There are reports of a major cosmic heist.
New research shows that Mars, once thought to host a methane-rich atmosphere, now seems to be devoid of the organic molecule, Universe Today reports.
If you follow space news, you may recall the excitement in 2003 and 2004 when scientists at NASA and the European Space Agency (ESA) each announced they’d found methane on the Red Planet — and pointed out that it could be a sign of former or even current extraterrestrial life.
The finding was again corroborated in 2014 by NASA’s Curiosity rover.
But now recent atmospheric surveys call into question the presence of the gas, according to research presented last week by American and European astronomers at the 2018 Fall meeting of the American Geophysical Union.
Just The Facts
Here’s what we know: The ESA’s ExoMars Trace Gas Orbiter (TGO) reached its orbit around Mars in 2016, when it began its mission to monitor and analyze the Red Planet’s atmosphere. Though scientists expected the TGO’s extremely sensitive sensors to pick up on atmospheric methane, it has yet to detect any at all.
The orbiter is capable of detecting trace amounts of methane — concentrations as low as 50 parts per trillion — at any elevation in Mars’ atmosphere. And yet it came back with bupkis.
However, the scientists working on the project concede that these are preliminary results. There’s still plenty of noise to clean out of the data and more analysis to be done.
These preliminary findings demonstrate a classic example of how the absence of evidence is not the same as the evidence of absence. It is far too soon to throw out all of the evidence for Martian methane.
The scientists behind this TGO research are confident that the orbiter’s sensors are working correctly and that NASA and the ESA’s previous methane findings couldn’t all be incorrect, according to Universe Today.
It’s possible, according to the scientists, that methane seeps out of Martian soil rather than originating in the atmosphere, which would make it easier to detect with a rover than an orbiter like the TGO.
Needless to say, this is far from an open-and-shut case, and we’re likely to learn more about Mars’ atmosphere as the TGO team finalizes its results.