Quantifying sublimation of buried glacier ice in Beacon Valley
Summary A remnant of Taylor Glacier ice rests beneath a 40-to-80-cm-thick layer of sublimation till in central Bea-con Valley, Antarctica. Our 1-D vapor diffusion model, with input from micrometeorological data collected during the 2004 austral summer, shows that vapor flows into and out of sublimat...
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| Format: | Text |
| Language: | English |
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| Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.595.6123 http://pubs.usgs.gov/of/2007/1047/ea/of2007-1047ea115.pdf |
| Summary: | Summary A remnant of Taylor Glacier ice rests beneath a 40-to-80-cm-thick layer of sublimation till in central Bea-con Valley, Antarctica. Our 1-D vapor diffusion model, with input from micrometeorological data collected during the 2004 austral summer, shows that vapor flows into and out of sublimation till at rates dependent on the non-linear varia-tion of vapor concentration with depth. Although measured meteorological conditions during the study interval favored a net loss of buried glacier ice (~0.017 mm over 42 days), an average rate of ice sublimation that is consistent with a loss of 400 m of ice over 8.1 Ma (an amount suggested by Potter et al., 2003) is permissible if local temperatures de-crease by ~3ÂșC; relative humidity increases by 15%; or snowmelt infiltration equals ~0.001 mm/day. Our model results are consistent with the potential for long-term survival of buried glacier ice in the hyper-arid upland zone of the Dry Valleys. |
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