![]() Europe's troubled Mars rover still vital in the search for life on the Red Planet We would like to find that out and try to localize any potential oases of habitability in the Martian crust." Is life self-destructive? "We can imagine that some geological process on Mars today could provide the same type of energetic substrate, hydrogen and carbon dioxide, that these microbes could live on. "Because the Martian atmosphere is mostly gone these days, these microbes would have to switch to another energy source," said Sauterey. Satellites have previously detected traces of methane in Mars' thin atmosphere, but it is currently impossible to say whether this methane is of biological origin. Next, the researchers would like to find out whether these ancient microbes could still live anywhere inside Mars' crust. At the bottom of these craters and valleys, the climate is much warmer than on the rest of the surface and that's why it would be much easier to search there for evidence of these life forms." Oasis of habitability "And the warmest places are usually the deepest places. "The places on the planet where those microbes would have been closest to the surface would have been the warmest regions," said Sautery. These locations include Jezero Crater, where NASA's Perseverance rover currently hunts for rock samples that could harbor traces of this ancient life, and two low-lying plains: Hellas Planitia at mid-latitudes on the southern hemisphere, and Isidis Planitia just north of the Martian equator. ![]() Sauterey and his team identified three locations where traces of these ancient microbes would have most likely survived closer to the surface. While initially the microbes may have lived comfortably directly under the Martian sandy surface, within a few hundred millions of years they were forced to retreat to depths of more than 0.6 miles (1 kilometer), the modeling revealed. So the microbes essentially replaced a more potent warming gas, hydrogen, with a less potent warming gas, methane, which would have had a net cooling effect." Hiding deeperĪs the planet cooled down, more of its water turned into ice and the surface temperature dropped below minus 70 degrees Fahrenheit (minus 60 degrees Celsius), pushing the microbes deeper and deeper into the crust where warmer conditions persisted. "We don't see that on Earth because our planet's atmosphere is not as rich in carbon dioxide as that of Mars used to be. "On ancient Mars, hydrogen was a very potent warming gas because of something we call the collision-induced absorption effect where molecules of carbon dioxide and hydrogen interact with each other," Sauterey explained. But as those early microbes started devouring the hydrogen and producing methane (which on Earth acts like a potent greenhouse gas), they actually slowed down this warming greenhouse effect, making ancient Mars gradually so cold it became inhospitable. The researchers found that while on Earth the methane produced by those microbes gradually warmed the planet, Mars instead cooled down, driving the microbes into deeper and deeper layers of the planet's crust to survive.īeing farther away from the sun than Earth and therefore naturally cooler, Mars needed those greenhouse gasses to maintain a comfortable temperature for life. Sauterey and his team conducted a complex computer modeling study that simulated the interaction of what we know about the ancient atmosphere and lithosphere of Mars with hydrogen-consuming microbes similar to those that existed on ancient Earth. But while on Earth the emergence of simple life gradually created an environment conducive to more complex life forms, the exact opposite happened on Mars, according to a team of scientists led by astrobiologist Boris Sauterey from the Institut de Biologie de l’Ecole Normale Supérieure (IBENS) in Paris, France. According to the study, simple microbes that feed on hydrogen and excrete methane could have thrived on Mars some 3.7 billion years ago, at about the same time that primitive life was taking hold in Earth's primordial oceans.
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