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Mars may have hosted life 3.5 billion years ago

A new study claims to have found evidence that could indicate possibility of presence of life in the past on Mars.

The study published in the journal Scientific Reports points of traces of fatty acids – key building blocks of biological cells – in acidic streams in the UK, which they say hint that life may once have existed on Mars. Imperial College London researchers concluded that there could be nearly 12,000 Olympic sized pools of organic matter on Mars that could represent traces of past life.

According to researchers there have been evidence of presence of water in Mars in the past and this increases the possibility of presence of life in some form on the Red Planet. If life existed before the water dried up, it would probably have left remains that are preserved to this day in Martian rock, said one of the researchers.

Dorset in the UK is home to highly acidic sulphur streams that host bacteria which thrive in extreme conditions. One such environment, in St Oswald’s Bay, mimics the conditions on Mars billions of years ago, researchers said.

They treated the landscape as a template for Mars and examined the organic matter preserved in rock deposits nearby. The iron-rich mineral goethite transforms to hematite which is very common on Mars and gives the planet its red colour. If these iron-rich minerals harbour traces of life on Earth, then they may hold clues to past microbial life on the red planet. The study found that goethite in St Oswald’s Bay hosted many microbes as well as traces of their fossilised organic remains.

The researchers applied these results to a martian environment. Based on how much rock is from acid environments on Mars, and assuming the concentration of fatty acids found in martian sediments matches that of Earth, there might be up to 2.86×1010 kg of fatty acids preserved within martian rock -equivalent to nearly 12,000 Olympic-size pools. Previous missions to find traces of life have used heat to inspect rock for the presence of organic matter.

Scientists suspect the heat might have caused minerals to react with any organic matter, explaining why we have not yet found traces of life. However, heating goethite or hematite does not destroy any organic matter that is there, meaning these minerals could be good life-search targets.

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