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1 Submarine Mass Movements and Their Consequences: Progress and Challenges |
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1 | (14) |
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Part I Submarine Mass Movement in Margin Construction and Economic Significance |
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2 The Role of Submarine Landslides in the Law of the Sea |
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15 | (12) |
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3 Fabric Development and Pore-Throat Reduction in a Mass-Transport Deposit in the Jubilee Gas Field, Eastern Gulf of Mexico: Consequences for the Sealing Capacity of MTDs |
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27 | (12) |
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4 Seismic Geomorphology of the Israel Slump Complex in the Levant Basin (SE Mediterranean) |
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39 | (10) |
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5 Multiple Megaslide Complexes and Their Significance for the Miocene Stratigraphic Evolution of the Offshore Amazon Basin |
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49 | (12) |
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6 Kinematics of Submarine Slope Failures in the Deepwater Taranaki Basin, New Zealand |
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61 | (12) |
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Part II Failure Dynamics from Landslide Geomorphology |
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7 Postglacial Mass Failures in the Inner Hardangerfjorden System, Western Norway |
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73 | (10) |
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8 Onshore and Offshore Geomorphological Features of the El Golfo Debris Avalanche (El Hierro, Canary Islands) |
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83 | (10) |
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Francisco Javier Gonzalez |
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9 New Insights on Failure and Post-failure Dynamics of Submarine Landslides on the Intra-slope Palmarola Ridge (Central Tyrrhenian Sea) |
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93 | (10) |
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10 Assessment of Canyon Wall Failure Process from Multibeam Bathymetry and Remotely Operated Vehicle (ROV) Observations, U.S. Atlantic Continental Margin |
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103 | (12) |
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11 The Chui Megaslide Complex: Regional-Scale Submarine Landslides on the Southern Brazilian Margin |
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115 | (10) |
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12 Submarine Landslides and Incised Canyons of the Southeast Queensland Continental Margin |
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125 | (10) |
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13 Novel Method to Map the Morphology of Submarine Landslide Headwall Scarps Using Remotely Operated Vehicles |
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135 | (10) |
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14 Flow Behaviour of a Giant Landslide and Debris Flow Entering Agadir Canyon, NW Africa |
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145 | (10) |
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15 Fine-Scale Morphology of Tubeworm Slump, Monterey Canyon |
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155 | (8) |
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16 Submarine Slide Topography and the Distribution of Vulnerable Marine Ecosystems: A Case Study in the Ionian Sea (Eastern Mediterranean) |
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163 | (10) |
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Part III Geotechnical Aspects of Mass Movement |
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17 Shear Strength of Siliciclastic Sediments from Passive and Active Margins (0--100 m Below Seafloor): Insights into Seismic Strengthening |
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173 | (8) |
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18 A Small Volume Calibration Chamber for Cone Penetration Testing (CPT) on Submarine Soils |
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181 | (10) |
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19 Underwater Mass Movements in Lake Mjøsa, Norway |
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191 | (10) |
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20 In Situ Cyclic Softening of Marine Silts by Vibratory CPTU at Orkdalsfjord Test Site, Mid Norway |
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201 | (10) |
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21 First Results of the Geotechnical In Situ Investigation for Soil Characterisation Along the Upper Slope Off Vesteralen: Northern Norway |
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211 | (10) |
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22 A Novel Micro-shear Tester for Failure Analysis of Fine and Cohesive Granular Matter |
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221 | (8) |
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23 Knickpoint Migration Induced by Landslide: Evidence from Laboratory to Field Observations in Wabush Lake |
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229 | (12) |
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24 Multiple Flow Slide Experiment in the Westerschelde Estuary, The Netherlands |
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241 | (12) |
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Part IV Multidisciplinary Case Studies |
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25 Submarine Mass Wasting on Hovgaard Ridge, Fram Strait, European Arctic |
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253 | (12) |
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26 3D Seismic Investigations of Pleistocene Mass Transport Deposits and Glacigenic Debris Flows on the North Sea Fan, NE Atlantic Margin |
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265 | (8) |
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27 Do Embedded Volcanoclastic Layers Serve as Potential Glide Planes?: An Integrated Analysis from the Gela Basin Offshore Southern Sicily |
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273 | (8) |
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28 Sediment Failure Affecting Muddy Contourites on the Continental Slope Offshore Northern Norway: Lessons Learned and Some Outstanding Issues |
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281 | (10) |
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29 Mass Wasting History Within Lake Ohrid Basin (Albania/Macedonia) Over the Last 600 ka |
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291 | (10) |
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30 Implications of Sediment Dynamics in Mass Transport along the Pianosa Ridge (Northern Tyrrhenian Sea) |
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301 | (10) |
