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Hebridean rock provides clue to life on Mars


Analysis of rocks in the Outer Hebrides has provided a tantalising clue that Mars may contain habitats which can potentially support life.

Hebridean rock provides clue to life on Mars
Mars horizon [Credit: Bernhard Lelle/Dreamstime]
As preparations continue at NASA for a mission to Mars in 2018, researchers studying rocks on Barra and the Uists have demonstrated that hydrogen – which is essential for life – is formed by earthquakes.  On Mars there are 'Marsquakes' which may produce hydrogen in the same way.

The study, which has been published in the journal Astrobiology, was carried out by scientists from the University of Aberdeen, working alongside colleagues from Yale University and Brock University.  Their research was supported by the Science and Technology Facilities Council.

Professor John Parnell, from the University of Aberdeen's School of Geosciences, explained: "Earthquakes cause friction, and our analysis of ancient rock in the Outer Hebrides has demonstrated how this creates hydrogen.

Hebridean rock provides clue to life on Mars
On Mars there are ‘Marsquakes’ which may produce hydrogen in the same way as on Earth 
[Credit: University of Aberdeen]
"Hydrogen is a fuel for simple microbes, so microbes could live off hydrogen created in the Earth's subsurface as a result of seismic activity.

"This is a model that could apply to any other rocky planet, and on Mars there are so-called 'Marsquakes' that may produce hydrogen and therefore could feed life in the Martian sub-surface.

"Our analysis finds that conservative estimates of current seismic activity on Mars predict hydrogen generation that would be useful to microbes, which adds strength to the possibility of suitable habitats that could support life in the Martian sub-surface.

"NASA has plans to measure seismic activity on Mars during its 2018 InSight mission, and our data will make those measurements all the more interesting."

Author: Robert Turbyne | Source: University of Aberdeen [September 16, 2016]
TANN

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