Submarine Mass Movements and... | Buy

Did you know that the Grand Bank earthquake of 1929 triggered a huge submarine mass movement which broke submarine cables over a distance of up to 1000 km from its source and generated a tsunami which devastated a small village in Newfoundland killing 27 people? The same happened in Papua New Guinea in 1998 with more than 2000 casualties. Submarine mass movements of various sizes and styles are shaping the sea floor and are of concern for many facets of human activities both onshore and offshore. These include the development of natural resources, energy and communication transport, coastal infrastructures and communities. This book provides a world wide perspective of submarine mass movements and their consequences. This has been made possible by assembling excellent contributions from active researchers, groups, or institutions thus providing a full coverage of the many scientific and engineering aspects of this type of marine and coastal geo-hazard. It covers fundam

Foreword	p. XI
Fundamental aspects
Flow Liquefaction Failure of Submarine Slopes Due To Monotonic Loadings-An Effective Stress Approach	p. 3
Finite Element Simulation of Retrogressive Failure of Submarine Slopes	p. 11
Stability Conditions of Accumulative Forms of Sediments on Submarine Slopes	p. 21
Simulating Submarine Slope Instability Initiation Using Centrifuge Model Testing	p. 29
Liquefaction Potential of Gassy Marine Sands	p. 37
Cyclic Strength of Stratified Soil Samples	p. 47
Towards an Approach for the Assessment of Risk Associated with Submarine Mass Movements	p. 59
Finite Element Analysis of Landslide in Dredged Slope	p. 69
Numerical Modeling of Tsunami Generation by Subaerial and Submerged Landslides	p. 77
Developing Engineering Design Criteria for Mass Gravity Flows in Deep Ocean and Continental Slope Environments	p. 85
The Dynamics of Liquefied Sediment Flow Undergoing Progressive Solidification	p. 95
Effect of Gas Hydrates Dissociation on Seafloor Slope Stability	p. 103
Waves and Run-Up Generated by A Three-Dimensional Sliding Mass	p. 113
Tsunami Source Parameters of Submarine Earthquakes and Slides	p. 121
Structural Characteristics of Cohesive Gravity-Flow Deposits, and a Sedimentological Approach on Their Flow Mechanisms	p. 129
Role of Pore-Fluid Pressure and Slope Angle in Triggering Submarine Mass Movements: Natural Examples and Pilot Experimental Models	p. 137
Hydro-Mechanical Behaviour of Gassy Soils	p. 145
Evaluating Tsunami Hazards From Debris Flows	p. 155
Probabilistic Analyses of Landslide Tsunami Hazards	p. 163
An Innovative Double Cell Triaxial System for Continuous Measurement of the Volume Change of Gaseous or Unsaturated Marine Soils and two Other Advanced Soil Testing Systems	p. 171
Numerical Modeling of Submarine Mass-Movement Generated Waves Using Rans Model	p. 183
Displacement Analysis of Submarine Slopes Using Enhanced Newmark Method	p. 193
Altantic Ocean
Imaging the Afen Slide from Commercial 3D Seismic - Methodology and Comparisons with High-Resolution Data	p. 205
The Storegga Slide Complex; Repeated Large Scale Sliding in Response to Climatic Cyclicity	p. 215
Dynamics, Velocity and Run-Out of the Giant Storegga Slide	p. 223
Issues in the Assessment of Gravity Mass Flow Hazard in the Storegga Area off the Western Norwegian Coast	p. 231
Shear-Strength Signatures of Mass Movements, Continental Slope of Campos Basin, Brazil	p. 239
Preconditions Leading to the Holocene Traenadjupet Slide Offshore Norway	p. 247
Slope Stability Assessment of the Traenadjupet Slide Area Offshore the Mid-Norwegian Margin	p. 255
Stability Analysis of the Hudson Apron Slope, Off New Jersey, U.S.A.	p. 267
Slope Failures in the Faroe - Shetland Channel	p. 281
A Synthesis of the Distribution of Submarine Mass Movements on the Eastern Canadian Margin	p. 291
The Chronology and Recurrence of Submarine Mass Movements on the Continental Slope Off Southeastern Canada	p. 299
Interplay Between Salt Activities and Slope Instabilities, Bryant Canyon Area, Northwest Gulf of Mexico	p. 307
The Afen Slide - A Multistaged Slope Failure in the Faroe-Shetland Channel	p. 317
Canary Islands Landslides and Tsunami Generation: Can We Use Turbidite Deposits to Interpret Landslide Processes?	p. 325
Pacific Ocean
Submarine Landslides in Society and Austral Islands, French Polynesia: Evolution with the Age of Edifices	p. 335
Mass Movement Along the Central California Margin and Their Consequences for Tsunami Generation	p. 343
Characteristics of Several Tsunamigenic Submarine Landslides	p. 357
Characteristics of Landslide Generated Tsunamis From Observational Data	p. 367
Slope Failures and Paleoseismicity, Effingham Inlet, Southern Vancouver Island, British Columbia, Canada	p. 375
Architecture and Failure Mechanism of the Offshore Slump Responsible for the 1998 Papua New Guinea Tsunami	p. 383
Inners seas
Submarine Mass Movement on the Ebro Slope	p. 393
Morphobathymetry of Small-Scale Mud Reliefs on the Adriatic Shelf	p. 401
Cannibalization of a Continental Margin by Regional Scale Mass Wasting: An Example From the Central Tyrrhenian Sea	p. 409
Evolutionary Gravity Flow Deposits in the Middle Turonian - Early Coniacian Southern Provence Basin (Se France): Origins and Depositional Processes	p. 417
Lessons From Sea-Floor and Subsea-Floor Imagery of the Big'95 Debris Flow Scar and Deposit	p. 425
Prodelta Slope Stability and Associated Coastal Hazards in Tectonically Active Margins: Gulf of Corinth (Ne Mediterranean)	p. 433
Very High Resolution 3D Seismic Imaging of a Complex Shelf Structure in the Adriatic Sea	p. 441
Detailed Anatomy of Late-Holocene Deposits on the Adriatic Shelf From 3D Very High Resolution Seismic Data (Triad Survey)	p. 449
Small Scale Present Day Turbidity Currents in a Tectonically Active Submarine Graben, the Gulf of Corinth (Greece): Their Significance in Dispersing Mine Tailings and Their Relevance to Basin Filling	p. 459
Submarine Slides During Relative Sea Level Rise: Two Examples From the Eastern Tyrrhenian Margin	p. 469
The Big'95 Debris Flow and Adjacent Unfailed Sediments in the NW Mediterranean Sea: Geotechnical Sedimentological Properties, and Dating	p. 479
Fjords
The Role of Free Gas in the Activation of Submarine Slides in Finneidfjord	p. 491
The Pointe-Du-Fort Mass Movement Deposits, Upper Saguenay Fjord, Canada: A Multiphase Build-Up	p. 499
Submarine Mass Movements in the Upper Saguenay Fjord, (Quebec, Canada), Triggered by the 1663 Earthquake	p. 509
Characterisation of a Submarine Flow-Slide At Pointe-Du-Fort, Saguenay Fjord, Quebec, Canada	p. 521
The 1996 Finneidfjord Slide; Seafloor Failure and Slide Dynamics	p. 531
Authors Index	p. 539
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