Besides laying waste to huge areas of forest, /NaturalHazards/view.php?id=18942 fires burning in Greece in August 2007 released pollutants that traveled across the Mediterranean Sea and into Africa. This image shows --tiny solid or liquid particles suspended in air--observed by the Ozone Monitoring Instrument (OMI) on NASA's Aura satellite layered on the photo-like /Newsroom/BlueMarble/ Blue Marble composite image. Relatively clear air is transparent. Highest aerosol concentrations are pink. On August 26, 2007, aerosols from the fires on the southwestern coast of Greece took a fairly direct route across the Mediterranean Sea to the western part of the Libyan coast. A large pool of smoke collected over the Gulf of Sirte, off the Libyan coast. Another pocket of thick aerosols appears over Algeria. These particles are probably smoke emitted from /NaturalHazards/view.php?id=18956 fires burning in Algeria over a long stretch of the coastal Atlas Mountains. Farther south over the deserts of northern Africa, the light green areas of moderate aerosol amounts could be smoke or dust. On August 27, 2007, aerosols still crossed the Mediterranean Sea, but they took a more circular route. They spread southward in a clockwise direction from Greece, across the island of Crete, and concentrated thickly over eastern Libya. The other large pocket of aerosols--the pink patch hovering over the border of Libya and Algeria--may include smoke from Algeria and Greece. As on the previous day, some aerosols collected over Egypt and eastern Libya. OMI detects the amount of light of different wavelengths that the atmosphere scatters back to space; the amount of backscattered sunlight is affected by what is in the atmosphere. To make an aerosol index with OMI data, scientists compare the amount of ultraviolet (UV) light the atmosphere scatters back at given place and time to the amount of UV light that the atmosphere would scatter back if it were totally clear.