* Astronomy

A team of geologists has found evidence that single-celled microscopic organisms completed their evolution by 2.5 billion years ago, more than a billion years after life appeared on Earth. Their geochemical evidence, discovered in ancient rocks, suggests the sudden appearance a modern style nitrogen cycle.

"Nitrogen, which is needed for the production of amino acids and proteins, is essential for life as we now know it, but was not so available early in Earth's history. Only single-celled organisms, and of only a few types, are able to use nitrogen gas from the atmosphere and, in so doing, convert it to ammonia" - Jay Kaufman, a University of Maryland scientist and co-author of a paper published in the February 20 issue of Science. 

According to Kaufman, the new evidence he and fellow geologists from the University of Washington and the University of Arizona uncovered suggests that 2.5 billion years ago bacteria evolved -in response to a rise of oxygen in shallow ocean water -that were able to further convert nitrogen into more biologically useable forms.

"Only a relatively few organisms can assimilate ammonia; others, like plants and animals, need the oxygenated form, nitrate. The rise of microorganisms making nitrogen more available in the form of nitrate, released more energy to biological systems, which likely kick started the evolution of higher life forms" - Jay Kaufman.

The bacteria responsible for the modern nitrogen to nitrate cycle sit on the outermost branches of the microbial tree of life, thus their discovery indicates that microbial evolution and diversification was complete billions of years before animals took the world stage.

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The era when sex became a popular form of reproduction has been fixed by the discovery of a fossilised pregnant fish and her embryo.
Remains of the primitive fish, Incisoscutum ritchiei, have provided the earliest known evidence of copulation and live births in the animal kingdom.
Until the evolution of the armoured fish, sex is thought to have been limited to external fertilisation techniques in which sperm and eggs were squirted into the water to mix.
The species, with the fossil dated at 350-380 million years old, is the same age as another closely related fossilised fish, Materpiscis attenboroughi, which was found last year with a newly born offspring still attached by the umbilical cord.

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The remarkable behaviour of bacteria that have been forced to live without their protective wall has allowed Newcastle University scientists to open a new window on the origins of life on Earth.
All living cells on the planet go through the process of division in order to survive and thrive. Cell division, or binary fission, allows one cell to split down the middle to become two cells.
In the work published in Nature, Newcastle University scientists have found that under some conditions, including treatment with antibiotics, common bacteria switch to a whole new way of increasing in number that may have been used by the first cells to evolve on the planet.

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Traces of animal life have been found in rocks dating back 635 million years.
The evidence takes the form of chemical markers (Called 24-IPC) that are highly distinctive of sponges when they die and their bodies break down in rock-forming sediments.
The discovery in Oman pushes back the earliest accepted date for animal life on Earth by tens of millions of years.

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See also Snowball Earth