This book presents intensely interdisciplinary, comprehensive modern investigations, with contributions ranging from basic and applied science to coastal zone management. The work is indispensable for tsunami scientists, coastal and ocean engineers, marine geologists and geophysicists, planners and policy makers, and coastal zone managers seeking to better understand and mitigate the coastal impact of tsunamis.
This book presents intensely interdisciplinary, comprehensive modern investigations, with contributions ranging from basic and applied science to coastal zone management. The work is indispensable for tsunami scientists, coastal and ocean engineers, marine geologists and geophysicists, planners and policy makers, and coastal zone managers seeking to better understand and mitigate the coastal impact of tsunamis.
Produktdetails
Produktdetails
NATO Science Series IV Earth and Environmental Sciences 21
1. General Aspects of Tsunami Researches.- 1-1. Tsunamis of Seismic Origin; Science, Disasters and Mitigation.- 1-2. Needs and Perspectives of Tsunami Research in Europe.- 2. Historical Tsunamis.- 2-1. Identification of Slide-generated Tsunamis in the Historical Catalogues.- 2-2. Updating and Revision of the European Tsunami Catalogue.- 2-3. Tsunami of Sarkyö-Mürefte 1912 Earthquake: Western Marmara, Turkey.- 2-4. Spatial and Temporal Periodicity in the Pacific Tsunami Occurrence.- 3. Submarine Landslides and Tsunami Generation.- 3-1. Submarine Landslide Generated Waves Modeled Using Depth-Integrated Equations.- 3-2. Near Field Amplitudes of Tsunami from Submarine Slumps and Slides.- 3-3. Numerical Modeling of Tsunami Generation by Submarine and Subaerial landslides.- 3-4. Tsunami Simulation Taking Into Account Seismically Induced Dynamic Seabed Displacement and Acoustic Effects of Water.- 3-5. Impulsive Tsunami Generation by Rapid Bottom Deflections at Initially Uniform Depth.- 3-6. Analytical Models of Tsunami Generation by Submarine Landslides.- 3-7. Tsunami Generation in Compressible Ocean of Variable Depth.- 3-8. Tsunami Wave Excitation by a Local Floor Disturbance.- 3-9. Effects of Tsunami at Sissano Lagoon, Papua New Guinea: Submarine-Landslide and Tectonics Origins.- 3-10. Natural Gas Hydrates as a Cause of Underwater Landslides: A Rewiev.- 3-11. Coastal Deformation Occurred During the August 17, 1999 ?zmit Earthquake.- 4. Tsunami Propagation and Coastal Impact.- 4-1. A Review of Some Tsunamis in Canada.- 4-2. Synthetic Tsunami Simulations for the French Coasts.- 4-3. Inundation Modeling of the 1964 Tsunami in Kodiak Island, Alaska.- 4-4. A Method for Mathematical Modelling of Tsunami Runup on a Shore.- 4-5. Evaluation of Tsunami Hazard for the SouthernKamchatka Coast Using Historical and Paleotsunami data.- 4-6. Tsunami Hazards Associated With Explosion- Collapse Processes of a Dome Complex on Minoan Thera.- 4-7. Possible Tsunami Deposits Discovered on the Bulgarian Black Sea Coast and Some Applications.- 4-8. Influence of the Atmospheric Wave Velocity in the Coastal Amplification of Meteotsunamis.- 4-9. Impact of Surface Waves on the Coastal Ecosystems.- 5. Mitigation.- 5-1. Engineering Standards for Marine Oil Terminals and Other Natural Hazard Threats.- 5-2. A Tsunami Mitigation Program within the California Earthquake Loss Reduction Plan.- 5-3. Short-Term Inundation Forecasting For Tsunamis.- 5-4. Quantification of Tsunamis: A Review.- 5-5. Rubble Mound Breakwaters under Tsunami Attack.- 5-6. Vulnerability Assessment as a Tool for Hazard Mitigation.- 5-7. Producing Tsunami Inundation Maps; the California Experience.
1. General Aspects of Tsunami Researches.- 1-1. Tsunamis of Seismic Origin; Science, Disasters and Mitigation.- 1-2. Needs and Perspectives of Tsunami Research in Europe.- 2. Historical Tsunamis.- 2-1. Identification of Slide-generated Tsunamis in the Historical Catalogues.- 2-2. Updating and Revision of the European Tsunami Catalogue.- 2-3. Tsunami of Sarkyö-Mürefte 1912 Earthquake: Western Marmara, Turkey.- 2-4. Spatial and Temporal Periodicity in the Pacific Tsunami Occurrence.- 3. Submarine Landslides and Tsunami Generation.- 3-1. Submarine Landslide Generated Waves Modeled Using Depth-Integrated Equations.- 3-2. Near Field Amplitudes of Tsunami from Submarine Slumps and Slides.- 3-3. Numerical Modeling of Tsunami Generation by Submarine and Subaerial landslides.- 3-4. Tsunami Simulation Taking Into Account Seismically Induced Dynamic Seabed Displacement and Acoustic Effects of Water.- 3-5. Impulsive Tsunami Generation by Rapid Bottom Deflections at Initially Uniform Depth.- 3-6. Analytical Models of Tsunami Generation by Submarine Landslides.- 3-7. Tsunami Generation in Compressible Ocean of Variable Depth.- 3-8. Tsunami Wave Excitation by a Local Floor Disturbance.- 3-9. Effects of Tsunami at Sissano Lagoon, Papua New Guinea: Submarine-Landslide and Tectonics Origins.- 3-10. Natural Gas Hydrates as a Cause of Underwater Landslides: A Rewiev.- 3-11. Coastal Deformation Occurred During the August 17, 1999 ?zmit Earthquake.- 4. Tsunami Propagation and Coastal Impact.- 4-1. A Review of Some Tsunamis in Canada.- 4-2. Synthetic Tsunami Simulations for the French Coasts.- 4-3. Inundation Modeling of the 1964 Tsunami in Kodiak Island, Alaska.- 4-4. A Method for Mathematical Modelling of Tsunami Runup on a Shore.- 4-5. Evaluation of Tsunami Hazard for the SouthernKamchatka Coast Using Historical and Paleotsunami data.- 4-6. Tsunami Hazards Associated With Explosion- Collapse Processes of a Dome Complex on Minoan Thera.- 4-7. Possible Tsunami Deposits Discovered on the Bulgarian Black Sea Coast and Some Applications.- 4-8. Influence of the Atmospheric Wave Velocity in the Coastal Amplification of Meteotsunamis.- 4-9. Impact of Surface Waves on the Coastal Ecosystems.- 5. Mitigation.- 5-1. Engineering Standards for Marine Oil Terminals and Other Natural Hazard Threats.- 5-2. A Tsunami Mitigation Program within the California Earthquake Loss Reduction Plan.- 5-3. Short-Term Inundation Forecasting For Tsunamis.- 5-4. Quantification of Tsunamis: A Review.- 5-5. Rubble Mound Breakwaters under Tsunami Attack.- 5-6. Vulnerability Assessment as a Tool for Hazard Mitigation.- 5-7. Producing Tsunami Inundation Maps; the California Experience.
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