Measuring multiple cosmogenic nuclides in glacial cobbles sheds light on Greenland Ice Sheet processes

Corbett, Lee B., Bierman, Paul R., Neumann, Thomas A., Graly, Joseph, Shakun, Jeremy D., Goehring, Brent M., Hidy, Alan J. and Caffee, Marc W. (2021) Measuring multiple cosmogenic nuclides in glacial cobbles sheds light on Greenland Ice Sheet processes. Earth and Planetary Science Letters, 554. p. 116673. ISSN 0012-821X

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Official URL: https://doi.org/10.1016/j.epsl.2020.116673

Abstract

The behavior of the Greenland Ice Sheet during the Pleistocene remains uncertain due to the paucity of evidence predating the Last Glacial Maximum. Here, we employ a novel approach, cosmogenic nuclide analysis of individual subglacially-derived cobbles, which allows us to make inferences about ice sheet processes and subglacial erosion. From three locations in western Greenland, we collected 86 cobbles from the current ice sheet margin and nine cobbles exposed on the modern proglacial land surface. We measured the concentration of in situ 10Be in all cobbles (n = 95) and 26Al and 14C in a subset (n = 14). Cobbles deposited during Holocene retreat have 10Be exposure ages generally consistent with the timing of ice retreat determined by other methods. Conversely, most of the 86 subglacial cobbles contain very low concentrations of 10Be (median 1.0×10 3 atoms g −1), although several have ∼10 4 and one has ∼10 5 atoms g −1. The low concentrations of 10Be in most subglacial cobbles imply that their source areas under the Greenland Ice Sheet are deeply eroded, preserving minimal evidence of surface or near-surface exposure. The presence of measurable 14C in ten of the cobbles requires that they experienced cosmogenic nuclide production within the past ∼30 ka; however, 14C/ 10Be ratios of ∼6 suggest that nuclide production occurred during shielding by overlying material. Only two of the 86 subglacial cobbles definitively have cosmogenic nuclide concentrations consistent with prior surface exposure. Overall, isotopic analysis of subglacial cobbles indicates that much of western Greenland's subglacial landscape is characterized by deep erosion and minimal subaerial exposure.

Item Type: Article
Uncontrolled Keywords: cosmogenic, nuclides, Greenland, geochemistry, isotopes, Pliocene, Pleistocene
Subjects: F800 Physical and Terrestrial Geographical and Environmental Sciences
Department: Faculties > Engineering and Environment > Geography and Environmental Sciences
Depositing User: John Coen
Date Deposited: 13 Jan 2021 08:57
Last Modified: 13 Jan 2021 09:00
URI: http://nrl.northumbria.ac.uk/id/eprint/45205

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