It’s a classic policy dispute: How much should the current generation invest in reducing carbon emissions for the benefit of future generations?
A study published in Nature Communications helps answer this question by quantifying whether reducing carbon emissions — which will have global benefits in the future — also improves air quality now. Preventing many of the human health burdens that result from air pollution would be a powerful positive incentive to act sooner than later.
The model combines the cost of reducing emissions with the potential health ‘co-benefits’ or synergies of climate policy; these co-benefits have traditionally been excluded in the cost-benefit models that estimate how much the world should pay to reduce carbon emissions. When put together, the researchers find immediate net benefits globally from climate policy investments.
“Increasingly, we are finding that is important to consider public health impacts in analyses of climate change decision-making. We’ve built these considerations directly into this new model to see how the cost-benefit calculation changes when these impacts are accounted for. If we include the health benefits, the model tells use to reduce our emissions much more quickly than it would otherwise,” said lead co-author Noah Scovronick, of Emory University, who worked on the model while at Princeton’s Woodrow Wilson School of Public and International Affairs.
The results provide an economic vindication of the Paris Agreement targets for limiting temperature rise: If improved air quality and better health are included in the analysis, then a target of 2 degrees Celsius (or 3.6 degrees Fahrenheit) is economically defensible. This is because the health benefits resulting from air pollution reductions significantly outweigh any near-term costs, especially in developing regions. Prior economic studies on this issue did not support such a strict climate target.
Their new modeling framework for analyzing CO2 policy incorporates the costs and benefits of reducing air pollutant emissions. In particular, the environmental impacts from aerosols — which result from air pollutant emissions — have never been fully incorporated into this type of modeling. This is important for two reasons. On the one hand, reducing aerosol pollution is good for human health. One the other hand, however, aerosols act to cool the earth and thus counterbalance some of the warming generated by greenhouse gases; this beneficial effect is lost when air pollutant emissions are reduced. The researchers included both of these opposing effects in their framework.
When all of the benefits and harms are taken into account, the researchers see immediate net benefits globally, both in health and economic terms. In particular, the global health benefits from this climate policy could reach trillions of dollars annually, but their magnitude will depend somewhat on air quality policies that nations adopt independently of climate change. The team found the strongest potential near-term health benefits in China and India.
“Some developing regions have been understandably reluctant to invest their limited resources in reducing emissions,” said Scovronick. “This and other studies demonstrate that many of these same regions are likely to gain most of the health co-benefits, which may add incentive for them to adopt stronger climate policies.”
Scovronick and Fleurbaey conducted the study with Princeton University’s Robert Socolow,Mark Budolfson from the University of Vermont, Francis Dennig from Yale-NUS College in Singapore, Frank Errickson from the University of California, Berkeley, Wei Peng from Penn State University, Dean Spears of the University of Texas at Austin, and Fabian Wagner of the International Institute of Applied Systems Analysis. In addition to Scovronick, Fleurbaey, and Socolow, Budolfson, Peng, Spears, and Wagner were all at Princeton when this study was initiated.
The paper, “The impact of human health co-benefits on evaluations of global climate policy,” will appear online May 7 in Nature Communications.