REMA reveals spatial variability within the Dotson Melt Channel

Zinck, Ann-Sofie Priergaard; Wouters, Bert; Lambert, Erwin; Lhermitte, Stef

doi:10.5194/tc-2023-14

Cited by 2 publications

(1 citation statement)

References 31 publications

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“…While relatively frequent and accurate, observations from spaceborne altimetry, such as ICESat and ICESat-2, are limited to ground tracks. Recently, high-resolution digital surface models (DSMs) produced from stereoscopic satellite imagery, combined with altimetry, have been used to map changes in basal channels and other iceshelf structures (Chartrand and Howat, 2020;Shean et al, 2019;Zinck et al, 2023). Using the extensive collection of repeat DSMs provided by the Reference Elevation Model of Antarctica (REMA) project (Howat et al, 2019), we map the positions of surface depressions overlying basal channels on the TGIS and subglacial channels within grounded ice as well as the landward extent of the transition to flotation as a proxy for the grounding line, termed the hydrostatic boundary (HB).…”

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Basal channels, ice thinning and grounding zone retreat at Thwaites Glacier, West Antarctica

Chartrand,

Howat,

Joughin

et al. 2024

Preprint

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Abstract. Antarctic ice shelves buttress the flow of the ice sheet, tempering sea level rise, but they are vulnerable to basal melting from contact with the ocean, as well as mass loss due to fracture and calving. Melt channels and similar features at the bases of ice shelves have been linked to enhanced basal melting and observed to intersect the grounding line, where the greatest melt rates are often observed. The ice shelf of Thwaites Glacier is especially vulnerable to melt and subsequent retreat of the grounding line because the glacier has an inland–sloping bed leading to a deep trough below the grounded ice sheet. We use digital surface models from 2010–2022 to investigate the evolution of ice–shelf basal channels and a proxy for the grounding line on the Thwaites Glacier ice shelf. We find that the highest sustained rates of grounding–line retreat (up to 0.7 km a-1) are associated with high melt rates (up to ~250 m a-1) near the intersections of basal channels with the grounding zone, steep local retrograde slopes, and where subglacial channel discharge is expected. Detailed observations of basal channels collocated with regions of grounding–line retreat will further elucidate the complicated processes occurring at the ice–ocean interface and hopefully lead to more accurate estimates of current and future ice–shelf melting and evolution.

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confidence: 99%

Basal channels, ice thinning and grounding zone retreat at Thwaites Glacier, West Antarctica

Chartrand,

Howat,

Joughin

et al. 2024

Preprint

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Unveiling spatial variability within the Dotson Melt Channel through high-resolution basal melt rates from the Reference Elevation Model of Antarctica

Zinck,

Wouters,

Lambert

et al. 2023

The Cryosphere

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Abstract. The intrusion of Circumpolar Deep Water in the Amundsen and Bellingshausen Sea embayments of Antarctica causes ice shelves in the region to melt from below, potentially putting their stability at risk. Earlier studies have shown how digital elevation models can be used to obtain ice shelf basal melt rates at a high spatial resolution. However, there has been limited availability of high-resolution elevation data, a gap the Reference Elevation Model of Antarctica (REMA) has filled. In this study we use a novel combination of REMA and CryoSat-2 elevation data to obtain high-resolution basal melt rates of the Dotson Ice Shelf in a Lagrangian framework, at a 50 m spatial posting on a 3-yearly temporal resolution. We present a novel method: Basal melt rates Using REMA and Google Earth Engine (BURGEE). The high resolution of BURGEE is supported through a sensitivity study of the Lagrangian displacement. The high-resolution basal melt rates show a good agreement with an earlier basal melt product based on CryoSat-2. Both products show a wide melt channel extending from the grounding line to the ice front, but our high-resolution product indicates that the pathway and spatial variability of this channel is influenced by a pinning point on the ice shelf. This result emphasizes the importance of high-resolution basal melt rates to expand our understanding of channel formation and melt patterns. BURGEE can be expanded to a pan-Antarctic study of high-resolution basal melt rates. This will provide a better picture of the (in)stability of Antarctic ice shelves.

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REMA reveals spatial variability within the Dotson Melt Channel

Cited by 2 publications

References 31 publications

Basal channels, ice thinning and grounding zone retreat at Thwaites Glacier, West Antarctica

Basal channels, ice thinning and grounding zone retreat at Thwaites Glacier, West Antarctica

Unveiling spatial variability within the Dotson Melt Channel through high-resolution basal melt rates from the Reference Elevation Model of Antarctica

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