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Space dust reveals facts about ancient Earth's atmosphere!

The ancient Earth's upper atmosphere contained about the same amount of oxygen as today and that a methane haze layer separated this oxygen-rich upper layer from the oxygen-starved lower atmosphere.

Space dust reveals facts about ancient Earth's atmosphere!

Melbourne: Using space dust, researchers from Monash University here have made a surprising discovery about the chemistry of Earth's atmosphere 2.7 billion years ago, thus challenging the accepted view that Earth's ancient atmosphere was oxygen-poor.

The ancient Earth's upper atmosphere contained about the same amount of oxygen as today and that a methane haze layer separated this oxygen-rich upper layer from the oxygen-starved lower atmosphere, the team noted.

“Using cutting-edge microscopes, we found that most of the micrometeorites (space dust) had once been particles of metallic iron - common in meteorites - that had been turned into iron oxide minerals in the upper atmosphere, indicating higher concentrations of oxygen than expected," explained Andrew Tomkins from Monash University.

He explained how the team extracted micrometeorites from samples of ancient limestone collected in the Pilbara region in western Australia and examined them at the Monash Centre for Electron Microscopy (MCEM) and the Australian Synchrotron.

“This was an exciting result because it is the first time anyone has found a way to sample the chemistry of the ancient Earth's upper atmosphere,” Tomkins noted in a paper appeared in the journal Nature.

Co-researcher Matthew Genge from Imperial College London performed calculations that showed oxygen concentrations in the upper atmosphere would need to be close to modern day levels to explain the observations.

“This was a surprise because it has been firmly established that the Earth's lower atmosphere was very poor in oxygen 2.7 billion years ago. How the upper atmosphere could contain so much oxygen before the appearance of photosynthetic organisms was a real puzzle," Genge noted.

The results suggest the Earth at this time may have had a layered atmosphere with little vertical mixing, and higher levels of oxygen in the upper atmosphere produced by the breakdown of carbon dioxide by ultraviolet (UV) light.

A possible explanation for this layered atmosphere might have involved a methane haze layer at middle levels of the atmosphere.

The methane in such a layer would absorb UV light, releasing heat and creating a warm zone in the atmosphere that would inhibit vertical mixing.

“By studying fossilised particles of space dust the width of a human hair, we can gain new insights into the chemical makeup of Earth's upper atmosphere, billions of years ago,” Tomkins pointed out.

The next stage for the team will be to extract micrometeorites from a series of rocks covering over a billion years of Earth's history in order to learn more about changes in atmospheric chemistry and structure across geological time.

“We will focus particularly on the great oxidation event, which happened 2.4 billion years ago when there was a sudden jump in oxygen concentration in the lower atmosphere,” the authors noted.
 

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