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Terra
Terra is a multi-national, multi-disciplinary mission involving partnerships with
the aerospace agencies of Canada and Japan. Managed by
NASA’s Goddard Space Flight Center,
the mission also receives key contributions from the
Jet Propulsion Laboratory and
Langley Research Center. Terra is an
important part of NASA’s Science Mission, helping us better understand and protect our
home planet.
Featured Image
Eruption of Klyuchevskaya Volcano
Larger image (4 MB, JPEG, opens in a new window)
At the northwestern margin of the Pacific Ocean, the tectonic plate underlying the ocean is slowly grinding beneath the leading edge of the tectonic plate bearing the Asian continent. The tremendous heat and pressure of this slow-motion collision melts rock far below the surface. The magma fuels more than a dozen active volcanoes on Russia’s Kamchatka Peninsula.
This image from the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA’s Terra satellite shows an eruption of one of the Kamchatka volcanoes, Klyuchevskaya, on December 8, 2008. The image is made from near-infrared, red, and green light reflected by the surface and detected by ASTER.
Clouds fringe the snow-covered mountain, but an opening at the summit reveals a ribbon of lava flowing down the northwestern flank. A white plume trailing to the east is probably steam, perhaps mixed with ash. The dark color of the summit may mean that snow has been blanketed with rock fragments, ash, and other volcanic debris, or that heat from the eruption has melted the snow. (The MODIS sensor on the Terra satellite captured a wider-area view of the plume the next day.)
Although the Kamchatka Peninsula is not populated, eruptions there generate hazardous volcanic ash plumes that spread into the heavily traveled airspace of the Northern Pacific. Because of the potential hazard they pose to airplanes, even remote volcanoes such as those on Kamchatka need to be monitored.
According to volcanologist Michael Ramsay of the Department of Geology and Planetary Sciences at the University of Pittsburgh, satellites are an integral part of volcano monitoring systems. Weather satellites make observations as frequently as every 15-30 minutes, but they don’t see a lot of detail at the surface. They may detect nothing more than one or two hot pixels in a large image. Scientists follow up on the “thermal alert” with a view from a higher-resolution sensor like ASTER, which makes repeat observations of an area less frequently than a weather satellite, but sees greater detail at the surface.
To hear Michael Ramsay explain more about how satellites are used for monitoring volcanoes, you can listen to a Clear Voices for Science podcast produced for the radio program “EarthSky.”
Links
- Observing Volcanoes, Satellite Thinks for Itself
- Domes of Destruction
- Natural Hazards: Volcanoes and Earthquakes on the Earth Observatory
NASA image created by Jesse Allen, using data provided courtesy of NASA/GSFC/METI/ERSDAC/JAROS, and U.S./Japan ASTER Science Team. Caption by Rebecca Lindsey.
Status Update
August 17 - 23, 2007
(Last Updated 24 August 2007)
Podcasts
Terra Podcasts are courtesy of EarthSky.org.
Ilan Koren on smoke and clouds over the Amazon
January 6, 2009
Download (mp3, 7.32MB)
Jean-Phillippe Avouac on earthquakes
December 15, 2008
Download (mp3, 9.14MB)
Diane Davies on a wildfire alert system
December 8, 2008
Download (mp3, 9.14MB)
Podcast Archive
(Links on this page may leave this site and connect to a non-NASA resource).
Features
Or, visit the individual instrument galleries: ASTER / CERES / MISR / MODIS / MOPITT
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