Atmosphere (Oct 2021)

Abundance of NO<sub>3</sub> Derived Organo-Nitrates and Their Importance in the Atmosphere

  • Amy Foulds,
  • M. Anwar H. Khan,
  • Thomas J. Bannan,
  • Carl J. Percival,
  • Mark H. Lowenberg,
  • Dudley E. Shallcross

DOI
https://doi.org/10.3390/atmos12111381
Journal volume & issue
Vol. 12, no. 11
p. 1381

Abstract

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The chemistry of the nitrate radical and its contribution to organo-nitrate formation in the troposphere has been investigated using a mesoscale 3-D chemistry and transport model, WRF-Chem-CRI. The model-measurement comparisons of NO2, ozone and night-time N2O5 mixing ratios show good agreement supporting the model’s ability to represent nitrate (NO3) chemistry reasonably. Thirty-nine organo-nitrates in the model are formed exclusively either from the reaction of RO2 with NO or by the reaction of NO3 with alkenes. Temporal analysis highlighted a significant contribution of NO3-derived organo-nitrates, even during daylight hours. Night-time NO3-derived organo-nitrates were found to be 3-fold higher than that in the daytime. The reactivity of daytime NO3 could be more competitive than previously thought, with losses due to reaction with VOCs (and subsequent organo-nitrate formation) likely to be just as important as photolysis. This has highlighted the significance of NO3 in daytime organo-nitrate formation, with potential implications for air quality, climate and human health. Estimated atmospheric lifetimes of organo-nitrates showed that the organo-nitrates act as NOx reservoirs, with particularly short-lived species impacting on air quality as contributors to downwind ozone formation.

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