Air‐snow exchange of HNO3 and NOy at Summit, Greenland

Abstract

Ice core records of NO₃⁻ deposition to polar glaciers could provide unrivaled information on past photochemical status and N cycling dynamics of the troposphere, if the ice core records could be inverted to yield concentrations of reactive N oxides in the atmosphere at past times. Limited previous investigations at Summit, Greenland, have suggested that this inversion may be difficult, since the levels of HNO₃ and aerosol‐associated NO₃⁻ over the snow are very low in comparison with those of NO₃⁻ in the snow. In addition, it appears that some fraction of the NO₃⁻ in snow may be reemitted to the atmosphere after deposition. Here we report on extensive measurements of HNO₃, including vertical gradients between 1.5 and 7 m above the snow, made during the summers of 1994 and 1995 at Summit. These HNO₃ data are compared with NO₃⁻ concentrations in surface snow and the first measurements of the concentrations and fluxes of total reactive nitrogen oxides (N_y) on a polar glacier. Our results confirm that HNO₃ concentrations are quite low (mean 0.5 nmol m⁻³) during the summer, while NO₃⁻ is the dominant ion in snow. Daytime peaks in HNO₃⁻ appear to be due at least partly to emissions from the snow, an assertion supported by gradients indicating a surface source for HNO₃⁻ on many days. Observed short‐term increases in NO₃⁻ inventory in the snow can be too large to be readily attributed to deposition of HNO₃⁻ suggesting that deposition of one or more other N oxides must be considered. We found that the apparent fluxes of HNO₃ and NO_y were in opposite directions during about half the intervals when both were measured, with more cases of HNO₃ leaving the snow, against an NO_y flux into the snow, than the reverse. The concentrations of NO_y are generally about 2 orders of magnitude greater than those of HNO₃; hence deposition of only a small, non‐HNO₃, fraction of this pool could dominate NO₃⁻ in snow, if the depositing species converted to NO₃⁻, either in the snowpack or upon melting for analysis.