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Global net climate effects of anthropogenic reactive nitrogen.

Cheng GongHanqin TianHong LiaoNaiqing PanShufen PanAkihiko ItoAtul K JainSian Kou-GiesbrechtFortunat JoosQing SunHao ShiNicolas VuichardQing ZhuChanghui PengFederico MaggiFiona H M TangSönke Zaehle
Published in: Nature (2024)
Anthropogenic activities have substantially enhanced the loadings of reactive nitrogen (Nr) in the Earth system since pre-industrial times 1,2 , contributing to widespread eutrophication and air pollution 3-6 . Increased Nr can also influence global climate through a variety of effects on atmospheric and land processes but the cumulative net climate effect is yet to be unravelled. Here we show that anthropogenic Nr causes a net negative direct radiative forcing of -0.34 [-0.20, -0.50] W m -2 in the year 2019 relative to the year 1850. This net cooling effect is the result of increased aerosol loading, reduced methane lifetime and increased terrestrial carbon sequestration associated with increases in anthropogenic Nr, which are not offset by the warming effects of enhanced atmospheric nitrous oxide and ozone. Future predictions using three representative scenarios show that this cooling effect may be weakened primarily as a result of reduced aerosol loading and increased lifetime of methane, whereas in particular N 2 O-induced warming will probably continue to increase under all scenarios. Our results indicate that future reductions in anthropogenic Nr to achieve environmental protection goals need to be accompanied by enhanced efforts to reduce anthropogenic greenhouse gas emissions to achieve climate change mitigation in line with the Paris Agreement.
Keyphrases
  • climate change
  • human health
  • air pollution
  • particulate matter
  • oxidative stress
  • nitric oxide
  • hydrogen peroxide
  • high glucose
  • public health
  • chronic obstructive pulmonary disease
  • wastewater treatment
  • lung function