NASA’s Cassini spacecraft and a European Southern Observatory ground-based telescope are tracking the growth of a giant early-spring storm in Saturn’s northern hemisphere so powerful that it stretches around the entire planet. The rare storm has been wreaking havoc for months and shooting plumes of gas high into the planet’s atmosphere.
“Nothing on Earth comes close to this powerful storm,” says Leigh Fletcher, a Cassini team scientist at the University of Oxford in the United Kingdom, and lead author of a study that appeared in this week’s edition of Science Magazine. “A storm like this is rare. This is only the sixth one to be recorded since 1876, and the last was way back in 1990.”
Cassini’s radio and plasma wave science instrument first detected the large disturbance in December 2010, and amateur astronomers have been watching it ever since through backyard telescopes. As it rapidly expanded, the storm’s core developed into a giant, powerful thunderstorm, producing a 3,000-mile-wide (5,000-kilometer-wide) dark vortex possibly similar to Jupiter’s Great Red Spot.
This is the first major storm on Saturn observed by an orbiting spacecraft and studied at thermal infrared wavelengths. Infrared observations are key because heat tells researchers a great deal about conditions inside the storm, including temperatures, winds, and atmospheric composition. Temperature data were provided by the Very Large Telescope (VLT) on Cerro Paranal in Chile and Cassini’s composite infrared spectrometer (CIRS), operated by NASA’s Goddard Space Flight Center in Greenbelt, Md.
“Our new observations show that the storm had a major effect on the atmosphere, transporting energy and material over great distances — creating meandering jet streams and forming giant vortices — and disrupting Saturn’s seasonal [weather patterns],” said Glenn Orton, a paper co-author, based at NASA’s Jet Propulsion Laboratory in Pasadena, Calif.
The violence of the storm — the strongest disturbances ever detected in Saturn’s stratosphere — took researchers by surprise. What started as an ordinary disturbance deep in Saturn’s atmosphere punched through the planet’s serene cloud cover to roil the high layer known as the stratosphere.
“On Earth, the lower stratosphere is where commercial airplanes generally fly to avoid storms which can cause turbulence,” says Brigette Hesman, a scientist at the University of Maryland in College Park who works on the CIRS team at Goddard and is the second author on the paper. “If you were flying in an airplane on Saturn, this storm would reach so high up, it would probably be impossible to avoid it.”
A separate analysis using Cassini’s visual and infrared mapping spectrometer, led by Kevin Baines of JPL, confirmed the storm is very violent, dredging up deep material in volumes several times larger than previous storms. Other Cassini scientists are studying the evolving storm and, they say, a more extensive picture will emerge soon.
Editor: Dr. Tony Phillips | Credit: Science@NASA
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katherine:
as far as instruments in 1886 for recording these storms, there was the mark I mod O eyeball, connected to the mark I mod O fingers holding mark 14 mod 27 pencils.
razzing aside, biologists have for centuries drawn stuff on paper that they saw in microscopes. as a matter of fact the real pro’s in that world have said for years that the drawings that they produce show details that closed circuit television and photography miss.
C
Re: Is that anything to do with charged plasma?
Only in plasma physics class, @orkneylad. This is climate class!
Any chance that the Solar Minimum we’re in, with its low Solar Wind allowing more GCRs to hit Saturn, is at least partly increasing the clouds / storm? The Solar Wind has to be much less out there compared to Earth, so the high GCRs probably started hitting Saturn in force earlier than on earth.
Thread winner!
/Mr L
“A storm like this is rare. This is only the sixth one to be recorded since 1876, and the last was way back in 1990.”
Six storms over 135 years gives an expected period of 27 years. She should have said “the last was only back in 1990.”
Maybe AGW is causing Saturnic storms to increase in frequency.
Now that Saturns orbit is past spring equinox and heading into the apex direction of the heliospheres orbit..I am wondering with the lowered solar dipole strength if Saturn being that far away from a more direct solar influence if..pollution in interPLANETARY space is producing this storm.. Also, wondering how the solar wind/IMF snow plow effect is out there at this time..The planets further out from 1AU will show the interPLANETARY pollution effect much soooooooner than at 1AU where more interactions from solar wind/IMF occur. Are we monitoring LOD on Saturn? The Saturn magnetic dipole positon most curious.
Saturn experiencing turbulent spring storms..
Earth experiencing turbulent spring storms..
Good day..