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Preface; Contents; Chapter 1: Submarine Mass Movements and Their Consequences: Progress and Challenges; 1.1 Introduction; 1.2 The 2015 Volume; 1.2.1 Part I: Submarine Mass Movement in Margin Construction and Economic Significance; 1.2.2 Part II: Failure Dynamics from Landslide Geomorphology; 1.2.3 Part III: Geotechnical Aspects of Mass Movement; 1.2.4 Part IV: Multidisciplinary Case Studies; 1.2.5 Part V: Tectonics and Mass Movement Processes; 1.2.6 Part VI: Fluid Flow and Gas Hydrates; 1.2.7 Part VII: Mass Transport Deposits in Modern and Outcrop Sedimentology
1.2.8 Part VIII: Numerical and Statistical Analysis1.2.9 Part IX: Tsunami Generation from Slope Failure; 1.3 Looking to the Future; References; Part I: Submarine Mass Movement in Margin Construction and Economic Significance; Chapter 2: The Role of Submarine Landslides in the Law of the Sea; 2.1 Introduction; 2.2 Case Studies; 2.2.1 Rift Margins; 2.2.1.1 Ireland, Porcupine Bank; 2.2.1.2 Norway, Bear Island (Bjørnøya) and Franz-Victoria Trough Mouth Fans (TMF); 2.2.2 Transform Margins; 2.2.2.1 France: French Guiana; 2.2.3 Active Margins; 2.2.3.1 Indonesia: Northwest Sumatra; 2.3 Conclusions
4.5 Discussion and ConclusionsReferences; Chapter 5: Multiple Megaslide Complexes and Their Significance for the Miocene Stratigraphic Evolution of the Offshore Amazon ...; 5.1 Introduction; 5.1.1 Database and Methods; 5.2 Results; 5.2.1 The Amap Megaslide Complex (AMC); 5.2.2 The Central Amazon Fan Megaslide Complex (CAFMC); 5.2.3 The Par-Maranhão Megaslide Complex (PMMC); 5.3 Discussion; 5.4 Conclusions; References; Chapter 6: Kinematics of Submarine Slope Failures in the Deepwater Taranaki Basin, New Zealand; 6.1 Introduction; 6.2 Data and Methods; 6.3 Geological Framework
6.4 Results and Interpretations6.4.1 MTD 1; 6.4.2 MTD 2; 6.5 Discussion; 6.6 Conclusions; References; Part II: Failure Dynamics from Landslide Geomorphology; Chapter 7: Postglacial Mass Failures in the Inner Hardangerfjorden System, Western Norway; 7.1 Introduction; 7.2 Study Site and Geological Setting; 7.3 Data and Methods; 7.4 Main Observations and Interpretations; 7.5 Discussion; 7.6 Conclusions; References; Chapter 8: Onshore and Offshore Geomorphological Features of the El Golfo Debris Avalanche (El Hierro, Canary Islands); 8.1 Introduction; 8.1.1 Geological and Geomorphological Setting
1.2.8 Part VIII: Numerical and Statistical Analysis1.2.9 Part IX: Tsunami Generation from Slope Failure; 1.3 Looking to the Future; References; Part I: Submarine Mass Movement in Margin Construction and Economic Significance; Chapter 2: The Role of Submarine Landslides in the Law of the Sea; 2.1 Introduction; 2.2 Case Studies; 2.2.1 Rift Margins; 2.2.1.1 Ireland, Porcupine Bank; 2.2.1.2 Norway, Bear Island (Bjørnøya) and Franz-Victoria Trough Mouth Fans (TMF); 2.2.2 Transform Margins; 2.2.2.1 France: French Guiana; 2.2.3 Active Margins; 2.2.3.1 Indonesia: Northwest Sumatra; 2.3 Conclusions
4.5 Discussion and ConclusionsReferences; Chapter 5: Multiple Megaslide Complexes and Their Significance for the Miocene Stratigraphic Evolution of the Offshore Amazon ...; 5.1 Introduction; 5.1.1 Database and Methods; 5.2 Results; 5.2.1 The Amap Megaslide Complex (AMC); 5.2.2 The Central Amazon Fan Megaslide Complex (CAFMC); 5.2.3 The Par-Maranhão Megaslide Complex (PMMC); 5.3 Discussion; 5.4 Conclusions; References; Chapter 6: Kinematics of Submarine Slope Failures in the Deepwater Taranaki Basin, New Zealand; 6.1 Introduction; 6.2 Data and Methods; 6.3 Geological Framework
6.4 Results and Interpretations6.4.1 MTD 1; 6.4.2 MTD 2; 6.5 Discussion; 6.6 Conclusions; References; Part II: Failure Dynamics from Landslide Geomorphology; Chapter 7: Postglacial Mass Failures in the Inner Hardangerfjorden System, Western Norway; 7.1 Introduction; 7.2 Study Site and Geological Setting; 7.3 Data and Methods; 7.4 Main Observations and Interpretations; 7.5 Discussion; 7.6 Conclusions; References; Chapter 8: Onshore and Offshore Geomorphological Features of the El Golfo Debris Avalanche (El Hierro, Canary Islands); 8.1 Introduction; 8.1.1 Geological and Geomorphological Setting