If all countries adopted the same tax on carbon emissions and returned the revenues to their citizens, it is possible to keep the global temperature from rising more than 2 degrees Celsius while also benefiting wellbeing, reducing inequality, and alleviating poverty, according to a Rutgers study.
The paper, published in Nature Climate Change, examined whether a carbon emissions tax can reduce global emissions by encouraging emitters to lessen their greenhouse gas emissions, while also protecting the poor and achieving equity goals.
Keeping communities safe from global warming and extreme weather without overburdening disadvantaged populations is a significant challenge of identifying equitable climate policies. Many estimates of climate policy impact do not consider how the revenues generated from a carbon tax could be used to benefit the poor. Instead, these estimates imply that emission-reduction must come at a cost, which is sometimes used to justify a cautious approach to climate action.
The researchers reviewed economics literature combined with a global climate policy model to evaluate the benefits of a tax revenue redistribution. The model known as NICE divides the world into 12 regions, and further divides each region into five income groups. A new component of the model quantifies how both the costs of a carbon tax and the benefits from tax revenue redistribution impact different income groups in different nations.
Researchers found that a global temperature target can be met while also increasing wellbeing, reducing inequality, and alleviating poverty, if each country or region imposes a substantial carbon tax and refunds the revenues to its citizens on an equal per capita basis. At the same time, when revenues are not used in such a progressive way, the model also verified that many of the poorest citizens are negatively impacted in the short-to-medium term.
"These results indicate that it is possible for a society to implement strong climate action without compromising goals for equity and development – but this requires a careful focus on equity in policymaking," said corresponding author Mark Budolfson, associate member of the Center for Population-Level Bioethics at the Rutgers Institute for Health, Health Care Policy and Aging Research.
The overall benefits of returning carbon tax revenue to citizens could be even greater if total revenues are directed towards the poorest populations in the world, rather than the poorest within each country or region.
Researchers also found that the best path towards decarbonization consists of rapid reductions in carbon emissions early on, followed by a gradual build towards net-zero emissions. This would limit immediate climate change advances while also preserving carbon tax revenues for future generations. The benefits from progressive use of carbon revenues are most pronounced in the early decades, when the revenues are largest, and the needs of the poor are most urgent.
"Adopting strong climate policy need not entail a tradeoff where the people of today (and the poor in particularly) must sacrifice for the benefit of future generations", said Budolfson, who is also assistant professor in the Department of Environmental and Occupational Health and Justice at the Rutgers School of Public Health.
The paper addresses concerns around feasibility of the speed of decarbonization, public opinion and political will to increase policy support, and capacity of governments to transfer revenues back to citizens. Future research could examine the impact of the distribution of revenues when regions impose different carbon taxes, as well as the effect of carbon tax on households with the same income level but different consumption patterns.
The paper, Climate action with revenue recycling has benefits for poverty, inequality, and wellbeing, and corresponding policy brief first appeared online in Nature Climate Change on 29 November 2021. Coauthors include Francis Dennig from Yale-NUS, Kevin Kuruc from University of Oklahoma, Ulrike Kornek from Christian-Albrechts-Universität Kiel, Noah Scovronick from Emory University, and Frank Errickson from Princeton University.
The NICE global climate policy model is also used in a five-year, $1.5 million National Science Foundation project, co-led by Budolfson at Rutgers, Scovronick at Emory, and Wei Peng at Penn State University. The project estimates how different climate-change policies will impact different socioeconomic groups, especially in terms of the health benefits of reduced air pollution.