The clay-mineral stevensite has been used since ancient times and was used by Nubian women as a beauty treatment, but scientists had believed deposits could only be formed in harsh conditions like volcanic lava and hot alkali lakes.
Researchers led by Dr Bob Burne from the The Australian National University (ANU) Research School of Earth Sciences have found living microbes create an environment that allows stevensite to form, raising new questions about the stevensite found on Mars.
"It's much more likely that the stevensite on Mars is made geologically, from volcanic activity," Burne said.
Burne and his colleagues from ANU, University of Western Australia and rock imaging company Lithicon, have found microbes can become encrusted by stevensite, which protects their delicate insides and provides the rigidity to allow them to build reef-like structures called "microbialites".
More From This Section
"Microbialites are the earliest large-scale evidence of life on Earth," Burne said.
"They demonstrate how microscopic organisms are able to join together to build enormous structures that sometimes rivalled the size of today's coral reefs," said Burne.
"Stevensite is usually assumed to require highly alkaline conditions to form, such as volcanic soda lakes. But our stevensite microbialites grow in a lake less salty than seawater and with near-neutral pH," said Burne.
The findings also have implications for how some of the world's largest oil reservoirs were formed, researchers said.
The study was published in the journal Geology.