Jet stream that brought storm Eunice has been getting faster over last century

Jet stream that brought storm Eunice has been getting faster over last century
Mean Seasonal Jet Stream Position overlaying the 2 m air temperature for the period 1871–2011. The dark blue line indicates the mean jet stream position and the green line ± 2 standard deviations of the 6 hourly jet latitude smoothed over 91 days using a Parzen filter, for the period shown, based on the 56 ensemble members. The cyan blue line is ± 2 standard deviations of the 6 hourly jet latitude smoothed over 91 days using a Parzen filter, for the period shown, based on the interannual variability for the period. The jet stream overlays the seasonal average 2 m air temperature. Credit: DOI: 10.1007/s00382-022-06185-5

New research from the University of Southampton shows that the winter jet stream over the North Atlantic and Eurasia has increased its average speed by 8% to 132 miles per hour. The jet stream, which this week brought storms Dudley, Eunice and Franklin to the UK, has also has moved northwards by up to 330 kilometers.

The findings relate to the 141-year period from 1871–2011.

Jet streams are fast bands of air which flow around the globe at about ten thousand meters above Earth's surface. They have a significant influence on storm activity and temperature patterns across the northern hemisphere which can impact the weather through strong winds and flooding events. This is the longest regional study of the northern hemisphere jet stream and the trends observed are potential indicators of climate change.

The new study, published in Climate Dynamics, provides a comparison of the Northern Hemisphere jet stream across oceans and continents and finds that jet stream trends vary on a regional and seasonal basis. Between 1871 and 2011 the average winter movement in jet stream latitude over the North Atlantic was from 44° to 47° north with a 10 miles per hour increase in speed, but no increases were observed over the North Pacific.

The study was led by Dr. Samantha Hallam, from the Maynooth University in Ireland whilst she was undertaking a Ph.D. at the University of Southampton.

Dr. Hallam said: "Significant increases in winter jet latitude and speed are observed over the North Atlantic and Eurasia. These changes are consistent with the decreasing temperature and increasing pressure gradients observed between the equator and the Arctic over the period, and likely associated with the warming Arctic winters."

"Over the North Pacific, no increase in jet latitude or speed are observed, however, changes in the North Pacific sea surface temperatures explains over 50% of the variability in jet latitude."

The results highlight that jet variability and trends differ on a regional basis across the North Atlantic, North Pacific, Eurasia and North America. This is important for making climate predictions and in developing plans to combat climate change.

These findings are the result of a statistical analysis of the 250mb jet stream using the Twentieth Century Reanalysis dataset.


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More information: Samantha Hallam et al, A regional (land–ocean) comparison of the seasonal to decadal variability of the Northern Hemisphere jet stream 1871–2011, Climate Dynamics (2022). DOI: 10.1007/s00382-022-06185-5
Journal information: Climate Dynamics

Citation: Jet stream that brought storm Eunice has been getting faster over last century (2022, February 22) retrieved 8 August 2022 from https://phys.org/news/2022-02-jet-stream-brought-storm-eunice.html
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