Last update: October 18th, 2019 at 10:01 am
In early February 2015, Turkey was pummeled by strong southwesterly winds known locally as lodos. The winds grounded flights, collapsed buildings, and stirred up large waves. They also helped bring ashore a cloud of dust that originated in Africa’s Sahara Desert.
The Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Aqua satellite acquired the above image of the dust storm on February 1, 2015. The natural-color image shows the dust as it moved from North Africa, swept northeast over the Mediterranean Sea, and entered the atmosphere over Turkey and Greece. According to NPR news, the dusty winds turned the sky orange in Istanbul (north of this image).
Data from the Ozone Mapping Profiler Suite (OMPS) on the Suomi NPP satellite provided a different view of the storm. Aerosol concentrations in the air are represented by a quantity known as the aerosol index, shown in the lower image acquired on February 1. High concentrations are represented with shades of deep red and the lowest with light yellow.
It’s typical to see high concentrations of dust in the atmosphere where a storm originated, according to NASA atmospheric scientist Colin Seftor. However, dust in this storm retained high concentrations out into the Mediterranean. It’s “quite unusual” to have such high values this far from the source, he said.
The timing of the storm was also unusual. “Such intense dust storms over the Mediterranean are most common in spring, so this is clearly early for the season,” said University of Leeds meteorologist Peter Knippertz.
According to Knippertz, initiation of the dust storm appeared to be associated with a cyclone that crossed Africa’s Atlas Mountains. The cyclone’s trailing cold front caused intense uplift, and then the dust plume moved northeast toward Turkey. “The cyclone itself was not unusual but the length, intensity, and southern position of the cold front were,” he said.