Rapid flips between warm and cold extremes in a warming world

Sijia Wu; Ming Luo; Gabriel Ngar Cheung Lau; Wei Zhang; Lin Wang; Zhen Liu; Lijie Lin; Yijing Wang; Erjia Ge; Jianfeng Li; Yuanchao Fan; Yimin Chen; Weilin Liao; Xiaoyu Wang; Xiaocong Xu; Zhixin Qi; Ziwei Huang; Faith Ka Shun Chan; David Yongqin Chen; Xiaoping Liu; Tao Pei

doi:10.1038/s41467-025-58544-5

Rapid flips between warm and cold extremes in a warming world

Sijia Wu, Ming Luo, Gabriel Ngar Cheung Lau, Wei Zhang, Lin Wang, Zhen Liu, Lijie Lin, Yijing Wang, Erjia Ge, Jianfeng Li, Yuanchao Fan, Yimin Chen, Weilin Liao, Xiaoyu Wang, Xiaocong Xu, Zhixin Qi, Ziwei Huang, Faith Ka Shun Chan, David Yongqin Chen, Xiaoping LiuTao Pei

School of Geographical Sciences

Research output: Journal Publication › Article › peer-review

2 Citations (Scopus)

Abstract

Rapid temperature flips are sudden shifts from extreme warm to cold or vice versa–both challenge humans and ecosystems by leaving a very short time to mitigate two contrasting extremes, but are yet to be understood. Here, we provide a global assessment of rapid temperature flips from 1961 to 2100. Warm-to-cold flips favorably follow wetter and cloudier conditions, while cold-to-warm flips exhibit an opposite feature. Of the global areas defined by the Intergovernmental Panel on Climate Change, over 60% have experienced more frequent, intense, and rapid flips since 1961, and this trend will expand to most areas in the future. During 2071–2100 under SSP5-8.5, we detect increases of 6.73–8.03% in flip frequency (relative to 1961–1990), 7.16–7.32% increases in intensity, and 2.47–3.24% decreases in transition duration. Global population exposure will increase over onefold, which is exacerbated in low-income countries (4.08–6.49 times above the global average). Our findings underscore the urgency to understand and mitigate the accelerating hazard flips under global warming.

Original language	English
Article number	3543
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-58544-5
Publication status	Published - Dec 2025

ASJC Scopus subject areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

UN SDGs

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

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10.1038/s41467-025-58544-5

Cite this

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title = "Rapid flips between warm and cold extremes in a warming world",

abstract = "Rapid temperature flips are sudden shifts from extreme warm to cold or vice versa–both challenge humans and ecosystems by leaving a very short time to mitigate two contrasting extremes, but are yet to be understood. Here, we provide a global assessment of rapid temperature flips from 1961 to 2100. Warm-to-cold flips favorably follow wetter and cloudier conditions, while cold-to-warm flips exhibit an opposite feature. Of the global areas defined by the Intergovernmental Panel on Climate Change, over 60% have experienced more frequent, intense, and rapid flips since 1961, and this trend will expand to most areas in the future. During 2071–2100 under SSP5-8.5, we detect increases of 6.73–8.03% in flip frequency (relative to 1961–1990), 7.16–7.32% increases in intensity, and 2.47–3.24% decreases in transition duration. Global population exposure will increase over onefold, which is exacerbated in low-income countries (4.08–6.49 times above the global average). Our findings underscore the urgency to understand and mitigate the accelerating hazard flips under global warming.",

author = "Sijia Wu and Ming Luo and Lau, {Gabriel Ngar Cheung} and Wei Zhang and Lin Wang and Zhen Liu and Lijie Lin and Yijing Wang and Erjia Ge and Jianfeng Li and Yuanchao Fan and Yimin Chen and Weilin Liao and Xiaoyu Wang and Xiaocong Xu and Zhixin Qi and Ziwei Huang and Chan, {Faith Ka Shun} and Chen, {David Yongqin} and Xiaoping Liu and Tao Pei",

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year = "2025",

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doi = "10.1038/s41467-025-58544-5",

language = "English",

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T1 - Rapid flips between warm and cold extremes in a warming world

AU - Wu, Sijia

AU - Luo, Ming

AU - Lau, Gabriel Ngar Cheung

AU - Zhang, Wei

AU - Wang, Lin

AU - Liu, Zhen

AU - Lin, Lijie

AU - Wang, Yijing

AU - Ge, Erjia

AU - Li, Jianfeng

AU - Fan, Yuanchao

AU - Chen, Yimin

AU - Liao, Weilin

AU - Wang, Xiaoyu

AU - Xu, Xiaocong

AU - Qi, Zhixin

AU - Huang, Ziwei

AU - Chan, Faith Ka Shun

AU - Chen, David Yongqin

AU - Liu, Xiaoping

AU - Pei, Tao

PY - 2025/12

Y1 - 2025/12

N2 - Rapid temperature flips are sudden shifts from extreme warm to cold or vice versa–both challenge humans and ecosystems by leaving a very short time to mitigate two contrasting extremes, but are yet to be understood. Here, we provide a global assessment of rapid temperature flips from 1961 to 2100. Warm-to-cold flips favorably follow wetter and cloudier conditions, while cold-to-warm flips exhibit an opposite feature. Of the global areas defined by the Intergovernmental Panel on Climate Change, over 60% have experienced more frequent, intense, and rapid flips since 1961, and this trend will expand to most areas in the future. During 2071–2100 under SSP5-8.5, we detect increases of 6.73–8.03% in flip frequency (relative to 1961–1990), 7.16–7.32% increases in intensity, and 2.47–3.24% decreases in transition duration. Global population exposure will increase over onefold, which is exacerbated in low-income countries (4.08–6.49 times above the global average). Our findings underscore the urgency to understand and mitigate the accelerating hazard flips under global warming.

AB - Rapid temperature flips are sudden shifts from extreme warm to cold or vice versa–both challenge humans and ecosystems by leaving a very short time to mitigate two contrasting extremes, but are yet to be understood. Here, we provide a global assessment of rapid temperature flips from 1961 to 2100. Warm-to-cold flips favorably follow wetter and cloudier conditions, while cold-to-warm flips exhibit an opposite feature. Of the global areas defined by the Intergovernmental Panel on Climate Change, over 60% have experienced more frequent, intense, and rapid flips since 1961, and this trend will expand to most areas in the future. During 2071–2100 under SSP5-8.5, we detect increases of 6.73–8.03% in flip frequency (relative to 1961–1990), 7.16–7.32% increases in intensity, and 2.47–3.24% decreases in transition duration. Global population exposure will increase over onefold, which is exacerbated in low-income countries (4.08–6.49 times above the global average). Our findings underscore the urgency to understand and mitigate the accelerating hazard flips under global warming.

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Rapid flips between warm and cold extremes in a warming world

Abstract

ASJC Scopus subject areas

UN SDGs

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