Scientists in Australia find what could be oldest known fossils

Scientists have found evidence of communities of photosynthesizing microbes dating back about 3.5 billion years.

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Nora Noffke
Fossils of 3.5-billion-year-old microbial communities were discovered in Australia.

Scientists have found fossil evidence of ancient microbial communities that lived 3.5 billion years ago.

The new fossils, described in the journal Astrobiology, may be among the most ancient fossil life forms ever found.

"This is one of the, or the, oldest fossils ever found. You've got a 3.5-billion-year-old ecosystem," said study co-author Robert Hazen, an earth scientist at the Carnegie Institution for Science in Washington, D.C.

The new find reveals that a scant 1 billion years after Earth's origin, complex microbial communities that clung to sediments along the windswept seashore had already begun harvesting energy from sunlight, rather than the rocks.

Oldest fossils

Scientists hotly debate how life began on Earth. Though chemical evidence of carbon-based life forms, such as isotopes (or different forms) of carbon, reveal that life existed on early Earth, scientists have discovered a few controversial traces of its existence.

A few stromatolites, or domelike like rock structures built by ancient microbial communities, have been found at the Strelley Pool formation in Australia that may date to about 3.45 billion years ago.  Fossil sulfur-eating microbes from about 3.4 billion years ago have also been found there as well. Other fossils from South Africa reveal microbial communities that date to 2.9 billion years ago. [Images: One-of-a-Kind Places on Earth]

Hazen's colleague, Nora Noffke, a researcher at Old Dominion University in Virginia, was studying ancient rocks at the Dresser Formation in Australia when she spotted some unusual formations.

The region had tens of meters of spots with a rough, wavy texture. To the untrained eye, the texture could have been anything, but Noffke had spent years studying similar formations that were created by ancient and modern microbial communities.

"So many geologists have walked over the same rocks and never noticed anything," Hazen told LiveScience.

The areas had ripple marks going in many different directions, which often form because the microbial mats protect sediments in some areas while exposing others.

Under a microscope, the formations revealed a series of individual black filaments intertwined with sand grains that are characteristic of microbial mat communities.

"This is what's called binding and trapping — this is how a mat structure becomes stabilized against waves," Hazen said.

And the rocks also contained key mineral forms that are characteristic of the structures.

Oldest photosynthesizers

The ancient microbial communities, which may have been purple or brown and very smelly, Hazen said, probably lived along hundreds of miles of seashore, anchoring to the sand via filaments and harvesting nutrients from the sediments that washed ashore. Similar mats are found today in coastal regions with stagnant water.

More primitive rock-eating bacteria, called chemolithotrophs, likely evolved before the microbial mats, though no trace of Earth's earliest pioneers has yet been found. Chemolithotrophs harvest energy by chemically modifying minerals such as iron or sulfur in the rock, and many such bacteria are still alive today.

But the newly discovered communities were anchored to the seashore close to sun and water, so they probably weren't eating minerals found in rock. Instead, they must have harvested energy through photosynthesis, suggesting such bacteria evolved earlier than previously thought.

"That means very early in Earth's history, microbes had switched from using rocks for its energy to using light," Hazen said.

Follow Tia Ghose on Twitter and Google+. Follow LiveScience @livescienceFacebook Google+. Original article on LiveScience.

Copyright 2013 LiveScience, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

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