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Strange Bacterial Life Forms Emerged Less Than 800 Million Years After Earth's Formation
Posted by Guy Pirro on 6/27/2017 10:21 AM


Haematite tubes from the hydrothermal vent deposits in Quebec, Canada that represent the oldest micro-fossils and evidence for life on Earth. The remains are at least 3.77 billion years old. Earth was formed 4.54 billion years ago, so it appears that life on Earth emerged rather early in its history. (Image Credit: Matthew Dodd, University College London)


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Remains of microorganisms at least 3.77 billion years old have been discovered by an international team led by University College London (UCL) scientists, providing direct evidence of one of the oldest life forms on Earth.

Tiny filaments and tubes formed by bacteria that lived on iron were found encased in quartz layers in the Nuvvuagittuq Supracrustal Belt (NSB) in Quebec, Canada.

The NSB contains some of the oldest sedimentary rocks known on Earth which likely formed part of an iron-rich deep sea hydro-thermal vent system that provided a habitat for Earth's first life forms between 3,770 and 4,300 million years ago. Earth was formed 4,543 million years ago, so it appears that life on Earth emerged rather early in its history.

"Our discovery supports the idea that life emerged from hot seafloor vents shortly after planet Earth formed. This speedy appearance of life on Earth fits with other evidence of recently discovered 3,700 million year old sedimentary mounds that were shaped by microorganisms," explained PhD student Matthew Dodd of the UCL Earth Sciences and the London Center for Nanotechnology.

Funded by UCL, NASA, Carnegie of Canada, and the UK Engineering and Physical Sciences Research Council, the study describes the discovery and the detailed analysis of the remains undertaken by the team from UCL, the Geological Survey of Norway, US Geological Survey, the University of Western Australia, the University of Ottawa, and the University of Leeds.

Prior to this discovery, the oldest micro-fossils reported were found in Western Australia and dated at 3,460 million years old but some scientists think they might be non-biological artifacts in the rocks. It was therefore a priority for the UCL-led team to determine whether the remains from Canada had biological origins.

The researchers systematically looked at the ways the tubes and filaments, made of haematite, a form of iron oxide (aka rust), could have been made through non-biological methods such as temperature and pressure changes in the rock during burial of the sediments, but found all of the possibilities unlikely.

The haematite structures have the same characteristic branching of iron-oxidizing bacteria found near other hydro-thermal vents today and were found alongside graphite and minerals like apatite and carbonate which are found in biological matter including bones and teeth and are frequently associated with fossils.

They also found that the mineralized fossils are associated with spheroidal structures that usually contain fossils in younger rocks, suggesting that the haematite most likely formed when bacteria that oxidized iron for energy were fossilized in the rock.

"We found the filaments and tubes inside centimeter-sized structures called concretions or nodules, as well as other tiny spheroidal structures, called rosettes and granules, all of which we think are the products of putrefaction. They are mineralogically identical to those in younger rocks from Norway, the Great Lakes area of North America, and Western Australia," explained Dr. Dominic Papineau, also of the UCL Earth Sciences and the London Center for Nanotechnology.

"The structures are composed of the minerals expected to form from putrefaction, and have been well documented throughout the geological record, from the beginning until today. The fact we unearthed them from one of the oldest known rock formations, suggests we've found direct evidence of one of Earth's oldest life forms. This discovery helps us piece together the history of our planet and the remarkable life on it, and will help to identify traces of life elsewhere in the universe."






Matthew Dodd concluded, "These discoveries demonstrate life developed on Earth at a time when Mars and Earth had liquid water at their surfaces, posing exciting questions for extra-terrestrial life. Therefore, we expect to find evidence for past life on Mars 4,000 million years ago, or if not, Earth may have been a special exception."


For more information:

https://www.ucl.ac.uk/news/news-articles/0217/010317-Worlds-oldest-fossils-unearthed/

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