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Computer model can predict when tornadoes hit the UK

Around 30 tornadoes occur in the UK each year, researchers say.

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Trees damaged by a tornado

Forecasters can predict when a tornado is likely to hit in the UK with more accuracy thanks to a new computer model.

Around 30 tornadoes occur in the UK each year, 40% of which develop on cold fronts – which specifically occur on the boundary between two masses of air where cold air is advancing forward.

A lack of forecasting methods for these conditions means these tornadoes often strike without warning .

Researchers at the University of Leeds and the Met Office have for the first time created a prediction for how likely tornadoes are to occur on cold fronts.

They say this means a more accurate assessment of tornado risk can be made before a cold front crosses the UK.

Matthew Clark, a Met Office scientist who is currently studying for a PhD at Leeds’s school of earth and environment, said: “Tornadoes are a relatively common weather hazard on UK cold fronts, but the Met Office have never before had any way of predicting which cold fronts are likely to produce tornadoes, nor did we understand why tornadoes occurred in some fronts but not others.

“These findings should help to improve the UK forecasts of localised, intense wind damage associated with these kinds of weather system.

“This should enable organisations and people to take precautions and minimise damage and risk.”

Mr Clark and Douglas Parker, professor of meteorology at the school, analysed tornado reports from the Tornado and Storm Research Organisation (TORRO), radar imagery and surface analysis charts from 114 weather events over a 35 year period.

One such event was the largest tornado outbreak in European history when 104 tornadoes touched down across England and Wales on 23 November, 1981, leaving a trail of damage in their wake.

Looking at patterns across the weather events, the researchers identified which cold fronts were likely to produce a single tornado, which could produce several, and which would produce none.

They found that most of these tornadoes form when a region of strong winds approaches the front from the side belonging to cold air.

According to the researchers, this creates a bulge in the front which helps to make it sharper, increasing the contrast in wind speed and direction across the front.

Where this contrast increases over time, tornadoes are more likely to “spin up” along the front.

According to the paper published in The Quarterly Journal of the Royal Meteorological Society, occasionally, relatively large outbreaks of tornadoes can occur in this situation.

Forecasters can recognise these weather patterns, which alert them to the general risk of a tornado.

Mr Clark and Prof Parker also used their findings to create a predictive tool, which is already being used on an experimental basis by the Met Office to pinpoint regions at increased risk of tornadoes.

Forecasters can now compute a percentage probability that tornadoes will happen by using by using information about the wind ahead and behind the cold front.

The tool was put to use on February 29 this year, successfully predicting the risk of tornadoes in southeast England, with a tornado occurring in Kent as the cold front swept through during the morning.

The researchers hope that this tool will help issue appropriate messages to local responders and airports.

Met Office chief meteorologist, Paul Davies, said: “By explaining, for the first time, how and why tornadoes form in a given weather system, meteorologists are much better prepared to anticipate events in advance, to interpret and challenge the results of numerical weather prediction models, and to communicate their confidence in a given forecast.”

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