GLORIA — GEOMAR Library Ocean Research Information Access

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Ice flow and the conditions of the ice-bed interface at the onset of the Northeast Greenland Ice Stream (2020)

Franke, Steven ; Jansen, Daniela ; Beyer, Sebastian ; [et al.]

American Geophysical Union

In: EPIC3AGU Fall Meeting 2020 - Online Everywhere, Online, 2020-12-01-2020-12-17American Geophysical Union

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Publication Date: 2020-12-15

Description: The Northeast Greenland Ice Stream (NEGIS) is an important dynamic component contributing to the total mass balance of the Greenland ice sheet, as it reaches up to the central divide and drains 12% of the ice sheet. The ice stream geometry and surface velocities in the onset region of the NEGIS are not yet sufficiently well reproduced by ice sheet models. We present an assessment of the basal conditions of the onset region in a systematic analysis of airborne ultra-wideband radar data. Our data yield a new detailed model of ice-thickness distribution and basal topography in the upstream part of the ice stream. We observe a change from a smooth to a rougher bed where the ice stream widens from 10 to 60 km, and a distinct roughness anisotropy, indicating a preferred orientation of subglacial structures. The observation of off-nadir reflections that are symmetrical to the bed reflection in the radargrams suggests that these structures are elongated subglacial landforms, which in turn indicate potential streamlining of the bed. Together with basal water routing pathways, our observations hint to two different zones in this part of the NEGIS: an accelerating and smooth upstream region, which is collecting water, with reduced basal traction, and in the further downstream part, where the ice stream is slowing down and is widening, with a distribution of basal water towards the shear margins. Our findings support the hypothesis that the NEGIS is strongly interconnected to the subglacial water system in its onset region, but also to the subglacial substrate and morphology.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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THE WEGAS / GEA IV GEOPHYSICAL SURVEY IN EASTERN AND SOUTHERN DRONNING MAUD LAND (2015)

Eagles, Graeme ; Ruppel, Antonia ; Steinhage, Daniel ; [et al.]

Alfred Wegener Institute for Polar and Marine Research

In: EPIC326 th International Congress on Polar Research, Munich, Germany, 2015-09-06-2015-09-11Berichte zur Polar- und Meeresforschung, Alfred Wegener Institute for Polar and Marine Research, 690, pp. 42-42, ISSN: 1618-3193

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Publication Date: 2017-10-17

Description: The Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) and the Federal Institute for Geosciences and Natural Resources (BGR) collected around 150 hours of new gravity, magnetic and ice-penetrating radar data from east and south of Princess Elisabeth station in Dronning Maud Land between 2013 and 2015. Survey lines were spaced 10 km apart. The 2013/2014 and 2014/2015 used different gravimeters; a LaCoste and Romberg AirSea gravimeter (LCR) at constant barometric altitude and a Gravimetric Technologies GT2A gravimeter at constant ground separation. Both surveys used a Scintrex Cs-3 caesium vapour magnetometer mounted in a tail boom with compensation for the airframe calculated using a fuselage-mounted three-component fluxgate magnetometer. The GT2A gravity data reflect the effects of short-wavelength density contrasts between basement rocks and the ice sheet more reliably than the LCR data. Cross-over analysis suggests the repeatability of data collection with the GT2A lies at the sub-milliGal level. A broad subglacial channel that separates eastern Sør Rondane from the Yamato Belgica Mountains is evident in the gravity data. In the south of the survey region, the data reveal a dendritic pattern of subglacial valleys that converge towards the SW. Strong NS-trending magnetic anomalies coincide with the Yamato-Belgica Mountains. Further west, subtler ESE-trending anomalies confirm proposals that the SE Dronning Maud Land province continues into the region south of eastern Sør Rondane. An unexpected feature of both data sets is the apparent termination of the anomaly patterns associated with the province at a NNW-trending anomaly running south of Princess Elisabeth.

Repository Name: EPIC Alfred Wegener Institut

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Seismic wave propagation in anisotropic ice - Part 2: Effects of crystal anisotropy in geophysical data (2015)

Diez, Anja ; Eisen, Olaf ; Hofstede, Coen ; [et al.]

Copernicus Publications

In: EPIC3The Cryosphere, Copernicus Publications, 9(1), pp. 385-398, ISSN: 1994-0416

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Publication Date: 2017-10-20

Description: We investigate the propagation of seismic waves in anisotropic ice. Two effects are important: (i) sudden changes in crystal orientation fabric (COF) lead to englacial reflections; (ii) the anisotropic fabric induces an angle dependency on the seismic velocities and, thus, recorded travel times. Velocities calculated from the polycrystal elasticity tensor derived for the anisotropic fabric from measured COF eigenvalues of the EDML ice core, Antarctica, show good agreement with the velocity trend determined from vertical seismic profiling. The agreement of the absolute velocity values, however, depends on the choice of the monocrystal elasticity tensor used for the calculation of the polycrystal properties. We make use of abrupt changes in COF as a common reflection mechanism for seismic and radar data below the firn–ice transition to determine COF-induced reflections in either data set by joint comparison with ice-core data. Our results highlight the possibility to complement regional radar surveys with local, surface-based seismic experiments to separate isochrones in radar data from other mechanisms. This is important for the reconnaissance of future ice-core drill sites, where accurate isochrone (i.e. non-COF) layer integrity allows for synchronization with other cores, as well as studies of ice dynamics considering non-homogeneous ice viscosity from preferred crystal orientations.

Repository Name: EPIC Alfred Wegener Institut

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Seismic wave propagation in anisotropic ice – Part 2: Effects of crystal anisotropy in geophysical data (2014)

Diez, Anja ; Eisen, Olaf ; Hofstede, Coen ; [et al.]

