Department of Earth and Planetary Sciences

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Dr. Franziska Glüer

Dr. Franziska Glüer

Dr. Franziska Glüer

Staff of Swiss Seismological Service (SED)

ETH Zürich

Schweiz. Erdbebendienst (SED)

NO FO 69.4

Sonneggstrasse 5

8092 Zürich

Switzerland

  • +41 44 632 75 74
  • 0000-0002-6014-4175
  • V-Card (vcf, 1kb)

Additional information

Research area

Seismic hazard

Earthquake induced effects

Engineering seismology

Landslides

Paraglacial rock slope mechanics

 

Currently Senior Reasearcher:
ETH Zurich, Swiss Seismological Service, Earthquake Hazard & Risk Assessment Section, 2021-ongoing

Postdoc:
ETH Zurich, Swiss Seismological Service, Earthquake Hazard & Risk Assessment Section, 2018-2021

PhD:
ETH Zurich, Department of Earth Sciences, Engineering Geology, 2013-2018.
Thesis: Monitoring and analysis of interactions between the retreating Aletsch glacier and adjacent rock slope instabilities

Industry:
Engineering Geologist, Project Engineer and Head of Laboratory,
Gesellschaft für Baugeologie und -messtechnik, Baugrundinstitut, 2012-2013

MSc:
Technical University Munich, Engineering Geology, 2008-2011.
Thesis: Investigation of Rock Slope Failures Triggered by the Aysén 2007 Earthquake (Patagonia/Chile)

BSc: Technical University Munich and Ludwig Maximilians Universität Munich, Earth Science, 2005-2008.
Thesis: Estimation of the potential of shallow geothermal energy in Poland

Additional information

 

Currently Senior Reasearcher:
ETH Zurich, Swiss Seismological Service, Earthquake Hazard & Risk Assessment Section, 2021-ongoing

Postdoc:
ETH Zurich, Swiss Seismological Service, Earthquake Hazard & Risk Assessment Section, 2018-2021

PhD:
ETH Zurich, Department of Earth Sciences, Engineering Geology, 2013-2018.
Thesis: Monitoring and analysis of interactions between the retreating Aletsch glacier and adjacent rock slope instabilities

Industry:
Engineering Geologist, Project Engineer and Head of Laboratory,
Gesellschaft für Baugeologie und -messtechnik, Baugrundinstitut, 2012-2013

MSc:
Technical University Munich, Engineering Geology, 2008-2011.
Thesis: Investigation of Rock Slope Failures Triggered by the Aysén 2007 Earthquake (Patagonia/Chile)

BSc: Technical University Munich and Ludwig Maximilians Universität Munich, Earth Science, 2005-2008.
Thesis: Estimation of the potential of shallow geothermal energy in Poland

 

In the News

Fink, C. (2019). Die blaue Gefahr. Schauplatz Schweiz. Geo, 05/2019, 8. 

Filiez, X. (2017). Aletsch, laboratoire encombre, Une année après l’accélération des glissements de terrain engendrés par le retrait du glacier d’Aletsch, au moins 18 institutions mènent plus d’une vingtaine de projets de recherche ou de surveillance sur le site. Le Temps (5934), https://www.letemps.ch/grand-format/failles-glacier-aletsch-valais-alpes-rechauffement-climatique.

Volken, M. (2016). Aletsch, Der grösste Gletscher der Alpen. As Verlag (Was geschieht, wenn sich der Gletscher zurückzieht?). ISBN 978-3-906055-45-9, https://asverlag.lesestoff.ch/detail/ISBN-9783906055459/Volken-Marco/Aletsch.

Donze, R. (2016). Der Gletscher schlägt zurück: Die Klimaerwärmung führt zu einem riesigen Hangrutsch im Naturschutzgebiet Aletschwald. NZZ am Sonntag, 2016/10/23. https://nzzas.nzz.ch/schweiz/klimaerwaermung-gletscher-schlaegt-zurueck-ld.149589?reduced=true.

Pfund, J. (2016). Eisschmelze mit Folgen: Der Rückgang des Aletschgletscher bringt die umgebende Bergwelt in Bewegung. Süddeutsche Zeitung, 2016/09/03 (mobiles Leben); https://www.sueddeutsche.de/auto/klimaerwaermung-guten-rutsch-1.3142267.

Lambiel, X. (2017). Les Failles d’Aletsch. Le Temps Multimedia, Video-Documentation 3:20. https://www.letemps.ch/grand-format/failles-glacier-aletsch-valais-alpes-rechauffement-climatique.

Glueer, F. (2016). ETH Day 2016: Young Researchers from the Department of Earth Sciences. https://www.video.ethz.ch/campus/eth-day/2016/c864978d-f4c5-4921-8cb6-21ecdd4c7bef.html.

