Dating Antarctic ice cores using high-temporal resolution black carbon records

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Date
2016-03-07
Journal Title
Journal ISSN
Volume Title
Publisher
Antarctic Climate and Ecosystems Cooperative Research Centre
Abstract
Black carbon aerosols (BC) emitted by fires in the Southern Hemisphere (SH) are transported to Antarctica and preserved in the Antarctic ice sheet. Recent efforts to develop ice core records of BC deposition to Antarctica show variability in BC over a broad range of time scales. The ~ monthly-resolution BC record from the WAIS divide deep ice core displayed strong seasonal variability in modern sections of the record consistent with the timing of SH biomass burning. The record was subsequently used as an annual layer dating proxy in conjunction with other chemical species. If the emissions and transport of BC to Antarctica are stable over long periods of time it may be useful as an annual layer proxy at sites other than WAIS. To date, a rigorous comparison of Antarctic ice core BC seasonality from different locations have not been conducted. Here we present a comparison of BC ice core data from the top sections of the WAIS divide deep core, the Roosevelt Island RICE core, and the Law Dome DSS1213 core. The RICE and Law Dome sites are separated from WAIS by large distances and experience different atmospheric circulation and climate regimes. A detailed description of the data uncertainties and its use in annual layer counting will be discussed.
Description
Keywords
Age estimation, Antarctic regions, Drill cores, Carbon, Southern Hemisphere, Fires
Citation
Edwards, R., Vallelonga, P., McConnell, J. R., Bertler, N. A. N., Curran, M. A. J., Sigil, M., Fudge, T. J., Anschuetz, H., Neff, P. D., Emanuelsson, D., Bisiaus, M., Goodwin, D., Smith, A., Taylor, K. C., Moy, A., Fetieng, W., & Ellis, A. (2016). Dating Antarctic ice cores using high-temporal resolution black carbon records. Paper presented at the IPICS 2016, International Partnerships in Ice Core Sciences, Second Open Science Conference, 7-11 March 2016, Hobart, Tasmania.