Ice thickness of Kilimanjaro's Northern Ice Field mapped by ground-penetrating radar

Although its Holocene glacier history is still subject to debate, the ongoing iconic decline of Kilimanjaro's largest remaining ice body, the Northern Ice Field (NIF), has been documented extensively based on surface and photogrammetric measurements. The study presented here adds, for the first...

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Bibliographic Details
Main Authors: Bohleber, Pascal, Sold, Leo, Hardy, Douglas R, Schwikowski, Margit, Klenk, Patrick, Fischer, Andrea, Sirguey, Pascal, Cullen, Nicolas J, Potocki, Mariusz, Hoffmann, Helene, Mayewski, Paul
Format: Dataset
Language:English
Published: PANGAEA 2016
Subjects:
ice core
The Cryosphere
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.867908
https://doi.org/10.1594/PANGAEA.867908
Description
Summary:Although its Holocene glacier history is still subject to debate, the ongoing iconic decline of Kilimanjaro's largest remaining ice body, the Northern Ice Field (NIF), has been documented extensively based on surface and photogrammetric measurements. The study presented here adds, for the first time, ground-penetrating radar (GPR) data at center frequencies of 100 and 200 MHz to investigate bedrock topography, ice thickness and internal stratigraphy at NIF. The direct comparison of the GPR signal to the visible glacier stratigraphy at NIF's vertical walls is used to validate ice thickness and reveals that the major internal reflections seen by GPR can be associated with dust layers. Englacial reflections can be traced consistently within our 200 MHz profiles, indicating an undisturbed internal stratigraphy within NIF's central flat area. We show that it is possible to follow isochrone layers between two former NIF ice core drilling sites and a sampling site on NIF's vertical wall. As a result, these isochrone layers provide constraints for future attempts at linking age-depth information obtained from multiple locations at NIF. The GPR profiles reveal an ice thickness ranging between (6.1 ± 0.5) and (53.5 ± 1.0) m. Combining these data with a very high resolution digital elevation model we spatially extrapolate ice thickness and give an estimate of the total ice volume remaining at NIF's southern portion as (12.0 ± 0.3) 10**6 m**3.

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