why do scientists predict the existence of life on mars

Nonetheless, Schuerger and his colleagues have made it their mission to find the hardiest bacteria surviving in the harshest environments on Earth and to determine whether the tiny microorganisms could grow in Mars-like conditions. His search was rewarded with the discovery of several hypobarophiles, microorganisms that can grow in extremely low-pressure and low-temperature environments. While some of these single-celled survivors hail from the Canadian Arctic or the depths of Siberia, others live closer to home: Schuerger was particularly surprised to find hypobarophiles in a sample he took of human saliva.
Amercian scientists believe that they may have found evidence that.

After studying rare minerals here on Earth, Dr Steven Ruff and Dr Jack Farmer, from, have suggested that unusual deposits on the could have been created by microbes - a theory which, if true, could be one of the most significant in scientific history. As Smithsonian reports, the process began whenВ discovered unusual deposits of opaline silica inside the Red Planet's Gusev crater in 2009. Examining these minerals more closely, scientists found that they were covered in tiny cauliflower-shaped protrusions, for which they were unable to find an explanation.

The Gusev crater is in an area of Mars which astrogeologists believe was once covered in hot springs and. However, like the rest of Mars, the area is now dry and barren, seemingly devoid of any signs of life and activity. To investigate further, Ruff travelled to the, an area so dry, lifeless and high above sea level that many scientists believe it's one of the most Mars-like environments on Earth.

Focusing his investigations on the El Tatio region of the desert, which is full of geysers, Ruff was surprised to find silica formations which looked similar to those which had been discovered on Mars, complete with the cauliflower-like protrusions. Examples of this strange mineral formation have also been found in the US's and the volcanic ground of the Taupo District in. In both of these places, tiny fossils have been found which hold all the hallmarks of ancient microbial life. If microbes created these formations in Yellowstone and New Zealand, they could have done the same in Chile.

And it's not unreasonable to suggest that the identical formations on Mars could have been formed in the same way. The link is far from conclusive, and although the Martian environment can be compared to areas on Earth in some ways, the two are still very different. Even if something looks very similar to a biological formation, that doesn't mean it actually is. The formations, although fascinating and significant, are unfortunately not conclusive pieces of evidence that life has existed on Mars.

However, as Ruff and Farmer suggested to a meeting of the American Geophysical Union in December, if we are going to search for evidence of Martian life, these formations could possibly be a good place to look. Nasa's is currently exploring Mars, but it won't be able to take a closer look at the minerals in the Gusev crater. However, the has the crater as one of its potential landing sites, so there's a slim chance that we may know more about the cauliflower theory in the years to come. В