowledge of the functioning of the climate system, including the physical, dynamical and biogeochemical feedback processes expected to occur in response to anthropogenic climate forcing, has increased substantially over recent decades. Today, climate science is at a crossroads, with new and urgent demands arising from the needs of society to deal with future climate change, and the need for the climate science community to refine its strategic goals to meet these demands rapidly. All possible—but currently unknown—worlds in 2050, with a larger global population, unprecedented climate conditions with higher temperatures, more frequent extreme weather events, sea level rise, disrupted ecosystems, changes in habitability and increased climate-induced displacement and migration, and the emergence of new geopolitical tensions, will require limiting society’s vulnerability both through mitigation measures to minimize further warming and through the implementation of innovative adaptation initiatives. The development of a skillful climate information system, based on the most advanced Earth system science, will be required to inform decision-makers and the public around the world about the local and remote impacts of climate change, and guide them in optimizing their adaptation and mitigation agendas. This information will also help manage renewable resources in a warmer world and strengthen resilience to the expected interconnected impacts of climate change. In this paper, we summarize the major advances needed to understand the multiscale dynamics of the Earth system. We highlight the need to develop an integrated information system accessible to decision-makers and citizens in all parts of the world, and present some of the key scientific questions that need to be addressed to inform decisions on mitigation and adaptation. Finally, we speculate about the values and ethics of climate science and the nature of climate research in a world that will be increasingly affected by global warming in a geopolitical context very different from that of recent decades.

Original language	English
Article number	1554685
Journal	Frontiers in Climate
Volume	7
DOIs	https://doi.org/10.3389/fclim.2025.1554685
Publication status	Published - 1 Jan 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 13 Climate Action

Keywords

climate
climate change
climate impacts
forcing and feedbacks
information
resilience

Access to Document

10.3389/fclim.2025.1554685

Cite this

Brasseur, G., Stammer, D., Friedlingstein, P., Hegerl, G., Shaw, T., Trenberth, K., Richter, J., Vera, C., Berger, A., Cleugh, H., Easterbrook, S., Edwards, P., Jacob, D., Mann, M., Masson-Delmotte, V., Schmidt, G., Scholes, M., Stocker, T., Visbeck, M., & Wu, G. (2025). Climate science for 2050. Frontiers in Climate, 7, Article 1554685. https://doi.org/10.3389/fclim.2025.1554685

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abstract = "Knowledge of the functioning of the climate system, including the physical, dynamical and biogeochemical feedback processes expected to occur in response to anthropogenic climate forcing, has increased substantially over recent decades. Today, climate science is at a crossroads, with new and urgent demands arising from the needs of society to deal with future climate change, and the need for the climate science community to refine its strategic goals to meet these demands rapidly. All possible—but currently unknown—worlds in 2050, with a larger global population, unprecedented climate conditions with higher temperatures, more frequent extreme weather events, sea level rise, disrupted ecosystems, changes in habitability and increased climate-induced displacement and migration, and the emergence of new geopolitical tensions, will require limiting society{\textquoteright}s vulnerability both through mitigation measures to minimize further warming and through the implementation of innovative adaptation initiatives. The development of a skillful climate information system, based on the most advanced Earth system science, will be required to inform decision-makers and the public around the world about the local and remote impacts of climate change, and guide them in optimizing their adaptation and mitigation agendas. This information will also help manage renewable resources in a warmer world and strengthen resilience to the expected interconnected impacts of climate change. In this paper, we summarize the major advances needed to understand the multiscale dynamics of the Earth system. We highlight the need to develop an integrated information system accessible to decision-makers and citizens in all parts of the world, and present some of the key scientific questions that need to be addressed to inform decisions on mitigation and adaptation. Finally, we speculate about the values and ethics of climate science and the nature of climate research in a world that will be increasingly affected by global warming in a geopolitical context very different from that of recent decades.",

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AU - Friedlingstein, Pierre

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AU - Shaw, Tiffany

AU - Trenberth, Kevin

AU - Richter, Jadwiga

AU - Vera, Carolina

AU - Berger, André

AU - Cleugh, Helen

AU - Easterbrook, Steve

AU - Edwards, Paul

AU - Jacob, Daniela

AU - Mann, Michael

AU - Masson-Delmotte, Valérie

AU - Schmidt, Gavin

AU - Scholes, Mary

AU - Stocker, Thomas

AU - Visbeck, Martin

AU - Wu, Guoxiong

N1 - Publisher Copyright: Copyright © 2025 Brasseur, Stammer, Friedlingstein, Hegerl, Shaw, Trenberth, Richter, Vera, Berger, Cleugh, Easterbrook, Edwards, Jacob, Mann, Masson-Delmotte, Schmidt, Scholes, Stocker, Visbeck and Wu.

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N2 - Knowledge of the functioning of the climate system, including the physical, dynamical and biogeochemical feedback processes expected to occur in response to anthropogenic climate forcing, has increased substantially over recent decades. Today, climate science is at a crossroads, with new and urgent demands arising from the needs of society to deal with future climate change, and the need for the climate science community to refine its strategic goals to meet these demands rapidly. All possible—but currently unknown—worlds in 2050, with a larger global population, unprecedented climate conditions with higher temperatures, more frequent extreme weather events, sea level rise, disrupted ecosystems, changes in habitability and increased climate-induced displacement and migration, and the emergence of new geopolitical tensions, will require limiting society’s vulnerability both through mitigation measures to minimize further warming and through the implementation of innovative adaptation initiatives. The development of a skillful climate information system, based on the most advanced Earth system science, will be required to inform decision-makers and the public around the world about the local and remote impacts of climate change, and guide them in optimizing their adaptation and mitigation agendas. This information will also help manage renewable resources in a warmer world and strengthen resilience to the expected interconnected impacts of climate change. In this paper, we summarize the major advances needed to understand the multiscale dynamics of the Earth system. We highlight the need to develop an integrated information system accessible to decision-makers and citizens in all parts of the world, and present some of the key scientific questions that need to be addressed to inform decisions on mitigation and adaptation. Finally, we speculate about the values and ethics of climate science and the nature of climate research in a world that will be increasingly affected by global warming in a geopolitical context very different from that of recent decades.

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KW - information

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VL - 7

JO - Frontiers in Climate

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ER -

Climate science for 2050

Abstract

UN SDGs

Keywords

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