Climate extremes and risks: links between climate science and decision-making

Jana Sillmann; Timothy H. Raupach; Kirsten L. Findell; Markus Donat; Lincoln M. Alves; Lisa Alexander; Leonard Borchert; Pablo Borges de Amorim; Carlo Buontempo; Erich M. Fischer; Christian L. Franzke; Bin Guan; Marjolijn Haasnoot; Ed Hawkins; Daniela Jacob; Roché Mahon; Douglas Maraun; Monica A. Morrison; Benjamin Poschlod; Alex C. Ruane; Shampa; Tannecia Stephenson; Narelle van der Wel; Zhuo Wang; Xuebin Zhang; Josipa Županić

doi:10.3389/fclim.2024.1499765

Climate extremes and risks: links between climate science and decision-making

Jana Sillmann^*, Timothy H. Raupach, Kirsten L. Findell, Markus Donat, Lincoln M. Alves, Lisa Alexander, Leonard Borchert, Pablo Borges de Amorim, Carlo Buontempo, Erich M. Fischer, Christian L. Franzke, Bin Guan, Marjolijn Haasnoot, Ed Hawkins, Daniela Jacob, Roché Mahon, Douglas Maraun, Monica A. Morrison, Benjamin Poschlod, Alex C. RuaneShampa, Tannecia Stephenson, Narelle van der Wel, Zhuo Wang, Xuebin Zhang, Josipa Županić

^*Corresponding author for this work

Geomorfologie

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

Abstract

The World Climate Research Programme (WCRP) envisions a future where actionable climate information is universally accessible, supporting decision makers in preparing for and responding to climate change. In this perspective, we advocate for enhancing links between climate science and decision-making through a better and more decision-relevant understanding of climate impacts. The proposed framework comprises three pillars: climate science, impact science, and decision-making, focusing on generating seamless climate information from sub-seasonal, seasonal, decadal to century timescales informed by observed climate events and their impacts. The link between climate science and decision-making has strengthened in recent years, partly owing to undeniable impacts arising from disastrous weather extremes. Enhancing decision-relevant understanding involves utilizing lessons from past extreme events and implementing impact-based early warning systems to improve resilience. Integrated risk assessment and management require a comprehensive approach that encompasses good knowledge about possible impacts, hazard identification, monitoring, and communication of risks while acknowledging uncertainties inherent in climate predictions and projections, but not letting the uncertainty lead to decision paralysis. The importance of data accessibility, especially in the Global South, underscores the need for better coordination and resource allocation. Strategic frameworks should aim to enhance impact-related and open-access climate services around the world. Continuous improvements in predictive modeling and observational data are critical, as is ensuring that climate science remains relevant to decision makers locally and globally. Ultimately, fostering stronger collaborations and dedicated investments to process and tailor climate data will enhance societal preparedness, enabling communities to navigate the complexities of a changing climate effectively.

Original language	English
Article number	1499765
Journal	Frontiers in Climate
Volume	6
DOIs	https://doi.org/10.3389/fclim.2024.1499765
Publication status	Published - 18 Dec 2024

Bibliographical note

Publisher Copyright:
Copyright © 2024 Sillmann, Raupach, Findell, Donat, Alves, Alexander, Borchert, Borges de Amorim, Buontempo, Fischer, Franzke, Guan, Haasnoot, Hawkins, Jacob, Mahon, Maraun, Morrison, Poschlod, Ruane, Shampa, Stephenson, van der Wel, Wang, Zhang and Županić.

Keywords

climate change
climate extremes
climate impacts
climate risk
climate service
decision making

UN SDGs

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

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fclim-1-1499765Final published version, 762 KBLicence: CC BY

Cite this

Sillmann, J., Raupach, T. H., Findell, K. L., Donat, M., Alves, L. M., Alexander, L., Borchert, L., de Amorim, P. B., Buontempo, C., Fischer, E. M., Franzke, C. L., Guan, B., Haasnoot, M., Hawkins, E., Jacob, D., Mahon, R., Maraun, D., Morrison, M. A., Poschlod, B., ... Županić, J. (2024). Climate extremes and risks: links between climate science and decision-making. Frontiers in Climate, 6, Article 1499765. https://doi.org/10.3389/fclim.2024.1499765

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abstract = "The World Climate Research Programme (WCRP) envisions a future where actionable climate information is universally accessible, supporting decision makers in preparing for and responding to climate change. In this perspective, we advocate for enhancing links between climate science and decision-making through a better and more decision-relevant understanding of climate impacts. The proposed framework comprises three pillars: climate science, impact science, and decision-making, focusing on generating seamless climate information from sub-seasonal, seasonal, decadal to century timescales informed by observed climate events and their impacts. The link between climate science and decision-making has strengthened in recent years, partly owing to undeniable impacts arising from disastrous weather extremes. Enhancing decision-relevant understanding involves utilizing lessons from past extreme events and implementing impact-based early warning systems to improve resilience. Integrated risk assessment and management require a comprehensive approach that encompasses good knowledge about possible impacts, hazard identification, monitoring, and communication of risks while acknowledging uncertainties inherent in climate predictions and projections, but not letting the uncertainty lead to decision paralysis. The importance of data accessibility, especially in the Global South, underscores the need for better coordination and resource allocation. Strategic frameworks should aim to enhance impact-related and open-access climate services around the world. Continuous improvements in predictive modeling and observational data are critical, as is ensuring that climate science remains relevant to decision makers locally and globally. Ultimately, fostering stronger collaborations and dedicated investments to process and tailor climate data will enhance societal preparedness, enabling communities to navigate the complexities of a changing climate effectively.",

