Climate change endangering air travel
A recently published study provides the first observation-based evidence to support previous research that human-induced climate change will make severe turbulence up to three times more common by 2050-80
Airline passengers may face a much bumpier ride in the future, according to a study published on August 8, 2019, which found that climate change is having a greater impact on the jet stream than previously thought.
Scientists at the University of Reading in the UK have recently discovered that the jet stream has become 15 per cent more sheared in the upper atmosphere over the North Atlantic since satellites began observing it in 1979.
The study, which was published in the journal Nature, provides the first observation-based evidence to support previous research that human-induced climate change will make severe turbulence up to three times more common by 2050-80.
Vertical wind shear – the increase in wind speed at higher altitudes – causes invisible clear-air turbulence, which can be severe enough to throw airplane passengers out of their seats, researchers said.
It terrifies nervous fliers and injures hundreds of passengers and flight attendants every year, they said.
The recently conducted study shows for the first time that, whilst the temperature difference between Earth's poles and the equator is narrowing at ground level because of climate change, the opposite is happening at around 34,000 feet – a typical airplane cruising altitude.
The jet stream is driven by these temperature differences, and the strengthening trend at cruising altitudes is causing an increase in turbulence-driving wind shear, which had gone unnoticed until now.
"Over the last four decades, temperatures have risen most rapidly over the Arctic, whilst in the stratosphere – around 12 kilometres above the surface – they have cooled," said Simon Lee, PhD student in Meteorology at the University of Reading.
This has created a tug-of-war effect, where surface temperature changes act to slow the jet down, while temperature changes higher up act to speed it up.
"Our study shows these opposing effects currently balance out, meaning the speed of the jet stream has not changed. However, we looked for the first time at the wind shear, where significant change has previously gone unnoticed," the reserachers noted.
"This strengthens previous projections for increased clear-air turbulence, as we can see an increase in one of the driving forces has happened already," they added.
"This has serious implications for airlines, as passengers and crew would face a bigger risk of injury," said Lee.
"Indications of a stronger jet stream in the future suggest the upper-level tug will eventually win out. This would also affect airlines by increasing flight times from Europe towards the US and speeding up flights the other way," he said.
Tens of thousands of planes encounter severe turbulence every year, with an estimated cost to the global aviation sector of up to a billion dollars annually, through flight delays, injuries to cabin crew and passengers, and structural damage to aircraft, researchers further said.