Cutting ammonia emissions is a cost-effective way to prevent air pollution deaths

从浙江联合国科学家领导的研究团队iversity in China used the IIASA GAINS model, among other tools, to develop a new metric, called the 'Nitrogen-share' (N-share), to estimate the contribution of nitrogen compounds to PM2.5 (fine particle) air pollution and the associated health effects.

N-share expresses the contribution of a given compound containing nitrogen to an effect in question.

PM2.5 air pollution is the largest environmental risk factor for human health worldwide. Sulphur dioxide and nitrogen compounds such as nitrogen oxides (NO_x), deriving from fossil fuel combustion in power plants, industrial furnaces or boilers, as well as vehicle emissions, and ammonia (NH₃) emissions mainly from agricultural and natural sources are important precursors of PM2.5 formation in the atmosphere.

The study, published inScience, revealed, via a cost-benefit analysis, that ammonia mitigation is one of the most cost-effective ways to improve global air quality and public health.

The research team used three atmospheric chemistry transport models to simulate total PM2.5 concentration with and without nitrogen compound emissions and found that NH₃emissions have a larger contribution to PM2.5 than NO_xemissions. Using the GAINS model developed by IIASA, the team was able to quantify the potential to reduce emissions, and the financial costs such measures would have.

They compared implementation costs of nitrogen compound abatement across sectors and countries with the benefits of reduced mortality to estimate the overall effects of abatement programs, and to derive important policy conclusions.

The study found that:

1. The NH₃contribution to PM2.5 is larger than NO_xglobally, and in most countries, indicating that PM2.5 formation is more strongly limited by NH₃than by NO_x.
2. Total years of life lost from PM2.5 pollution caused by nitrogen compound emission increased from 19.5 to 23.3 million globally between 1990 and 2013.
3. The global average marginal cost of premature mortality caused by nitrogen compound emission in 2013 was 33% higher than 1990 due to the increasing emissions and higher willingness to invest in health care.

The study assessed costs and benefits of NH₃and NO_xemission reductions and found the global average cost in US$ of reducing NH₃emission ($1.5 per kg of NH₃-N) is over four timeslowerthan the global health benefits ($6.9 per kg of NH₃-N), but the abatement cost of NO_xemission ($16 per kg of NO_x-N) is over two timeshigherthan the global health benefits ($7.3 per kg of NO_x-N). This effectively means the marginal global cost of ammonia emission abatement is only 10% of nitrogen oxide emission abatement, meaning ammonia reduction is cheaper and more effective.

"The GAINS model is a perfect tool to align abatement cost and effects of air pollution, allowing for robust policy recommendations," said IIASA researcher Shaohui Zhang.

IIASA researcher, Wilfried Winiwarter, added that the N-share approach has great value because of its wide applicability across impact studies.

"We have started looking at N compounds because they allow novel views to identify measures that benefit the environment in more than one aspect," he said. "We now can look more easily into pollution related effects including biodiversity or climate change that are also severely affected by nitrogen compounds."

Nitrogen cycles at multiple scales have been the focus of a range of IIASA activities, as compounds investigated allow to differently perceive seemingly unrelated problems, and to identify pathways of joint solutions directed to a range of environmental impacts simultaneously.