Drilling deep into the Greenland ice sheet, researchers reconstructed the jet stream's tumultuous past and found that climate-caused disruptions are likely to have drastic weather-related consequences for societies on both sides of the Atlantic.
Drilling deep into the Greenland ice sheet, researchers reconstructed the jet stream's tumultuous past and found that climate-caused disruptions are likely to have drastic weather-related consequences for societies on both sides of the Atlantic.
New research provides insights into how the position and intensity of the North Atlantic jet stream has changed during the past 1,250 years. The findings suggest that the position of the jet stream could migrate outside of the range of natural variability by as early as the year 2060 under unabated greenhouse gas emissions, with potentially drastic weather-related consequences for societies on both sides of the Atlantic.
Led by Matthew Osman, a postdoctoral research associate at the University of Arizona Climate Systems Center, the study is published in Proceedings of the National Academy of Sciences.
Familiar to air travelers flying between North America and Europe, the North Atlantic jet stream is the ribbon of prevailing westerly winds circling the Arctic. Often called the "polar jet," these high-altitude winds impact weather and climate across eastern North America and western Europe, accounting for between 10% and 50% of variance in annual precipitation and temperature in both regions. However, little is known about how the jet stream varied during the past, or how it might change in the future.
Read more at University of Arizona
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