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C2-C7 Hydrocarbon Concentrations in Arctic Snowpack Interstitial Air: Potential Presence of Active Br within the Snowpack

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Abstract

Samples of interstitial air from within the snow pack on an ice floe on the Arctic Ocean were collected during the April 1994 Polar Sunrise Experiment. The concentrations of C2-C7 hydrocarbons are reported for the first time in the snow pack interstitial air. Alkane concentrations tended to be higher than concentrations in free air samples above the snow but very similar to winter measurements at various locations in the Arctic archipelago. However, ethyne concentrations in both interstitial and free air were highly correlated with ozone mixing ratios, consistent with previous demonstrations of the effects of Br atom chemistry. The analysis of total bromine within the snow pack indicate an enrichment in total Br at the interface layer between snow and free troposphere. The mixing ratios of some brominated compounds, such as CHBr3 and CHBr2Cl, are found to be higher in this top layer of snow relative to the boundary layer. Results were inconclusive due to the limited number of samples, but suggest the possible presence of active bromine in the snow pack and also that some differences exist between chemical reactions occurring in interstitial air compared to air in the boundary layer.

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Authors and Affiliations

  1. Departments of Chemistry and of Atmospheric and Oceanic Sciences, McGill University, 801 Sherbrooke St. W., Montreal, Quebec, CANADA, H3A 2K6

    Parisa A. Ariya

  2. Atmospheric Environment Service, 4905 Dufferin Street, Downsview, Ontario, CANADA, M3H 5T4

    John F. Hopper

  3. Centre for Atmospheric Chemistry, York University, 4700 Keele Street, North York, M3J 1P3, CANADA

    Geoffrey W. Harris

Authors
  1. Parisa A. Ariya
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  2. John F. Hopper
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  3. Geoffrey W. Harris
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Correspondence to Parisa A. Ariya.

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Ariya, P.A., Hopper, J.F. & Harris, G.W. C2-C7 Hydrocarbon Concentrations in Arctic Snowpack Interstitial Air: Potential Presence of Active Br within the Snowpack. Journal of Atmospheric Chemistry 34, 55–64 (1999). https://doi.org/10.1023/A:1006289618755

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