NASAò??s Cassini spacecraft has tracked the aftermath of a rare massive storm on Saturn. Data reveal record-setting disturbances in the planetò??s upper atmosphere long after the visible signs of the storm abated, in addition to an indication that the storm was more forceful than scientists previously thought.
Data from Cassiniò??s composite infrared spectrometer (CIRS) instrument revealed the stormò??s powerful discharge sent the temperature in Saturnò??s stratosphere soaring 150ÒÀ Fahrenheit (83ÒÀ Celsius) above normal. At the same time, researchers at NASAò??s Goddard Spaceflight Center in Greenbelt, Maryland, detected a huge increase in the amount of ethylene gas, the origin of which is a mystery. Ethylene, an odorless, colorless gas isnò??t typically observed on Saturn. On Earth, it is created by natural and man-made sources.
Scientists from Goddard describe the unprecedented belch of energy in a paper to be published. ò??This temperature spike is so extreme, itò??s almost unbelievable, especially in this part of Saturnò??s atmosphere, which typically is very stable,ò?? said Brigette Hesman from Goddard. ò??To get a temperature change of the same scale on Earth, youò??d be going from the depths of winter in Fairbanks, Alaska, to the height of summer in the Mojave Desert.ò??
First detected by Cassini in Saturnò??s northern hemisphere December 5, 2010, the storm grew so large that an equivalent storm on Earth would blanket most of North America from north to south and wrap around our planet many times. This type of giant disturbance on Saturn typically occurs every 30 Earth years, or once every Saturn year.
Not only was this the first storm of its kind to be studied by a spacecraft in orbit around the planet, but it also was the first to be observed at thermal infrared wavelengths. Infrared data from CIRS allowed scientists to take the temperature of Saturnò??s atmosphere and to track phenomena that are invisible to the naked eye.
Temperature measurements by CIRS revealed two unusual beacons of warmer-than-normal air shining brightly in the stratosphere. These indicated a massive release of energy into the atmosphere. After the visible signs of the storm started to fade, CIRS data revealed the two beacons had merged. The temperature of this combined air mass shot up to more than ò??64ÒÀ F (ò??53ÒÀ C).
According to Hesman, the huge spike of ethylene generated at the same time peaked with 100 times more ethylene than scientists thought possible for Saturn. Goddard scientists confirmed the release of the gas by using the Celeste spectrometer mounted on the McMath-Pierce Solar Telescope on Kitt Peak in Arizona.
The team still is exploring the origin of the ethylene, but it has ruled out a large reservoir deep in the atmosphere. ò??Weò??ve really never been able to see ethylene on Saturn before, so this was a complete surprise,ò?? said Michael Flasar from Goddard.
A complementary paper led by Leigh Fletcher of Oxford University, England, describes how the two stratospheric beacons merged to become the largest and hottest stratospheric vortex ever detected in our solar system. Initially, it was larger than Jupiterò??s Great Red Spot.
That paper, which combines CIRS data with additional infrared images from other Earth-based telescopes, including NASAò??s Infrared Telescope Facility at Mauna Kea, Hawaii, also reports a powerful collar of clockwise winds ò?? encompassing a bizarre soup of gases ò?? around the vortex.
ò??These studies will give us new insight into some of the photochemical processes at work in the stratospheres of Saturn, other giants in our solar system, and beyond,ò?? said Scott Edgington from NASAò??s Jet Propulsion Laboratory in Pasadena, California.
Credit: NASA's Goddard Space Flight Center