Glacially-Triggered Faulting

Holger Steffen is a geophysicist by training who joined the Geodetic Infrastructure Department at Lantmäteriet, the Swedish Mapping, Cadastral and Land Registration Authority in 2012 after working for several years as a postdoctoral researcher at universities in Germany, Canada and Sweden. His work deals with glacial isostatic adjustment modelling, and corresponding acquisition and/or analysis of geodetic, geophysical and geologic observations. He chairs the Working Group of Geodynamics and Earth Observation of the Nordic Geodetic Commission. Odleiv Olesen is a senior researcher at the Geological Survey of Norway with forty years professional experience including management roles, extensive research and mapping activities. He has taught as an Adjunct Professor in Applied Geophysics at the Norwegian University of Science and Technology. Raimo Sutinen is a geo-consultant with forty years' experience in geoscience. He was previously a senior researcher at the Geological Survey of Finland where he managed the project 'Postglacial Faults'. He has more than sixty impact and 100 proceedings papers in remote sensing, soil physics and biogeochemistry. His recent research has focused on faults and earthquake-induced landforms.

Part I. Introduction: 1. Glacially-Triggered Faulting – A Historical Overview and Recent Developments H. Steffen, O. Olesen and R. Sutinen; 2. Geomechanics of Glacially-Triggered Faulting R. Steffen, P. Wu and B. Lund; Part II. Methods and Techniques for Fault Identification and Dating: 3. Earthquake-Induced Landforms in the Context of Ice-Sheet Loading and Unloading P. B. E. Sandersen and R. Sutinen; 4. The Challenge to Distinguish Soft-Sediment Deformation Structures (SSDS) Formed by Glaciotectonic, Periglacial and Seismic Processes in a Formerly Glaciated Area: A Review and Synthesis K. Müller, J. Winsemann, M. Pisarska-Jamroży, T. Lege, T. Spies, and C. Brandes; 5. Glacially Induced Fault Identification with LiDAR, Based on Examples from Finland J.-P. Palmu, A. Ojala, J. Mattila, M. Markovaara-Koivisto, T. Ruskeeniemi, R. Sutinen, T. Bauer and M. Keiding; 6. Fault Identification from Seismology N. Gestermann and T. Plenefisch; 7. Imaging and Characterization of Glacially Induced Faults Using Applied Geophysics R. Beckel, C. Juhlin, A. Malehmir and O. Ahmadi; 8. Dating of Postglacial Faults in Fennoscandia C. A. Smith, A. Ojala, S. Grigull and H. Mikko; 9. Proposed Drilling into Postglacial Faults: The Pärvie Fault System M. Ask, I. Kukkonen, O. Olesen, B. Lund, Å. Fagereng, J. Rutqvist, J.-E. Rosberg and H. Lorenz; Part III. Glacially Triggered Faulting in the Fennoscandian Shield: 10. Seismicity and Sources of Stress in Fennoscandia S. Gregersen, C. Lindholm, A. Korja, B. Lund, M. Uski, K. Oinonen, P. H. Voss and M. Keiding; 11. Postglacial Faulting in Norway: Large Magnitude Earthquakes of the Late Holocene Age O. Olesen, L. Olsen, S. Gibbons, B. O. Ruud, F. Høgaas, T. A. Johansen and T. Kværna; 12. Glacially Induced Faults in Sweden: The Rise and Reassessment of the Single-Rupture Hypothesis C. A. Smith, H. Mikko and S. Grigull; 13. Glacially Induced Faults in Finland R. Sutinen, E. Hyvönen, M. Markovaara-Koivisto, M. Middleton, A. Ojala, J.-P. Palmu, T. Ruskeeniemi and J. Mattila; 14. Late- and Postglacial Faults in the Russian Part of the Fennoscandian Shield S. Nikolaeva, A. Nikonov and S. Shvarev; Part IV. Glacially Triggered Faulting at the Edge and in the Periphery of the Fennoscandian Sheild: 15. Late– and Postglacial Faulting in Denmark P. B. E. Sandersen, S. Gregersen and P. Voss; 16. Glacially Induced Faults in Germany K. Müller, J. Winsemann, D. Tanner, T. Lege, T. Spies and C. Brandes; 17. Glacially Induced Faulting in Poland M. Pisarska-Jamroży, P. P. Wozniak and T. van Loon; 18. Soft-Sediment Deformation Structures in the Eastern Baltic Region: Implication in Seismicity and Glacially Triggered Faulting A. Bitinas, J. Lazauskienė and M. Pisarska-Jamroży; Part V. Glacially Triggered Faulting Outside Europe: 19. The Search for Glacially Induced Faults in Eastern Canada J. Adams and G. Brooks; 20. Glacially Induced Faulting in Alaska J. Sauber, C. Rollins, J. T. Freymueller and N. A. Ruppert; 21. Indications on Glacially Triggered Faulting in Polar Areas H. Steffen and R. Steffen; Part VI. Modelling of Glacially Induced Faults and Stress: 22. Glacial Isostatic Adjustment Models for Earthquake Triggering P. Wu, R. Steffen, H. Steffen and B. Lund; 23. Crustal-Scale Stress Modelling to Investigate Glacially Triggered Faulting S. Gradmann and R. Steffen; Part VII. Outlook: 24. Future Research on Glacially Triggered Faulting and Intraplate Seismicity O. Olesen, H. Steffen and R. Sutinen