Med summer MHW triggered by weaker winds under subtropical ridges

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Mediterranean summer marine heatwaves triggered by weaker winds under subtropical ridges

Marine heatwaves, extended periods of elevated sea surface temperature, impact society and ecosystems, and deeper understanding of their drivers is needed to predict and mitigate adverse effects. These events can be particularly severe in the Mediterranean Sea during the summer although the factors that control their occurrence and duration are not fully known. Here we use a comprehensive multi-decadal macroevent dataset and a cluster analysis to investigate the atmospheric dynamics preceding the largest summer marine heatwaves in the Mediterranean Sea. Our study identifies the favourable conditions leading up to marine heatwave peaks and reveals that their main synoptic cause in the Mediterranean Sea is the combined effect of persistent subtropical anticyclonic ridges and associated weakening of prevailing wind systems. When persistent subtropical ridges are established over the region, the resulting decrease in wind speeds causes a substantial reduction in latent heat loss to the atmosphere, which accounts for over 70% of the total heat flux in affected regions. This reduction, combined with a moderate increase in short-wave radiation, generates and intensifies marine heatwaves. This synergistic relationship represents a key mechanism that is critical for skilfully predicting such atmospheric circulation patterns and realistically simulating their impacts on the marine environment.

The underlying publication:

Bonino, G., McAdam, R., Athanasiadis, P. et al. Mediterranean summer marine heatwaves triggered by weaker winds under subtropical ridges. Nat. Geosci. 18, 848–853 (2025). https://doi.org/10.1038/s41561-025-01762-9

Our speaker

Giulia Bonino is a research scientist at CMCC. She graduated from the PhD program in Science and Management of Climate Change at Ca’ Foscari University of Venice/CMCC, focusing on the variability of Eastern Boundary Upwelling Systems (EBUS) within an ocean modelling framework (NEMO). She has a strong background in physical oceanography and marine extremes (e.g., marine heatwaves), developed through projects such as FEVERSEA and ObsSea4Clim, and is gaining expertise in coupled physical-biogeochemical coastal modelling through international projects like NECCTON and ACTNOW.

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