Tsunami The Great Wave Chapter 5 What is a Tsunami A tsunami is a series of waves called a wave train generated in a body of water by an abrupt disturbance that vertically displaces the water column Earthquakes landslides volcanic eruptions volcanic flank collapse submarine landslides and large asteroid impacts all have the potential to generate a tsunami The term tsunami comes from the Japanese language meaning harbor wave Tsunamis are also called seismic sea waves Tsunamis have been historically referred to as tidal waves How a Tsunami Forms When the water is displaced water from the surrounding rushes in to fill the depression forming a series of high speed up to 870km hr flat spread out waves average wavelength of 360km In deep water tsunami waves are nearly undetectable As the leading waves of a tsunami approach a shoreline friction with the sea floor slows the waves down This compresses the wavelength and increases the wave height The waves surge onto shore as a rapidly rising flood of water with great destructive power Earthquake Generated Tsunami Most tsunami are generated during shallow focus underwater earthquakes associated with sudden rise or fall of the seafloor most commonly along subduction zones Most destructive tsunamis occur in Pacific Ocean The borders of the Pacific Ocean are dominated by active subduction zones that produce frequent violent earthquakes Velocity and Wave Height Tsunami waves in the open ocean are low and far apart but move at velocities of several hundreds of kilometers per hour They slow and build much higher in shallow water near the coast especially in coastal bays Coastal Effects Run up is the height to which a tsunami wave rushes up onshore Driftwood trees and the remains of boats houses and cars are swept up by the incoming wave and commonly mark the upper limit of tsunami run up The first run up of a tsunami is often not the largest The inundation can extend inland by 1000 feet 305 m or more covering large expanses of land with water debris As the wave recedes into the trough before the next wave the onshore water and its debris flow back offshore The time between the trough and the next tsunami wave is often more than a half hour Chile Tsunami May 1960 On May 22 1960 the largest earthquake on record struck the coast of Chile with a Mw of 9 5 The earthquake ruptured along a 1 000 km length of the subduction zone In Chile the earthquake and the tsunami that followed took more than 2 000 lives From Chile the tsunami radiated outward killing 61 people in Hilo Hawaii and 122 on the island of Honshu Japan South East Asia Tsunami December 26 2004 On December 26 2004 at 07 58 53 local time in the Indian Ocean there was an undersea earthquake known as the Sumatra Andaman earthquake With the earthquake an estimated 745 miles of faultline slipped along the subduction zone The vertical rise of the seafloor by several meters during the earthquake produced the tsunami The tsunami devastated the shores of Indonesia Sri Lanka Thailand India Malaysia Burma and Bangladesh with waves up to 100 feet Maldives Somalia Kenya and Tanzania were also affected The 2004 tsunami was the deadliest in recorded history Because of the distances involved the tsunami took anywhere from fifteen minutes to seven hours to reach the various coastlines Tsunami Hazards Drowning in the incoming waves Being thrown against solid objects Being carried back out to sea in the outgoing wave Being hit by debris carried by the wave The Relevance of Hazard Prediction and Mitigation for the 2004 Tsunami A simple program of public education and awareness of the potential hazards could have saved many lives The magnitude of the tsunami disaster could have been mitigated with a proper disaster preparedness plan and a functioning early warning system Human destruction of coral reefs coastal mangrove trees and sand dunes that had formerly protected some coastal areas was believed to be a significant factor in the loss of life and damage Tsunami from Great Earthquakes in the Pacific Northwest Convergence of the North American and Juan de Fuca plates causes bulging of the N A plate off the coasts of Oregon Washington and S British Columbia Uplift rates are 4mm yr and eastward transport is 30mm yr A sequence of peat sand and mud are a geologic record of tsunami Radiocarbon dating of organics in buried soils along the coast of the Pacific Northwest indicate tsunami with recurrence intervals ranging from 300 to 900 years Radiocarbon dating places the last of those events around 1700 How a Tsunami Forms Volcano Generated Tsunami Tsunamis can be caused by volcanic processes that displace large volumes of water including Volcanic earthquakes undersea eruptions pyroclastic flows caldera collapse landslides lahars Krakatau Volcano 1883 Landslide and Rockfall Generated Tsunami When major fast moving rockfalls or landslides enter the ocean they can displace large amounts of water and generate tsunami Lituya Bay Alaska 1958 Tsunami from Volcano Flank Collapse and Submarine Landslides The ridges that radiate outward from the top of a shield volcano and become the sites of most eruptions break the volcano into three enormous segments Rapid collapse of one of these segments into the ocean can displace thousands of cubic kilometers of water and generate tsunami hundreds of meters high None have happened in historic time Tsunami from Asteroid Impact The impact of a large asteroid into the ocean would generate large tsunami that would radiate outward from the impact site CANNONBALL Scientists have found traces of an asteroid collision event 3 5BYA that they say would have created a giant tsunami that swept around the Earth several times inundating everything except the mountains and exterminating all primitive life Tsunami Hazard Mitigation Mitigation of tsunami destruction involves two main approaches tsunami warning systems and inundation maps International Tsunami Warning System ITWS includes 31 seismic stations 60 tide stations A world network of seismographs locates the epicenter of major earthquakes Pressure sensors pick up subtle pressure changes as tsunami waves pass by and Buoys transmit the data to warning centers via satellite The ITWS issues watches and warnings to the media and to local state national and international officials and NOAA Weather Radio broadcasts tsunami information directly to the public Mapping of potential inundation areas An inundation map shows areas of potential tsunami
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