Copernicus Publications

In: EPIC3The Cryosphere Discussion, Copernicus Publications, 8(4), pp. 4397-4430

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Publication Date: 2017-10-20

Description: We investigate the propagation of seismic waves in anisotropic ice. Two effects are important: (i) sudden changes in crystal orientation fabric (COF) lead to englacial reflections; (ii) the anisotropic fabric induces an angle dependency on the seismic velocities and, thus, recorded traveltimes. Velocities calculated from the polycrystal elasticity tensor derived for the anisotropic fabric from measured COF eigenvalues of the EDML ice core, Antarctica, show good agreement with the velocity trend determined from a vertical seismic profiling. The agreement of the absolute velocity values, however, depends on the choice of the monocrystal elasticity tensor used for the calculation of the polycrystal properties. With this validation of seismic velocities we make use of abrupt changes in COF as common reflection mechanism for seismic and radar data below the firn–ice transition to investigate their occurrence by comparison with ice-core data. Our results highlight the possibility to complement regional radar surveys with local, surface-based seismic deployment to separate isochrones in radar data from other mechanisms. This is important for the reconnaissance of future ice-core drill sites, where accurate isochrone (i.e. non-COF) layer integrity allows for synchronization with other cores, as well as studies of ice dynamics considering non-homogeneous viscosity from preferred crystal orientations.

Repository Name: EPIC Alfred Wegener Institut

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Beiträge aus geophysikalischen Messungen in Dronning Maud Land, Antarktis, zur Auffindung eines optimalen Bohrpunktes für eine Eiskerntiefbohrung = Contributions of geophysical measurements in Dronning Maud Land, Antarctica, locating an optimal drill site for a deep ice core drilling (2001)

Steinhage, Daniel

Alfred Wegener Institute for Polar and Marine Research

In: EPIC3Berichte zur Polar- und Meeresforschung (Reports on Polar and Marine Research), Bremerhaven, Alfred Wegener Institute for Polar and Marine Research, 384, 91 p., ISSN: 1618-3193

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Publication Date: 2018-09-07

Repository Name: EPIC Alfred Wegener Institut

Type: "Berichte zur Polar- und Meeresforschung" , notRev

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Expedition Programme Antarctica (ANT - Land 2014/2015) (2014)

Nixdorf, Uwe ; Kohlberg, Eberhard ; Mengedoht, Dirk ; [et al.]

Alfred Wegener Institute for Polar and Marine Research

In: EPIC3Expeditionsprogramm, Bremerhaven, Alfred Wegener Institute for Polar and Marine Research

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Publication Date: 2017-10-17

Repository Name: EPIC Alfred Wegener Institut

Type: Expedition program , notRev

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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

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Expedition program ANT-Land 2019/20 - Land activities and flight missions (2019)

Wesche, Christine ; Mengedoht, Dirk ; Steinhage, Daniel

Alfred Wegener Institute for Polar and Marine Research

In: EPIC3Expeditionsprogramm Polarstern, Bremerhaven, Alfred Wegener Institute for Polar and Marine Research

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Publication Date: 2022-01-05

Repository Name: EPIC Alfred Wegener Institut

Type: Expedition program , notRev

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Expedition program ANT-Land 2021/22 - Land acticities and flight missons (2021)

Wesche, Christine ; Steinhage, Daniel ; Mengedoht, Dirk ; [et al.]

Alfred Wegener Institute for Polar and Marine Research

In: EPIC3Expeditionsprogramm Polarstern, Bremerhaven, Alfred Wegener Institute for Polar and Marine Research

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Publication Date: 2022-01-03

Repository Name: EPIC Alfred Wegener Institut

Type: Expedition program , notRev

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Stagnant ice and age modelling in the Dome C region, Antarctica (2023)

Chung, Ailsa ; Parrenin, Frédéric ; Steinhage, Daniel ; [et al.]

Copernicus Publications

In: EPIC3The Cryosphere, Copernicus Publications, 17(8), pp. 3461-3483, ISSN: 1994-0416

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Publication Date: 2023-10-19

Description: The European Beyond EPICA project aims to extract a continuous ice core of up to 1.5 Ma, with a maximum age density of 20 kyr m-1 at Little Dome C (LDC). We present a 1D numerical model which calculates the age of the ice around Dome C. The model inverts for basal conditions and accounts either for melting or for a layer of stagnant ice above the bedrock. It is constrained by internal reflecting horizons traced in radargrams and dated using the EPICA Dome C (EDC) ice core age profile. We used three different radar datasets ranging from a 10 000 km2 airborne survey down to 5 km long ground-based radar transects over LDC. We find that stagnant ice exists in many places, including above the LDC relief where the new Beyond EPICA drill site (BELDC) is located. The modelled thickness of this layer of stagnant ice roughly corresponds to the thickness of the basal unit observed in one of the radar surveys and in the autonomous phase-sensitive radio-echo sounder (ApRES) dataset. At BELDC, the modelled stagnant ice thickness is 198±44 m and the modelled oldest age of ice is 1.45±0.16 Ma at a depth of 2494±30 m. This is very similar to all sites situated on the LDC relief, including that of the Million Year Ice Core project being conducted by the Australian Antarctic Division. The model was also applied to radar data in the area 10-15 km north of EDC (North Patch), where we find either a thin layer of stagnant ice (generally 〈60 m) or a negligible melt rate (〈0.1 mm yr-1). The modelled maximum age at North Patch is over 2 Ma in most places, with ice at 1.5 Ma having a resolution of 9-12 kyr m-1, making it an exciting prospect for a future Oldest Ice drill site.

Repository Name: EPIC Alfred Wegener Institut

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