ANN ARBOR, Mich.—It’s a message no one wants to hear. To slow down global warming, we’ll either have to put the brakes on economic growth or transform the way the world’s economies work.That’s the implication of an innovative University of Michigan study examining the evolution of atmospheric CO2, the most likely cause of climate change.
The study, conducted by José Tapia Granados and Edward Ionides of U-M and Óscar Carpintero of the University of Valladolid, Spain, was published online in the peer-reviewed journal Environmental Science and Policy. It is the first analysis to use measurable levels of atmospheric carbon dioxide to assess fluctuations in the gas, rather than estimates of CO2 emissions, which are less accurate.
“If ‘business as usual’ conditions continue, economic contractions the size of the Great Recession or even bigger will be needed to reduce atmospheric levels of CO2,” says Tapia Granados, who is a researcher at the U-M Institute for Social Research (ISR).
For the study, the researchers assessed the impact of four factors on short-run, year-to-year changes in atmospheric concentrations of CO2, widely considered the most important greenhouse gas. Those factors included two natural phenomena believed to affect CO2 levels – volcanic eruptions and the El Niño Southern oscillation – and also world population and the world economy, as measured by worldwide gross domestic product.
Tapia Granados and colleagues found no observable relation between short-term growth of world population and CO2 concentrations, and they show that recent incidents of volcanic activity coincided with global recessions, which brings into question the reductions in atmospheric CO2 previously ascribed to these volcanic eruptions.
In years of above-trend world GDP, from 1958 to 2010, the researchers found greater increases in CO2 concentrations. For each trillion US dollars that the world GDP deviates from trend, CO2 levels deviate from trend about half a part per million (ppm), they found. Concentrations of CO2are estimated to have been between 200 and 300 ppm during preindustrial times. They are presently close to 400 ppm, and levels around 300 ppm are considered safe to keep a stable climate.
To break the economic habits contributing to a rise in atmospheric CO2 levels and global warming, Tapia Granados points out, societies around the world would need to make enormous changes.
“Since the 1980s, scientists like James Hansen have been warning us about the effects global warming will have on the earth,” says Tapia Granados. “One solution that has promise is a carbon tax levied on any activity producing CO2 in order to create incentives to reduce emissions. The money would be returned to the population on a per capita basis so the tax would not mean any extra fiscal burden.”
By Diane Swanbrow