Nature Communications (Dec 2023)

Synthesizing evidence for the external cycling of NOx in high- to low-NOx atmospheres

  • Chunxiang Ye,
  • Xianliang Zhou,
  • Yingjie Zhang,
  • Youfeng Wang,
  • Jianshu Wang,
  • Chong Zhang,
  • Robert Woodward-Massey,
  • Christopher Cantrell,
  • Roy L. Mauldin,
  • Teresa Campos,
  • Rebecca S. Hornbrook,
  • John Ortega,
  • Eric C. Apel,
  • Julie Haggerty,
  • Samuel Hall,
  • Kirk Ullmann,
  • Andrew Weinheimer,
  • Jochen Stutz,
  • Thomas Karl,
  • James N. Smith,
  • Alex Guenther,
  • Shaojie Song

DOI
https://doi.org/10.1038/s41467-023-43866-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract External cycling regenerating nitrogen oxides (NOx ≡ NO + NO2) from their oxidative reservoir, NOz, is proposed to reshape the temporal–spatial distribution of NOx and consequently hydroxyl radical (OH), the most important oxidant in the atmosphere. Here we verify the in situ external cycling of NOx in various environments with nitrous acid (HONO) as an intermediate based on synthesized field evidence collected onboard aircraft platform at daytime. External cycling helps to reconcile stubborn underestimation on observed ratios of HONO/NO2 and NO2/NOz by current chemical model schemes and rationalize atypical diurnal concentration profiles of HONO and NO2 lacking noontime valleys specially observed in low-NOx atmospheres. Perturbation on the budget of HONO and NOx by external cycling is also found to increase as NOx concentration decreases. Consequently, model underestimation of OH observations by up to 41% in low NOx atmospheres is attributed to the omission of external cycling in models.