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Indication of high basal melting at the EastGRIP drill site on the Northeast Greenland Ice Stream (2021)

Zeising, Ole ; Humbert, Angelika

Copernicus Publications

In: EPIC3The Cryosphere, Copernicus Publications, 15, pp. 3119-3128

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Publication Date: 2022-05-09

Description: The accelerated ice flow of ice streams that reach far into the interior of the ice sheets is associated with lubrication of the ice sheet base by basal meltwater. However, the amount of basal melting under the large ice streams – such as the Northeast Greenland Ice Stream (NEGIS) – is largely unknown. In situ measurements of basal melt rates are important from various perspectives as they indicate the heat budget, the hydrological regime and the relative importance of sliding in glacier motion. The few previous estimates of basal melt rates in the NEGIS region were 0.1 m/a and more, based on radiostratigraphy methods. These findings raised the question of the heat source, since even an increased geothermal heat flux could not deliver the necessary amount of heat. Here, we present basal melt rates at the recent deep drill site EastGRIP, located in the centre of NEGIS. Within 2 subsequent years, we found basal melt rates of 0.19±0.04 m/a that are based on analysis of repeated phase-sensitive radar measurements. In order to quantify the contribution of processes that contribute to melting, we carried out an assessment of the energy balance at the interface and found the subglacial water system to play a key role in facilitating such high melt rates.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Basal melt of the southern Filchner Ice Shelf, Antarctica (2022)

Zeising, Ole ; Steinhage, Daniel ; Nicholls, Keith W. ; [et al.]

Copernicus Publications

In: EPIC3The Cryosphere, Copernicus Publications, 16, pp. 1469-1482

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Publication Date: 2022-05-09

Description: Basal melt of ice shelves is a key factor governing discharge of ice from the Antarctic Ice Sheet as a result of its effects on buttressing. Here, we use radio echo sounding to determine the spatial variability of the basal melt rate of the southern Filchner Ice Shelf, Antarctica, along the inflow of Support Force Glacier. We find moderate melt rates with a maximum of 1.13 m/a about 50 km downstream of the grounding line. The variability of the melt rates over distances of a few kilometres is low (all but one 〈0.15 m/a at 2 km distance), indicating that measurements on coarse observational grids are able to yield a representative melt rate distribution. A comparison with remote-sensing-based melt rates revealed that, for the study area, large differences were due to inaccuracies in the estimation of vertical strain rates from remote sensing velocity fields. These inaccuracies can be overcome by using modern velocity fields.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Improved estimation of the bulk ice crystal fabric asymmetry from polarimetric phase co-registration (2023)

Zeising, Ole ; Gerber, Tamara Annina ; Eisen, Olaf ; [et al.]

Copernicus Publications

In: EPIC3The Cryosphere, Copernicus Publications, 17(3), pp. 1097-1105, ISSN: 1994-0416

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Publication Date: 2024-03-14

Description: The bulk crystal orientation in ice influences the flow of glaciers and ice streams. The ice c-Axes fabric is most reliably derived from ice cores. Because these are sparse, the spatial and vertical distribution of the fabric in the Greenland and Antarctic ice sheets is largely unknown. In recent years, methods have been developed to determine fabric characteristics from polarimetric radar measurements. The aim of this paper is to present an improved method to infer the horizontal fabric asymmetry by precisely determining the travel-Time difference using co-polarised phase-sensitive radar data. We applied this method to six radar measurements from the East Greenland Ice-core Project (EastGRIP) drill site on Greenland's largest ice stream to give a proof of concept by comparing the results with the horizontal asymmetry of the bulk crystal anisotropy derived from the ice core. This comparison shows an excellent agreement, which is a large improvement compared to previously used methods. Our approach is particularly useful for determining the vertical profile of the fabric asymmetry in higher resolution and over larger depths than was achievable with previous methods, especially in regions with strong asymmetry.

Repository Name: EPIC Alfred Wegener Institut

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