Theory and the future of land-climate science

Michael P. Byrne; Gabi Hegerl; Jacob Scheff; Ori Adam; Alexis Berg; Michela Biasutti; Simona Bordoni; Aiguo Dai; Ruth Geen; Matthew Henry; Spencer A. Hill; Cathy Hohenegger; Vincent Humphrey; Manoj Joshi; Alexandra G. Konings; Marysa M. Lague; F. Hugo Lambert; Flavio Lehner; Justin S. Mankin; Kaighin A. McColl; Karen A. McKinnon; Angeline G. Pendergrass; Marianne Pietschnig; Luca Schmidt; Andrew Schurer; E. Marian Scott; David Sexton; Steven C. Sherwood; Lucas Vargas Zeppetello; Yi Zhang

doi:10.1038/s41561-024-01553-8

Theory and the future of land-climate science

Michael P. Byrne, Gabi Hegerl, Jacob Scheff, Ori Adam, Alexis Berg, Michela Biasutti, Simona Bordoni, Aiguo Dai, Ruth Geen, Matthew Henry, Spencer A. Hill, Cathy Hohenegger, Vincent Humphrey, Manoj Joshi, Alexandra G. Konings, Marysa M. Lague, F. Hugo Lambert, Flavio Lehner, Justin S. Mankin, Kaighin A. McCollKaren A. McKinnon, Angeline G. Pendergrass, Marianne Pietschnig, Luca Schmidt, Andrew Schurer, E. Marian Scott, David Sexton, Steven C. Sherwood, Lucas Vargas Zeppetello, Yi Zhang

School of Geosciences

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

Abstract

Climate over land—where humans live and the majority of food is produced—is changing rapidly, driving severe impacts through extreme heat, wildfires, drought and flooding. Our ability to monitor and model this changing climate is being transformed through new observational systems and increasingly complex Earth system models. But fundamental understanding of the processes governing land climate has not kept pace, weakening our ability to interpret and utilize data from these advanced tools. Here we argue that for land-climate science to accelerate forwards, an alternative approach is needed. We advocate a parallel scientific effort, one emphasizing robust theories, that aims to inspire current and future land-climate scientists to better comprehend the processes governing land climate, its variability and extremes and its sensitivity to global warming. Such an effort, we believe, is essential to better understand the risks people face, where they live, in an era of climate change.

Original language	English
Pages (from-to)	1079-1086
Journal	Nature Geoscience
Volume	17
Issue number	11
Early online date	11 Oct 2024
DOIs	https://doi.org/10.1038/s41561-024-01553-8
Publication status	Published - Nov 2024

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https://www.nature.com/articles/s41561-024-01553-8

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Byrne, M. P., Hegerl, G., Scheff, J., Adam, O., Berg, A., Biasutti, M., Bordoni, S., Dai, A., Geen, R., Henry, M., Hill, S. A., Hohenegger, C., Humphrey, V., Joshi, M., Konings, A. G., Lague, M. M., Lambert, F. H., Lehner, F., Mankin, J. S., ... Zhang, Y. (2024). Theory and the future of land-climate science. Nature Geoscience, 17(11), 1079-1086. https://doi.org/10.1038/s41561-024-01553-8

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title = "Theory and the future of land-climate science",

abstract = "Climate over land—where humans live and the majority of food is produced—is changing rapidly, driving severe impacts through extreme heat, wildfires, drought and flooding. Our ability to monitor and model this changing climate is being transformed through new observational systems and increasingly complex Earth system models. But fundamental understanding of the processes governing land climate has not kept pace, weakening our ability to interpret and utilize data from these advanced tools. Here we argue that for land-climate science to accelerate forwards, an alternative approach is needed. We advocate a parallel scientific effort, one emphasizing robust theories, that aims to inspire current and future land-climate scientists to better comprehend the processes governing land climate, its variability and extremes and its sensitivity to global warming. Such an effort, we believe, is essential to better understand the risks people face, where they live, in an era of climate change.",

