Carbondioxide in danger level

Image by ozgurmulazimoglu via Flickr

The authors, who include two Yale scientists, assert that to maintain a planet similar to that on which civilization developed, an optimum CO₂ level would be less than 350 ppm — a dramatic change from most previous studies, which suggested a danger level for CO₂ is likely to be 450 ppm or higher. Atmospheric CO₂ is currently 385 parts per million (ppm) and is increasing by about 2 ppm each year from the burning of fossil fuels (coal, oil, and gas) and from the burning of forests.

This work and other recent publications suggest that we have reached CO₂ levels that compromise the stability of the polar ice sheets. How fast ice sheets and sea level will respond are still poorly understood, but given the potential size of the disaster.

The statement is based on improved data on the Earth's climate history and ongoing observations of change, especially in the polar regions. The authors use evidence of how the Earth responded to past changes of CO₂ along with more recent patterns of climate changes to show that atmospheric CO₂ has already entered a danger zone.

According to the study, coal is the largest source of atmospheric CO₂ and the one that would be most practical to eliminate. Oil reserveesImage by circulating via Flickr

ources already may be about half depleted, depending upon the magnitude of undiscovered reserves, and it is still not practical to capture CO₂ emergin

Image via Wikipedia

g from vehicle tailpipes, the way it can be with coal-burning facilities, note the scientists. Coal, on the other hand, has larger reserves, and the a

Image via Wikipedia

uthors conclude that "the only realistic way to sharply curtail CO₂ emissions is phase out coal use except where CO₂ is captured and sequestered."

In their model, with coal emissions phased out between 2010 and 2030, atmospheric CO₂ would peak at 400-425 ppm and then slowly decline. The authors maintain that the peak CO₂ level reached would depend on the accuracy of oil and gas reserve estimates and whether the most difficult to extract oil and gas is left in the ground.

The authors suggest that reforestation of degraded land and improved agricultural practices that retain soil carbon could lower atmospheric CO₂ by as much as 50 ppm. They also dismiss the notion of "geo-engineering" solutions, noting that the price of artificially removing 50 ppm of CO₂ from the air would be about $20 trillion.

While they note the task of moving toward an era beyond fossil fuels is Herculean, the authors conclude that it is feasible when compared with the efforts that went into World War II and that "the greatest danger is continued ignorance and denial, which could make tragic consequences unavoidable."

Image by doctor paradox via Flickr

Following a path that leads to a lower CO₂ amount, we can alleviate a number of problems that had begun to seem inevitable, such as increased storm intensities, expanded desertification, loss of coral reefs, and loss of mountain glaciers that supply fresh water to hundreds of millions of people.