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Aspirational nitrogen interventions accelerate air pollution abatement and ecosystem protection

Yixin Guo, Hao Zhao, Wilfried Winiwarter, Jinfeng Chang, Xiaolin Wang, Mi Zhou, Peter Havlík, David Leclère, Da Pan, David Kanter, Lin Zhang

2024Science Advances26 citationsDOIOpen Access PDF

Abstract

Although reactive nitrogen (Nr) emissions from food and energy production contribute to multi-dimensional environmental damages, integrated management of Nr is still lacking owing to unclear future mitigation potentials and benefits. Here, we find that by 2050, high-ambition compared to low-ambition N interventions reduce global ammonia and nitrogen oxide emissions by 21 and 22 TgN/a, respectively, equivalent to 40 and 52% of their 2015 levels. This would mitigate population-weighted PM 2.5 by 6 μg/m 3 and avoid premature deaths by 817 k (16%), mitigate ozone by 4 ppbv, avoid premature deaths by 252k (34%) and crop yield losses by 122 million tons (4.3%), and decrease terrestrial ecosystem areas exceeding critical load by 420 Mha (69%). Without nitrogen interventions, most environmental damages examined will deteriorate between 2015 and 2050; Africa and Asia are the most vulnerable but also benefit the most from interventions. Nitrogen interventions support sustainable development goals related to air, health, and ecosystems.

Topics & Concepts

Psychological interventionEcosystemEnvironmental scienceReactive nitrogenDamagesAir pollutionEnvironmental healthNutrient pollutionNatural resource economicsSustainabilityEnvironmental protectionAgricultureNitrogenEcologyMedicineBiologyChemistryLawOrganic chemistryPsychiatryPolitical scienceEconomicsAir Quality and Health ImpactsAtmospheric chemistry and aerosolsClimate Change Policy and Economics
Aspirational nitrogen interventions accelerate air pollution abatement and ecosystem protection | Litcius