NASA scientists are using former military surveillance drones to help them understand more about how tropical storms intensify, which they say could ultimately save lives by improving forecast models that predict a hurricane's strength.
The unmanned Global Hawk aircraft were designed to perform high-altitude, long-endurance reconnaissance and intelligence missions for the Air Force. Two of the original Global Hawks built in the developmental process for the military have found
new life as part of NASA's research mission, studying storms that form over the Atlantic Ocean.
NASA planned to launch one of the drones from its Wallops Flight Facility today to study Tropical Storm Gabrielle, which re-formed in the Atlantic yesterday.
"The biggest scientific question we're trying to attack is why do some hurricanes intensify very rapidly and why do others not intensify at all? In the last 20 years, we've made terrific progress in forecasting where hurricane tracks will go," said Paul Newman, deputy project scientist for the research mission.
"But we've made almost no progress in the past 20 years in forecasting intensity."
More accurately predicting a storm's intensity would help government officials and coastal residents decide whether an evacuation is needed, as well as avoid developing a false sense of security among residents who frequently cite failed storm expectations as a reason not to leave their homes when warned to do so.
There are two questions on which NASA scientists primarily want the drone research to focus. One is what role thunderstorms within a hurricane play in its intensification.
Researchers aren't sure if the thunderstorms are a driver of storm intensity or a symptom of it.
The other is what role the Saharan Air Layer plays in the tropical storm development. The Saharan Air Layer is a dry, hot, dusty layer of air from Africa. Scientists have been at odds with each other over whether it helps hurricanes strengthen or does the opposite.
One school of thought is that the Saharan Air Layer provides energy for storms to grow, while others have suggested it is a negative influence on storm growth because of the effect the dry air has on wet storms.
"There's a bit of a debate in