Science Extract: A recent study confirms that the unprecedented surge in global sea surface temperatures (SSTs) observed in 2023-2024, shattering previous records, was an extreme event, but not entirely unexpected within the context of long-term climate change. The research highlights the ability of climate models to simulate such dramatic shifts, while also underscoring the disproportionate vulnerability of the Global South to these changes.
Published in Nature, the study addresses concerns about whether climate models can accurately represent the scale of recent ocean warming. By analyzing 270 simulations from a wide range of climate models, researchers demonstrated that these models can indeed simulate record-shattering jumps in global SSTs, lending confidence to their use in assessing regional climate risks.
The analysis reveals that the observed SST jump, which exceeded the previous record by 0.25°C, is estimated to be a 1-in-512-year event under the current warming trend. Without anthropogenic warming, such an extreme event would have been practically impossible. This underscores the profound impact of human activities on the Earth’s climate system.
Implications for the Global South: The study’s findings have particularly dire implications for the Global South, where communities are already facing the brunt of climate change impacts, including increased frequency and intensity of marine heatwaves, sea-level rise, and disruptions to fisheries and agriculture.
The research also sheds light on the conditions that contribute to these extreme SST jumps. The models suggest that these events often coincide with El Niño events, highlighting the interplay between long-term warming trends and natural climate variability. However, the study also emphasizes that a strong El Niño is a necessary, but not sufficient, condition for such a record-shattering event.
Key Takeaways for the Global South:
- Climate Model Validation: The study validates the ability of climate models to simulate extreme SST events, providing valuable tools for assessing regional climate risks in the Global South.
- Disproportionate Vulnerability: The research underscores the disproportionate vulnerability of the Global South to the impacts of extreme SST events, highlighting the need for adaptation measures and increased resilience.
- Urgent Mitigation: The study reinforces the urgent need for global climate mitigation efforts to reduce the risk of future extreme events and protect vulnerable communities in the Global South.
The study emphasizes that while the 2023-2024 SST jump was an extreme event, it is not necessarily indicative of a permanent shift to a new, higher warming trajectory. The models suggest that SSTs are likely to revert to the expected long-term warming trend in the coming years. However, the potential for future record-shattering events remains a significant threat, particularly for the Global South, where adaptive capacity is often limited.
The research underscores the urgent need for global cooperation to address climate change, prioritizing the needs of vulnerable communities in the Global South through increased investment in adaptation, mitigation, and sustainable development.
Reference: Terhaar, J., Burger, F. A., Vogt, L., Frölicher, T. L., & Stocker, T. F. (2025). Record sea surface temperature jump in 2023-2024 unlikely but not unexpected. Nature, 639, 942-946. https://doi.org/10.1038/s41586-025-08674-z