Summary
Soil microbial nitrous acid (HONO) production is an important source of atmospheric reactive nitrogen that affects air quality and climate. However, long-term global soil HONO emissions driven by climate change and fertilizer use have not been quantified. Here, we derive the global soil HONO emissions over the past four decades and evaluate their impacts on ozone (O<sub>3</sub>) and vegetation. Results show that climate change and the increased fertilizer use enhanced soil HONO emissions from 9.4 Tg N in 1980 to 11.5 Tg N in 2016. Chemistry-climate model simulations show that soil HONO emissions increased global surface O<sub>3</sub> mixing ratios by 2.5% (up to 29%) and vegetation risk to O<sub>3</sub>, with increasing impact during 1980s-2016 in low-anthropogenic-emission regions. With f
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