Study finds factors causing recent miserable wet summers in UK

In a bid to help forecasters predict a clearer picture of the weather, scientists in the UK have found factors causing the recent "miserable" wet summers.
Researchers from the University of Sheffield and the MeT office have identified a number of possible factors that may influence the Atlantic jet stream and therefore help to predict summer climate from one year to the next, according to a study published in 'Climate Dynamics' journal.
The summer weather in the UK and northwest Europe is influenced by the position and strength of the Atlantic jet stream- a ribbon of very strong winds which are caused by the temperature difference between tropical and polar air masses.

A northward shift in the stream tends to direct low-pressure systems northwards and away from the UK, leading to warm and dry weather during summers.
But, if the summer jet slips southwards it can lead to the jet shifting the low-pressure systems directly over the UK, causing miserable weather, experienced in the first half of this summer, the study said.
On "why does the jet stream shift?", the report, led by PhD student Richard Hall and Professor Edward Hanna from the University of Sheffield's Department of Geography, discovered that up to 35 per cent of this variability may be predictable- a significant advance which may help in the development of seasonal forecasting models.

Hall said, "There is nothing people in the UK like to discuss more than the weather. This is because it can fluctuate so drastically - we can be basking in high temperatures and sunshine one week only to be struck by heavy downpours and strong winds in the next".

The findings suggest the latitude of the Atlantic jet stream in summer is influenced by several factors, including sea surface temperatures, solar variability, and the extent of Arctic sea-ice, indicating a potential long-term memory and predictability in the climate system, Hall said.
Edward Hanna, Professor of Climate Change at University of Sheffield said, "Working with the MeT office, we were able to look at the different factors which may influence the jet stream and which paves the way for improvements in long-term forecasting".

Professor Adam Scaife, Head of long range forecasting at the MeT office said, "We've made big inroads into long-range forecasts for winter but are still limited to shorter-range weather forecasts in summer. Studies like this help to identify ways to break into the long-range summer forecast problem".
The study was funded by the University of Sheffield's 'Project Sunshine', now the Grantham Centre for Sustainable Futures, and was conducted in collaboration with the University's School of Mathematics and Statistics (SOMAS).
Further research will seek to "establish" the physical mechanisms behind these links and identify the different influences that jet speed and latitude bring to bear on summer weather.