1Department of Physics, University of Toronto, Toronto, Ontario, Canada
2Service d’Aéronomie du Centre Nationale de la Recherche Scientifique, Verrières le Buisson, France
3Environment Canada, Downsview, Ontario, Canada
4Space Science, Canadian Space Agency, Saint-Hubert, Québec, Canada
Abstract. Ground-based measurements of ozone and NO2 slant columns by the SAOZ (Système d'Analyse par Observations Zénithales) and UT-GBS (University of Toronto Ground-Based Spectrometer) instruments during the MANTRA 2004 field campaign are presented herein. During the afternoon of 28 August, a thunderstorm passed over the instruments, which were installed at Vanscoy, Saskatchewan (52° N, 107° W). Enhanced slant columns of ozone and NO2 were observed by both instruments during the storm, with maximum values of two and 25 times the expected columns, respectively. The enhanced ozone slant columns are primarily due to the longer path traversed by the solar radiation caused by multiple scattering inside the thick cloud layer associated with the thunderstorm. The enhanced NO2 columns are attributed to NOx production by lightning. Two different methods are used to separate the NO2 enhancements into contributions from the longer path length and production by lightning. Combining the observed excess NO2 with lightning flash data from the Canadian Lightning Detection Network and Environment Canada Doppler radar measurements, the production of NO2 molecules per lightning flash is determined. Using these two methods, the best estimate of the production rate is found to be (7.45±1.38)×1026 molecules NO2/flash from the UT-GBS and (6.58±1.21)×1026 molecules NO2/flash from SAOZ. These results are consistent with previous estimates which range from 1026 molecules NO2/flash (Noxon, 1976) to (7±3)×1026 molecules NO2/flash (Franzblau and Popp, 1989).