Earth's Atmospheric Oxygen Levels Continue Long Slide

Atmospheric oxygen levels have declined over the past 1 million years, although not nearly enough to trigger any major problems for life on Earth.

Photo: Researchers analyzed samples from ice core drilling stations in Antarctica and Greenland to evaluate the planet's atmospheric oxygen levels throughout history. Credit: Michael Bender Atmospheric oxygen levels have declined over the past 1 million years, although not nearly enough to trigger any major problems for life on Earth, a new study finds.

The research behind this new finding could help shed light on what controls atmospheric oxygen levels over long spans of time, the researchers said.

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Atmospheric oxygen levels are fundamentally linked to the evolution of life on Earth, as well as changes in geochemical cycles related to climate variations. As such, scientists have long sought to reconstruct how atmospheric oxygen levels fluctuated in the past, and what might control these shifts. [Photo Timeline: How the Earth Formed]

However, models of past atmospheric oxygen levels often markedly disagree, differing by as much as about 20 percent of Earth's atmosphere, which is oxygen's present-day concentration, the researchers said. 1 It is not even known if atmospheric oxygen levels varied or remained steady over the past 1 million years.

"There was no consensus on whether the oxygen cycle before humankind began burning fossil fuels was in or out of balance and, if so, whether it was increasing or decreasing," said study lead author Daniel Stolper, a geochemistat Princeton University in New Jersey.

In the new study, researchers calculated past atmospheric oxygen levels by looking at air trapped inside ancient polar ice samples. Specifically, they looked at samples from Greenland and Antarctica.

The new estimates suggest that atmospheric oxygen levels have fallen by 0.7 percent over the past 800,000 years. The scientists concluded that oxygen sinks - processes that removed oxygen from the air - were about 1.7 percent larger than oxygen sources during this time.

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Although a drop in atmospheric oxygen levels might sound alarming, the decrease the researchers found "is trivial in regard to ecosystems," Stolper told Live Science. "To put it in perspective, the pressure in the atmosphere declines with elevation. A 0.7 percent decline in the atmospheric pressure of oxygen occurs at about 100 meters (330 feet) above sea level - that is, about the 30th floor of a tall building."

There are two hypotheses that may help explain this oxygen decline over the past million years, Stolper said.

"The first is that global erosion rates may have increased over the past few to tens of millions of years due to, among other things, the growth of glaciers - glaciers grind rock, thereby increasing erosion rates," Stolper said.

Rising erosion rates would have exposed more pyrite and organic carbon to the atmosphere. Pyrite is better known as fool's gold, and organic carbon consists of the remains of organisms, mostly land plants and aquatic photosynthetic microorganisms such as algae. Previous research found that both pyrite and organic carbon can react with oxygen and remove it from the atmosphere. [Infographic: Earth's Atmosphere Top to Bottom]

"Alternatively, when the ocean cools, as it has done over the past 15 million years, before fossil fuel burning, the solubility of oxygen in the ocean increases. That is, the oceans can store more oxygen at colder temperatures for a given concentration of oxygen in the atmosphere," Stolper said. Oxygen-dependent microbes in the ocean and in sediments can then become more active and consume this oxygen, leaving less of the element in the atmosphere, he added.

RELATED: Was Life on Earth an Early Achiever?

Future research can identify what geological processes are consistent with these findings "and thus help to identify the major processes that control atmospheric oxygen levels," Stolper said.

These findings also reveal what might be a strange contradiction, because it could be assumed that atmospheric carbon dioxide levels should rise as oxygen levels fall - "for example, right now we are consuming oxygen and breathing out carbon dioxide," said study senior author John Higgins, a geochemistat Princeton.

However, previous research has found that atmospheric carbon dioxide levels have not, on average, changed over the past 800,000 years, Higgins noted. "At first glance, these two sets of observations, both from gases trapped in ice cores, are paradoxical," he said.

One way out of this conundrum is a well-known but relatively untested concept that suggests "that on timescales longer than a few hundred thousand years, atmospheric carbon dioxide and Earth's temperature are regulated via a 'silicate weathering thermostat,'" Higgins said.

Basically, increasing atmospheric carbon dioxide levels will boost the rates at which volcanic rocks wear down and their components wash into the seas, which can then go on to trap atmospheric carbon dioxide in ocean minerals. This means that "one can have a change in atmospheric oxygen with no observable change in average carbon dioxide," Higgins said. "Importantly, this silicate weathering thermostat is one reason why Earth is thought to have remained habitable for billions of years despite changes in solar luminosity."

The scientists detailed their findings online today (Sept. 22) in the journal Science.

Original article on Live Science.

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