Climate Variabilities Synergistically Influence Marine Heatwaves in the North Sea

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Yuxin Lin, Zhiqiang Liu, Feng Zhou, Qicheng Meng, Wenyan Zhang

Published: 30 Oct 2025, Last Modified: 04 Nov 2025CrossrefEveryoneRevisionsCC BY-SA 4.0
Abstract: Yuxin Lin, Zhiqiang Liu, Feng Zhou, Qicheng Meng, and Wenyan Zhang Abstract. Global shelf seas have experienced unprecedented marine heatwaves (MHWs) in recent decades. Although state-of-the-art forecast systems show skilful prediction of MHWs in tropical regions, their limited performance elsewhere highlights the need for a more complete mechanistic understanding at regional scales. Here, we examine MHWs in the Northeastern Atlantic shelf, a region strongly influenced by multiple climate variabilities. Using a correlation-based k-means clustering approach, we identified two distinct subregions with contrasting seasonal patterns. The southern North Sea (Cluster 1) exhibits increased MHW frequency, intensity, and duration in winter, primarily associated with a positive East Atlantic Pattern that typically follows a negative North Atlantic Oscillation in late autumn. These conditions intensify westerly winds and enhance warm Atlantic inflow through both atmospheric and oceanic pathways. In contrast, the northern North Sea (Cluster 2) shows enhanced MHW frequency and duration in summer, driven by teleconnections across multiple ocean basins. The Atlantic Multidecadal Variability modulates these linkages, with its positive phase strengthening Pacific-Atlantic connections via Rossby wave propagation. This north-south contrast demonstrates that different combinations of atmospheric and oceanic processes shape MHW variability across the shelf, providing a physical basis for improving regional MHW prediction. How to cite. Lin, Y., Liu, Z., Zhou, F., Meng, Q., and Zhang, W.: Climate Variabilities Synergistically Influence Marine Heatwaves in the North Sea, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2025-5105, 2025. Received: 15 Oct 2025 – Discussion started: 30 Oct 2025 Publisher's note: Copernicus Publications remains neutral with regard to jurisdictional claims made in the text, published maps, institutional affiliations, or any other geographical representation in this paper. While Copernicus Publications makes every effort to include appropriate place names, the final responsibility lies with the authors. Views expressed in the text are those of the authors and do not necessarily reflect the views of the publisher. Download & links Preprint (PDF, 1818 KB) Download & links Preprint (1818 KB) Metadata XML BibTeX EndNote Share document.addEventListener("DOMContentLoaded", function () { const mobileShareElement = document.querySelector(".mobile-native-share"); if (navigator.share) { // Native sharing is available if (mobileShareElement) { mobileShareElement.style.display = "block"; } } else { // Native sharing is NOT available if (mobileShareElement) { mobileShareElement.style.display = "none"; } } });