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31 Late-Holocene Mass Movements in High Arctic East Lake, Melville Island (Western Canadian Arctic Archipelago) |
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311 | (10) |
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32 Pleistocene Mass Transport Deposits Off Barbados Accretionary Prism (Lesser Antilles) |
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321 | (10) |
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33 Exploring the Influence of Deepwater Currents as Potential Triggers for Slope Instability |
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331 | (10) |
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Part V Tectonics and Mass Movements |
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34 French Alpine Foreland Holocene Paleoseismicity Revealed by Coeval Mass Wasting Deposits in Glacial Lakes |
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341 | (10) |
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35 Spatial and Temporal Relation of Submarine Landslides and Faults Along the Israeli Continental Slope, Eastern Mediterranean |
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351 | (10) |
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36 Earthquake Induced Landslides in Lake Eternite, Quebec, Canada |
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361 | (10) |
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37 Large Mass Transport Deposits in Kumano Basin, Nankai Trough, Japan |
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371 | (10) |
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38 Insights into Effectiveness of Simplified Seismic Displacement Procedures to Evaluate Earthquake Behavior of a Deepwater Slope |
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381 | (12) |
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Part VI Fluid Flow and Gas Hydrates |
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39 Deriving the Rate of Salt Rise at the Cape Fear Slide Using New Seismic Data |
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393 | (8) |
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40 Submarine Slope Instabilities Coincident with Shallow Gas Hydrate Systems: Insights from New Zealand Examples |
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401 | (10) |
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41 Eel Canyon Slump Scar and Associated Fluid Venting |
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411 | (8) |
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42 Shallow Gas and the Development of a Weak Layer in Submarine Spreading, Hikurangi Margin (New Zealand) |
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419 | (8) |
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43 Stability of Fine-Grained Sediments Subject to Gas Hydrate Dissociation in the Arctic Continental Margin |
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427 | (12) |
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Part VII Mass Transport Deposits in Modern and Outcrop Sedimentology |
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44 Soft-Sediment Deformation Associated with Mass Transport Deposits of the Ainsa Basin (Spanish Pyrenees) |
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439 | (10) |
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45 Synsedimentary Tectonics and Mass Wasting Along the Alpine Margin in Liassic Time |
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449 | (12) |
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46 Meso-Scale Kinematic Indicators in Exhumed Mass Transport Deposits: Definitions and Implications |
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461 | (8) |
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47 Morphodynamics of Supercritical Turbidity Currents in the Channel-Lobe Transition Zone |
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469 | (10) |
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48 Tiny Fossils, Big Impact: The Role of Foraminifera-Enriched Condensed Section in Arresting the Movement of a Large Retrogressive Submarine Landslide in the Gulf of Mexico |
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479 | (8) |
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49 Inclusion of Substrate Blocks Within a Mass Transport Deposit: A Case Study from Cerro Bola, Argentina |
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487 | (12) |
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Part VIII Numerical and Statistical Analysis |
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50 GIS Catalogue of Submarine Landslides in the Spanish Continental Shelf: Potential and Difficulties for Susceptibility Assessment |
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499 | (10) |
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51 Tempo and Triggering of Large Submarine Landslides: Statistical Analysis for Hazard Assessment |
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509 | (10) |
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52 Morphological Controls on Submarine Slab Failures |
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519 | (10) |
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53 Incorporating Correlated Variables into GIS-Based Probabilistic Submarine Slope Stability Assessments |
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529 | (8) |
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54 Quantifying the Key Role of Slope Material Peak Strength -- Using Discrete Element Simulations |
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537 | (10) |
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55 Correction Factors for 1-D Runout Analyses of Selected Submarine Slides |
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547 | (12) |
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Part IX Tsunami Generation from Slope Failure |
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56 Volcanic Generation of Tsunamis: Two New Zealand Palaeo-Events |
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559 | (10) |
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57 Tsunami-Genesis Due to Retrogressive Landslides on an Inclined Seabed |
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569 | (10) |
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58 Geothermal System as the Cause of the 1979 Landslide Tsunami in Lembata Island, Indonesia |
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579 | (10) |
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59 Towards a Spatial Probabilistic Submarine Landslide Hazard Model for Submarine Canyons |
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589 | (10) |
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60 Coupled Modelling of the Failure and Tsunami of a Submarine Debris Avalanche Offshore Central New Zealand |
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599 | (8) |
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61 Observations of Coastal Landslide-Generated Tsunami Under an Ice Cover: The Case of Lac-des-Seize-Iles, Quebec, Canada |
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607 | (8) |
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| Index |
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615 | |
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