Thermal Structure and Dynamics of Saturn's Northern Springtime Disturbance

Saturn's slow seasonal evolution was disrupted in 2010–2011 by the eruption of a bright storm in its northern spring hemisphere. Thermal infrared spectroscopy showed that within a month, the resulting planetary-scale disturbance had generated intense perturbations of atmospheric temperatures, w...

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Bibliographic Details
Published in:Science (American Association for the Advancement of Science) 2011-06, Vol.332 (6036), p.1413-1417
Main Authors: Fletcher, Leigh N., Hesman, Brigette E., Irwin, Patrick G. J., Baines, Kevin H., Momary, Thomas W., Sanchez-Lavega, Agustin, Flasar, F. Michael, Read, Peter L., Orton, Glenn S., Simon-Miller, Amy, Hueso, Ricardo, Bjoraker, Gordon L., Mamoutkine, Andrei, Rio-Gaztelurrutia, Teresa del, Gomez, Jose M., Buratti, Bonnie, Clark, Roger N., Nicholson, Philip D., Sotin, Christophe
Format: Article
Language:English
Subjects:
Astronomy
Atmospheric circulation
Atmospherics
Beacons
Clouds
Earth, ocean, space
Exact sciences and technology
Hemispheres
Neutral atmospheres
Planetary temperature
Planetary, asteroid, and satellite characteristics and properties
Planets, their satellites and rings. Asteroids
Saturn
Solar system
Spectroscopy
Storms
Stratosphere
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Summary:Saturn's slow seasonal evolution was disrupted in 2010–2011 by the eruption of a bright storm in its northern spring hemisphere. Thermal infrared spectroscopy showed that within a month, the resulting planetary-scale disturbance had generated intense perturbations of atmospheric temperatures, winds, and composition between 20° and 50°N over an entire hemisphere (140,000 kilometers). The tropospheric storm cell produced effects that penetrated hundreds of kilometers into Saturn's stratosphere (to the 1-millibar region). Stratospheric subsidence at the edges of the disturbance produced "beacons" of infrared emission and longitudinal temperature contrasts of 16 kelvin. The disturbance substantially altered atmospheric circulation, transporting material vertically over great distances, modifying stratospheric zonal jets, exciting wave activity and turbulence, and generating a new cold anticyclonic oval in the center of the disturbance at 41°N.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1204774