Raphael Thys
NASA Goddard Space Flight Center
Earth has a surprising new player in the climate game: oxygen. Even though oxygen is not a heat-trapping greenhouse gas, its concentration in our atmosphere can affect how much sunlight reaches the ground, and new models suggest that effect has altered climate in the past.
Oxygen currently makes up about 21 percent of the gases in the planet’s atmosphere, but that level hasn’t been steady over Earth’s history. For the first couple of billion years, there was little oxygen in the atmosphere. Then, about 2.5 billion years ago, oxygen started getting added to the atmosphere by photosynthetic cyanobacteria. “Oxygen is produced as a waste product of photosynthesis. It is consumed through respiration,” explains University of Michigan climate scientist Chris Poulsen, lead author of the study published today in Science.
That waste product sparked a mass extinction known as the Great Oxygenation Event. But over time, new forms of life evolved that use or expel oxygen in respiration, and atmospheric oxygen levels continued to increase. “The production and burial of plant matter over long periods causes oxygen levels to rise,” explains Poulsen. Levels can fall again when that trapped ancient organic matter becomes exposed on land, and elements such as iron react with oxygen from the atmosphere, a reaction called oxidative weathering. As a result of these processes, atmospheric oxygen levels have varied from a low of 10 percent to a high of 35 percent over the last 540 million years or so.
Poulsen and his colleagues were studying the climate and plants of the late Paleozoic, and during a meeting they started talking about whether oxygen levels might somehow have affected climate in the past. Studies have shown that atmospheric carbon dioxide has been the main climate driver through deep time, so most thought oxygen's role has been negligible.
But computer models based on carbon data have not been able to explain everything in the record. For example, the Cenomanian, an age in the late Cretaceous, was marked by high carbon dioxide and soaring temperatures, but models of this time usually spit out polar temperatures and precipitation rates that are too low when compared with data taken from the paleogeologic record. So Poulsen began modifying a climate model to test the oxygen idea, and the results showed that changes in oxygen concentration did indeed have an impact through a series of feedbacks.
“Reducing oxygen levels thins the atmosphere, allowing more sunlight to reach Earth’s surface,” explains Poulsen. More sunlight lets more moisture evaporate from the planet’s surface, which increases humidity. Because water vapor is a greenhouse gas, more heat gets trapped near Earth's surface, and temperatures rise. The increased humidity and temperature also leads to increases in precipitation. By contrast, when oxygen concentrations are higher, the atmosphere gets thicker and scatters more sunlight. As a result, there is less water vapor to trap heat.
Adding in oxygen's affects during other time periods could lead to more accurate models of the planet’s past, the researchers say. But Poulsen cautions that the study has no affect on what is known about Earth’s current climate. The planet’s climate is changing today because levels of greenhouse gases such as carbon dioxide and methane are rising dramatically—oxygen isn’t a factor.
“Oxygen levels are dropping today but at a very slow rate, approximately tens of parts per million per year," he says. "This rate is much too slow to affect climate in the modern world.” Give the planet another million years, though, and future climate scientists will need to add oxygen to their models to get the full picture.
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Sarah Zielinski | | READ MORE
Sarah Zielinski is an award-winning science writer and editor. She is a contributing writer in science for Smithsonian.com and blogs at Wild Things, which appears on Science News.
Filed Under: Anthropocene, Climatology
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