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Tsunamis By: Neha Jain Aditya Sharma
What is a tsunami ? A tsunami is a very long ocean wave generated by sudden displacement of the sea floor or of the oceanic mass The displacement of an equivalent volume of water generates the tsunami
Terminology The term “tsunami” is a Japanese word meaning “harbour wave” It was so named because the wave is harmless until it enters a harbour It is frequently called a “tidal wave”, but it has nothing to do with tides
Hazards and risks of tsunamis Tsunamis can hit with little or no warning The most prone areas are those associated with earthquakes and volcanoes .
Structure of a wave Wavelength, λ, can exceed 200 km normal ocean waves have wavelengths of about 100 m trough; peak; wave height, h; amplitude From Murck et al. (1996)
Velocities in deep water Tsunamis travel very quickly relative to normal ocean waves This is particularly the case in open water, where velocities increase with water depth Velocities can reach 1,000 km/hr in open ocean (normal ocean wave: ~90 km/hr)
Shallow water In shallow water, the tsunami waves pile up As a result, velocities and wavelengths decrease... …but at the same time, amplitudes can increase enormously...
Causes of tsunamis - all involve displacement of water Earthquakes Volcanic activity Landslides Meteorite impacts
Tsunami hazards Extensive flooding Action of wave on coastal structures, both natural and built The incredible force of the waves can remobilize huge objects The event may create drawdown
Effects of tsunami drawdown Release of dissolved gases (CH4, CO2, H2S) previously contained in shallow sediments Potential ignition of gases by their rapid expulsion As a result, a wave of noxious and burning gases may engulf people BEFORE the wall of water arrives
Mitigation efforts
Warning times Every ~750 km of travel distance is equal to about 1 hour of warning time So, as discussed above, there is very little warning time for tsunami generated by local sources, compared to those from distant sources
Response to tsunami Requires good emergency planning and preparation… …an educated and trained public … …which has access to information… …so the dissemination of this info needs to be efficient and reliable
Personal mitigation Run (don’t walk) to higher ground Tell your family and friends Never go to the beach to watch tsunamis

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Tsunamis

  • 1. Tsunamis By: Neha Jain Aditya Sharma
  • 2. What is a tsunami ? A tsunami is a very long ocean wave generated by sudden displacement of the sea floor or of the oceanic mass The displacement of an equivalent volume of water generates the tsunami
  • 3. Terminology The term “tsunami” is a Japanese word meaning “harbour wave” It was so named because the wave is harmless until it enters a harbour It is frequently called a “tidal wave”, but it has nothing to do with tides
  • 4. Hazards and risks of tsunamis Tsunamis can hit with little or no warning The most prone areas are those associated with earthquakes and volcanoes .
  • 5. Structure of a wave Wavelength, λ, can exceed 200 km normal ocean waves have wavelengths of about 100 m trough; peak; wave height, h; amplitude From Murck et al. (1996)
  • 6. Velocities in deep water Tsunamis travel very quickly relative to normal ocean waves This is particularly the case in open water, where velocities increase with water depth Velocities can reach 1,000 km/hr in open ocean (normal ocean wave: ~90 km/hr)
  • 7. Shallow water In shallow water, the tsunami waves pile up As a result, velocities and wavelengths decrease... …but at the same time, amplitudes can increase enormously...
  • 8. Causes of tsunamis - all involve displacement of water Earthquakes Volcanic activity Landslides Meteorite impacts
  • 9. Tsunami hazards Extensive flooding Action of wave on coastal structures, both natural and built The incredible force of the waves can remobilize huge objects The event may create drawdown
  • 10. Effects of tsunami drawdown Release of dissolved gases (CH4, CO2, H2S) previously contained in shallow sediments Potential ignition of gases by their rapid expulsion As a result, a wave of noxious and burning gases may engulf people BEFORE the wall of water arrives
  • 12. Warning times Every ~750 km of travel distance is equal to about 1 hour of warning time So, as discussed above, there is very little warning time for tsunami generated by local sources, compared to those from distant sources
  • 13. Response to tsunami Requires good emergency planning and preparation… …an educated and trained public … …which has access to information… …so the dissemination of this info needs to be efficient and reliable
  • 14. Personal mitigation Run (don’t walk) to higher ground Tell your family and friends Never go to the beach to watch tsunamis