Seismic characterization of a rapidly-rising jökulhlaup cycle at the A.P. Olsen Ice Cap, NE-Greenland

Michael Behm; Jacob I. Walter; Daniel Binder; Feng Cheng; Michele Citterio; Bernd Kulessa; Kirsty Langley; Phillipe Limpach; Stefan Mertl; Wolfgang Schöner; Mikkel Tamstorf; Gernot Weyss

doi:10.1017/jog.2020.9

Journal of Glaciology (Apr 2020)

Seismic characterization of a rapidly-rising jökulhlaup cycle at the A.P. Olsen Ice Cap, NE-Greenland

Michael Behm,
Jacob I. Walter,
Daniel Binder,
Feng Cheng,
Michele Citterio,
Bernd Kulessa,
Kirsty Langley,
Phillipe Limpach,
Stefan Mertl,
Wolfgang Schöner,
Mikkel Tamstorf,
Gernot Weyss

Affiliations

Michael Behm: ORCiD; School of Geosciences, University of Oklahoma, Norman, USA
Jacob I. Walter: ORCiD; Oklahoma Geological Survey, University of Oklahoma, Norman, USA
Daniel Binder: ORCiD; Climate Section, ZAMG – Central Institute for Meteorology and Geodynamics, Vienna, Austria Glaciology and Climate Department, GEUS – Geological Survey of Denmark and Greenland, Copenhagen, Denmark Austrian Polar Research Institute (APRI), Wien, Austria
Feng Cheng: ORCiD; Lawrence Berkeley National Laboratory, Berkeley, USA
Michele Citterio: Glaciology and Climate Department, GEUS – Geological Survey of Denmark and Greenland, Copenhagen, Denmark
Bernd Kulessa: Glaciology Group, Swansea University, UK
Kirsty Langley: Greenland Survey, ASIAQ, Nuuk, Greenland
Phillipe Limpach: Institute of Geodesy and Photogrammetry, ETH Zurich, Zurich, Switzerland
Stefan Mertl: Mertl Research GmbH, Vienna, Austria
Wolfgang Schöner: Austrian Polar Research Institute (APRI), Wien, Austria Institute of Geography and Regional Research, Graz University, Graz, Austria
Mikkel Tamstorf: Department of Bioscience, Aarhus University, Aarhus, Denmark
Gernot Weyss: Climate Section, ZAMG – Central Institute for Meteorology and Geodynamics, Vienna, Austria Austrian Polar Research Institute (APRI), Wien, Austria

DOI: https://doi.org/10.1017/jog.2020.9
Journal volume & issue: Vol. 66
pp. 329 – 347

Abstract

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Rapidly-rising jökulhlaups, or glacial outburst floods, are a phenomenon with a high potential for damage. The initiation and propagation processes of a rapidly-rising jökulhlaup are still not fully understood. Seismic monitoring can contribute to an improved process understanding, but comprehensive long-term seismic monitoring campaigns capturing the dynamics of a rapidly-rising jökulhlaup have not been reported so far. To fill this gap, we installed a seismic network at the marginal, ice-dammed lake of the A.P. Olsen Ice Cap (APO) in NE-Greenland. Episodic outbursts from the lake cause flood waves in the Zackenberg river, characterized by a rapid discharge increase within a few hours. Our 6 months long seismic dataset comprises the whole fill-and-drain cycle of the ice-dammed lake in 2012 and includes one of the most destructive floods recorded so far for the Zackenberg river. Seismic event detection and localization reveals abundant surface crevassing and correlates with changes of the river discharge. Seismic interferometry suggests the existence of a thin basal sedimentary layer. We show that the ballistic part of the first surface waves can potentially be used to infer medium changes in both the ice body and the basal layer. Interpretation of time-lapse interferograms is challenged by a varying ambient noise source distribution.

Published in Journal of Glaciology

ISSN: 0022-1430 (Print); 1727-5652 (Online)
Publisher: Cambridge University Press
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Physics: Meteorology. Climatology
Website: https://www.cambridge.org/core/journals/journal-of-glaciology

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