author = "Byrne, {Michael P.} and Gabi Hegerl and Jacob Scheff and Ori Adam and Alexis Berg and Michela Biasutti and Simona Bordoni and Aiguo Dai and Ruth Geen and Matthew Henry and Hill, {Spencer A.} and Cathy Hohenegger and Vincent Humphrey and Manoj Joshi and Konings, {Alexandra G.} and Lague, {Marysa M.} and Lambert, {F. Hugo} and Flavio Lehner and Mankin, {Justin S.} and McColl, {Kaighin A.} and McKinnon, {Karen A.} and Pendergrass, {Angeline G.} and Marianne Pietschnig and Luca Schmidt and Andrew Schurer and Scott, {E. Marian} and David Sexton and Sherwood, {Steven C.} and Zeppetello, {Lucas Vargas} and Yi Zhang",

year = "2024",

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doi = "10.1038/s41561-024-01553-8",

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Byrne, MP, Hegerl, G, Scheff, J, Adam, O, Berg, A, Biasutti, M, Bordoni, S, Dai, A, Geen, R, Henry, M, Hill, SA, Hohenegger, C, Humphrey, V, Joshi, M, Konings, AG, Lague, MM, Lambert, FH, Lehner, F, Mankin, JS, McColl, KA, McKinnon, KA, Pendergrass, AG, Pietschnig, M, Schmidt, L, Schurer, A, Scott, EM, Sexton, D, Sherwood, SC, Zeppetello, LV & Zhang, Y 2024, 'Theory and the future of land-climate science', Nature Geoscience, vol. 17, no. 11, pp. 1079-1086. https://doi.org/10.1038/s41561-024-01553-8

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AU - Byrne, Michael P.

AU - Hegerl, Gabi

AU - Scheff, Jacob

AU - Adam, Ori

AU - Berg, Alexis

AU - Biasutti, Michela

AU - Bordoni, Simona

AU - Dai, Aiguo

AU - Geen, Ruth

AU - Henry, Matthew

AU - Hill, Spencer A.

AU - Hohenegger, Cathy

AU - Humphrey, Vincent

AU - Joshi, Manoj

AU - Konings, Alexandra G.

AU - Lague, Marysa M.

AU - Lambert, F. Hugo

AU - Lehner, Flavio

AU - Mankin, Justin S.

AU - McColl, Kaighin A.

AU - McKinnon, Karen A.

AU - Pendergrass, Angeline G.

AU - Pietschnig, Marianne

AU - Schmidt, Luca

AU - Schurer, Andrew

AU - Scott, E. Marian

AU - Sexton, David

AU - Sherwood, Steven C.

AU - Zeppetello, Lucas Vargas

AU - Zhang, Yi

PY - 2024/11

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N2 - Climate over land—where humans live and the majority of food is produced—is changing rapidly, driving severe impacts through extreme heat, wildfires, drought and flooding. Our ability to monitor and model this changing climate is being transformed through new observational systems and increasingly complex Earth system models. But fundamental understanding of the processes governing land climate has not kept pace, weakening our ability to interpret and utilize data from these advanced tools. Here we argue that for land-climate science to accelerate forwards, an alternative approach is needed. We advocate a parallel scientific effort, one emphasizing robust theories, that aims to inspire current and future land-climate scientists to better comprehend the processes governing land climate, its variability and extremes and its sensitivity to global warming. Such an effort, we believe, is essential to better understand the risks people face, where they live, in an era of climate change.

AB - Climate over land—where humans live and the majority of food is produced—is changing rapidly, driving severe impacts through extreme heat, wildfires, drought and flooding. Our ability to monitor and model this changing climate is being transformed through new observational systems and increasingly complex Earth system models. But fundamental understanding of the processes governing land climate has not kept pace, weakening our ability to interpret and utilize data from these advanced tools. Here we argue that for land-climate science to accelerate forwards, an alternative approach is needed. We advocate a parallel scientific effort, one emphasizing robust theories, that aims to inspire current and future land-climate scientists to better comprehend the processes governing land climate, its variability and extremes and its sensitivity to global warming. Such an effort, we believe, is essential to better understand the risks people face, where they live, in an era of climate change.

U2 - 10.1038/s41561-024-01553-8

DO - 10.1038/s41561-024-01553-8

M3 - Article

SN - 1752-0894

VL - 17

SP - 1079

EP - 1086

JO - Nature Geoscience

JF - Nature Geoscience

IS - 11

ER -

Theory and the future of land-climate science

Abstract

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