Though Jupiter is shrouded in swirling clouds, its atmosphere has some mysterious clear patches that scientists call "hot spots."
Now researchers say they have found more evidence about where these hot flashes come from by stitching together images taken by NASA's Cassini spacecraft.
"This is the first time anybody has closely tracked the shape of multiple hot spots over a period of time, which is the best way to appreciate the dynamic nature of these features," David Choi, a postdoctoral researcher at NASA's Goddard Space Flight Center in Greenbelt, Md., said in a statement.
Hot spots get their name because they appear bright in infrared images of Jupiter, which detect heat. In the visible spectrum, these patches appear shadowy. Scientists think that the clearings could represent windows into Jupiter's atmosphere all the way down to the level where water clouds can form, according to NASA.
Choi and his colleagues put together images from two months (in Earth time) of Cassini's flyby of Jupiter in late 2000. Their time-lapse movies focus on a line of hot spots about 7 degrees north of the equator that are each about the size of North America and almost evenly spaced apart.
The researchers teased out the individual movements of the winds around each hot spot and Jupiter's jet stream, which actually allowed them to measure the true wind speed of planet's jet stream: an impressive 300 to 450 mph (500 to 720 kilometers per hour). The hot spots, meanwhile, move along at 225 mph (362 kilometers per hour), the researchers found.
The motions of the hot spots fit the pattern of a Rossby wave in the atmosphere, the team reports. Rossby waves are also found on Earth and are sometimes blamed for extreme changes in weather. For example, a Rossby wave can interact with the polar jet stream and sent a blast of Arctic air to chill Florida.
The researchers believe a Rossby wave circles Jupiter moving west to east, rising and falling possibly 15 to 30 miles (24 to 50 kilometers) in altitude instead of moving north and south over the planet.
Their findings are detailed online in the April issue of the journal Icarus.
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