An eerie fog in the atmosphere of Mars has baffled scientists as to its origin.
The fog or haze was spotted by astronomers in 2012, appearing twice before vanishing, and for the last three years scientists have analysed the formation and now reveal that it stretches for more than 1,000 km.
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BBC News report:
Writing in the journal Nature, the researchers believe the plume could be a large cloud or an exceptionally bright aurora.
However, they are unsure how these could have formed in the thin upper reaches of the Martian atmosphere.
Around the world, a network of amateur astronomers keep their telescopes trained on the Red Planet.
They first spotted the strange plume in March 2012 above Mars’ southern hemisphere.
Damian Peach was one of the first stargazers to capture images of the phenomenon.
He told BBC News: “I noticed this projection sticking out of the side of the planet. To begin with, I thought there was a problem with the telescope or camera.
“But as I checked more of the images, I realised it was a real feature – and it was quite a surprise.”
The vast, bright haze lasted for about 10 days. A month later, it reappeared for the same length of time. But it has not been seen since.
An international team of scientists has now confirmed the finding, but they are struggling to find an explanation.
One theory is that the plume is a cloud of carbon dioxide or water particles.
“We know there are clouds on Mars, but clouds, up to this point, have been observed up to an altitude of 100km,” Dr Garcia Munoz said.
“And we are reporting a plume at 200km, so it is significantly different. At 200km, we shouldn’t see any clouds, the atmosphere is too thin – so the fact we see it for 20 days in total is quite surprising.”
Another explanation is that this is a Martian version of the northern or southern lights.
Dr Garcia Munoz explained: “We know in this region on Mars, there have been auroras reported before. But the intensities we are reporting are much much higher than any auroras seen before on Mars or on Earth.
“It would be 1,000 times stronger than the strongest aurora, and it is difficult to come to terms that Mars has such an intense aurora.”
If either of these theories are right, he said, it would mean our understanding of Mars’ upper atmosphere is wrong.
He hopes that by publishing the paper, other scientists might also come up with explanations.
If they cannot, astronomers will have to wait for the plumes to return.
Close-up observations from telescopes or the spacecraft that are currently in orbit around the Red Planet could help to solve this Martian mystery.