Implications of Snowpack Reactive Bromine Production for Arctic Ice Core Bromine Preservation


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Hanno.Meyer [ at ] awi.de

Abstract

Snowpack emissions are recognized as an important source of gas-phase reactive bromine in the Arctic and are necessary to explain ozone depletion events in spring caused by the catalytic destruction of ozone by halogen radicals. Quantifying bromine emissions from snowpack is essential for interpretation of ice-core bromine. We present ice-core bromine records since the pre-industrial (1750 CE) from six Arctic locations and examine potential post-depositional loss of snowpack bromine using a global chemical transport model. Trend analysis of the ice-core records shows that only the high-latitude coastal Akademii Nauk (AN) ice core from the Russian Arctic preserves significant trends since pre-industrial times that are consistent with trends in sea ice extent and anthropogenic emissions from source regions. Model simulations suggest that recycling of reactive bromine on the snow skin layer (top 1 mm) results in 9–17% loss of deposited bromine across all six ice-core locations. Reactive bromine production from below the snow skin layer and within the snow photic zone is potentially more important, but the magnitude of this source is uncertain. Model simulations suggest that the AN core is most likely to preserve an atmospheric signal compared to five Greenland ice cores due to its high latitude location combined with a relatively high snow accumulation rate. Understanding the sources and amount of photochemically reactive snow bromide in the snow photic zone throughout the sunlit period in the high Arctic is essential for interpreting ice-core bromine, and warrants further lab studies and field observations at inland locations.



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Article
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Primary Division
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Publication Status
Published online
Eprint ID
58481
DOI 10.1029/2023jd039257

Cite as
Zhai, S. , Swanson, W. , McConnell, J. R. , Chellman, N. , Opel, T. , Sigl, M. , Meyer, H. , Wang, X. , Jaeglé, L. , Stutz, J. , Dibb, J. E. , Fujita, K. and Alexander, B. (2023): Implications of Snowpack Reactive Bromine Production for Arctic Ice Core Bromine Preservation , Journal of Geophysical Research: Atmospheres, 128 (20) . doi: 10.1029/2023jd039257


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