Summer snow determines the depth to ice-cemented ground under dry permafrost in Antarctica
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Abstract
Dry permafrost underlain by ice-cemented permafrost has been reported in several locations in Antarctica. Initially thought to be relic ice, it is now understood that this subsurface ice is in equilibrium with the surface conditions, although it is not in equilibrium with the atmosphere. We use year-round data from University Valley in the Dry Valleys and Elephant Head in the Ellsworth Mountains to investigate the seasonal variations in water vapour flux that control the depth to the ice table under dry permafrost. Our analysis shows that the mean annual water vapour density of the soil surface exceeds the atmospheric value by a factor of up to ~2 due to summer snow. The attenuation and phase shift of the annual temperature cycle with depth result in colder temperatures at the ice table than at the surface of the soil in summer. We conclude that this temperature gradient, combined with the summer snow, provides the flux of water to the ice table necessary to maintain the ice. In University Valley, reducing the snow days by 40% moves the stability depth of the ice table from 42 to 66 cm. Increasing the snow days by 60% shifts the ice table to 17 cm. These variations can explain the observed gradient in the depth to the ice table in University Valley.
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | Summer snow determines the depth to ice-cemented ground under dry permafrost in Antarctica |
| Series title | Antarctic Science |
| DOI | 10.1017/S0954102025100448 |
| Edition | Online First |
| Publication Date | November 27, 2025 |
| Year Published | 2025 |
| Language | English |
| Publisher | Cambridge University Press |
| Contributing office(s) | Astrogeology Science Center |