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author = "Jana Sillmann and Raupach, {Timothy H.} and Findell, {Kirsten L.} and Markus Donat and Alves, {Lincoln M.} and Lisa Alexander and Leonard Borchert and {de Amorim}, {Pablo Borges} and Carlo Buontempo and Fischer, {Erich M.} and Franzke, {Christian L.} and Bin Guan and Marjolijn Haasnoot and Ed Hawkins and Daniela Jacob and Roch{\'e} Mahon and Douglas Maraun and Morrison, {Monica A.} and Benjamin Poschlod and Ruane, {Alex C.} and Shampa and Tannecia Stephenson and {van der Wel}, Narelle and Zhuo Wang and Xuebin Zhang and Josipa {\v Z}upani{\'c}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 Sillmann, Raupach, Findell, Donat, Alves, Alexander, Borchert, Borges de Amorim, Buontempo, Fischer, Franzke, Guan, Haasnoot, Hawkins, Jacob, Mahon, Maraun, Morrison, Poschlod, Ruane, Shampa, Stephenson, van der Wel, Wang, Zhang and {\v Z}upani{\'c}.",

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Sillmann, J, Raupach, TH, Findell, KL, Donat, M, Alves, LM, Alexander, L, Borchert, L, de Amorim, PB, Buontempo, C, Fischer, EM, Franzke, CL, Guan, B, Haasnoot, M, Hawkins, E, Jacob, D, Mahon, R, Maraun, D, Morrison, MA, Poschlod, B, Ruane, AC, Shampa, Stephenson, T, van der Wel, N, Wang, Z, Zhang, X & Županić, J 2024, 'Climate extremes and risks: links between climate science and decision-making', Frontiers in Climate, vol. 6, 1499765. https://doi.org/10.3389/fclim.2024.1499765

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T2 - links between climate science and decision-making

AU - Sillmann, Jana

AU - Raupach, Timothy H.

AU - Findell, Kirsten L.

AU - Donat, Markus

AU - Alves, Lincoln M.

AU - Alexander, Lisa

AU - Borchert, Leonard

AU - de Amorim, Pablo Borges

AU - Buontempo, Carlo

AU - Fischer, Erich M.

AU - Franzke, Christian L.

AU - Guan, Bin

AU - Haasnoot, Marjolijn

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AU - Jacob, Daniela

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AU - Ruane, Alex C.

AU - Shampa,

AU - Stephenson, Tannecia

AU - van der Wel, Narelle

AU - Wang, Zhuo

AU - Zhang, Xuebin

AU - Županić, Josipa

N1 - Publisher Copyright: Copyright © 2024 Sillmann, Raupach, Findell, Donat, Alves, Alexander, Borchert, Borges de Amorim, Buontempo, Fischer, Franzke, Guan, Haasnoot, Hawkins, Jacob, Mahon, Maraun, Morrison, Poschlod, Ruane, Shampa, Stephenson, van der Wel, Wang, Zhang and Županić.

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AB - The World Climate Research Programme (WCRP) envisions a future where actionable climate information is universally accessible, supporting decision makers in preparing for and responding to climate change. In this perspective, we advocate for enhancing links between climate science and decision-making through a better and more decision-relevant understanding of climate impacts. The proposed framework comprises three pillars: climate science, impact science, and decision-making, focusing on generating seamless climate information from sub-seasonal, seasonal, decadal to century timescales informed by observed climate events and their impacts. The link between climate science and decision-making has strengthened in recent years, partly owing to undeniable impacts arising from disastrous weather extremes. Enhancing decision-relevant understanding involves utilizing lessons from past extreme events and implementing impact-based early warning systems to improve resilience. Integrated risk assessment and management require a comprehensive approach that encompasses good knowledge about possible impacts, hazard identification, monitoring, and communication of risks while acknowledging uncertainties inherent in climate predictions and projections, but not letting the uncertainty lead to decision paralysis. The importance of data accessibility, especially in the Global South, underscores the need for better coordination and resource allocation. Strategic frameworks should aim to enhance impact-related and open-access climate services around the world. Continuous improvements in predictive modeling and observational data are critical, as is ensuring that climate science remains relevant to decision makers locally and globally. Ultimately, fostering stronger collaborations and dedicated investments to process and tailor climate data will enhance societal preparedness, enabling communities to navigate the complexities of a changing climate effectively.

KW - climate change

KW - climate extremes

KW - climate impacts

KW - climate risk

KW - climate service

KW - decision making

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JO - Frontiers in Climate

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M1 - 1499765

ER -

Climate extremes and risks: links between climate science and decision-making

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

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