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Emergence of climate change in the tropical Pacific

Jun Ying (), Matthew Collins, Wenju Cai, Axel Timmermann, Ping Huang, Dake Chen and Karl Stein
Additional contact information
Jun Ying: Ministry of Natural Resources
Matthew Collins: University of Exeter
Wenju Cai: Ocean University of China
Axel Timmermann: Institute for Basic Science (IBS)
Ping Huang: Chinese Academy of Sciences
Dake Chen: Ministry of Natural Resources
Karl Stein: Institute for Basic Science (IBS)

Nature Climate Change, 2022, vol. 12, issue 4, 356-364

Abstract: Abstract Future changes in the mean climate of the tropical Pacific and characteristics of the El Niño/Southern Oscillation (ENSO) are established as being likely. Determining the time of emergence of climate change signals from the natural variability is critical for mitigation strategies and adaptation planning. Here, using a multimodel ensemble, we find that the annual-mean sea surface temperature (SST) signal has already emerged across much of the tropical Pacific, appearing last in the east. The signal of a wetter annual-mean rainfall in the east is expected to emerge by mid-century, with some sensitivity to emission scenario. However, the ENSO-related rainfall variability signal is projected to emerge by about 2040 regardless of emission scenario, about 30 years earlier than ENSO-related SST variability signal at about 2070. Our results are instructive for the detection of climate change signals and reinforce the rapidly emerging risks of ENSO-induced climate extremes regardless of mitigation actions.

Date: 2022
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DOI: 10.1038/s41558-022-01301-z

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