Winter is coming: British weather set to become more unsettled

British winters are becoming increasingly volatile due to extreme variations in pressure over the North Atlantic according to scientists from the University of Sheffield and the University of East Anglia (UEA).

The new research, published today in the International Journal of Climatology, shows that weather patterns over the UK have become distinctly more unstable, resulting in contrasting conditions from very mild, wet and stormy to extremely cold, snowy conditions.

Winter weather conditions are commonly defined using the North Atlantic Oscillation (NAO). The NAO is a south-north seesaw of barometric pressure variations over the North Atlantic which indicates the strength of westerly winds impinging on the UK shore and resulting weather patterns.

When westerly winds are strong, known as a positive NAO phase, Britain experiences mild, wet and often stormy weather – like last winter. Weaker or reverse airflow, known as negative NAO phase, typically brings cold, snowy weather, which featured prominently in the winters of 2009/10 and 2010/11.

Prof Phil Jones from UEA’s Climatic Research Unit analysed year-to-year monthly and seasonal changes in the NAO since 1899, with colleagues at the University of Sheffield’s Department of Geography and the Met Office Hadley Centre.

Although the experts found that most seasons didn’t show overall long-term NAO trends, winter - especially early winter including the month of December - showed a significant systematic rise in variation over the last century.

Prof Jones said: “When we look at the month of December in particular, our data shows that over the last 115 years, three out of five all-time record high NAO values and two out of five record lows took place in the last decade. This indicates that British winters have become increasingly unsettled. If this trend continues, we can expect more volatile UK winter weather in decades to come.”

Researchers found from their statistical analysis that there was a less than 0.04 per cent probability of getting such a clustering of extreme NAO years by chance.

Though this trend could be due to random fluctuations in the climate system, it could equally have been influenced by various driving factors including changing pressure/weather systems over the Arctic, especially Greenland, and changes in energy coming from the Sun.

Prof Edward Hanna, from the University of Sheffield’s Department of Geography, said: “Our study highlights the changing nature of North Atlantic atmospheric circulation patterns that has given the UK more variable winter conditions in recent years.

“We cannot use these results directly to predict this winter’s weather but according to the long-term NAO trend we can say that the probability of getting extreme winter weather – either mild/stormy or cold/snowy - has significantly increased in the last few decades. Further research is needed to show whether or not this increased volatility is linked to global warming.”