* Astronomy

The fossilised tracks of a giant marine worm that lived some 475 million years ago have been discovered byt the Spanish National Research Council (CSIC).Evidence of the worm, which was up to 3 feet in length, was found in the Cabaneros National Park in central Spain.  The region was once a seabed during the Lower Ordovician period, the Spanish researchers said. The CSIC said the worms dwelled within horizontal galleries 15 feet long and 6-8 inches in diameter under the seabed. 

"[The fossilised galleries were the] oldest tracks of giant worms [ever discovered, and were surrounded] with mucous secretions to harden them and prevent their collapse, which has facilitated their preservation" -  palaeontologist Juan Carlos Gutierrez Marco. 

The tracks also pre-date those discovered in Devon, England, earlier this year, which were dated from 200 million years ago. He explained how the worms could grow to such a large size.

"For more than 450 millions years ago our country was part of a marine platform of an ancient continent called Gondwana. The Iberian Peninsula was then near the south pole of the era" - Gutierrez Marcos.

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An asteroid bombardment of Earth nearly 4 billion years ago may have actually been a boon to early life on the planet, instead of wiping it out or preventing it from originating, a new study suggests.

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In July, the Burgess Shale Geoscience Foundation (BSGF), a not-for-profit Canadian organisation focused on geoscience education and public outreach, kicks off the 100th anniversary of the discovery of the Burgess Shale, a formation containing a unique fossil assemblage of diverse, soft-bodied life forms that developed during the evolutionary "big-bang" called the Cambrian Explosion.

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It was the first underground movement in our planet's history: Primitive bacteria that lived 2.75 billion years ago built themselves caves to live in, according to a new study. Today, the traces they left behind are stoking hopes that similar life forms could exist on Mars.
Early Earth was a rough place to live - there was no oxygen in the atmosphere, or ozone layer to protect the surface from harmful ultraviolet radiation. Most life at the time protected itself by living in the oceans, or excreting thin films of material that acted as biological shields.
The earliest evidence of subterranean life was 1.5 billion years ago, until now. Birger Rasmussen of Curtin University of Technology in Bentley, Australia, and a team of researchers have found what they believe is evidence that bacteria nearly twice as old lived on the roofs of tiny hollows in lake and river sediments.

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