In situ trace gas and particle measurements in the summer lower stratosphere during STREAM II: Implications for O-3 production

A Bregman*, F Arnold, Koert N. J. Burger, H Fischer, J Lelieveld, BA Scheeren, J Schneider, PC Siegmund, J Strom, A Waibel, WMF Wauben

*Corresponding author voor dit werk

OnderzoeksoutputAcademicpeer review

26 Citaten (Scopus)


In situ aircraft measurements of O-3, CO, HNO3, and aerosol particles are presented, performed over the North Sea region in the summer lower stratosphere during the STREAM II campaign (Stratosphere Troposphere Experiments by Aircraft Measurements) in July 1994. Occasionally, high CO concentrations of 200-300 pbbv were measured in the lowermost stratosphere, together with relatively high HNO3 concentrations up to 1.6 ppbv. The particle number concentration (at standard pressure and temperature) between 0.018-1 mu m decreased across the tropopause, from > 1000 cm(-3) in the upper troposphere to <500 cm(-3) in the lowermost stratosphere. Since the CO sources are found in the troposphere, the elevated CO mixing ratios are attributed to mixing of polluted tropospheric air into the lowermost extratropical stratosphere. Further we have used a chemical model to illustrate that nitrogen oxide reservoir species (mainly HNO3) determine the availability of NOx (=NO + NO2) and therefore largely control the total net O-3 production in the lower kilometers of the stratosphere. Model simulations, applying additional NOx perturbations from aircraft, show that the O-3 production efficiency of NOx is smaller than previously assumed, under conditions with relatively high HNO3 mixing ratios, as observed during STREAM II. The model simulations further suggest a relatively high O-3 production efficiency from CO oxidation, as a result of the relatively high ambient HNO3 and NOx concentrations, implying that upward transport of CO rich air enhances O-3 production in the lowermost stratosphere. Analysis of the measurements and the model calculations suggest that the lowermost stratosphere is a transition region in which the chemistry deviates from both the upper troposphere and lower stratosphere.

Originele taal-2English
Pagina's (van-tot)275-310
Aantal pagina's36
TijdschriftJournal of Atmospheric Chemistry
Nummer van het tijdschrift3
StatusPublished - mrt.-1997


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