Glacially-Triggered Faulting
Herausgeber: Steffen, Holger; Sutinen, Raimo; Olesen, Odleiv
Glacially-Triggered Faulting
Herausgeber: Steffen, Holger; Sutinen, Raimo; Olesen, Odleiv
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A comprehensive overview of glacially triggered faulting summarising theory, methods and modelling, and listing confirmed and proposed glacially induced faults.
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A comprehensive overview of glacially triggered faulting summarising theory, methods and modelling, and listing confirmed and proposed glacially induced faults.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 460
- Erscheinungstermin: 3. März 2022
- Englisch
- Abmessung: 250mm x 178mm x 24mm
- Gewicht: 1043g
- ISBN-13: 9781108490023
- ISBN-10: 1108490026
- Artikelnr.: 62212952
- Verlag: Cambridge University Press
- Seitenzahl: 460
- Erscheinungstermin: 3. März 2022
- Englisch
- Abmessung: 250mm x 178mm x 24mm
- Gewicht: 1043g
- ISBN-13: 9781108490023
- ISBN-10: 1108490026
- Artikelnr.: 62212952
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-Jamröy, 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-Jamröy, 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. Lazauskien
and M. Pisarska-Jamröy; 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
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-Jamröy, 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-Jamröy, 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. Lazauskien
and M. Pisarska-Jamröy; 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
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-Jamröy, 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-Jamröy, 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. Lazauskien
and M. Pisarska-Jamröy; 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
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-Jamröy, 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-Jamröy, 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. Lazauskien
and M. Pisarska-Jamröy; 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