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Business News/ Science / Health/  Mars crust contributing to its atmosphere: Nasa
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Mars crust contributing to its atmosphere: Nasa

The findings come from the Curiosity rover's Sample Analysis at Mars (SAM), instrument suite, which studied the gases xenon and krypton in Mars' atmosphere.

Nasa’s rover Curiosity is helping scientists investigate the evolution and erosions of the Red planet’s atmosphere. Photo: NasaPremium
Nasa’s rover Curiosity is helping scientists investigate the evolution and erosions of the Red planet’s atmosphere. Photo: Nasa

Washington: The National Aeronautics and Space Administration’s (Nasa) Curiosity rover has found evidence that chemistry in the surface material on Mars contributed dynamically to the makeup of its atmosphere over time.

It is another clue that the history of the red planet’s atmosphere is more complex and interesting than a simple legacy of loss, researchers said.

The findings come from the rover’s Sample Analysis at Mars (SAM), instrument suite, which studied the gases xenon and krypton in Mars’ atmosphere. The two gases can be used as tracers to help scientists investigate the evolution and erosion of the Martian atmosphere.

A lot of information about xenon and krypton in Mars’ atmosphere came from analyses of Martian meteorites and measurements made by the Viking mission.

The SAM team ran a series of first-of-a-kind experiments to measure all the isotopes of xenon and krypton in the Martian atmosphere. The team’s method is called static mass spectrometry, and it’s good for detecting gases or isotopes that are present only in trace amounts.

Although static mass spectrometry is not a new technique, its use on the surface of another planet is something only SAM has done. Overall, the analysis agreed with earlier studies, but some isotope ratios were a bit different than expected.

When working on an explanation for those subtle but important differences, the researchers realised that neutrons might have gotten transferred from one chemical element to another within the surface material on Mars.

The process is called neutron capture, and it would explain why a few selected isotopes were more abundant than previously thought possible.

In particular, it looks as if some of the barium surrendered neutrons that got picked up by xenon to produce higher-than-expected levels of the isotopes xenon-124 and 126.

Likewise, bromine might have surrendered some of its neutrons to produce unusual levels of krypton-80 and krypton-82. These isotopes could have been released into the atmosphere by impacts on the surface and by gas escaping from the regolith, which is the soil and broken rocks of the surface.

“SAM’s measurements provide evidence of a really interesting process in which the rock and unconsolidated material at the planet’s surface have contributed to the xenon and krypton isotopic composition of the atmosphere in a dynamic way," said Pamela Conrad, SAM’s deputy principal investigator at Nasa’s Goddard Space Flight Centre.

The atmospheres of Earth and Mars exhibit very different patterns of xenon and krypton isotopes, particularly for xenon-129. Mars has much more of it in the atmosphere than does Earth. The research was published in the journal Earth and Planetary Science Letters.

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Published: 30 Sep 2016, 04:39 PM IST
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