DisastersNext-gen weather satellites to improve tornado warnings in South

Published 2 March 2012

More than a quarter of the 1,688 twisters confirmed across the United States in 2011 occurred in the four-state region of Alabama, Georgia, Mississippi, and Tennessee – and most of the 73 tornadoes hitting the United States in January 2012 occurred in those four states; southern tornadoes are especially insidious and challenging to track, and NASA’s weather satellites are now paying special attention to them

On 22 and 23 January 2012, more than thirty-seven tornadoes struck the southern United States. Ten of them tore across the Lower Mississippi Valley into Alabama. Worst hit were St. Clair and Jefferson County, Alabama, where two people were killed, about 100 others injured, and at least $30 million in damage was done.

It was a reminder of the April 2011 onslaught of deadly tornadoes that took a staggering toll across southern and Midwestern states.

NASA Science release reports that in southern parts of the United States, tornado season tends to peak in springtime. Yet January 2012 produced seventy-three winter tornadoes — third most of any January in recorded history. Most of them struck southern states. Since over a quarter of the incredible 1,688 twisters confirmed across the United States in 2011 occurred in the four-state region of Alabama, Georgia, Mississippi, and Tennessee, residents there are becoming ever more wary of darkening skies.

Even with our advances in science and communications, we can still be surprised by the deadliest storms,” says NOAA scientist Steve Goodman. “But NOAA is working with NASA and university researchers to give more lead time in tornado warnings.”

Southern tornadoes are especially insidious and challenging to track. The hilly, forested terrain in southern states makes an approaching twister harder to spot than in the flat Midwest. In the south you might not see the first evidence of an approaching tornado until it’s almost in your back yard.

An Alabama resident describes the scene just before one of the April 2011 twisters struck near his home: “Suddenly, all the trees in my back yard corkscrewed violently, in unison, toward the northwest.” Moments later, the storm was there.

Rain wrapped tornadoes are especially hard to see, as are night-time tornadoes. Records indicate that southern tornadoes often strike at night.

To reduce the surprise, NOAA and NASA are developing the Geostationary Operational Environmental Satellite-R, or GOES-R series, with the first expected to launch in late 2015. These next-generation weather satellites bristle with state-of-the-art instruments for improved scouting of these killer storms, even at night.

Tornadoes are, by their very nature, difficult to pin down. The Advanced Baseline Imager (ABI) on GOES-R will improve meteorologists’ ability to assess conditions that spawn twisters. Compared to current GOES imagers, the ABI provides twice the spatial resolution, three times as many channels of information, and more than five times the update rate.

ABI will give us a much clearer picture of the clouds – where and how tall they are, how much and what kind of moisture they hold, and how they are moving and intensifying,” says NOAA research meteorologist Tim Schmit.

Most importantly, ABI can better detect the super-cold “overshooting tops” that mean severe weather is imminent. “Overshooting tops portend huge energy inside the cloud – it takes tremendous energy and upward velocity to poke through the lid of the tropopause,” explains Schmit.

During episodes of severe weather, ABI can show conditions every 30 to 60 seconds. The system in use now only shows them every 7.5 minutes. And in normal mode, ABI will send readings over the continental U.S. every 5 minutes as opposed to every 15-30 minutes.”

Lightning is another key to tornadoes. “Studies show that sudden changes in the total lightning correlate with [the onset of] tornadoes,” says Goodman.

Detecting lightning is a new specialty of GOES-R. “GOES-R’s Geostationary Lightning Mapper, or GLM, will see all the lightning: cloud-to-ground, cloud-to-cloud, and inside each cloud. And since this is the first time we’ll have lightning detection from geostationary orbit, it means GOES-R will constantly monitor and map the lightning across the western hemisphere.”

The GLM is expected to give 7 more minutes of lead time in tornado warnings. Average lead time now is thirteen minutes. “With GOES-R you’ll have upwards of 20 minutes to get to a safe haven.”

That sure beats standing in your back yard, in the dark, waiting for the trees to twist.