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   Science & Environment
   Science & Environment

Mars: Mud flows on Red Planet behave like 'boiling toothpaste'

   By Jonathan Amos BBC Science Correspondent
     * 18 May 2020

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   [p08dj1k0.jpg]
   Media playback is unsupported on your device
   Media captionSee how flowing mud behaves in simulated Mars conditions

   Scientists have made a surprising discovery about Mars by playing with muck in the laboratory.

   An international team of researchers wondered how volcanoes that spew mud instead of molten rock might look on the Red Planet compared with their counterparts here on Earth.

   In chamber experiments, simulated Martian mud flows were seen to behave a bit like boiling toothpaste.

   Under certain conditions, the fluid even began to bounce.

   The mucky gunge resembled a certain type of lava referred to as "pahoehoe", which is observed at Hawaii's famous Kīlauea volcano.

   The research results could now complicate some investigations at the Red Planet, believes study lead Dr Petr Brož from the Czech Academy of Sciences' Institute of Geophysics.

   "You'll look at some features [from space] and you won't know for sure whether they are the result of lava flows or mud flows.

   "Without a geologist on the ground to hit them with a hammer, it will be hard to tell," he told BBC News.
   Image copyright P.Brož et al 2019 Image caption A suggested mud flow on Mars spied from orbit. A geologist on the ground could tell for sure

   For a long time, Dr Brož had a sceptical view about mud volcanoes on Mars.

   The phenomena are well known here on Earth, but he'd actually spent several years trying to disprove an interpretation that large numbers of conical forms on the Red Planet might also be the same thing.

   Eventually, he came around to the idea, and that led him to wonder how mud - if it really does spew from the ground on Mars - would behave in the extreme cold and low-pressure conditions that persist there.

   This took him to Dr Manish Patel and his team at the UK's Open University. They have a special chamber that can recreate the Martian environment.

   It's the kind of set-up in which equipment destined to go on a space agency rover would be tested.
   Image copyright Open University/P.Brož et al Image caption On Earth: Mud flowing away from the Dashgil volcano in Azerbaijan

   And although ordinarily every effort would be made to keep the chamber spotlessly clean, the researchers soon found themselves tipping experimental muddy fluids down a sandy slope.

   Under "Earth conditions", these muddy mixes behave as you would expect: they're smooth, like gravy poured on to a dinner plate. But under "Martian conditions", the mud progresses via a series of ropy and jagged lobes.

   It all comes down to how the low atmospheric pressure - less than 1% of the Earth's value - makes water rapidly evaporate, boil and ultimately freeze.

   "The skin on the fluid freezes, but this flow is thick enough that the inside remains fluid," explained Dr Patel. "So the skin will stop the flow for a bit, but then the momentum from the fluid inside breaks through at weak points in the skin, and the flow propagates forward. It's just like pahoehoe, except that's molten rock. But again, it's a cooling skin that forms before hot material bursts through."
   Image copyright Getty Images Image caption Pahoehoe: Hawaiian lavas have a characteristic lobular form

   The team reports its initial experiments in a paper in the journal Nature Geoscience. Not captured in this publication are subsequent experiments in which the flows were repeated for a "hot day" on Mars. There are places where it can get as high as 20C for short periods.

   In this scenario, the mud boiled vigorously in the low pressure; "it was jumping over the surface as if levitating," said Dr Brož.

   The team's work should be a reminder to scientists that when they look at planetary bodies, physical processes can sometimes produce unexpected outcomes, he added.
   Image copyright Open University/P.Brož et al Image caption Recreating Mars on Earth

   Jonathan.Amos-INTERNET@bbc.co.uk and follow me on Twitter: @BBCAmos

Related Topics

     * Geology
     * Mars
     * Volcanoes
     * Space exploration

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