Sitemap  |  Contact  |  Home  |  CAS  |  中文
Search Chinese
HOME
About Us
Research
People
International Cooperation
Education & Training
Join Us
Publications
Links
 
 
Location: Home > Research Express

Buckle up! Climate Change to Increase Severe Aircraft Turbulence

Turbulence strong enough to catapult unbuckled passengers and crew around the aircraft cabin could become twice or even three times as common because of climate change, according to a new study from the University of Reading published in Advances in Atmospheric Sciences (AAS), an international journal published by Springer and hosted by the Institute of Atmospheric Physics, Chinese Academy of Sciences.

The study is the first ever to examine the future of severe turbulence, which causes planes to undergo random up-and-down motions that are stronger than gravity. Passengers are forced violently against their seat belts, any unsecured objects are tossed about, and food service and walking are impossible.

The study examines several different turbulence strength levels, to investigate how they will each change in future. The results show that the average amount of light turbulence in the atmosphere will increase by 59%, with light-to-moderate turbulence increasing by 75%, moderate by 94%, moderate-to-severe by 127%, and severe by 149%.

The study is selected as the cover article of AAS, Volume 34, Issue 5. Red shading indicates patches of clear-air turbulence within the undulating jet stream over North America and the North Atlantic.  In this issue, Williams (beginning on page 576) shows that the prevalence of transatlantic wintertime clear-air turbulence will increase significantly in all aviation-relevant strength categories as the climate changes.  Also shown are a typical flight route between New York (JFK) and London (LHR) and the measured increase in carbon dioxide (CO2) since the industrial revolution.  The cover is produced based on climate model simulations (image credit: Paul WILLIAMS).

The reason for the increases is that climate change is generating stronger wind shears within the jet stream. The wind shears can become unstable and are a major cause of turbulence.

Dr. Paul WILLIAMS, who conducted the research, said: "Our new study paints the most detailed picture yet of how aircraft turbulence will respond to climate change.

"For most passengers, light turbulence is nothing more than an annoying inconvenience that reduces their comfort levels, but for nervous fliers even light turbulence can be distressing.

"However, even the most seasoned frequent fliers may be alarmed at the prospect of a 149% increase in severe turbulence, which frequently hospitalises air travellers and flight attendants around the world."

The new study uses supercomputer simulations of the atmosphere to calculate how wintertime transatlantic clear-air turbulence will change at an altitude of around 12 km (39,000 feet) when there is twice as much carbon dioxide in the atmosphere - which is widely expected to occur later this century.

Dr. WILLIAMS  added: "My top priority for the future is to investigate other flight routes around the world. We also need to investigate the altitude and seasonal dependence of the changes, and to analyze different climate models and warming scenarios to quantify the uncertainties."

###

Full reference: Williams PD (2017) Increased Light, Moderate, and Severe Clear-Air Turbulence in Response to Climate Change, Adv. Atmos. Sci., Volume 34, Issue 5, Pages 576-586, doi: 10.1007/s00376-017-6268-2.  http://link.springer.com/article/10.1007/s00376-017-6268-2.

 
 
LINKS CONTACT US SITEMAP Message to the Director General
 
  ©Copyright 2014-2024 IAP/CAS, All rights reserved.
Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, People's Republic of China
Tel: +86-10-62028608 82995018 Fax: +86-10-62028604 E-mail: zhangl@mail.iap.ac.cn