A Carbon Calculation: How Many Deaths Do Emissions Cause?

What is the cost of our carbon footprint — not just in dollars, but in lives?

According to a paper published on Thursday, it is soberingly high, and perhaps high enough to help shift attitudes about how much we should spend on fighting climate change.

The new paper, published in the journal Nature Communications, draws on multiple areas of research to find out how many future lives will be lost as a result of rising temperatures if humanity keeps producing greenhouse gas emissions at high rates — and how many lives could be saved by cutting those emissions.

Most of the deaths will occur in regions that tend to be hotter and poorer than the United States. These areas are typically less responsible for global emissions but more heavily affected by the resulting climate disasters.

R. Daniel Bressler, a Ph.D candidate at Columbia University, calculated that adding about a quarter of the output of a coal-fired power plant, or roughly a million metric tons of carbon dioxide, to the atmosphere on top of 2020 levels for just one year will cause 226 deaths globally.

By comparison, the lifetime emissions beyond 2020 levels of a handful of Americans (3.5, to be precise) will result in one additional heat-related death in this century.

Mr. Bressler also contrasted the effects of people in nations with big carbon footprints with those in smaller ones. While the carbon emissions generated by fewer than four Americans would kill one person, it would require the combined carbon dioxide emissions of 146.2 Nigerians for the same result. The worldwide average to cause that single death is 12.8 people.

The new paper builds on the work of William Nordhaus, a Nobel laureate who first determined what is known as the “social cost of carbon” — an economic tool for measuring the climate-related damage to the planet caused by each extra ton of carbon emissions. The concept has been a crucial part of policy debates over the expense of fighting climate change, because it is used to calculate the cost-benefit analysis required when agencies propose environmental rules. The higher the social cost of carbon, the easier it is to justify the costs of action.

The current version of the Nordhaus model — the “Dynamic Integrated Climate-Economy,” or DICE — puts the social cost of carbon at about $37 per metric ton. The Obama administration’s estimates put the figure at $50 a ton, but the Trump administration cut the estimate to as little as $1. The Biden administration is working on its own social cost of carbon, expected early next year; a preliminary figure released in February roughly matched the Obama administration’s.

In his paper, Mr. Bressler incorporated recent public health research that estimates the number of excess deaths attributable to rising temperatures into the latest version of the DICE model. The resulting extended model produced a startlingly high figure for the social cost of carbon: $258 per metric ton.

He coined a term for the relationship between the increased emissions and excess heat deaths: the “mortality cost of carbon.”

Heat waves, which have been made more frequent and more potent by climate change, have been linked to illness and death, with profound effects in less affluent countries. The recent off-the-charts temperatures in the Pacific Northwest and Canada have already been linked to hundreds of deaths.

Others have tried to put numbers on the mortality associated with climate change and the added costs that it entails, most notably the Climate Impact Lab at the University of Chicago. Maureen Cropper, senior fellow at Resources for the Future, a nonpartisan environmental research organization in Washington, suggested that Mr. Bressler’s $258 estimate appeared to be too high, in part because of the way that the paper looks at how people around the world view the value of their own lives. She added that “although one may disagree with some of the author’s assumptions, it is important for researchers to continue the effort.”

Mr. Bressler acknowledged that there were areas of uncertainty in the paper, including those built into some public health research investigating excess deaths caused by heat. He also relied solely on heat-related deaths without adding other climate-related causes of death, including floods, crop failures and civil unrest. The result is that the actual number of deaths could be smaller, or greater. “Based on the current literature,” he said, “this is the best estimate.”

Richard Revesz, a professor at New York University School of Law, praised the new work, which extends research that he and others have done to view the social cost of carbon as the beginning of an understanding of the costs of climate change, not the full cost.

“It could well have a significant impact on climate change policies,” he said.

The new research also shows the stark difference between personal carbon footprints and the kind of change that can be achieved through actions at the scale of government and business. Having calculated that 4,434 metric tons of carbon dioxide added to the atmosphere would result in one death during this century, Mr. Bressler said that simply taking one coal-fired power plant offline and replacing it with a zero-emissions alternative for just one year, would result in a “mortality benefit of saving 904 lives” over the century. “That would be a lot more impact than a personal decision,” he said.

But he added that he was not promoting one form of action over another.

“I’m just quantifying things,” he said, adding that ultimately, “you just have to reduce carbon.”

Source: Read Full Article