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Global climate mode resonance due to rapidly intensifying El Niño-Southern Oscillation

The authors of this study perform simulations with a high-resolution climate model and show that global warming may trigger an abrupt shift in the tropical climate system towards stronger and more predictable ENSO cycles, intensifying climate impacts across the globe.

Malte F. Stuecker
Sen Zhao
Thomas Jung
ResearchOpen Access16 Oct 2025
Nature Communications

Volume: 16, P: 1-13
Long-term evolution of ocean eddy activity in a warming world

Anthropogenic changes in ocean eddies are difficult to distinguish from natural variability due to short satellite records. Here model projections show a poleward shift and intensification of eddy kinetic energy in most eddy-rich regions; however, Gulf Stream eddy activity decreases.

Nathan Beech
Thomas Rackow
Thomas Jung
ResearchOpen Access29 Sept 2022
Nature Climate Change

Volume: 12, P: 910-917
Delayed Antarctic sea-ice decline in high-resolution climate change simulations

Delayed Antarctic sea-ice decline is linked to Southern Ocean eddies - and their explicit treatment in models is crucial. New multi-resolution climate change projections give a possible reason for low confidence in IPCC’s current 21st-century Antarctic sea-ice projections.

Thomas Rackow
Sergey Danilov
Thomas Jung
ResearchOpen Access02 Feb 2022
Nature Communications

Volume: 13, P: 1-12
High-latitude Southern Ocean eddy activity projected to evolve with anthropogenic climate change

Eddy activity in the high-latitude Southern Ocean is closely linked to large-scale circulation features, and the presence of sea ice both decreases eddy population and increases anticyclone proportion, according to a high-resolution modelling study.

Nathan Beech
Thomas Rackow
Thomas Jung
ResearchOpen Access26 Mar 2025
Communications Earth & Environment

Volume: 6, P: 1-13
Subsurface warming in the Antarctica’s Weddell Sea can be avoided by reaching the 2^∘C warming target

A regime shift from cold to warm subsurface waters in the Filchner Trough in Antarctica’s Weddell Sea could increase basal ice shelf melting and decrease land ice buttressing in the future but can be avoided by reaching the 2^∘C warming goal in 2100, according to global climate model simulations under a range of future warming scenarios.

Vanessa Teske
Ralph Timmermann
Tido Semmler
ResearchOpen Access27 Feb 2024
Communications Earth & Environment

Volume: 5, P: 1-12

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Global climate mode resonance due to rapidly intensifying El Niño-Southern Oscillation

Long-term evolution of ocean eddy activity in a warming world

Delayed Antarctic sea-ice decline in high-resolution climate change simulations

High-latitude Southern Ocean eddy activity projected to evolve with anthropogenic climate change

Subsurface warming in the Antarctica’s Weddell Sea can be avoided by reaching the 2∘C warming target

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Subsurface warming in the Antarctica’s Weddell Sea can be avoided by reaching the 2^∘C warming target