Viscous flow lobes in central Taylor Valley, Antarctica: Origin as remnant buried glacial ice

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• 作者：Kate M. Swanger ; David R. Marchant ; Douglas E. Kowalewski ; James W. Head III
• 关键词：Periglacial geomorphology ; Quaternary ; McMurdo Dry Valleys ; Ice-cored moraine ; Shallow seismic survey ; Rock glacier
• 刊名：Geomorphology
• 出版年：2010
• 出版时间：15 August 2010
• 年：2010
• 卷：120
• 期：3-4
• 页码：174-185
• 全文大小：8275 K

文摘

Viscous flow lobes are common throughout the McMurdo Dry Valleys (MDV) of Antarctica. These features have been described as rock glaciers, gelifluction lobes, solifluction lobes, talus mobilized by pore ice and/or segregation ice, and debris-covered glaciers. We investigate the origin, modification, and flow of a 2-km-long lobe (East Stocking Lobe or ESL) along the north wall of central Taylor Valley using field mapping techniques, shallow seismic surveys, time-dependent displacement surveys, and isotopic analyses of buried-ice samples. On the basis of these integrated analyses, we show that the ESL is cored with remnant glacier ice, most probably derived from an advance of nearby Stocking Glacier 130 kyr BP. Seismic data, coupled with results from ice-flow modeling assuming plastic flow of clean ice, suggest that the buried core of glacier ice is 14- to 30-m thick. Near its terminus, the ESL flows at a rate of  2.4 to 6.7 mm a^− 1. The loose drift that caps the buried ice (typically < 1 m thick) is composed of moderately stratified sand- and gravel-sized clasts; it is dry (1–3 % soil gravimetric water content; GWC), except near ephemeral stream channels and the margins of melting snow banks (6–25 % GWC). Stable isotopic analyses of samples from the upper 30 cm of the ice lie on a slope of  5.8 (when plotted on a δD vs. δ¹⁸O graph), well below the local meteoric water line of 7.75, suggesting modification by freeze/thaw processes and evaporation/sublimation. Measured air and soil temperatures show that intermittent melting is most likely possible during summer months where buried ice is ≤ 35 cm below the ground surface. Morphological comparisons with ice-cored deposits in upland regions of the Dry Valleys, e.g., Mullins and Beacon Valleys (30 km inland and  500 m higher in elevation), and near the coast (40 km distant and  500 m lower) reveal marked contrasts in the style of near-surface ice degradation and cryoturbation. From these morphological comparisons, we infer that buried-ice deposits in the stable upland zone have not experienced the relatively warm climate conditions now found at the ESL and at lower elevations in the Dry Valleys region (e.g. sustained summertime temperatures of ≥−4 °C) for the last several million years.