Abstract

Severe and extensive denitrification, chlorine activation, and photochemical ozone loss were observed throughout the lower stratosphere in the 1999–2000 Arctic vortex. A large number of air parcels sampled between late February and mid‐March, 2000, were photochemically intercomparable for chemical O 3 loss rates. In these air parcels, the temporal evolution of the correlations of O 3 with the NO y remaining after denitrification provides strong evidence for the role of NO y in moderating O 3 destruction. In 71%‐denitrified air parcels, a chemical O 3 destruction rate of 63 ppbv/day was calculated, while in 43%‐denitrified air parcels the destruction rate was only 43 ppbv/day. These observational results show that representative denitrification models will be required for accurate prediction of future Arctic O 3 changes.