 

Publications

Häusler M, Gischig V, Thöny R, Glueer F, Fäh D (2022) Monitoring the changing seismic site response of a fast-moving rockslide (Brienz/Brinzauls, Switzerland) Geophys J Int 229:310 doi:https://doi.org/10.1093/gji/ggab473

Glueer F et al. (2021b) Automatic total station monitoring in high alpine environments: challenges and solutions applied in the Great Aletsch region (Valais, Switzerland) Special Issue "Local and Territorial Landslide Early Warning Systems"; mdpi Geosciences (ISSN 2076-3263); section "Natural Hazards" doi:https://doi.org/10.3390/geosciences11110471

Glueer F, Häusler M, Gischig V, Fäh D (2021a) Coseismic Stability Assessment of a Damaged Underground Ammunition Storage Chamber Through Ambient Vibration Recordings and Numerical Modelling Frontiers in Earth Science 9 doi:https://doi.org/10.3389/feart.2021.773155

Glueer F, Loew S, Manconi A (2020) Paraglacial history and structure of the Moosfluh Landslide (1850–2016), Switzerland Geomorphology 355:106677 doi:https://doi.org/10.1016/j.geomorph.2019.02.021

Glueer, F., Loew, S., Manconi, A., Aaron, J. (2019). From toppling to sliding: progressive evolution of the Moosfluh Landslide, Switzerland. Journal of Geophysical  Research. Earth Surface, 124, 2919. doi:10.1029/2019jf005019, http://hdl.handle.net/20.500.11850/390837

Glueer, F., Loew, S., Manconi, A. (2019). Paraglacial history and structure of the Moosfluh Landslide (1850–2016), Switzerland. Geomorphology, 106677. doi:https://doi.org/10.1016/j.geomorph.2019.02.021, http://www.sciencedirect.com/science/article/pii/S0169555X19300558.

Glueer, F. (2019). Monitoring and analysis of interactions between the retreating Aletsch glacier and adjacent rock slope instabilities. ETH Zurich, Retrieved from http://hdl.handle.net/20.500.11850/330455

Glueer, F., Loew, S., Zangerl, D., & Wolter, A. (2017). Paraglacial History and Structure of the Moosfluh Landslide (1880-2016). Paper presented at the ISRM Progressive Rock Failure Conference, Ascona, Switzerland. https://www.onepetro.org/conference-paper/ISRM-PRF-2017-012.

Loew, S., Gischig, V., Glueer, F., Seifert, R., & Moore, J. (2017). Multidisciplinary monitoring of progressive failure processes in brittle rock slopes. In X.-T. Feng (Ed.), (Vol. 4, pp. 662): Taylor & Francis, http://hdl.handle.net/20.500.11850/289617.

Glueer, F., Manconi, A., & Loew, S. (2017). Kinematic Analysis of the September 2016 Moosfluh Landslide Acceleration. Abstract Volume 15th Swiss Geoscience Meeting.

Loew, S., Glueer, F., & Manconi, A. (2017). Unravelling detailed kinematics of DSGSD morphostructures (Moosfluh, Swiss Alps). Paper presented at the European Geosiences Union General Assembly (EGU 2017), Vienna. Austria, April 23-28, 2017. http://hdl.handle.net/20.500.11850/130122

Manconi, A., Glueer, F., & Loew, S. (2017a). Monitoring the spatial and temporal evolution of slope instability with Digital Image Correlation. Paper presented at the European Geosiences Union General Assembly (EGU 2017), Vienna, Austria, April 23-28, 2017. http://hdl.handle.net/20.500.11850/130103

Manconi, A., Glueer, F., & Loew, S. (2017b). Rapid evolution of the paraglacial Moosfluh rock slope instability (Swiss Alps) captured by Sentinel-1. Paper presented at the European Geosiences Union General Assembly (EGU 2017), Vienna, Austria, April 23-28, 2017. http://hdl.handle.net/20.500.11850/130104

Glueer, F., & Loew, S. (2015). Rock Bridge Failure Caused by the Aysen 2007 Earthquake (Patagonia, Chile). In (Vol. Volume 2 : Landslide Processes, pp. 780): Springer International Publishing, http://hdl.handle.net/20.500.11850/104026.

Glueer, F., Seifert, R., Frukacz, M., & Wieser, A. (2015). Design and operation of a comprehensive and permanent rock slope deformation monitoring system at the Great Aletsch Glacier (Switzerland). Geophisical Research Abstracts, 17(12189-1). doi:https://doi.org/10.3929/ethz-b-000105059

 

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