There’s Something in the Air
acquired 2005 - 2016

Lightning does not flash everywhere equally on Earth. The phenomenon occurs more often over land than over the oceans, and more often in areas closer to the equator than in the mid- and high latitudes. According to recent research led by Joel Thornton, an atmospheric scientist at the University of Washington, humans also can affect where lightning flashes.

The connection between people and lightning is visible along two of the world’s busiest shipping lanes in the Indian Ocean and the South China Sea. The top map shows the emissions of particles from ship exhaust (orange), calculated from a database of maritime vessel traffic in the region. The second map shows the average density of lightning per year from 2005 to 2016, as detected by the World Wide Lightning Location Network (WWLLN). The narrow light-purple bands indicate where increases in lightning occurred. Turn on the image comparison tool to see where areas of increased lightning coincide with shipping routes.

The researchers found that on average, the frequency of lightning over shipping lanes is double that which occurs in the regions immediately adjacent to those lanes. “It has been a surprise to find this feature in the data and to have it be so clearly pronounced,” Thornton said. He notes that the idea of aerosol particles influencing storm intensity and lightning has been discussed for more than a decade, but that there has not been consensus that the effect would be important. “Our finding provides one of the clearest examples of a human perturbation to aerosol particles and lightning in an otherwise clean region.”

The WWLLN is a treasure trove of data, with ground-based sensors recording lightning strokes around the planet. Work by Katrina Virts, an atmospheric scientist at NASA’s Marshall Space Flight Center, recently made the network even more valuable. By reprocessing the global lightning climatology, she was able to increase the resolution by a factor of five. The location of lightning strokes can now be pinpointed to within 10 square kilometers.

Virts’ high-resolution maps led Thornton and colleagues to pursue the hypothesis that ship exhaust was enhancing lightning. The team compared surface lightning data observed in the Indian Ocean shipping lanes with data from the Lightning Imaging Sensor on the Tropical Rainfall Measuring Mission (TRMM) satellite. They also used radar data from TRMM to test whether certain parts of the storm clouds contained more liquid droplets amidst the water vapor and ice particles. Such an increase would occur if the particles in ship exhaust were changing cloud structure in the area.

“Our results indicate the ship exhaust particles are, in fact, changing what would be a tropical rain storm into a thunderstorm—from no lightning to a storm with lightning,” Thornton said. “Or, the particles are increasing the vertical development of thunderstorms to have even more lightning than they otherwise would have.”

NASA Earth Observatory images by Joshua Stevens, using data from Thornton, Joel A., et al. (2017). Story by Kathryn Hansen.

Instrument(s): 
In situ Measurement

There’s Something in the Air

December 14, 2017
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