Drift-dependent changes in iceberg size-frequency distributions

Kirkham, James D.; Rosser, Nick J.; Wainwright, John; Vann Jones (née Norman), Emma C.; Dunning, Stuart A.; Lane, Victoria S.; Hawthorn, David E.; Strzelecki, Mateusz C.; Szczuciński, Witold

doi:10.1038/s41598-017-14863-2

Drift-dependent changes in iceberg size-frequency distributions

Kirkham, James D.; Rosser, Nick J.; Wainwright, John; Vann Jones (née Norman), Emma C.; Dunning, Stuart A.; Lane, Victoria S.; Hawthorn, David E.; Strzelecki, Mateusz C.; Szczuciński, Witold

Authors

James D. Kirkham

Professor Nick Rosser n.j.rosser@durham.ac.uk
Professor

John Wainwright

Emma C. Vann Jones (née Norman)

Stuart A. Dunning

Victoria S. Lane

David E. Hawthorn

Mateusz C. Strzelecki

Witold Szczuciński

Abstract

Although the size-frequency distributions of icebergs can provide insight into how they disintegrate, our understanding of this process is incomplete. Fundamentally, there is a discrepancy between iceberg power-law size-frequency distributions observed at glacial calving fronts and lognormal size-frequency distributions observed globally within open waters that remains unexplained. Here we use passive seismic monitoring to examine mechanisms of iceberg disintegration as a function of drift. Our results indicate that the shift in the size-frequency distribution of iceberg sizes observed is a product of fracture-driven iceberg disintegration and dimensional reductions through melting. We suggest that changes in the characteristic size-frequency scaling of icebergs can be explained by the emergence of a dominant set of driving processes of iceberg degradation towards the open ocean. Consequently, the size-frequency distribution required to model iceberg distributions accurately must vary according to distance from the calving front.

Citation

Kirkham, J. D., Rosser, N. J., Wainwright, J., Vann Jones (née Norman), E. C., Dunning, S. A., Lane, V. S., …Szczuciński, W. (2017). Drift-dependent changes in iceberg size-frequency distributions. Scientific Reports, 7, Article 15991. https://doi.org/10.1038/s41598-017-14863-2

Journal Article Type	Article
Acceptance Date	Oct 11, 2017
Online Publication Date	Nov 22, 2017
Publication Date	Nov 22, 2017
Deposit Date	Oct 18, 2017
Publicly Available Date	Oct 19, 2017
Journal	Scientific Reports
Publisher	Nature Research
Peer Reviewed	Peer Reviewed
Volume	7
Article Number	15991
DOI	https://doi.org/10.1038/s41598-017-14863-2

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