We are very concerned with the changing climate on Earth. The climate on other planets is more difficult to study, and direct observations are impossible, save some observations from the Mars rovers. Jupiter has an atmosphere that is very different from Earth's. The prominent Giant Red Spot, a swirling anti-cyclonic storm larger than Earth, appears to be a permanent fixture of the planet's atmosphere, and has been remarkably stable for decades. Now the Great Red Spot has shrunk to its smallest size ever measured. According to Amy Simon of NASA's Goddard Space Flight Center in Greenbelt, Maryland, recent NASA Hubble Space Telescope observations confirm the Great Red Spot now is approximately 10,250 miles across, less than half the size of some historical measurements. Astronomers have followed this downsizing since the 1930s.
We are very concerned with the changing climate on Earth. The climate on other planets is more difficult to study, and direct observations are impossible, save some observations from the Mars rovers. Jupiter has an atmosphere that is very different from Earth's. The prominent Giant Red Spot, a swirling anti-cyclonic storm larger than Earth, appears to be a permanent fixture of the planet's atmosphere, and has been remarkably stable for decades.
Now the Great Red Spot has shrunk to its smallest size ever measured.
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According to Amy Simon of NASA's Goddard Space Flight Center in Greenbelt, Maryland, recent NASA Hubble Space Telescope observations confirm the Great Red Spot now is approximately 10,250 miles across, less than half the size of some historical measurements. Astronomers have followed this downsizing since the 1930s.
Historic observations as far back as the late 1800s gauged the storm to be as large as 25,500 miles on its long axis. NASA Voyager 1 and Voyager 2 flybys of Jupiter in 1979 measured it to be 14,500 miles across. In 1995, a Hubble photo showed the long axis of the spot at an estimated 13,020 miles across. And in a 2009 photo, it was measured at 11,130 miles across.
Beginning in 2012, amateur observations revealed a noticeable increase in the rate at which the spot is shrinking -- by 580 miles per year -- changing its shape from an oval to a circle.
"In our new observations it is apparent very small eddies are feeding into the storm," said Simon. "We hypothesized these may be responsible for the accelerated change by altering the internal dynamics and energy of the Great Red Spot."
Simon's team plans to study the motions of the small eddies and the internal dynamics of the storm to determine whether these eddies can feed or sap momentum entering the upwelling vortex, resulting in this yet unexplained shrinkage.
NASA's Juno spacecraft is hurtling toward Jupiter now, due to reach the giant planet in July 2016. Point-blank examination by Juno's instruments will undoubtedly help unravel the mystery.
Image credit NASA.
Read more on Jupiter and other planets at NASA research at Research.GOV..