Atmospheric Chemistry and Physics (Jul 2010)

Chemistry of hydrogen oxide radicals (HO<sub>x</sub>) in the Arctic troposphere in spring

  • L. Jaeglé,
  • C. McNaughton,
  • A. D. Clarke,
  • J. H. Crawford,
  • G. Chen,
  • R. C. Cohen,
  • A. J. Weinheimer,
  • S. R. Hall,
  • J. G. Walega,
  • P. Weibring,
  • A. Fried,
  • J. L. Jimenez,
  • M. J. Cubison,
  • P. O. Wennberg,
  • M. R. Beaver,
  • K. M. Spencer,
  • J. D. Crounse,
  • J. M. St. Clair,
  • W. H. Brune,
  • X. Ren,
  • J. R. Olson,
  • M. J. Evans,
  • D. J. Jacob,
  • J. Mao,
  • J. A. Fisher,
  • R. M. Yantosca,
  • P. Le Sager,
  • C. Carouge

DOI
https://doi.org/10.5194/acp-10-5823-2010
Journal volume & issue
Vol. 10, no. 13
pp. 5823 – 5838

Abstract

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We use observations from the April 2008 NASA ARCTAS aircraft campaign to the North American Arctic, interpreted with a global 3-D chemical transport model (GEOS-Chem), to better understand the sources and cycling of hydrogen oxide radicals (HOx≡H+OH+peroxy radicals) and their reservoirs (HOy≡HOx+peroxides) in the springtime Arctic atmosphere. We find that a standard gas-phase chemical mechanism overestimates the observed HO2 and H2O2 concentrations. Computation of HOx and HOy gas-phase chemical budgets on the basis of the aircraft observations also indicates a large missing sink for both. We hypothesize that this could reflect HO2 uptake by aerosols, favored by low temperatures and relatively high aerosol loadings, through a mechanism that does not produce H2O2. We implemented such an uptake of HO2 by aerosol in the model using a standard reactive uptake coefficient parameterization with γ(HO2) values ranging from 0.02 at 275 K to 0.5 at 220 K. This successfully reproduces the concentrations and vertical distributions of the different HOx species and HOy reservoirs. HO2 uptake by aerosol is then a major HOx and HOy sink, decreasing mean OH and HO2 concentrations in the Arctic troposphere by 32% and 31% respectively. Better rate and product data for HO2 uptake by aerosol are needed to understand this role of aerosols in limiting the oxidizing power of the Arctic atmosphere.