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Investigating englacial reflections with vibro- and explosive-seismic surveys at Halvfarryggen ice dome, Antarctica (2013)

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

INT GLACIOL SOC

In: EPIC3Annals of Glaciology, INT GLACIOL SOC, 54(64), pp. 189-200, ISSN: 0260-3055

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Publication Date: 2019-07-17

Description: Explosive seismic reflection data from Halvfarryggen, a 910m thick local ice dome of the Antarctic ice sheet, show numerous laterally continuous reflections within the ice between 300 and 870m depth.We compare the quality of data obtained with explosive sources with that obtained using a vibroseis source for detecting englacial reflections with a snowstreamer, and investigate the origin of englacial reflections. We find vibroseis in combination with a snowstreamer is ten times more productive than explosive seismics. However, englacial reflections are more clearly visible with explosives, which have a broader bandwidth signature, than the vibroseis, which is band-limited at the high-frequency end to 100 Hz. Only the strongest and deepest englacial reflection is detected with vibroseis. We interpret the majority of englacial reflections to originate from changes in the crystal orientation fabric in closely spaced layers, less than the vibro-seismic tuning thickness of 13.5 m. Phase analysis of the lowermost englacial reflector, 40m above the bed, indicates a sharp increase in seismic wave speed. We interpret this reflector as a transition to a vertical single-maximum fabric. Our findings support current results from anisotropic ice-flow models, that crystal fabric is highly anisotropic at ice domes, both laterally and vertically.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Marine ice formation in a suture zone on the Larsen C Ice Shelf and its influence on ice shelf dynamics (2013)

Jansen, Daniela ; Luckman, A. ; Kulessa, B. ; [et al.]

AMER GEOPHYSICAL UNION

In: EPIC3Journal of Geophysical Research-Earth Surface, AMER GEOPHYSICAL UNION, 118, pp. 1-13, ISSN: 0148-0227

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Publication Date: 2019-07-17

Description: Antarctic ice shelves are fed primarily by the glaciers flowing into them. Downstream of promontories separating these glaciers, super-cooled water can rise and freeze into suture zones, leading to the accretion of marine ice. Marine ice bodies have been found in several Antarctic ice shelves, but little is known about their detailed geometry, rate of accretion, or influence on ice dynamics. In this study we investigate marine ice in a suture zone downstream of the Joerg Peninsula in the southern part of the Larsen C Ice Shelf, Antarctic Peninsula. We present ground penetrating radar data from which we infer the boundaries between the meteoric and marine ice bodies and, in combination with GPS data and assuming hydrostatic equilibrium, estimate marine ice thickness within a suture zone. We show that the Joerg Peninsula suture zone contains marine ice layer, which is increasing in thickness along-flow from ~140 m to 180 m over 20 km, implying an average basal accretion rate of ~0.5 m a-1 in our study area. We examined the impact of this marine ice on ice shelf dynamics by modeling the suture zone within an ice flow model. The results, which replicate observed surface velocities and strain rates, show that the warmer and thus softer ice of the suture zone serves to channel shear deformation. This enables decoupling of neighboring flow units with different follow velocities, while maintaining the structural integrity of the ice shelf.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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