- July 1-31, 2004 (384 kB Quicktime)
In early July 2004, wildfires raged across Alaska, and smoke blew far out to sea. Besides smoke visible to human eyes, the fires produced something else: carbon monoxide. Carbon monoxide is long-lived, and air currents can carry the gas great distances. Because it persists for a long time, carbon monoxide is an effective tracer for the global spread of fire-related pollution.
This global map shows the total column density of carbon monoxide resulting from Alaskan fires in the first two days of July 2004. It is based on observations by the Atmospheric Infrared Sounder (AIRS) on NASA’s Aqua satellite. Carbon monoxide intensity ranges from low (yellow) to high (red), with the highest amount concentrated over Alaska.
The animation shows the movement of carbon monoxide from the Alaskan fires. During the first several days of July 2004, the carbon monoxide spread eastward across Alaska and Canada, dissipating as it moved. By mid-July, another plume of carbon dioxide appeared in the same region as this image shows. The newer, more intense plume, also spread eastward across Canada, and southward into the continental United States. Relatively high concentrations of carbon monoxide appeared over the Atlantic Ocean in late July as another wave of the gas blew eastward from Alaska. AIRS also recorded high levels of carbon monoxide originating in Russia and China.
Carbon monoxide gas results from the incomplete burning of some solids, liquids, or gases. It is tasteless, odorless, and colorless, and in high concentrations, it is a human health hazard. At ground level, high concentrations (higher than those recorded by AIRS) can be fatal to oxygen-breathing organisms. At lower, non-lethal concentrations, carbon monoxide can contribute to the formation of ground-level ozone, which poses its own set of hazards. However, carbon monoxide does not readily react with other chemicals, so it does not easily harm plants or corrode materials. The gas naturally occurs in low concentrations in Earth’s atmosphere. Human activities such as running automobiles and other burning of fossil fuels also produce the gas.
- Beitler, J. (2006, October 17). Tracking nature’s contribution to pollution. Earth Observatory. Accessed September 16, 2008.
- Jet Propulsion Laboratory. Transport of Carbon Monoxide Generated by Alaska Fires, July 2004. Accessed September 16, 2008.
- U.S. Consumer Product Safety Commission. Carbon Monoxide Questions and Answers. Accessed September 16, 2008.
- University Corporation for Atmospheric Research. Windows to the Universe. Carbon Monoxide. Accessed September 16, 2008.
NASA image created by Jesse Allen, using data provided by the AIRS team at NASA JPL. Caption by Michon Scott.