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Meltwater in the North Atlantic may lead to summer heatwaves in Europe 

Warming over Europe after strong freshwater releases in the North Atlantic may add to the warming already happening because of climate change by causing weather patterns to shift

Melwater in North Atlantic
Image: Freepik

Scientists from the National Oceanography Centre (NOC) have discovered that increased meltwater in the North Atlantic can trigger a chain of events leading to hotter and drier European summers.

The paper, which will be published in the European Geosciences Union’s open-access journal Weather and Climate Dynamics, suggests that European summer weather is predictable months to years in advance due to higher levels of freshwater in the North Atlantic.

Discussing the implications, lead author Marilena Oltmanns, a research scientist at the National Oceanography Centre, said: “While the UK and northern Europe experienced unusually cool and wet weather in summer 2023, Greenland experienced an unusually warm summer, leading to increased freshwater input into the North Atlantic. Based on the identified chain of events, we expect that the ocean-atmosphere conditions will be favourable for an unusually warm and dry summer over southern Europe this year.”

Oltmanns continued: “Depending on the pathway of the freshwater in the North Atlantic, we are also expecting a warm and dry summer in northern Europe within the next five years. We will be able to estimate the exact year of the warm and dry summer in northern Europe more closely in the winter before it occurs.”

Melting sea ice and glacial ice are a growing source of freshwater in the North Atlantic, and changes in the amount of sea ice can disrupt normal ocean circulation, influencing global climate. With increases in ice melt, the study suggests that European heatwaves and droughts will become more intense in the future. The warming over Europe after strong freshwater releases in the North Atlantic will add to the warming already happening because of climate change by causing weather patterns to shift.

In conclusion, Oltmanns shared: “Our findings demonstrate the importance of ocean observations to ensure climate models capture all physical processes required to make accurate weather predictions. This study is a step forward for improving models, which will enable industries and stakeholders to plan for specific weather conditions, such as adapting agricultural methods to be more resilient, predicting fuel usage, and bracing for flooding events.”

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