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NASA's Hubble Space Telescope detected mysterious changes in Jupiter's Great Red Spot

jupiter great red spot
A Hubble Space Telescope view of Jupiter, taken on June 27, 2019, shows the Great Red Spot in intense color. NASA, ESA, A. Simon (Goddard Space Flight Center) and M.H. Wong (University of California, Berkeley)

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NASA's most powerful space telescope, Hubble, has documented a mysterious change in Jupiter's Great Red Spot.

The spot is a raging 10,000-mile-wide cyclone big enough to swallow Earth. It has been shrinking and becoming more circular since astronomers began observing it about 150 years ago. But nobody could track the speed of its spiral motion until Hubble turned its eye to the distant orange dot in 2009.

Planetary scientists Michael Wong and Amy Simon recently analyzed a decade's worth of Hubble data on the Great Red Spot's wind speeds, which can exceed 400 miles per hour. NASA announced on Monday that their research suggests the cyclone's outer band is speeding up: Its wind speeds increased up to 8% from 2009 to 2020. At the same time, its inner region has significantly slowed down.

jupiter great red spot spinning swirling animation gif
Scientists animated this image of the Great Red Spot based on data from NASA's Juno spacecraft and models of the storm's winds. NASA/JPL-Caltech/SwRI/MSSS/Gerald Eichstadt/Justin Cowart

"When I initially saw the results, I asked, 'Does this make sense?' No one has ever seen this before," Wong, who works at the University of California, Berkeley, said in a press release. "But this is something only Hubble can do. Hubble's longevity and ongoing observations make this revelation possible."

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Overall, the spot's average wind speed is increasing, though only a tiny bit — less than 1.6 miles per hour per Earth year. Nobody knows yet what the changing winds tell us about the storm overall.

jupiter great red spot in visible color on the left and colors showing speed on the right
The average wind speed within the boundaries of the Great Red Spot (the outer green circle) have increased, while winds in the innermost region (the inner green circle) are moving more slowly. NASA, ESA, Michael H. Wong (UC Berkeley)

"That's hard to diagnose, since Hubble can't see the bottom of the storm very well. Anything below the cloud tops is invisible in the data," Wong said. "But it's an interesting piece of data that can help us understand what's fueling the Great Red Spot and how it's maintaining energy."

Wong, Simon, and other researchers first published their findings in the journal Geophysical Research Letters last month.

The Great Red Spot is a mystery

Researchers still don't understand much about the Great Red Spot, including how long it will last.

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The storm has survived so long because it's wedged between two jet streams — bands of Jupiter's atmosphere — that are moving in different directions. Those are "feeding momentum into the vortex," NASA scientist Glenn Orton previously told Insider.

Some scientists have suggested the storm will collapse and disappear in just a few decades due to its shrinking size. Others disagree.

Philip Marcus, a UC Berkeley researcher who co-authored the new study with Wong and Simon, has argued that "the Great Red Spot is in no danger of disappearing."

jupiter great red spot oval shaped up close in colorful swirling clouds
NASA's Voyager 1 spacecraft captured this image of the Great Red Spot in 1979. NASA/JPL

"To understand the health of the spot, planetary scientists need to study the health of its vortex and not its cloud; the cloud's shrinkage is not a harbinger of death," Marcus wrote on Astronomy.com in 2019. "Based on the spot's interactions with other vortices my Berkeley group found, there is no evidence that that vortex itself has changed its size or intensity."

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Meanwhile, other data is also revealing surprises — including that the Great Red Spot is getting taller as it shrinks.

Then last year, images from Hubble and the ground-based Gemini Observatory revealed holes in the cyclone's cloud cover. Scientists also used those images, combined with data from NASA's Jupiter-orbiting Juno spacecraft, to map lightning strikes within the Great Red Spot.

"Because we now routinely have these high-resolution views from a couple of different observatories and wavelengths, we are learning so much more about Jupiter's weather," Simon said in a NASA release about that finding last year. "This is our equivalent of a weather satellite. We can finally start looking at weather cycles."

NASA
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