Ancient oceans offer new insight into the origins of animal life

Share:
Analysis of a rock type found only in the world’s oldest oceans has shed new light on how large animals first got a foothold on the Earth.

A scientific team including scientists from Newcastle University have for the first time managed to plot the rise and fall of oxygen levels in the Earth’s atmosphere over the last 3.8 billion years.

By analysing the isotopes of chromium in iron-rich sediments formed in the ancient oceans, the team found that a rise in atmospheric oxygen levels 580 million years ago was closely followed by the evolution of animal life.

Published today in the academic journal Nature, the data offers new insight into how animal life – and ultimately humans – first came to roam the planet.

“Because animals evolved in the sea, most previous research has focussed on oceanic oxygen levels,” explains Newcastle University’s Dr Simon Poulton, one of the authors of the paper.

“Our research confirms for the first time that a rise in atmospheric oxygen was the driving force for oxygenation of the oceans 580 million years ago, and that this was the catalyst for the evolution of large complex animals.”

The study

Distinctive chromium isotope signals occur when continental rocks are altered and weathered as a result of oxygen levels rising in the atmosphere.

The chromium released by this weathering is then washed into the seas and deposited in the deepest oceans - trapped in iron-rich rocks on the sea bed.

Using this new data, the research team - led by Professor Robert Frei at the University of Copenhagen in Denmark - has not only been able to establish the trigger for the evolution of animals, but have also demonstrated that oxygen began to pulse into the atmosphere earlier than previously thought.

“Oxygen levels actually began to rise 2.8 billion years ago” explains Dr Poulton.

“But instead of this rise being steady and gradual over time, what we saw in our data was a very unstable situation with short-lived episodes of free oxygen in the atmosphere early in Earth’s history, followed by plummeting levels around 2 billion years ago.

“It was not until a second rise in atmospheric oxygen 580 million years ago that larger complex animals were able to get a foothold on the Earth.”

The full paper can be found at: Nature, 2009; 461 (7261): 250 DOI: 10.1038/nature08266

 

published on: 29th September 2009

Share:

Key Facts:

  • Newcastle University is a Russell Group University
  • We rank in the top 20 of UK universities in The Sunday Times 2013 University Guide
  • Amongst our peers Newcastle is:
    • 10th in the UK for student satisfaction
    • In the UK’s top 12 for research power in Science and Engineering
  • 95% of our students are in a job or further training within six months of graduating
  • We have a world-class reputation for research excellence and are spearheading three major societal challenges that have a significant impact on global society. These themes are: Ageing and Health, Sustainability, and Social Renewal
  • Newcastle University is the first UK university to establish a fully owned international branch campus for medicine at its NUMed Campus in Malaysia which opened in 2011
  • Our International students put Newcastle University in world's top 12 (ISB 2011)