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Tsunamis and Tsunami Detection Systems

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1 Tsunamis and Tsunami Detection Systems
December 1, 2010 Physical Oceanography Presentation Jeana Drake Tsunamis and Tsunami Detection Systems

2 What is a tsunami? Shallow water wave Long wavelength
~200 km Small amplitude in open ocean ~30 cm Caused by earthquakes, landslides, volcanic eruptions, meteor impacts l h Tsunami = japanese for harbor wave = 200,000 m, hmax = 5000 m h/l = 1/40 h/l < 1/20 = shallow water wave

3 Why are tsunamis a problem?
Shallower depths near coasts force a decrease in l That water has to go somewhere Increase amplitude E = (1/2)rga2 r = density g = gravity a = amplitude Except for very large tsunamis, waves do not break. Bays may shape tsunami and force increased amplitude.

4 Tsunami warning: simple
c = √(gh) g ~10 m/s haverage ~ 4000 m c ~ 200 m/s Portugal to Cuba (1755) ~7000 km ~9.5 hrs

5 Tsunami warning: complicated
Regional Seismic data from local earthquakes Coastal tide gauges DART buoys International DART SOFAR channel DART = deep ocean assessment and report of tsunamis, developed by NOAA SOFAR = sound fixing and ranging channel – depth at which the speed of sound is minimal, traps earthquake energy

6 Tsunami warning: New GPS-based detection of horizontal & vertical movement of the seafloor near an epicenter. GREAT GITEWS Quicker calculations Fewer false alarms

7 References DART. www.noaa.gov
Falk et al Near real-time GPS applications for tsunami early warning systems. Natural Hazards and Earth System Science 10: Knauss, J.A Introduction to Physical Oceanography. Waveland Press, Inc. Song, Y.T Detecting tsunami genesis and scales directly from coastal GPS stations. Geophysical Research Letters: 34.

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