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Low levels of oxygen delayed evolution by about two billion years, new research claims

London: Low level of atmospheric oxygen in Earth's middle ages held back evolution for two billion years, a new research has claimed, raising fresh questions about the origins of life on our planet.

Professor Tim Lenton and Stuart Daines of the University of Exeter in the UK, created a computer model to explain how oxygen stabilised at low levels and failed to rise, despite oxygen already being produced by early photosynthesis.

The research also helps explain why the 'Great Oxidation Event', which introduced oxygen into the atmosphere around 2.4 billion years ago, did not generate modern levels of oxygen.

Researchers explain how organic material - the dead bodies of simple lifeforms - accumulated in the earth's sedimentary rocks.

After the oxidation, and once plate tectonics pushed these sediments to the surface, they reacted with oxygen in the atmosphere for the first time.

Earth as seen from the Earth Polychromatic Imaging Camera. Image Credit: Nasa

Earth as seen from the Earth Polychromatic Imaging Camera. Image Credit: Nasa

The more oxygen in the atmosphere, the faster it reacted with this organic material, creating a regulatory mechanism whereby the oxygen was consumed by the sediments at the same rate at which it was produced.

This mechanism broke down with the rise of land plants and a resultant doubling of global photosynthesis. The increasing concentration of oxygen in the atmosphere eventually overwhelmed the control on oxygen and meant it could finally rise to the levels we are used to today.

This helped animals colonise the land, leading eventually to the evolution of humankind.

The model suggests atmospheric oxygen was likely at around 10 percent of present day levels during the two billion years following the Great Oxidation Event, and no lower than one percent of the oxygen levels we know today.

"This time in Earth's history was a bit of a catch-22 situation," said Lenton.

"It was not possible to evolve complex life forms because there was not enough oxygen in the atmosphere, and there was not enough oxygen because complex plants had not evolved. It was only when land plants came about did we see a more significant rise in atmospheric oxygen," Lenton said.

"The history of life on Earth is closely intertwined with the physical and chemical mechanisms of our planet. It is clear that life has had a profound role in creating the world we are used to, and the planet has similarly affected the trajectory of life," Lenton added.

Life on earth is believed to have begun with the first bacteria evolving 3.8 billion years ago. Around 2.7 billion years ago the first oxygen-producing photosynthesis evolved in the oceans.

However it was not until 600 million years ago that the first multi-celled animals such as sponges and jellyfish emerged in the ocean.

By 470 million years ago the first plants grew on land with the first land animals such as millipedes appearing around 428 million years ago.

The study was published in the journal Nature Communications.

Updated Date: Feb 05, 2017 13:44 PM

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