Kimberly A. Marsella scite author profile

To determine the effectiveness of glacial erosion and the magnitude of cosmogenic nuclide inheritance from prior periods of cosmic-ray exposure, we measured the abundance of 10 Be and 26 Al in nine samples collected from bedrock, boulders and cobbles exposed by the retreat of Tumbling Glacier, Baffin Island, Canada. Most samples had nuclide concentrations so low that we were only able to set upper limits for nuclide abundance. Three boulders, two on a Neoglacial moraine of Tumbling Glacier that impounds Crater Lake and one on a roche moutonne¨e within the Neoglacial moraine loop, had nuclide abundances indicating no more than 900 yr of exposure at the surface. Three bedrock samples, striated byTumbling Glacier and exposed by ice retreat within the last 20 yr, have similarly low nuclide abundances. One bedrock sample, covered byTumbling Glacier ice for some part of the Holocene but not eroded, allows us to estimate crudely the duration of Neoglaciation at our sample site (about 5450 yr) and to provide a lower limit on the erosion rate of Tumbling Glacier (0.10 AE 0.03 mm a^1).We analyzed two cobbles collected from the tops of roches moutonne¨es at Crater Lake; one cobble had the equivalent of 3000 yr of exposure, the other 5900 yr.

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Cosmogenic 10Be and 26Al ages for the Last Glacial Maximum, eastern Baffin Island, Arctic Canada

Marsella

Bierman

Davis

et al. 2000

Geological Society of America Bulletin

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Eighmy

Hockert

et al. 1999

Applied Geochemistry

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Eusden

Marsella

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Home Energy Conservation Exercise

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Moomaw

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Journal of Geoscience Education

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Marsella

Bierman

Davis

et al. 2000

View full text Add to dashboard Cite

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