An unidentified system appears to prevent CO2 concentrations falling below a critical level that would see Earth plunge into a deep freeze. Scientists have found that in the last 800,000 years, atmospheric CO2 levels have never fallen below a certain point, indicating something is keeping them in check – but what that is they do not know.
Atmospheric CO2 concentrations are widely known today for the role it plays in climate change. At the moment, high concentrations is resulting in global warming. This is largely due to man-made greenhouse gas emissions since the Industrial Revolution. While estimates vary, it is thought we are on track to see global temperatures increase by around 4C by 2100 (if nothing is done to limit emissions).
But what about when CO2 concentrations fall? Researchers Eric Galbraith and Sarah Eggleston were looking at global temperatures and atmospheric CO2 concentrations over glacial cycles over the last 800,000 years.
In their study, published in Nature Geoscience, the scientists looked at Antarctic ice core to determine CO2 concentrations at different points in Earth's history. At the coldest points, CO2 levels were lowest.
However, they found that during each period of cooling (or ice ages) they never fell below 190 ppm (parts per million). Had they gone below this level, it would have triggered extreme cooling that would have meant ice ages lasted for far longer than they did – up to around 10,000 years.
"Global temperatures and atmospheric CO2 concentrations varied widely over the glacial cycles of the past 800,000 years. But despite this variability, Antarctic ice cores have shown that CO2 concentrations were very similar during all the coldest points of these cycles," they wrote. "Remarkably, the recurring minimum CO2 concentrations fall on the lower bound of any known in Earth history."
The researchers said that while there are "multiple explanations" as to why CO2 concentrations do not fall below this level, they said results are "are consistent with a strong negative feedback to decreasing CO2 that resisted further cooling". This, they say, could related to the biosphere and how photosynthesis is limited during cold periods. Restricted growth could reduce how much carbon is transferred from the atmosphere to the soil and ocean, preventing CO2 levels from falling any further.
They said further research will be needed to work out the feedback mechanism involved. "The absolute value of this minimum should be regarded with care, as specific measurement methods in technically challenging sections of the ice core can also lead to erroneous results," the study said.
"However, if real, its brevity (a few thousand years) could indicate the timescale on which the negative feedback operates, and further study of this time interval might help to test possible mechanisms regarding what appears to be a fundamental, yet unexplained, homeostatic regulation of the Earth system."
You may be interested in: